diff --git a/aruco_pose/vendor/aruco/doc/aruco.bib b/aruco_pose/vendor/aruco/doc/aruco.bib deleted file mode 100644 index fe782dd8..00000000 --- a/aruco_pose/vendor/aruco/doc/aruco.bib +++ /dev/null @@ -1,21 +0,0 @@ -@article{Aruco2014, - title = "Automatic generation and detection of highly reliable fiducial markers under occlusion ", - journal = "Pattern Recognition ", - volume = "47", - number = "6", - pages = "2280 - 2292", - year = "2014", - issn = "0031-3203", - doi = "http://dx.doi.org/10.1016/j.patcog.2014.01.005", - url = "http://www.sciencedirect.com/science/article/pii/S0031320314000235", - author = "S. Garrido-Jurado and R. Mu\~noz-Salinas and F.J. Madrid-Cuevas and M.J. Mar\'in-Jim\'enez" -} - -@inproceedings{wang2016iros, - AUTHOR = {John Wang and Edwin Olson}, - TITLE = {{AprilTag} 2: Efficient and robust fiducial detection}, - BOOKTITLE = {Proceedings of the {IEEE/RSJ} International Conference on Intelligent - Robots and Systems {(IROS)}}, - YEAR = {2016}, - MONTH = {October}, -} diff --git a/aruco_pose/vendor/aruco/samples/calibrate_camera.cpp b/aruco_pose/vendor/aruco/samples/calibrate_camera.cpp deleted file mode 100644 index 727b2a99..00000000 --- a/aruco_pose/vendor/aruco/samples/calibrate_camera.cpp +++ /dev/null @@ -1,294 +0,0 @@ -/* -By downloading, copying, installing or using the software you agree to this -license. If you do not agree to this license, do not download, install, -copy or use the software. - - License Agreement - For Open Source Computer Vision Library - (3-clause BSD License) - -Copyright (C) 2013, OpenCV Foundation, all rights reserved. -Third party copyrights are property of their respective owners. - -Redistribution and use in source and binary forms, with or without modification, -are permitted provided that the following conditions are met: - - * Redistributions of source code must retain the above copyright notice, - this list of conditions and the following disclaimer. - - * Redistributions in binary form must reproduce the above copyright notice, - this list of conditions and the following disclaimer in the documentation - and/or other materials provided with the distribution. - - * Neither the names of the copyright holders nor the names of the contributors - may be used to endorse or promote products derived from this software - without specific prior written permission. - -This software is provided by the copyright holders and contributors "as is" and -any express or implied warranties, including, but not limited to, the implied -warranties of merchantability and fitness for a particular purpose are -disclaimed. In no event shall copyright holders or contributors be liable for -any direct, indirect, incidental, special, exemplary, or consequential damages -(including, but not limited to, procurement of substitute goods or services; -loss of use, data, or profits; or business interruption) however caused -and on any theory of liability, whether in contract, strict liability, -or tort (including negligence or otherwise) arising in any way out of -the use of this software, even if advised of the possibility of such damage. -*/ - - -#include -#include -#include -#include -#include -#include -#include - -using namespace std; -using namespace cv; - - -namespace { -const char* about = - "Calibration using a ArUco Planar Grid board\n" - " To capture a frame for calibration, press 'c',\n" - " If input comes from video, press any key for next frame\n" - " To finish capturing, press 'ESC' key and calibration starts.\n"; -const char* keys = - "{w | | Number of squares in X direction }" - "{h | | Number of squares in Y direction }" - "{l | | Marker side length (in meters) }" - "{s | | Separation between two consecutive markers in the grid (in meters) }" - "{d | | dictionary: DICT_4X4_50=0, DICT_4X4_100=1, DICT_4X4_250=2," - "DICT_4X4_1000=3, DICT_5X5_50=4, DICT_5X5_100=5, DICT_5X5_250=6, DICT_5X5_1000=7, " - "DICT_6X6_50=8, DICT_6X6_100=9, DICT_6X6_250=10, DICT_6X6_1000=11, DICT_7X7_50=12," - "DICT_7X7_100=13, DICT_7X7_250=14, DICT_7X7_1000=15, DICT_ARUCO_ORIGINAL = 16}" - "{@outfile | | Output file with calibrated camera parameters }" - "{v | | Input from video file, if ommited, input comes from camera }" - "{ci | 0 | Camera id if input doesnt come from video (-v) }" - "{dp | | File of marker detector parameters }" - "{rs | false | Apply refind strategy }" - "{zt | false | Assume zero tangential distortion }" - "{a | | Fix aspect ratio (fx/fy) to this value }" - "{pc | false | Fix the principal point at the center }"; -} - -/** - */ -static bool readDetectorParameters(string filename, Ptr ¶ms) { - FileStorage fs(filename, FileStorage::READ); - if(!fs.isOpened()) - return false; - fs["adaptiveThreshWinSizeMin"] >> params->adaptiveThreshWinSizeMin; - fs["adaptiveThreshWinSizeMax"] >> params->adaptiveThreshWinSizeMax; - fs["adaptiveThreshWinSizeStep"] >> params->adaptiveThreshWinSizeStep; - fs["adaptiveThreshConstant"] >> params->adaptiveThreshConstant; - fs["minMarkerPerimeterRate"] >> params->minMarkerPerimeterRate; - fs["maxMarkerPerimeterRate"] >> params->maxMarkerPerimeterRate; - fs["polygonalApproxAccuracyRate"] >> params->polygonalApproxAccuracyRate; - fs["minCornerDistanceRate"] >> params->minCornerDistanceRate; - fs["minDistanceToBorder"] >> params->minDistanceToBorder; - fs["minMarkerDistanceRate"] >> params->minMarkerDistanceRate; - fs["cornerRefinementMethod"] >> params->cornerRefinementMethod; - fs["cornerRefinementWinSize"] >> params->cornerRefinementWinSize; - fs["cornerRefinementMaxIterations"] >> params->cornerRefinementMaxIterations; - fs["cornerRefinementMinAccuracy"] >> params->cornerRefinementMinAccuracy; - fs["markerBorderBits"] >> params->markerBorderBits; - fs["perspectiveRemovePixelPerCell"] >> params->perspectiveRemovePixelPerCell; - fs["perspectiveRemoveIgnoredMarginPerCell"] >> params->perspectiveRemoveIgnoredMarginPerCell; - fs["maxErroneousBitsInBorderRate"] >> params->maxErroneousBitsInBorderRate; - fs["minOtsuStdDev"] >> params->minOtsuStdDev; - fs["errorCorrectionRate"] >> params->errorCorrectionRate; - return true; -} - - - -/** - */ -static bool saveCameraParams(const string &filename, Size imageSize, float aspectRatio, int flags, - const Mat &cameraMatrix, const Mat &distCoeffs, double totalAvgErr) { - FileStorage fs(filename, FileStorage::WRITE); - if(!fs.isOpened()) - return false; - - time_t tt; - time(&tt); - struct tm *t2 = localtime(&tt); - char buf[1024]; - strftime(buf, sizeof(buf) - 1, "%c", t2); - - fs << "calibration_time" << buf; - - fs << "image_width" << imageSize.width; - fs << "image_height" << imageSize.height; - - if(flags & CALIB_FIX_ASPECT_RATIO) fs << "aspectRatio" << aspectRatio; - - if(flags != 0) { - sprintf(buf, "flags: %s%s%s%s", - flags & CALIB_USE_INTRINSIC_GUESS ? "+use_intrinsic_guess" : "", - flags & CALIB_FIX_ASPECT_RATIO ? "+fix_aspectRatio" : "", - flags & CALIB_FIX_PRINCIPAL_POINT ? "+fix_principal_point" : "", - flags & CALIB_ZERO_TANGENT_DIST ? "+zero_tangent_dist" : ""); - } - - fs << "flags" << flags; - - fs << "camera_matrix" << cameraMatrix; - fs << "distortion_coefficients" << distCoeffs; - - fs << "avg_reprojection_error" << totalAvgErr; - - return true; -} - - - -/** - */ -int main(int argc, char *argv[]) { - CommandLineParser parser(argc, argv, keys); - parser.about(about); - - if(argc < 6) { - parser.printMessage(); - return 0; - } - - int markersX = parser.get("w"); - int markersY = parser.get("h"); - float markerLength = parser.get("l"); - float markerSeparation = parser.get("s"); - int dictionaryId = parser.get("d"); - string outputFile = parser.get(0); - - int calibrationFlags = 0; - float aspectRatio = 1; - if(parser.has("a")) { - calibrationFlags |= CALIB_FIX_ASPECT_RATIO; - aspectRatio = parser.get("a"); - } - if(parser.get("zt")) calibrationFlags |= CALIB_ZERO_TANGENT_DIST; - if(parser.get("pc")) calibrationFlags |= CALIB_FIX_PRINCIPAL_POINT; - - Ptr detectorParams = aruco::DetectorParameters::create(); - if(parser.has("dp")) { - bool readOk = readDetectorParameters(parser.get("dp"), detectorParams); - if(!readOk) { - cerr << "Invalid detector parameters file" << endl; - return 0; - } - } - - bool refindStrategy = parser.get("rs"); - int camId = parser.get("ci"); - String video; - - if(parser.has("v")) { - video = parser.get("v"); - } - - if(!parser.check()) { - parser.printErrors(); - return 0; - } - - VideoCapture inputVideo; - int waitTime; - if(!video.empty()) { - inputVideo.open(video); - waitTime = 0; - } else { - inputVideo.open(camId); - waitTime = 10; - } - - Ptr dictionary = - aruco::getPredefinedDictionary(aruco::PREDEFINED_DICTIONARY_NAME(dictionaryId)); - - // create board object - Ptr gridboard = - aruco::GridBoard::create(markersX, markersY, markerLength, markerSeparation, dictionary); - Ptr board = gridboard.staticCast(); - - // collected frames for calibration - vector< vector< vector< Point2f > > > allCorners; - vector< vector< int > > allIds; - Size imgSize; - - while(inputVideo.grab()) { - Mat image, imageCopy; - inputVideo.retrieve(image); - - vector< int > ids; - vector< vector< Point2f > > corners, rejected; - - // detect markers - aruco::detectMarkers(image, dictionary, corners, ids, detectorParams, rejected); - - // refind strategy to detect more markers - if(refindStrategy) aruco::refineDetectedMarkers(image, board, corners, ids, rejected); - - // draw results - image.copyTo(imageCopy); - if(ids.size() > 0) aruco::drawDetectedMarkers(imageCopy, corners, ids); - putText(imageCopy, "Press 'c' to add current frame. 'ESC' to finish and calibrate", - Point(10, 20), FONT_HERSHEY_SIMPLEX, 0.5, Scalar(255, 0, 0), 2); - - imshow("out", imageCopy); - char key = (char)waitKey(waitTime); - if(key == 27) break; - if(key == 'c' && ids.size() > 0) { - cout << "Frame captured" << endl; - allCorners.push_back(corners); - allIds.push_back(ids); - imgSize = image.size(); - } - } - - if(allIds.size() < 1) { - cerr << "Not enough captures for calibration" << endl; - return 0; - } - - Mat cameraMatrix, distCoeffs; - vector< Mat > rvecs, tvecs; - double repError; - - if(calibrationFlags & CALIB_FIX_ASPECT_RATIO) { - cameraMatrix = Mat::eye(3, 3, CV_64F); - cameraMatrix.at< double >(0, 0) = aspectRatio; - } - - // prepare data for calibration - vector< vector< Point2f > > allCornersConcatenated; - vector< int > allIdsConcatenated; - vector< int > markerCounterPerFrame; - markerCounterPerFrame.reserve(allCorners.size()); - for(unsigned int i = 0; i < allCorners.size(); i++) { - markerCounterPerFrame.push_back((int)allCorners[i].size()); - for(unsigned int j = 0; j < allCorners[i].size(); j++) { - allCornersConcatenated.push_back(allCorners[i][j]); - allIdsConcatenated.push_back(allIds[i][j]); - } - } - // calibrate camera - repError = aruco::calibrateCameraAruco(allCornersConcatenated, allIdsConcatenated, - markerCounterPerFrame, board, imgSize, cameraMatrix, - distCoeffs, rvecs, tvecs, calibrationFlags); - - bool saveOk = saveCameraParams(outputFile, imgSize, aspectRatio, calibrationFlags, cameraMatrix, - distCoeffs, repError); - - if(!saveOk) { - cerr << "Cannot save output file" << endl; - return 0; - } - - cout << "Rep Error: " << repError << endl; - cout << "Calibration saved to " << outputFile << endl; - - return 0; -} diff --git a/aruco_pose/vendor/aruco/samples/calibrate_camera_charuco.cpp b/aruco_pose/vendor/aruco/samples/calibrate_camera_charuco.cpp deleted file mode 100644 index 42adeec8..00000000 --- a/aruco_pose/vendor/aruco/samples/calibrate_camera_charuco.cpp +++ /dev/null @@ -1,358 +0,0 @@ -/* -By downloading, copying, installing or using the software you agree to this -license. If you do not agree to this license, do not download, install, -copy or use the software. - - License Agreement - For Open Source Computer Vision Library - (3-clause BSD License) - -Copyright (C) 2013, OpenCV Foundation, all rights reserved. -Third party copyrights are property of their respective owners. - -Redistribution and use in source and binary forms, with or without modification, -are permitted provided that the following conditions are met: - - * Redistributions of source code must retain the above copyright notice, - this list of conditions and the following disclaimer. - - * Redistributions in binary form must reproduce the above copyright notice, - this list of conditions and the following disclaimer in the documentation - and/or other materials provided with the distribution. - - * Neither the names of the copyright holders nor the names of the contributors - may be used to endorse or promote products derived from this software - without specific prior written permission. - -This software is provided by the copyright holders and contributors "as is" and -any express or implied warranties, including, but not limited to, the implied -warranties of merchantability and fitness for a particular purpose are -disclaimed. In no event shall copyright holders or contributors be liable for -any direct, indirect, incidental, special, exemplary, or consequential damages -(including, but not limited to, procurement of substitute goods or services; -loss of use, data, or profits; or business interruption) however caused -and on any theory of liability, whether in contract, strict liability, -or tort (including negligence or otherwise) arising in any way out of -the use of this software, even if advised of the possibility of such damage. -*/ - - -#include -#include -#include -#include -#include -#include -#include - -using namespace std; -using namespace cv; - -namespace { -const char* about = - "Calibration using a ChArUco board\n" - " To capture a frame for calibration, press 'c',\n" - " If input comes from video, press any key for next frame\n" - " To finish capturing, press 'ESC' key and calibration starts.\n"; -const char* keys = - "{w | | Number of squares in X direction }" - "{h | | Number of squares in Y direction }" - "{sl | | Square side length (in meters) }" - "{ml | | Marker side length (in meters) }" - "{d | | dictionary: DICT_4X4_50=0, DICT_4X4_100=1, DICT_4X4_250=2," - "DICT_4X4_1000=3, DICT_5X5_50=4, DICT_5X5_100=5, DICT_5X5_250=6, DICT_5X5_1000=7, " - "DICT_6X6_50=8, DICT_6X6_100=9, DICT_6X6_250=10, DICT_6X6_1000=11, DICT_7X7_50=12," - "DICT_7X7_100=13, DICT_7X7_250=14, DICT_7X7_1000=15, DICT_ARUCO_ORIGINAL = 16}" - "{@outfile | | Output file with calibrated camera parameters }" - "{v | | Input from video file, if ommited, input comes from camera }" - "{ci | 0 | Camera id if input doesnt come from video (-v) }" - "{dp | | File of marker detector parameters }" - "{rs | false | Apply refind strategy }" - "{zt | false | Assume zero tangential distortion }" - "{a | | Fix aspect ratio (fx/fy) to this value }" - "{pc | false | Fix the principal point at the center }" - "{sc | false | Show detected chessboard corners after calibration }"; -} - -/** - */ -static bool readDetectorParameters(string filename, Ptr ¶ms) { - FileStorage fs(filename, FileStorage::READ); - if(!fs.isOpened()) - return false; - fs["adaptiveThreshWinSizeMin"] >> params->adaptiveThreshWinSizeMin; - fs["adaptiveThreshWinSizeMax"] >> params->adaptiveThreshWinSizeMax; - fs["adaptiveThreshWinSizeStep"] >> params->adaptiveThreshWinSizeStep; - fs["adaptiveThreshConstant"] >> params->adaptiveThreshConstant; - fs["minMarkerPerimeterRate"] >> params->minMarkerPerimeterRate; - fs["maxMarkerPerimeterRate"] >> params->maxMarkerPerimeterRate; - fs["polygonalApproxAccuracyRate"] >> params->polygonalApproxAccuracyRate; - fs["minCornerDistanceRate"] >> params->minCornerDistanceRate; - fs["minDistanceToBorder"] >> params->minDistanceToBorder; - fs["minMarkerDistanceRate"] >> params->minMarkerDistanceRate; - fs["cornerRefinementMethod"] >> params->cornerRefinementMethod; - fs["cornerRefinementWinSize"] >> params->cornerRefinementWinSize; - fs["cornerRefinementMaxIterations"] >> params->cornerRefinementMaxIterations; - fs["cornerRefinementMinAccuracy"] >> params->cornerRefinementMinAccuracy; - fs["markerBorderBits"] >> params->markerBorderBits; - fs["perspectiveRemovePixelPerCell"] >> params->perspectiveRemovePixelPerCell; - fs["perspectiveRemoveIgnoredMarginPerCell"] >> params->perspectiveRemoveIgnoredMarginPerCell; - fs["maxErroneousBitsInBorderRate"] >> params->maxErroneousBitsInBorderRate; - fs["minOtsuStdDev"] >> params->minOtsuStdDev; - fs["errorCorrectionRate"] >> params->errorCorrectionRate; - return true; -} - - - -/** - */ -static bool saveCameraParams(const string &filename, Size imageSize, float aspectRatio, int flags, - const Mat &cameraMatrix, const Mat &distCoeffs, double totalAvgErr) { - FileStorage fs(filename, FileStorage::WRITE); - if(!fs.isOpened()) - return false; - - time_t tt; - time(&tt); - struct tm *t2 = localtime(&tt); - char buf[1024]; - strftime(buf, sizeof(buf) - 1, "%c", t2); - - fs << "calibration_time" << buf; - - fs << "image_width" << imageSize.width; - fs << "image_height" << imageSize.height; - - if(flags & CALIB_FIX_ASPECT_RATIO) fs << "aspectRatio" << aspectRatio; - - if(flags != 0) { - sprintf(buf, "flags: %s%s%s%s", - flags & CALIB_USE_INTRINSIC_GUESS ? "+use_intrinsic_guess" : "", - flags & CALIB_FIX_ASPECT_RATIO ? "+fix_aspectRatio" : "", - flags & CALIB_FIX_PRINCIPAL_POINT ? "+fix_principal_point" : "", - flags & CALIB_ZERO_TANGENT_DIST ? "+zero_tangent_dist" : ""); - } - - fs << "flags" << flags; - - fs << "camera_matrix" << cameraMatrix; - fs << "distortion_coefficients" << distCoeffs; - - fs << "avg_reprojection_error" << totalAvgErr; - - return true; -} - - - -/** - */ -int main(int argc, char *argv[]) { - CommandLineParser parser(argc, argv, keys); - parser.about(about); - - if(argc < 7) { - parser.printMessage(); - return 0; - } - - int squaresX = parser.get("w"); - int squaresY = parser.get("h"); - float squareLength = parser.get("sl"); - float markerLength = parser.get("ml"); - int dictionaryId = parser.get("d"); - string outputFile = parser.get(0); - - bool showChessboardCorners = parser.get("sc"); - - int calibrationFlags = 0; - float aspectRatio = 1; - if(parser.has("a")) { - calibrationFlags |= CALIB_FIX_ASPECT_RATIO; - aspectRatio = parser.get("a"); - } - if(parser.get("zt")) calibrationFlags |= CALIB_ZERO_TANGENT_DIST; - if(parser.get("pc")) calibrationFlags |= CALIB_FIX_PRINCIPAL_POINT; - - Ptr detectorParams = aruco::DetectorParameters::create(); - if(parser.has("dp")) { - bool readOk = readDetectorParameters(parser.get("dp"), detectorParams); - if(!readOk) { - cerr << "Invalid detector parameters file" << endl; - return 0; - } - } - - bool refindStrategy = parser.get("rs"); - int camId = parser.get("ci"); - String video; - - if(parser.has("v")) { - video = parser.get("v"); - } - - if(!parser.check()) { - parser.printErrors(); - return 0; - } - - VideoCapture inputVideo; - int waitTime; - if(!video.empty()) { - inputVideo.open(video); - waitTime = 0; - } else { - inputVideo.open(camId); - waitTime = 10; - } - - Ptr dictionary = - aruco::getPredefinedDictionary(aruco::PREDEFINED_DICTIONARY_NAME(dictionaryId)); - - // create charuco board object - Ptr charucoboard = - aruco::CharucoBoard::create(squaresX, squaresY, squareLength, markerLength, dictionary); - Ptr board = charucoboard.staticCast(); - - // collect data from each frame - vector< vector< vector< Point2f > > > allCorners; - vector< vector< int > > allIds; - vector< Mat > allImgs; - Size imgSize; - - while(inputVideo.grab()) { - Mat image, imageCopy; - inputVideo.retrieve(image); - - vector< int > ids; - vector< vector< Point2f > > corners, rejected; - - // detect markers - aruco::detectMarkers(image, dictionary, corners, ids, detectorParams, rejected); - - // refind strategy to detect more markers - if(refindStrategy) aruco::refineDetectedMarkers(image, board, corners, ids, rejected); - - // interpolate charuco corners - Mat currentCharucoCorners, currentCharucoIds; - if(ids.size() > 0) - aruco::interpolateCornersCharuco(corners, ids, image, charucoboard, currentCharucoCorners, - currentCharucoIds); - - // draw results - image.copyTo(imageCopy); - if(ids.size() > 0) aruco::drawDetectedMarkers(imageCopy, corners); - - if(currentCharucoCorners.total() > 0) - aruco::drawDetectedCornersCharuco(imageCopy, currentCharucoCorners, currentCharucoIds); - - putText(imageCopy, "Press 'c' to add current frame. 'ESC' to finish and calibrate", - Point(10, 20), FONT_HERSHEY_SIMPLEX, 0.5, Scalar(255, 0, 0), 2); - - imshow("out", imageCopy); - char key = (char)waitKey(waitTime); - if(key == 27) break; - if(key == 'c' && ids.size() > 0) { - cout << "Frame captured" << endl; - allCorners.push_back(corners); - allIds.push_back(ids); - allImgs.push_back(image); - imgSize = image.size(); - } - } - - if(allIds.size() < 1) { - cerr << "Not enough captures for calibration" << endl; - return 0; - } - - Mat cameraMatrix, distCoeffs; - vector< Mat > rvecs, tvecs; - double repError; - - if(calibrationFlags & CALIB_FIX_ASPECT_RATIO) { - cameraMatrix = Mat::eye(3, 3, CV_64F); - cameraMatrix.at< double >(0, 0) = aspectRatio; - } - - // prepare data for calibration - vector< vector< Point2f > > allCornersConcatenated; - vector< int > allIdsConcatenated; - vector< int > markerCounterPerFrame; - markerCounterPerFrame.reserve(allCorners.size()); - for(unsigned int i = 0; i < allCorners.size(); i++) { - markerCounterPerFrame.push_back((int)allCorners[i].size()); - for(unsigned int j = 0; j < allCorners[i].size(); j++) { - allCornersConcatenated.push_back(allCorners[i][j]); - allIdsConcatenated.push_back(allIds[i][j]); - } - } - - // calibrate camera using aruco markers - double arucoRepErr; - arucoRepErr = aruco::calibrateCameraAruco(allCornersConcatenated, allIdsConcatenated, - markerCounterPerFrame, board, imgSize, cameraMatrix, - distCoeffs, noArray(), noArray(), calibrationFlags); - - // prepare data for charuco calibration - int nFrames = (int)allCorners.size(); - vector< Mat > allCharucoCorners; - vector< Mat > allCharucoIds; - vector< Mat > filteredImages; - allCharucoCorners.reserve(nFrames); - allCharucoIds.reserve(nFrames); - - for(int i = 0; i < nFrames; i++) { - // interpolate using camera parameters - Mat currentCharucoCorners, currentCharucoIds; - aruco::interpolateCornersCharuco(allCorners[i], allIds[i], allImgs[i], charucoboard, - currentCharucoCorners, currentCharucoIds, cameraMatrix, - distCoeffs); - - allCharucoCorners.push_back(currentCharucoCorners); - allCharucoIds.push_back(currentCharucoIds); - filteredImages.push_back(allImgs[i]); - } - - if(allCharucoCorners.size() < 4) { - cerr << "Not enough corners for calibration" << endl; - return 0; - } - - // calibrate camera using charuco - repError = - aruco::calibrateCameraCharuco(allCharucoCorners, allCharucoIds, charucoboard, imgSize, - cameraMatrix, distCoeffs, rvecs, tvecs, calibrationFlags); - - bool saveOk = saveCameraParams(outputFile, imgSize, aspectRatio, calibrationFlags, - cameraMatrix, distCoeffs, repError); - if(!saveOk) { - cerr << "Cannot save output file" << endl; - return 0; - } - - cout << "Rep Error: " << repError << endl; - cout << "Rep Error Aruco: " << arucoRepErr << endl; - cout << "Calibration saved to " << outputFile << endl; - - // show interpolated charuco corners for debugging - if(showChessboardCorners) { - for(unsigned int frame = 0; frame < filteredImages.size(); frame++) { - Mat imageCopy = filteredImages[frame].clone(); - if(allIds[frame].size() > 0) { - - if(allCharucoCorners[frame].total() > 0) { - aruco::drawDetectedCornersCharuco( imageCopy, allCharucoCorners[frame], - allCharucoIds[frame]); - } - } - - imshow("out", imageCopy); - char key = (char)waitKey(0); - if(key == 27) break; - } - } - - return 0; -} diff --git a/aruco_pose/vendor/aruco/samples/create_board.cpp b/aruco_pose/vendor/aruco/samples/create_board.cpp deleted file mode 100644 index 937fe5b5..00000000 --- a/aruco_pose/vendor/aruco/samples/create_board.cpp +++ /dev/null @@ -1,114 +0,0 @@ -/* -By downloading, copying, installing or using the software you agree to this -license. If you do not agree to this license, do not download, install, -copy or use the software. - - License Agreement - For Open Source Computer Vision Library - (3-clause BSD License) - -Copyright (C) 2013, OpenCV Foundation, all rights reserved. -Third party copyrights are property of their respective owners. - -Redistribution and use in source and binary forms, with or without modification, -are permitted provided that the following conditions are met: - - * Redistributions of source code must retain the above copyright notice, - this list of conditions and the following disclaimer. - - * Redistributions in binary form must reproduce the above copyright notice, - this list of conditions and the following disclaimer in the documentation - and/or other materials provided with the distribution. - - * Neither the names of the copyright holders nor the names of the contributors - may be used to endorse or promote products derived from this software - without specific prior written permission. - -This software is provided by the copyright holders and contributors "as is" and -any express or implied warranties, including, but not limited to, the implied -warranties of merchantability and fitness for a particular purpose are -disclaimed. In no event shall copyright holders or contributors be liable for -any direct, indirect, incidental, special, exemplary, or consequential damages -(including, but not limited to, procurement of substitute goods or services; -loss of use, data, or profits; or business interruption) however caused -and on any theory of liability, whether in contract, strict liability, -or tort (including negligence or otherwise) arising in any way out of -the use of this software, even if advised of the possibility of such damage. -*/ - - -#include -#include - -using namespace cv; - -namespace { -const char* about = "Create an ArUco grid board image"; -const char* keys = - "{@outfile | | Output image }" - "{w | | Number of markers in X direction }" - "{h | | Number of markers in Y direction }" - "{l | | Marker side length (in pixels) }" - "{s | | Separation between two consecutive markers in the grid (in pixels)}" - "{d | | dictionary: DICT_4X4_50=0, DICT_4X4_100=1, DICT_4X4_250=2," - "DICT_4X4_1000=3, DICT_5X5_50=4, DICT_5X5_100=5, DICT_5X5_250=6, DICT_5X5_1000=7, " - "DICT_6X6_50=8, DICT_6X6_100=9, DICT_6X6_250=10, DICT_6X6_1000=11, DICT_7X7_50=12," - "DICT_7X7_100=13, DICT_7X7_250=14, DICT_7X7_1000=15, DICT_ARUCO_ORIGINAL = 16}" - "{m | | Margins size (in pixels). Default is marker separation (-s) }" - "{bb | 1 | Number of bits in marker borders }" - "{si | false | show generated image }"; -} - -int main(int argc, char *argv[]) { - CommandLineParser parser(argc, argv, keys); - parser.about(about); - - if(argc < 7) { - parser.printMessage(); - return 0; - } - - int markersX = parser.get("w"); - int markersY = parser.get("h"); - int markerLength = parser.get("l"); - int markerSeparation = parser.get("s"); - int dictionaryId = parser.get("d"); - int margins = markerSeparation; - if(parser.has("m")) { - margins = parser.get("m"); - } - - int borderBits = parser.get("bb"); - bool showImage = parser.get("si"); - - String out = parser.get(0); - - if(!parser.check()) { - parser.printErrors(); - return 0; - } - - Size imageSize; - imageSize.width = markersX * (markerLength + markerSeparation) - markerSeparation + 2 * margins; - imageSize.height = - markersY * (markerLength + markerSeparation) - markerSeparation + 2 * margins; - - Ptr dictionary = - aruco::getPredefinedDictionary(aruco::PREDEFINED_DICTIONARY_NAME(dictionaryId)); - - Ptr board = aruco::GridBoard::create(markersX, markersY, float(markerLength), - float(markerSeparation), dictionary); - - // show created board - Mat boardImage; - board->draw(imageSize, boardImage, margins, borderBits); - - if(showImage) { - imshow("board", boardImage); - waitKey(0); - } - - imwrite(out, boardImage); - - return 0; -} diff --git a/aruco_pose/vendor/aruco/samples/create_board_charuco.cpp b/aruco_pose/vendor/aruco/samples/create_board_charuco.cpp deleted file mode 100644 index 11313820..00000000 --- a/aruco_pose/vendor/aruco/samples/create_board_charuco.cpp +++ /dev/null @@ -1,113 +0,0 @@ -/* -By downloading, copying, installing or using the software you agree to this -license. If you do not agree to this license, do not download, install, -copy or use the software. - - License Agreement - For Open Source Computer Vision Library - (3-clause BSD License) - -Copyright (C) 2013, OpenCV Foundation, all rights reserved. -Third party copyrights are property of their respective owners. - -Redistribution and use in source and binary forms, with or without modification, -are permitted provided that the following conditions are met: - - * Redistributions of source code must retain the above copyright notice, - this list of conditions and the following disclaimer. - - * Redistributions in binary form must reproduce the above copyright notice, - this list of conditions and the following disclaimer in the documentation - and/or other materials provided with the distribution. - - * Neither the names of the copyright holders nor the names of the contributors - may be used to endorse or promote products derived from this software - without specific prior written permission. - -This software is provided by the copyright holders and contributors "as is" and -any express or implied warranties, including, but not limited to, the implied -warranties of merchantability and fitness for a particular purpose are -disclaimed. In no event shall copyright holders or contributors be liable for -any direct, indirect, incidental, special, exemplary, or consequential damages -(including, but not limited to, procurement of substitute goods or services; -loss of use, data, or profits; or business interruption) however caused -and on any theory of liability, whether in contract, strict liability, -or tort (including negligence or otherwise) arising in any way out of -the use of this software, even if advised of the possibility of such damage. -*/ - - -#include -#include - -using namespace cv; - -namespace { -const char* about = "Create a ChArUco board image"; -const char* keys = - "{@outfile | | Output image }" - "{w | | Number of squares in X direction }" - "{h | | Number of squares in Y direction }" - "{sl | | Square side length (in pixels) }" - "{ml | | Marker side length (in pixels) }" - "{d | | dictionary: DICT_4X4_50=0, DICT_4X4_100=1, DICT_4X4_250=2," - "DICT_4X4_1000=3, DICT_5X5_50=4, DICT_5X5_100=5, DICT_5X5_250=6, DICT_5X5_1000=7, " - "DICT_6X6_50=8, DICT_6X6_100=9, DICT_6X6_250=10, DICT_6X6_1000=11, DICT_7X7_50=12," - "DICT_7X7_100=13, DICT_7X7_250=14, DICT_7X7_1000=15, DICT_ARUCO_ORIGINAL = 16}" - "{m | | Margins size (in pixels). Default is (squareLength-markerLength) }" - "{bb | 1 | Number of bits in marker borders }" - "{si | false | show generated image }"; -} - -int main(int argc, char *argv[]) { - CommandLineParser parser(argc, argv, keys); - parser.about(about); - - if(argc < 7) { - parser.printMessage(); - return 0; - } - - int squaresX = parser.get("w"); - int squaresY = parser.get("h"); - int squareLength = parser.get("sl"); - int markerLength = parser.get("ml"); - int dictionaryId = parser.get("d"); - int margins = squareLength - markerLength; - if(parser.has("m")) { - margins = parser.get("m"); - } - - int borderBits = parser.get("bb"); - bool showImage = parser.get("si"); - - String out = parser.get(0); - - if(!parser.check()) { - parser.printErrors(); - return 0; - } - - Ptr dictionary = - aruco::getPredefinedDictionary(aruco::PREDEFINED_DICTIONARY_NAME(dictionaryId)); - - Size imageSize; - imageSize.width = squaresX * squareLength + 2 * margins; - imageSize.height = squaresY * squareLength + 2 * margins; - - Ptr board = aruco::CharucoBoard::create(squaresX, squaresY, (float)squareLength, - (float)markerLength, dictionary); - - // show created board - Mat boardImage; - board->draw(imageSize, boardImage, margins, borderBits); - - if(showImage) { - imshow("board", boardImage); - waitKey(0); - } - - imwrite(out, boardImage); - - return 0; -} diff --git a/aruco_pose/vendor/aruco/samples/create_diamond.cpp b/aruco_pose/vendor/aruco/samples/create_diamond.cpp deleted file mode 100644 index 66aec227..00000000 --- a/aruco_pose/vendor/aruco/samples/create_diamond.cpp +++ /dev/null @@ -1,118 +0,0 @@ -/* -By downloading, copying, installing or using the software you agree to this -license. If you do not agree to this license, do not download, install, -copy or use the software. - - License Agreement - For Open Source Computer Vision Library - (3-clause BSD License) - -Copyright (C) 2013, OpenCV Foundation, all rights reserved. -Third party copyrights are property of their respective owners. - -Redistribution and use in source and binary forms, with or without modification, -are permitted provided that the following conditions are met: - - * Redistributions of source code must retain the above copyright notice, - this list of conditions and the following disclaimer. - - * Redistributions in binary form must reproduce the above copyright notice, - this list of conditions and the following disclaimer in the documentation - and/or other materials provided with the distribution. - - * Neither the names of the copyright holders nor the names of the contributors - may be used to endorse or promote products derived from this software - without specific prior written permission. - -This software is provided by the copyright holders and contributors "as is" and -any express or implied warranties, including, but not limited to, the implied -warranties of merchantability and fitness for a particular purpose are -disclaimed. In no event shall copyright holders or contributors be liable for -any direct, indirect, incidental, special, exemplary, or consequential damages -(including, but not limited to, procurement of substitute goods or services; -loss of use, data, or profits; or business interruption) however caused -and on any theory of liability, whether in contract, strict liability, -or tort (including negligence or otherwise) arising in any way out of -the use of this software, even if advised of the possibility of such damage. -*/ - - -#include -#include -#include -#include - -using namespace std; -using namespace cv; - -namespace { -const char* about = "Create a ChArUco marker image"; -const char* keys = - "{@outfile | | Output image }" - "{sl | | Square side length (in pixels) }" - "{ml | | Marker side length (in pixels) }" - "{d | | dictionary: DICT_4X4_50=0, DICT_4X4_100=1, DICT_4X4_250=2," - "DICT_4X4_1000=3, DICT_5X5_50=4, DICT_5X5_100=5, DICT_5X5_250=6, DICT_5X5_1000=7, " - "DICT_6X6_50=8, DICT_6X6_100=9, DICT_6X6_250=10, DICT_6X6_1000=11, DICT_7X7_50=12," - "DICT_7X7_100=13, DICT_7X7_250=14, DICT_7X7_1000=15, DICT_ARUCO_ORIGINAL = 16}" - "{ids | | Four ids for the ChArUco marker: id1,id2,id3,id4 }" - "{m | 0 | Margins size (in pixels) }" - "{bb | 1 | Number of bits in marker borders }" - "{si | false | show generated image }"; -} - -/** - */ -int main(int argc, char *argv[]) { - CommandLineParser parser(argc, argv, keys); - parser.about(about); - - if(argc < 4) { - parser.printMessage(); - return 0; - } - - int squareLength = parser.get("sl"); - int markerLength = parser.get("ml"); - int dictionaryId = parser.get("d"); - string idsString = parser.get("ids"); - int margins = parser.get("m"); - int borderBits = parser.get("bb"); - bool showImage = parser.get("si"); - String out = parser.get(0); - - if(!parser.check()) { - parser.printErrors(); - return 0; - } - - Ptr dictionary = - aruco::getPredefinedDictionary(aruco::PREDEFINED_DICTIONARY_NAME(dictionaryId)); - - istringstream ss(idsString); - vector< string > splittedIds; - string token; - while(getline(ss, token, ',')) - splittedIds.push_back(token); - if(splittedIds.size() < 4) { - cerr << "Incorrect ids format" << endl; - parser.printMessage(); - return 0; - } - Vec4i ids; - for(int i = 0; i < 4; i++) - ids[i] = atoi(splittedIds[i].c_str()); - - Mat markerImg; - aruco::drawCharucoDiamond(dictionary, ids, squareLength, markerLength, markerImg, margins, - borderBits); - - if(showImage) { - imshow("board", markerImg); - waitKey(0); - } - - imwrite(out, markerImg); - - return 0; -} diff --git a/aruco_pose/vendor/aruco/samples/create_marker.cpp b/aruco_pose/vendor/aruco/samples/create_marker.cpp deleted file mode 100644 index 40537427..00000000 --- a/aruco_pose/vendor/aruco/samples/create_marker.cpp +++ /dev/null @@ -1,96 +0,0 @@ -/* -By downloading, copying, installing or using the software you agree to this -license. If you do not agree to this license, do not download, install, -copy or use the software. - - License Agreement - For Open Source Computer Vision Library - (3-clause BSD License) - -Copyright (C) 2013, OpenCV Foundation, all rights reserved. -Third party copyrights are property of their respective owners. - -Redistribution and use in source and binary forms, with or without modification, -are permitted provided that the following conditions are met: - - * Redistributions of source code must retain the above copyright notice, - this list of conditions and the following disclaimer. - - * Redistributions in binary form must reproduce the above copyright notice, - this list of conditions and the following disclaimer in the documentation - and/or other materials provided with the distribution. - - * Neither the names of the copyright holders nor the names of the contributors - may be used to endorse or promote products derived from this software - without specific prior written permission. - -This software is provided by the copyright holders and contributors "as is" and -any express or implied warranties, including, but not limited to, the implied -warranties of merchantability and fitness for a particular purpose are -disclaimed. In no event shall copyright holders or contributors be liable for -any direct, indirect, incidental, special, exemplary, or consequential damages -(including, but not limited to, procurement of substitute goods or services; -loss of use, data, or profits; or business interruption) however caused -and on any theory of liability, whether in contract, strict liability, -or tort (including negligence or otherwise) arising in any way out of -the use of this software, even if advised of the possibility of such damage. -*/ - - -#include -#include - -using namespace cv; - -namespace { -const char* about = "Create an ArUco marker image"; -const char* keys = - "{@outfile | | Output image }" - "{d | | dictionary: DICT_4X4_50=0, DICT_4X4_100=1, DICT_4X4_250=2," - "DICT_4X4_1000=3, DICT_5X5_50=4, DICT_5X5_100=5, DICT_5X5_250=6, DICT_5X5_1000=7, " - "DICT_6X6_50=8, DICT_6X6_100=9, DICT_6X6_250=10, DICT_6X6_1000=11, DICT_7X7_50=12," - "DICT_7X7_100=13, DICT_7X7_250=14, DICT_7X7_1000=15, DICT_ARUCO_ORIGINAL = 16}" - "{id | | Marker id in the dictionary }" - "{ms | 200 | Marker size in pixels }" - "{bb | 1 | Number of bits in marker borders }" - "{si | false | show generated image }"; -} - - -int main(int argc, char *argv[]) { - CommandLineParser parser(argc, argv, keys); - parser.about(about); - - if(argc < 4) { - parser.printMessage(); - return 0; - } - - int dictionaryId = parser.get("d"); - int markerId = parser.get("id"); - int borderBits = parser.get("bb"); - int markerSize = parser.get("ms"); - bool showImage = parser.get("si"); - - String out = parser.get(0); - - if(!parser.check()) { - parser.printErrors(); - return 0; - } - - Ptr dictionary = - aruco::getPredefinedDictionary(aruco::PREDEFINED_DICTIONARY_NAME(dictionaryId)); - - Mat markerImg; - aruco::drawMarker(dictionary, markerId, markerSize, markerImg, borderBits); - - if(showImage) { - imshow("marker", markerImg); - waitKey(0); - } - - imwrite(out, markerImg); - - return 0; -} diff --git a/aruco_pose/vendor/aruco/samples/detect_board.cpp b/aruco_pose/vendor/aruco/samples/detect_board.cpp deleted file mode 100644 index 00d13ab4..00000000 --- a/aruco_pose/vendor/aruco/samples/detect_board.cpp +++ /dev/null @@ -1,234 +0,0 @@ -/* -By downloading, copying, installing or using the software you agree to this -license. If you do not agree to this license, do not download, install, -copy or use the software. - - License Agreement - For Open Source Computer Vision Library - (3-clause BSD License) - -Copyright (C) 2013, OpenCV Foundation, all rights reserved. -Third party copyrights are property of their respective owners. - -Redistribution and use in source and binary forms, with or without modification, -are permitted provided that the following conditions are met: - - * Redistributions of source code must retain the above copyright notice, - this list of conditions and the following disclaimer. - - * Redistributions in binary form must reproduce the above copyright notice, - this list of conditions and the following disclaimer in the documentation - and/or other materials provided with the distribution. - - * Neither the names of the copyright holders nor the names of the contributors - may be used to endorse or promote products derived from this software - without specific prior written permission. - -This software is provided by the copyright holders and contributors "as is" and -any express or implied warranties, including, but not limited to, the implied -warranties of merchantability and fitness for a particular purpose are -disclaimed. In no event shall copyright holders or contributors be liable for -any direct, indirect, incidental, special, exemplary, or consequential damages -(including, but not limited to, procurement of substitute goods or services; -loss of use, data, or profits; or business interruption) however caused -and on any theory of liability, whether in contract, strict liability, -or tort (including negligence or otherwise) arising in any way out of -the use of this software, even if advised of the possibility of such damage. -*/ - - -#include -#include -#include -#include - -using namespace std; -using namespace cv; - -namespace { -const char* about = "Pose estimation using a ArUco Planar Grid board"; -const char* keys = - "{w | | Number of squares in X direction }" - "{h | | Number of squares in Y direction }" - "{l | | Marker side lenght (in pixels) }" - "{s | | Separation between two consecutive markers in the grid (in pixels)}" - "{d | | dictionary: DICT_4X4_50=0, DICT_4X4_100=1, DICT_4X4_250=2," - "DICT_4X4_1000=3, DICT_5X5_50=4, DICT_5X5_100=5, DICT_5X5_250=6, DICT_5X5_1000=7, " - "DICT_6X6_50=8, DICT_6X6_100=9, DICT_6X6_250=10, DICT_6X6_1000=11, DICT_7X7_50=12," - "DICT_7X7_100=13, DICT_7X7_250=14, DICT_7X7_1000=15, DICT_ARUCO_ORIGINAL = 16}" - "{c | | Output file with calibrated camera parameters }" - "{v | | Input from video file, if ommited, input comes from camera }" - "{ci | 0 | Camera id if input doesnt come from video (-v) }" - "{dp | | File of marker detector parameters }" - "{rs | | Apply refind strategy }" - "{r | | show rejected candidates too }"; -} - -/** - */ -static bool readCameraParameters(string filename, Mat &camMatrix, Mat &distCoeffs) { - FileStorage fs(filename, FileStorage::READ); - if(!fs.isOpened()) - return false; - fs["camera_matrix"] >> camMatrix; - fs["distortion_coefficients"] >> distCoeffs; - return true; -} - - - -/** - */ -static bool readDetectorParameters(string filename, Ptr ¶ms) { - FileStorage fs(filename, FileStorage::READ); - if(!fs.isOpened()) - return false; - fs["adaptiveThreshWinSizeMin"] >> params->adaptiveThreshWinSizeMin; - fs["adaptiveThreshWinSizeMax"] >> params->adaptiveThreshWinSizeMax; - fs["adaptiveThreshWinSizeStep"] >> params->adaptiveThreshWinSizeStep; - fs["adaptiveThreshConstant"] >> params->adaptiveThreshConstant; - fs["minMarkerPerimeterRate"] >> params->minMarkerPerimeterRate; - fs["maxMarkerPerimeterRate"] >> params->maxMarkerPerimeterRate; - fs["polygonalApproxAccuracyRate"] >> params->polygonalApproxAccuracyRate; - fs["minCornerDistanceRate"] >> params->minCornerDistanceRate; - fs["minDistanceToBorder"] >> params->minDistanceToBorder; - fs["minMarkerDistanceRate"] >> params->minMarkerDistanceRate; - fs["cornerRefinementMethod"] >> params->cornerRefinementMethod; - fs["cornerRefinementWinSize"] >> params->cornerRefinementWinSize; - fs["cornerRefinementMaxIterations"] >> params->cornerRefinementMaxIterations; - fs["cornerRefinementMinAccuracy"] >> params->cornerRefinementMinAccuracy; - fs["markerBorderBits"] >> params->markerBorderBits; - fs["perspectiveRemovePixelPerCell"] >> params->perspectiveRemovePixelPerCell; - fs["perspectiveRemoveIgnoredMarginPerCell"] >> params->perspectiveRemoveIgnoredMarginPerCell; - fs["maxErroneousBitsInBorderRate"] >> params->maxErroneousBitsInBorderRate; - fs["minOtsuStdDev"] >> params->minOtsuStdDev; - fs["errorCorrectionRate"] >> params->errorCorrectionRate; - return true; -} - - -/** - */ -int main(int argc, char *argv[]) { - CommandLineParser parser(argc, argv, keys); - parser.about(about); - - if(argc < 7) { - parser.printMessage(); - return 0; - } - - int markersX = parser.get("w"); - int markersY = parser.get("h"); - float markerLength = parser.get("l"); - float markerSeparation = parser.get("s"); - int dictionaryId = parser.get("d"); - bool showRejected = parser.has("r"); - bool refindStrategy = parser.has("rs"); - int camId = parser.get("ci"); - - - Mat camMatrix, distCoeffs; - if(parser.has("c")) { - bool readOk = readCameraParameters(parser.get("c"), camMatrix, distCoeffs); - if(!readOk) { - cerr << "Invalid camera file" << endl; - return 0; - } - } - - Ptr detectorParams = aruco::DetectorParameters::create(); - if(parser.has("dp")) { - bool readOk = readDetectorParameters(parser.get("dp"), detectorParams); - if(!readOk) { - cerr << "Invalid detector parameters file" << endl; - return 0; - } - } - detectorParams->cornerRefinementMethod = aruco::CORNER_REFINE_SUBPIX; // do corner refinement in markers - - String video; - if(parser.has("v")) { - video = parser.get("v"); - } - - if(!parser.check()) { - parser.printErrors(); - return 0; - } - - Ptr dictionary = - aruco::getPredefinedDictionary(aruco::PREDEFINED_DICTIONARY_NAME(dictionaryId)); - - VideoCapture inputVideo; - int waitTime; - if(!video.empty()) { - inputVideo.open(video); - waitTime = 0; - } else { - inputVideo.open(camId); - waitTime = 10; - } - - float axisLength = 0.5f * ((float)min(markersX, markersY) * (markerLength + markerSeparation) + - markerSeparation); - - // create board object - Ptr gridboard = - aruco::GridBoard::create(markersX, markersY, markerLength, markerSeparation, dictionary); - Ptr board = gridboard.staticCast(); - - double totalTime = 0; - int totalIterations = 0; - - while(inputVideo.grab()) { - Mat image, imageCopy; - inputVideo.retrieve(image); - - double tick = (double)getTickCount(); - - vector< int > ids; - vector< vector< Point2f > > corners, rejected; - Vec3d rvec, tvec; - - // detect markers - aruco::detectMarkers(image, dictionary, corners, ids, detectorParams, rejected); - - // refind strategy to detect more markers - if(refindStrategy) - aruco::refineDetectedMarkers(image, board, corners, ids, rejected, camMatrix, - distCoeffs); - - // estimate board pose - int markersOfBoardDetected = 0; - if(ids.size() > 0) - markersOfBoardDetected = - aruco::estimatePoseBoard(corners, ids, board, camMatrix, distCoeffs, rvec, tvec); - - double currentTime = ((double)getTickCount() - tick) / getTickFrequency(); - totalTime += currentTime; - totalIterations++; - if(totalIterations % 30 == 0) { - cout << "Detection Time = " << currentTime * 1000 << " ms " - << "(Mean = " << 1000 * totalTime / double(totalIterations) << " ms)" << endl; - } - - // draw results - image.copyTo(imageCopy); - if(ids.size() > 0) { - aruco::drawDetectedMarkers(imageCopy, corners, ids); - } - - if(showRejected && rejected.size() > 0) - aruco::drawDetectedMarkers(imageCopy, rejected, noArray(), Scalar(100, 0, 255)); - - if(markersOfBoardDetected > 0) - aruco::drawAxis(imageCopy, camMatrix, distCoeffs, rvec, tvec, axisLength); - - imshow("out", imageCopy); - char key = (char)waitKey(waitTime); - if(key == 27) break; - } - - return 0; -} diff --git a/aruco_pose/vendor/aruco/samples/detect_board_charuco.cpp b/aruco_pose/vendor/aruco/samples/detect_board_charuco.cpp deleted file mode 100644 index fd106f36..00000000 --- a/aruco_pose/vendor/aruco/samples/detect_board_charuco.cpp +++ /dev/null @@ -1,250 +0,0 @@ -/* -By downloading, copying, installing or using the software you agree to this -license. If you do not agree to this license, do not download, install, -copy or use the software. - - License Agreement - For Open Source Computer Vision Library - (3-clause BSD License) - -Copyright (C) 2013, OpenCV Foundation, all rights reserved. -Third party copyrights are property of their respective owners. - -Redistribution and use in source and binary forms, with or without modification, -are permitted provided that the following conditions are met: - - * Redistributions of source code must retain the above copyright notice, - this list of conditions and the following disclaimer. - - * Redistributions in binary form must reproduce the above copyright notice, - this list of conditions and the following disclaimer in the documentation - and/or other materials provided with the distribution. - - * Neither the names of the copyright holders nor the names of the contributors - may be used to endorse or promote products derived from this software - without specific prior written permission. - -This software is provided by the copyright holders and contributors "as is" and -any express or implied warranties, including, but not limited to, the implied -warranties of merchantability and fitness for a particular purpose are -disclaimed. In no event shall copyright holders or contributors be liable for -any direct, indirect, incidental, special, exemplary, or consequential damages -(including, but not limited to, procurement of substitute goods or services; -loss of use, data, or profits; or business interruption) however caused -and on any theory of liability, whether in contract, strict liability, -or tort (including negligence or otherwise) arising in any way out of -the use of this software, even if advised of the possibility of such damage. -*/ - - -#include -#include -#include -#include - -using namespace std; -using namespace cv; - - -namespace { -const char* about = "Pose estimation using a ChArUco board"; -const char* keys = - "{w | | Number of squares in X direction }" - "{h | | Number of squares in Y direction }" - "{sl | | Square side length (in meters) }" - "{ml | | Marker side length (in meters) }" - "{d | | dictionary: DICT_4X4_50=0, DICT_4X4_100=1, DICT_4X4_250=2," - "DICT_4X4_1000=3, DICT_5X5_50=4, DICT_5X5_100=5, DICT_5X5_250=6, DICT_5X5_1000=7, " - "DICT_6X6_50=8, DICT_6X6_100=9, DICT_6X6_250=10, DICT_6X6_1000=11, DICT_7X7_50=12," - "DICT_7X7_100=13, DICT_7X7_250=14, DICT_7X7_1000=15, DICT_ARUCO_ORIGINAL = 16}" - "{c | | Output file with calibrated camera parameters }" - "{v | | Input from video file, if ommited, input comes from camera }" - "{ci | 0 | Camera id if input doesnt come from video (-v) }" - "{dp | | File of marker detector parameters }" - "{rs | | Apply refind strategy }" - "{r | | show rejected candidates too }"; -} - -/** - */ -static bool readCameraParameters(string filename, Mat &camMatrix, Mat &distCoeffs) { - FileStorage fs(filename, FileStorage::READ); - if(!fs.isOpened()) - return false; - fs["camera_matrix"] >> camMatrix; - fs["distortion_coefficients"] >> distCoeffs; - return true; -} - - -/** - */ -static bool readDetectorParameters(string filename, Ptr ¶ms) { - FileStorage fs(filename, FileStorage::READ); - if(!fs.isOpened()) - return false; - fs["adaptiveThreshWinSizeMin"] >> params->adaptiveThreshWinSizeMin; - fs["adaptiveThreshWinSizeMax"] >> params->adaptiveThreshWinSizeMax; - fs["adaptiveThreshWinSizeStep"] >> params->adaptiveThreshWinSizeStep; - fs["adaptiveThreshConstant"] >> params->adaptiveThreshConstant; - fs["minMarkerPerimeterRate"] >> params->minMarkerPerimeterRate; - fs["maxMarkerPerimeterRate"] >> params->maxMarkerPerimeterRate; - fs["polygonalApproxAccuracyRate"] >> params->polygonalApproxAccuracyRate; - fs["minCornerDistanceRate"] >> params->minCornerDistanceRate; - fs["minDistanceToBorder"] >> params->minDistanceToBorder; - fs["minMarkerDistanceRate"] >> params->minMarkerDistanceRate; - fs["cornerRefinementMethod"] >> params->cornerRefinementMethod; - fs["cornerRefinementWinSize"] >> params->cornerRefinementWinSize; - fs["cornerRefinementMaxIterations"] >> params->cornerRefinementMaxIterations; - fs["cornerRefinementMinAccuracy"] >> params->cornerRefinementMinAccuracy; - fs["markerBorderBits"] >> params->markerBorderBits; - fs["perspectiveRemovePixelPerCell"] >> params->perspectiveRemovePixelPerCell; - fs["perspectiveRemoveIgnoredMarginPerCell"] >> params->perspectiveRemoveIgnoredMarginPerCell; - fs["maxErroneousBitsInBorderRate"] >> params->maxErroneousBitsInBorderRate; - fs["minOtsuStdDev"] >> params->minOtsuStdDev; - fs["errorCorrectionRate"] >> params->errorCorrectionRate; - return true; -} - - -/** - */ -int main(int argc, char *argv[]) { - CommandLineParser parser(argc, argv, keys); - parser.about(about); - - if(argc < 6) { - parser.printMessage(); - return 0; - } - - int squaresX = parser.get("w"); - int squaresY = parser.get("h"); - float squareLength = parser.get("sl"); - float markerLength = parser.get("ml"); - int dictionaryId = parser.get("d"); - bool showRejected = parser.has("r"); - bool refindStrategy = parser.has("rs"); - int camId = parser.get("ci"); - - String video; - if(parser.has("v")) { - video = parser.get("v"); - } - - Mat camMatrix, distCoeffs; - if(parser.has("c")) { - bool readOk = readCameraParameters(parser.get("c"), camMatrix, distCoeffs); - if(!readOk) { - cerr << "Invalid camera file" << endl; - return 0; - } - } - - Ptr detectorParams = aruco::DetectorParameters::create(); - if(parser.has("dp")) { - bool readOk = readDetectorParameters(parser.get("dp"), detectorParams); - if(!readOk) { - cerr << "Invalid detector parameters file" << endl; - return 0; - } - } - - if(!parser.check()) { - parser.printErrors(); - return 0; - } - - Ptr dictionary = - aruco::getPredefinedDictionary(aruco::PREDEFINED_DICTIONARY_NAME(dictionaryId)); - - VideoCapture inputVideo; - int waitTime; - if(!video.empty()) { - inputVideo.open(video); - waitTime = 0; - } else { - inputVideo.open(camId); - waitTime = 10; - } - - float axisLength = 0.5f * ((float)min(squaresX, squaresY) * (squareLength)); - - // create charuco board object - Ptr charucoboard = - aruco::CharucoBoard::create(squaresX, squaresY, squareLength, markerLength, dictionary); - Ptr board = charucoboard.staticCast(); - - double totalTime = 0; - int totalIterations = 0; - - while(inputVideo.grab()) { - Mat image, imageCopy; - inputVideo.retrieve(image); - - double tick = (double)getTickCount(); - - vector< int > markerIds, charucoIds; - vector< vector< Point2f > > markerCorners, rejectedMarkers; - vector< Point2f > charucoCorners; - Vec3d rvec, tvec; - - // detect markers - aruco::detectMarkers(image, dictionary, markerCorners, markerIds, detectorParams, - rejectedMarkers); - - // refind strategy to detect more markers - if(refindStrategy) - aruco::refineDetectedMarkers(image, board, markerCorners, markerIds, rejectedMarkers, - camMatrix, distCoeffs); - - // interpolate charuco corners - int interpolatedCorners = 0; - if(markerIds.size() > 0) - interpolatedCorners = - aruco::interpolateCornersCharuco(markerCorners, markerIds, image, charucoboard, - charucoCorners, charucoIds, camMatrix, distCoeffs); - - // estimate charuco board pose - bool validPose = false; - if(camMatrix.total() != 0) - validPose = aruco::estimatePoseCharucoBoard(charucoCorners, charucoIds, charucoboard, - camMatrix, distCoeffs, rvec, tvec); - - - - double currentTime = ((double)getTickCount() - tick) / getTickFrequency(); - totalTime += currentTime; - totalIterations++; - if(totalIterations % 30 == 0) { - cout << "Detection Time = " << currentTime * 1000 << " ms " - << "(Mean = " << 1000 * totalTime / double(totalIterations) << " ms)" << endl; - } - - - - // draw results - image.copyTo(imageCopy); - if(markerIds.size() > 0) { - aruco::drawDetectedMarkers(imageCopy, markerCorners); - } - - if(showRejected && rejectedMarkers.size() > 0) - aruco::drawDetectedMarkers(imageCopy, rejectedMarkers, noArray(), Scalar(100, 0, 255)); - - if(interpolatedCorners > 0) { - Scalar color; - color = Scalar(255, 0, 0); - aruco::drawDetectedCornersCharuco(imageCopy, charucoCorners, charucoIds, color); - } - - if(validPose) - aruco::drawAxis(imageCopy, camMatrix, distCoeffs, rvec, tvec, axisLength); - - imshow("out", imageCopy); - char key = (char)waitKey(waitTime); - if(key == 27) break; - } - - return 0; -} diff --git a/aruco_pose/vendor/aruco/samples/detect_diamonds.cpp b/aruco_pose/vendor/aruco/samples/detect_diamonds.cpp deleted file mode 100644 index ae1e1b11..00000000 --- a/aruco_pose/vendor/aruco/samples/detect_diamonds.cpp +++ /dev/null @@ -1,252 +0,0 @@ -/* -By downloading, copying, installing or using the software you agree to this -license. If you do not agree to this license, do not download, install, -copy or use the software. - - License Agreement - For Open Source Computer Vision Library - (3-clause BSD License) - -Copyright (C) 2013, OpenCV Foundation, all rights reserved. -Third party copyrights are property of their respective owners. - -Redistribution and use in source and binary forms, with or without modification, -are permitted provided that the following conditions are met: - - * Redistributions of source code must retain the above copyright notice, - this list of conditions and the following disclaimer. - - * Redistributions in binary form must reproduce the above copyright notice, - this list of conditions and the following disclaimer in the documentation - and/or other materials provided with the distribution. - - * Neither the names of the copyright holders nor the names of the contributors - may be used to endorse or promote products derived from this software - without specific prior written permission. - -This software is provided by the copyright holders and contributors "as is" and -any express or implied warranties, including, but not limited to, the implied -warranties of merchantability and fitness for a particular purpose are -disclaimed. In no event shall copyright holders or contributors be liable for -any direct, indirect, incidental, special, exemplary, or consequential damages -(including, but not limited to, procurement of substitute goods or services; -loss of use, data, or profits; or business interruption) however caused -and on any theory of liability, whether in contract, strict liability, -or tort (including negligence or otherwise) arising in any way out of -the use of this software, even if advised of the possibility of such damage. -*/ - - -#include -#include -#include -#include - -using namespace std; -using namespace cv; - - -namespace { -const char* about = "Detect ChArUco markers"; -const char* keys = - "{sl | | Square side length (in meters) }" - "{ml | | Marker side length (in meters) }" - "{d | | dictionary: DICT_4X4_50=0, DICT_4X4_100=1, DICT_4X4_250=2," - "DICT_4X4_1000=3, DICT_5X5_50=4, DICT_5X5_100=5, DICT_5X5_250=6, DICT_5X5_1000=7, " - "DICT_6X6_50=8, DICT_6X6_100=9, DICT_6X6_250=10, DICT_6X6_1000=11, DICT_7X7_50=12," - "DICT_7X7_100=13, DICT_7X7_250=14, DICT_7X7_1000=15, DICT_ARUCO_ORIGINAL = 16}" - "{c | | Output file with calibrated camera parameters }" - "{as | | Automatic scale. The provided number is multiplied by the last" - "diamond id becoming an indicator of the square length. In this case, the -sl and " - "-ml are only used to know the relative length relation between squares and markers }" - "{v | | Input from video file, if ommited, input comes from camera }" - "{ci | 0 | Camera id if input doesnt come from video (-v) }" - "{dp | | File of marker detector parameters }" - "{rs | | Apply refind strategy }" - "{r | | show rejected candidates too }"; -} - -/** - */ -static bool readCameraParameters(string filename, Mat &camMatrix, Mat &distCoeffs) { - FileStorage fs(filename, FileStorage::READ); - if(!fs.isOpened()) - return false; - fs["camera_matrix"] >> camMatrix; - fs["distortion_coefficients"] >> distCoeffs; - return true; -} - - -/** - */ -static bool readDetectorParameters(string filename, Ptr ¶ms) { - FileStorage fs(filename, FileStorage::READ); - if(!fs.isOpened()) - return false; - fs["adaptiveThreshWinSizeMin"] >> params->adaptiveThreshWinSizeMin; - fs["adaptiveThreshWinSizeMax"] >> params->adaptiveThreshWinSizeMax; - fs["adaptiveThreshWinSizeStep"] >> params->adaptiveThreshWinSizeStep; - fs["adaptiveThreshConstant"] >> params->adaptiveThreshConstant; - fs["minMarkerPerimeterRate"] >> params->minMarkerPerimeterRate; - fs["maxMarkerPerimeterRate"] >> params->maxMarkerPerimeterRate; - fs["polygonalApproxAccuracyRate"] >> params->polygonalApproxAccuracyRate; - fs["minCornerDistanceRate"] >> params->minCornerDistanceRate; - fs["minDistanceToBorder"] >> params->minDistanceToBorder; - fs["minMarkerDistanceRate"] >> params->minMarkerDistanceRate; - fs["cornerRefinementMethod"] >> params->cornerRefinementMethod; - fs["cornerRefinementWinSize"] >> params->cornerRefinementWinSize; - fs["cornerRefinementMaxIterations"] >> params->cornerRefinementMaxIterations; - fs["cornerRefinementMinAccuracy"] >> params->cornerRefinementMinAccuracy; - fs["markerBorderBits"] >> params->markerBorderBits; - fs["perspectiveRemovePixelPerCell"] >> params->perspectiveRemovePixelPerCell; - fs["perspectiveRemoveIgnoredMarginPerCell"] >> params->perspectiveRemoveIgnoredMarginPerCell; - fs["maxErroneousBitsInBorderRate"] >> params->maxErroneousBitsInBorderRate; - fs["minOtsuStdDev"] >> params->minOtsuStdDev; - fs["errorCorrectionRate"] >> params->errorCorrectionRate; - return true; -} - - -/** - */ -int main(int argc, char *argv[]) { - CommandLineParser parser(argc, argv, keys); - parser.about(about); - - if(argc < 4) { - parser.printMessage(); - return 0; - } - - float squareLength = parser.get("sl"); - float markerLength = parser.get("ml"); - int dictionaryId = parser.get("d"); - bool showRejected = parser.has("r"); - bool estimatePose = parser.has("c"); - bool autoScale = parser.has("as"); - float autoScaleFactor = autoScale ? parser.get("as") : 1.f; - - Ptr detectorParams = aruco::DetectorParameters::create(); - if(parser.has("dp")) { - bool readOk = readDetectorParameters(parser.get("dp"), detectorParams); - if(!readOk) { - cerr << "Invalid detector parameters file" << endl; - return 0; - } - } - - int camId = parser.get("ci"); - String video; - - if(parser.has("v")) { - video = parser.get("v"); - } - - if(!parser.check()) { - parser.printErrors(); - return 0; - } - - Ptr dictionary = - aruco::getPredefinedDictionary(aruco::PREDEFINED_DICTIONARY_NAME(dictionaryId)); - - Mat camMatrix, distCoeffs; - if(estimatePose) { - bool readOk = readCameraParameters(parser.get("c"), camMatrix, distCoeffs); - if(!readOk) { - cerr << "Invalid camera file" << endl; - return 0; - } - } - - VideoCapture inputVideo; - int waitTime; - if(!video.empty()) { - inputVideo.open(video); - waitTime = 0; - } else { - inputVideo.open(camId); - waitTime = 10; - } - - double totalTime = 0; - int totalIterations = 0; - - while(inputVideo.grab()) { - Mat image, imageCopy; - inputVideo.retrieve(image); - - double tick = (double)getTickCount(); - - vector< int > markerIds; - vector< Vec4i > diamondIds; - vector< vector< Point2f > > markerCorners, rejectedMarkers, diamondCorners; - vector< Vec3d > rvecs, tvecs; - - // detect markers - aruco::detectMarkers(image, dictionary, markerCorners, markerIds, detectorParams, - rejectedMarkers); - - // detect diamonds - if(markerIds.size() > 0) - aruco::detectCharucoDiamond(image, markerCorners, markerIds, - squareLength / markerLength, diamondCorners, diamondIds, - camMatrix, distCoeffs); - - // estimate diamond pose - if(estimatePose && diamondIds.size() > 0) { - if(!autoScale) { - aruco::estimatePoseSingleMarkers(diamondCorners, squareLength, camMatrix, - distCoeffs, rvecs, tvecs); - } else { - // if autoscale, extract square size from last diamond id - for(unsigned int i = 0; i < diamondCorners.size(); i++) { - float autoSquareLength = autoScaleFactor * float(diamondIds[i].val[3]); - vector< vector< Point2f > > currentCorners; - vector< Vec3d > currentRvec, currentTvec; - currentCorners.push_back(diamondCorners[i]); - aruco::estimatePoseSingleMarkers(currentCorners, autoSquareLength, camMatrix, - distCoeffs, currentRvec, currentTvec); - rvecs.push_back(currentRvec[0]); - tvecs.push_back(currentTvec[0]); - } - } - } - - - double currentTime = ((double)getTickCount() - tick) / getTickFrequency(); - totalTime += currentTime; - totalIterations++; - if(totalIterations % 30 == 0) { - cout << "Detection Time = " << currentTime * 1000 << " ms " - << "(Mean = " << 1000 * totalTime / double(totalIterations) << " ms)" << endl; - } - - - // draw results - image.copyTo(imageCopy); - if(markerIds.size() > 0) - aruco::drawDetectedMarkers(imageCopy, markerCorners); - - - if(showRejected && rejectedMarkers.size() > 0) - aruco::drawDetectedMarkers(imageCopy, rejectedMarkers, noArray(), Scalar(100, 0, 255)); - - if(diamondIds.size() > 0) { - aruco::drawDetectedDiamonds(imageCopy, diamondCorners, diamondIds); - - if(estimatePose) { - for(unsigned int i = 0; i < diamondIds.size(); i++) - aruco::drawAxis(imageCopy, camMatrix, distCoeffs, rvecs[i], tvecs[i], - squareLength * 0.5f); - } - } - - imshow("out", imageCopy); - char key = (char)waitKey(waitTime); - if(key == 27) break; - } - - return 0; -} diff --git a/aruco_pose/vendor/aruco/samples/detect_markers.cpp b/aruco_pose/vendor/aruco/samples/detect_markers.cpp deleted file mode 100644 index 6663baa0..00000000 --- a/aruco_pose/vendor/aruco/samples/detect_markers.cpp +++ /dev/null @@ -1,222 +0,0 @@ -/* -By downloading, copying, installing or using the software you agree to this -license. If you do not agree to this license, do not download, install, -copy or use the software. - - License Agreement - For Open Source Computer Vision Library - (3-clause BSD License) - -Copyright (C) 2013, OpenCV Foundation, all rights reserved. -Third party copyrights are property of their respective owners. - -Redistribution and use in source and binary forms, with or without modification, -are permitted provided that the following conditions are met: - - * Redistributions of source code must retain the above copyright notice, - this list of conditions and the following disclaimer. - - * Redistributions in binary form must reproduce the above copyright notice, - this list of conditions and the following disclaimer in the documentation - and/or other materials provided with the distribution. - - * Neither the names of the copyright holders nor the names of the contributors - may be used to endorse or promote products derived from this software - without specific prior written permission. - -This software is provided by the copyright holders and contributors "as is" and -any express or implied warranties, including, but not limited to, the implied -warranties of merchantability and fitness for a particular purpose are -disclaimed. In no event shall copyright holders or contributors be liable for -any direct, indirect, incidental, special, exemplary, or consequential damages -(including, but not limited to, procurement of substitute goods or services; -loss of use, data, or profits; or business interruption) however caused -and on any theory of liability, whether in contract, strict liability, -or tort (including negligence or otherwise) arising in any way out of -the use of this software, even if advised of the possibility of such damage. -*/ - - -#include -#include -#include - -using namespace std; -using namespace cv; - -namespace { -const char* about = "Basic marker detection"; -const char* keys = - "{d | | dictionary: DICT_4X4_50=0, DICT_4X4_100=1, DICT_4X4_250=2," - "DICT_4X4_1000=3, DICT_5X5_50=4, DICT_5X5_100=5, DICT_5X5_250=6, DICT_5X5_1000=7, " - "DICT_6X6_50=8, DICT_6X6_100=9, DICT_6X6_250=10, DICT_6X6_1000=11, DICT_7X7_50=12," - "DICT_7X7_100=13, DICT_7X7_250=14, DICT_7X7_1000=15, DICT_ARUCO_ORIGINAL = 16," - "DICT_APRILTAG_16h5=17, DICT_APRILTAG_25h9=18, DICT_APRILTAG_36h10=19, DICT_APRILTAG_36h11=20}" - "{v | | Input from video file, if ommited, input comes from camera }" - "{ci | 0 | Camera id if input doesnt come from video (-v) }" - "{c | | Camera intrinsic parameters. Needed for camera pose }" - "{l | 0.1 | Marker side lenght (in meters). Needed for correct scale in camera pose }" - "{dp | | File of marker detector parameters }" - "{r | | show rejected candidates too }" - "{refine | | Corner refinement: CORNER_REFINE_NONE=0, CORNER_REFINE_SUBPIX=1," - "CORNER_REFINE_CONTOUR=2, CORNER_REFINE_APRILTAG=3}"; -} - -/** - */ -static bool readCameraParameters(string filename, Mat &camMatrix, Mat &distCoeffs) { - FileStorage fs(filename, FileStorage::READ); - if(!fs.isOpened()) - return false; - fs["camera_matrix"] >> camMatrix; - fs["distortion_coefficients"] >> distCoeffs; - return true; -} - - - -/** - */ -static bool readDetectorParameters(string filename, Ptr ¶ms) { - FileStorage fs(filename, FileStorage::READ); - if(!fs.isOpened()) - return false; - fs["adaptiveThreshWinSizeMin"] >> params->adaptiveThreshWinSizeMin; - fs["adaptiveThreshWinSizeMax"] >> params->adaptiveThreshWinSizeMax; - fs["adaptiveThreshWinSizeStep"] >> params->adaptiveThreshWinSizeStep; - fs["adaptiveThreshConstant"] >> params->adaptiveThreshConstant; - fs["minMarkerPerimeterRate"] >> params->minMarkerPerimeterRate; - fs["maxMarkerPerimeterRate"] >> params->maxMarkerPerimeterRate; - fs["polygonalApproxAccuracyRate"] >> params->polygonalApproxAccuracyRate; - fs["minCornerDistanceRate"] >> params->minCornerDistanceRate; - fs["minDistanceToBorder"] >> params->minDistanceToBorder; - fs["minMarkerDistanceRate"] >> params->minMarkerDistanceRate; - fs["cornerRefinementMethod"] >> params->cornerRefinementMethod; - fs["cornerRefinementWinSize"] >> params->cornerRefinementWinSize; - fs["cornerRefinementMaxIterations"] >> params->cornerRefinementMaxIterations; - fs["cornerRefinementMinAccuracy"] >> params->cornerRefinementMinAccuracy; - fs["markerBorderBits"] >> params->markerBorderBits; - fs["perspectiveRemovePixelPerCell"] >> params->perspectiveRemovePixelPerCell; - fs["perspectiveRemoveIgnoredMarginPerCell"] >> params->perspectiveRemoveIgnoredMarginPerCell; - fs["maxErroneousBitsInBorderRate"] >> params->maxErroneousBitsInBorderRate; - fs["minOtsuStdDev"] >> params->minOtsuStdDev; - fs["errorCorrectionRate"] >> params->errorCorrectionRate; - return true; -} - - - -/** - */ -int main(int argc, char *argv[]) { - CommandLineParser parser(argc, argv, keys); - parser.about(about); - - if(argc < 2) { - parser.printMessage(); - return 0; - } - - int dictionaryId = parser.get("d"); - bool showRejected = parser.has("r"); - bool estimatePose = parser.has("c"); - float markerLength = parser.get("l"); - - Ptr detectorParams = aruco::DetectorParameters::create(); - if(parser.has("dp")) { - bool readOk = readDetectorParameters(parser.get("dp"), detectorParams); - if(!readOk) { - cerr << "Invalid detector parameters file" << endl; - return 0; - } - } - - if (parser.has("refine")) { - //override cornerRefinementMethod read from config file - detectorParams->cornerRefinementMethod = parser.get("refine"); - } - std::cout << "Corner refinement method (0: None, 1: Subpixel, 2:contour, 3: AprilTag 2): " << detectorParams->cornerRefinementMethod << std::endl; - - int camId = parser.get("ci"); - - String video; - if(parser.has("v")) { - video = parser.get("v"); - } - - if(!parser.check()) { - parser.printErrors(); - return 0; - } - - Ptr dictionary = - aruco::getPredefinedDictionary(aruco::PREDEFINED_DICTIONARY_NAME(dictionaryId)); - - Mat camMatrix, distCoeffs; - if(estimatePose) { - bool readOk = readCameraParameters(parser.get("c"), camMatrix, distCoeffs); - if(!readOk) { - cerr << "Invalid camera file" << endl; - return 0; - } - } - - VideoCapture inputVideo; - int waitTime; - if(!video.empty()) { - inputVideo.open(video); - waitTime = 0; - } else { - inputVideo.open(camId); - waitTime = 10; - } - - double totalTime = 0; - int totalIterations = 0; - - while(inputVideo.grab()) { - Mat image, imageCopy; - inputVideo.retrieve(image); - - double tick = (double)getTickCount(); - - vector< int > ids; - vector< vector< Point2f > > corners, rejected; - vector< Vec3d > rvecs, tvecs; - - // detect markers and estimate pose - aruco::detectMarkers(image, dictionary, corners, ids, detectorParams, rejected); - if(estimatePose && ids.size() > 0) - aruco::estimatePoseSingleMarkers(corners, markerLength, camMatrix, distCoeffs, rvecs, - tvecs); - - double currentTime = ((double)getTickCount() - tick) / getTickFrequency(); - totalTime += currentTime; - totalIterations++; - if(totalIterations % 30 == 0) { - cout << "Detection Time = " << currentTime * 1000 << " ms " - << "(Mean = " << 1000 * totalTime / double(totalIterations) << " ms)" << endl; - } - - // draw results - image.copyTo(imageCopy); - if(ids.size() > 0) { - aruco::drawDetectedMarkers(imageCopy, corners, ids); - - if(estimatePose) { - for(unsigned int i = 0; i < ids.size(); i++) - aruco::drawAxis(imageCopy, camMatrix, distCoeffs, rvecs[i], tvecs[i], - markerLength * 0.5f); - } - } - - if(showRejected && rejected.size() > 0) - aruco::drawDetectedMarkers(imageCopy, rejected, noArray(), Scalar(100, 0, 255)); - - imshow("out", imageCopy); - char key = (char)waitKey(waitTime); - if(key == 27) break; - } - - return 0; -} diff --git a/aruco_pose/vendor/aruco/samples/detector_params.yml b/aruco_pose/vendor/aruco/samples/detector_params.yml deleted file mode 100644 index 6f804e50..00000000 --- a/aruco_pose/vendor/aruco/samples/detector_params.yml +++ /dev/null @@ -1,24 +0,0 @@ -%YAML:1.0 -nmarkers: 1024 -adaptiveThreshWinSizeMin: 3 -adaptiveThreshWinSizeMax: 23 -adaptiveThreshWinSizeStep: 10 -adaptiveThreshWinSize: 21 -adaptiveThreshConstant: 7 -minMarkerPerimeterRate: 0.03 -maxMarkerPerimeterRate: 4.0 -polygonalApproxAccuracyRate: 0.05 -minCornerDistance: 10.0 -minDistanceToBorder: 3 -minMarkerDistance: 10.0 -minMarkerDistanceRate: 0.05 -cornerRefinementMethod: 0 -cornerRefinementWinSize: 5 -cornerRefinementMaxIterations: 30 -cornerRefinementMinAccuracy: 0.1 -markerBorderBits: 1 -perspectiveRemovePixelPerCell: 8 -perspectiveRemoveIgnoredMarginPerCell: 0.13 -maxErroneousBitsInBorderRate: 0.04 -minOtsuStdDev: 5.0 -errorCorrectionRate: 0.6 diff --git a/aruco_pose/vendor/aruco/test/test_arucodetection.cpp b/aruco_pose/vendor/aruco/test/test_arucodetection.cpp deleted file mode 100644 index 3d860dc0..00000000 --- a/aruco_pose/vendor/aruco/test/test_arucodetection.cpp +++ /dev/null @@ -1,571 +0,0 @@ -/* -By downloading, copying, installing or using the software you agree to this -license. If you do not agree to this license, do not download, install, -copy or use the software. - - License Agreement - For Open Source Computer Vision Library - (3-clause BSD License) - -Copyright (C) 2013, OpenCV Foundation, all rights reserved. -Third party copyrights are property of their respective owners. - -Redistribution and use in source and binary forms, with or without modification, -are permitted provided that the following conditions are met: - - * Redistributions of source code must retain the above copyright notice, - this list of conditions and the following disclaimer. - - * Redistributions in binary form must reproduce the above copyright notice, - this list of conditions and the following disclaimer in the documentation - and/or other materials provided with the distribution. - - * Neither the names of the copyright holders nor the names of the contributors - may be used to endorse or promote products derived from this software - without specific prior written permission. - -This software is provided by the copyright holders and contributors "as is" and -any express or implied warranties, including, but not limited to, the implied -warranties of merchantability and fitness for a particular purpose are -disclaimed. In no event shall copyright holders or contributors be liable for -any direct, indirect, incidental, special, exemplary, or consequential damages -(including, but not limited to, procurement of substitute goods or services; -loss of use, data, or profits; or business interruption) however caused -and on any theory of liability, whether in contract, strict liability, -or tort (including negligence or otherwise) arising in any way out of -the use of this software, even if advised of the possibility of such damage. -*/ - - -#include "test_precomp.hpp" - -namespace opencv_test { namespace { - -/** - * @brief Draw 2D synthetic markers and detect them - */ -class CV_ArucoDetectionSimple : public cvtest::BaseTest { - public: - CV_ArucoDetectionSimple(); - - protected: - void run(int); -}; - - -CV_ArucoDetectionSimple::CV_ArucoDetectionSimple() {} - - -void CV_ArucoDetectionSimple::run(int) { - - Ptr dictionary = aruco::getPredefinedDictionary(aruco::DICT_6X6_250); - - // 20 images - for(int i = 0; i < 20; i++) { - - const int markerSidePixels = 100; - int imageSize = markerSidePixels * 2 + 3 * (markerSidePixels / 2); - - // draw synthetic image and store marker corners and ids - vector< vector< Point2f > > groundTruthCorners; - vector< int > groundTruthIds; - Mat img = Mat(imageSize, imageSize, CV_8UC1, Scalar::all(255)); - for(int y = 0; y < 2; y++) { - for(int x = 0; x < 2; x++) { - Mat marker; - int id = i * 4 + y * 2 + x; - aruco::drawMarker(dictionary, id, markerSidePixels, marker); - Point2f firstCorner = - Point2f(markerSidePixels / 2.f + x * (1.5f * markerSidePixels), - markerSidePixels / 2.f + y * (1.5f * markerSidePixels)); - Mat aux = img.colRange((int)firstCorner.x, (int)firstCorner.x + markerSidePixels) - .rowRange((int)firstCorner.y, (int)firstCorner.y + markerSidePixels); - marker.copyTo(aux); - groundTruthIds.push_back(id); - groundTruthCorners.push_back(vector< Point2f >()); - groundTruthCorners.back().push_back(firstCorner); - groundTruthCorners.back().push_back(firstCorner + Point2f(markerSidePixels - 1, 0)); - groundTruthCorners.back().push_back( - firstCorner + Point2f(markerSidePixels - 1, markerSidePixels - 1)); - groundTruthCorners.back().push_back(firstCorner + Point2f(0, markerSidePixels - 1)); - } - } - if(i % 2 == 1) img.convertTo(img, CV_8UC3); - - // detect markers - vector< vector< Point2f > > corners; - vector< int > ids; - Ptr params = aruco::DetectorParameters::create(); - - aruco::detectMarkers(img, dictionary, corners, ids, params); - - // check detection results - for(unsigned int m = 0; m < groundTruthIds.size(); m++) { - int idx = -1; - for(unsigned int k = 0; k < ids.size(); k++) { - if(groundTruthIds[m] == ids[k]) { - idx = (int)k; - break; - } - } - if(idx == -1) { - ts->printf(cvtest::TS::LOG, "Marker not detected"); - ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); - return; - } - - for(int c = 0; c < 4; c++) { - double dist = cv::norm(groundTruthCorners[m][c] - corners[idx][c]); // TODO cvtest - if(dist > 0.001) { - ts->printf(cvtest::TS::LOG, "Incorrect marker corners position"); - ts->set_failed_test_info(cvtest::TS::FAIL_BAD_ACCURACY); - return; - } - } - } - } -} - - -static double deg2rad(double deg) { return deg * CV_PI / 180.; } - -/** - * @brief Get rvec and tvec from yaw, pitch and distance - */ -static void getSyntheticRT(double yaw, double pitch, double distance, Mat &rvec, Mat &tvec) { - - rvec = Mat(3, 1, CV_64FC1); - tvec = Mat(3, 1, CV_64FC1); - - // Rvec - // first put the Z axis aiming to -X (like the camera axis system) - Mat rotZ(3, 1, CV_64FC1); - rotZ.ptr< double >(0)[0] = 0; - rotZ.ptr< double >(0)[1] = 0; - rotZ.ptr< double >(0)[2] = -0.5 * CV_PI; - - Mat rotX(3, 1, CV_64FC1); - rotX.ptr< double >(0)[0] = 0.5 * CV_PI; - rotX.ptr< double >(0)[1] = 0; - rotX.ptr< double >(0)[2] = 0; - - Mat camRvec, camTvec; - composeRT(rotZ, Mat(3, 1, CV_64FC1, Scalar::all(0)), rotX, Mat(3, 1, CV_64FC1, Scalar::all(0)), - camRvec, camTvec); - - // now pitch and yaw angles - Mat rotPitch(3, 1, CV_64FC1); - rotPitch.ptr< double >(0)[0] = 0; - rotPitch.ptr< double >(0)[1] = pitch; - rotPitch.ptr< double >(0)[2] = 0; - - Mat rotYaw(3, 1, CV_64FC1); - rotYaw.ptr< double >(0)[0] = yaw; - rotYaw.ptr< double >(0)[1] = 0; - rotYaw.ptr< double >(0)[2] = 0; - - composeRT(rotPitch, Mat(3, 1, CV_64FC1, Scalar::all(0)), rotYaw, - Mat(3, 1, CV_64FC1, Scalar::all(0)), rvec, tvec); - - // compose both rotations - composeRT(camRvec, Mat(3, 1, CV_64FC1, Scalar::all(0)), rvec, - Mat(3, 1, CV_64FC1, Scalar::all(0)), rvec, tvec); - - // Tvec, just move in z (camera) direction the specific distance - tvec.ptr< double >(0)[0] = 0.; - tvec.ptr< double >(0)[1] = 0.; - tvec.ptr< double >(0)[2] = distance; -} - -/** - * @brief Create a synthetic image of a marker with perspective - */ -static Mat projectMarker(Ptr &dictionary, int id, Mat cameraMatrix, double yaw, - double pitch, double distance, Size imageSize, int markerBorder, - vector< Point2f > &corners, int encloseMarker=0) { - - // canonical image - Mat marker, markerImg; - const int markerSizePixels = 100; - - aruco::drawMarker(dictionary, id, markerSizePixels, marker, markerBorder); - marker.copyTo(markerImg); - - if(encloseMarker){ //to enclose the marker - int enclose = int(marker.rows/4); - markerImg = Mat::zeros(marker.rows+(2*enclose), marker.cols+(enclose*2), CV_8UC1); - - Mat field= markerImg.rowRange(int(enclose), int(markerImg.rows-enclose)) - .colRange(int(0), int(markerImg.cols)); - field.setTo(255); - field= markerImg.rowRange(int(0), int(markerImg.rows)) - .colRange(int(enclose), int(markerImg.cols-enclose)); - field.setTo(255); - - field = markerImg(Rect(enclose,enclose,marker.rows,marker.cols)); - marker.copyTo(field); - } - - // get rvec and tvec for the perspective - Mat rvec, tvec; - getSyntheticRT(yaw, pitch, distance, rvec, tvec); - - const float markerLength = 0.05f; - vector< Point3f > markerObjPoints; - markerObjPoints.push_back(Point3f(-markerLength / 2.f, +markerLength / 2.f, 0)); - markerObjPoints.push_back(markerObjPoints[0] + Point3f(markerLength, 0, 0)); - markerObjPoints.push_back(markerObjPoints[0] + Point3f(markerLength, -markerLength, 0)); - markerObjPoints.push_back(markerObjPoints[0] + Point3f(0, -markerLength, 0)); - - // project markers and draw them - Mat distCoeffs(5, 1, CV_64FC1, Scalar::all(0)); - projectPoints(markerObjPoints, rvec, tvec, cameraMatrix, distCoeffs, corners); - - vector< Point2f > originalCorners; - originalCorners.push_back(Point2f(0+float(encloseMarker*markerSizePixels/4), 0+float(encloseMarker*markerSizePixels/4))); - originalCorners.push_back(originalCorners[0]+Point2f((float)markerSizePixels, 0)); - originalCorners.push_back(originalCorners[0]+Point2f((float)markerSizePixels, (float)markerSizePixels)); - originalCorners.push_back(originalCorners[0]+Point2f(0, (float)markerSizePixels)); - - Mat transformation = getPerspectiveTransform(originalCorners, corners); - - Mat img(imageSize, CV_8UC1, Scalar::all(255)); - Mat aux; - const char borderValue = 127; - warpPerspective(markerImg, aux, transformation, imageSize, INTER_NEAREST, BORDER_CONSTANT, - Scalar::all(borderValue)); - - // copy only not-border pixels - for(int y = 0; y < aux.rows; y++) { - for(int x = 0; x < aux.cols; x++) { - if(aux.at< unsigned char >(y, x) == borderValue) continue; - img.at< unsigned char >(y, x) = aux.at< unsigned char >(y, x); - } - } - - return img; -} - - - -/** - * @brief Draws markers in perspective and detect them - */ -class CV_ArucoDetectionPerspective : public cvtest::BaseTest { - public: - CV_ArucoDetectionPerspective(); - - enum checkWithParameter{ - USE_APRILTAG=1, /// Detect marker candidates :: using AprilTag - DETECT_INVERTED_MARKER, /// Check if there is a white marker - }; - - protected: - void run(int); -}; - - -CV_ArucoDetectionPerspective::CV_ArucoDetectionPerspective() {} - - -void CV_ArucoDetectionPerspective::run(int tryWith) { - - int iter = 0; - int szEnclosed = 0; - Mat cameraMatrix = Mat::eye(3, 3, CV_64FC1); - Size imgSize(500, 500); - cameraMatrix.at< double >(0, 0) = cameraMatrix.at< double >(1, 1) = 650; - cameraMatrix.at< double >(0, 2) = imgSize.width / 2; - cameraMatrix.at< double >(1, 2) = imgSize.height / 2; - Ptr dictionary = aruco::getPredefinedDictionary(aruco::DICT_6X6_250); - - // detect from different positions - for(double distance = 0.1; distance < 0.7; distance += 0.2) { - for(int pitch = 0; pitch < 360; pitch += (distance == 0.1? 60:180)) { - for(int yaw = 70; yaw <= 120; yaw += 40){ - int currentId = iter % 250; - int markerBorder = iter % 2 + 1; - iter++; - vector< Point2f > groundTruthCorners; - - Ptr params = aruco::DetectorParameters::create(); - params->minDistanceToBorder = 1; - params->markerBorderBits = markerBorder; - - /// create synthetic image - Mat img= - projectMarker(dictionary, currentId, cameraMatrix, deg2rad(yaw), deg2rad(pitch), - distance, imgSize, markerBorder, groundTruthCorners, szEnclosed); - // marker :: Inverted - if(CV_ArucoDetectionPerspective::DETECT_INVERTED_MARKER == tryWith){ - img = ~img; - params->detectInvertedMarker = true; - } - - if(CV_ArucoDetectionPerspective::USE_APRILTAG == tryWith){ - params->cornerRefinementMethod = cv::aruco::CORNER_REFINE_APRILTAG; - } - - // detect markers - vector< vector< Point2f > > corners; - vector< int > ids; - aruco::detectMarkers(img, dictionary, corners, ids, params); - - // check results - if(ids.size() != 1 || (ids.size() == 1 && ids[0] != currentId)) { - if(ids.size() != 1) - ts->printf(cvtest::TS::LOG, "Incorrect number of detected markers"); - else - ts->printf(cvtest::TS::LOG, "Incorrect marker id"); - ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); - return; - } - for(int c = 0; c < 4; c++) { - double dist = cv::norm(groundTruthCorners[c] - corners[0][c]); // TODO cvtest - if(CV_ArucoDetectionPerspective::DETECT_INVERTED_MARKER == tryWith){ - if(szEnclosed && dist > 3){ - ts->printf(cvtest::TS::LOG, "Incorrect marker corners position"); - ts->set_failed_test_info(cvtest::TS::FAIL_BAD_ACCURACY); - return; - } - if(!szEnclosed && dist >15){ - ts->printf(cvtest::TS::LOG, "Incorrect marker corners position"); - ts->set_failed_test_info(cvtest::TS::FAIL_BAD_ACCURACY); - return; - } - } - else{ - if(dist > 5) { - ts->printf(cvtest::TS::LOG, "Incorrect marker corners position"); - ts->set_failed_test_info(cvtest::TS::FAIL_BAD_ACCURACY); - return; - } - } - } - } - } - // change the state :: to detect an enclosed inverted marker - if( CV_ArucoDetectionPerspective::DETECT_INVERTED_MARKER == tryWith && distance == 0.1 ){ - distance -= 0.1; - szEnclosed++; - } - } -} - - -/** - * @brief Check max and min size in marker detection parameters - */ -class CV_ArucoDetectionMarkerSize : public cvtest::BaseTest { - public: - CV_ArucoDetectionMarkerSize(); - - protected: - void run(int); -}; - - -CV_ArucoDetectionMarkerSize::CV_ArucoDetectionMarkerSize() {} - - -void CV_ArucoDetectionMarkerSize::run(int) { - - Ptr dictionary = aruco::getPredefinedDictionary(aruco::DICT_6X6_250); - int markerSide = 20; - int imageSize = 200; - - // 10 cases - for(int i = 0; i < 10; i++) { - Mat marker; - int id = 10 + i * 20; - - // create synthetic image - Mat img = Mat(imageSize, imageSize, CV_8UC1, Scalar::all(255)); - aruco::drawMarker(dictionary, id, markerSide, marker); - Mat aux = img.colRange(30, 30 + markerSide).rowRange(50, 50 + markerSide); - marker.copyTo(aux); - - vector< vector< Point2f > > corners; - vector< int > ids; - Ptr params = aruco::DetectorParameters::create(); - - // set a invalid minMarkerPerimeterRate - params->minMarkerPerimeterRate = min(4., (4. * markerSide) / float(imageSize) + 0.1); - aruco::detectMarkers(img, dictionary, corners, ids, params); - if(corners.size() != 0) { - ts->printf(cvtest::TS::LOG, "Error in DetectorParameters::minMarkerPerimeterRate"); - ts->set_failed_test_info(cvtest::TS::FAIL_BAD_ACCURACY); - return; - } - - // set an valid minMarkerPerimeterRate - params->minMarkerPerimeterRate = max(0., (4. * markerSide) / float(imageSize) - 0.1); - aruco::detectMarkers(img, dictionary, corners, ids, params); - if(corners.size() != 1 || (corners.size() == 1 && ids[0] != id)) { - ts->printf(cvtest::TS::LOG, "Error in DetectorParameters::minMarkerPerimeterRate"); - ts->set_failed_test_info(cvtest::TS::FAIL_BAD_ACCURACY); - return; - } - - // set a invalid maxMarkerPerimeterRate - params->maxMarkerPerimeterRate = min(4., (4. * markerSide) / float(imageSize) - 0.1); - aruco::detectMarkers(img, dictionary, corners, ids, params); - if(corners.size() != 0) { - ts->printf(cvtest::TS::LOG, "Error in DetectorParameters::maxMarkerPerimeterRate"); - ts->set_failed_test_info(cvtest::TS::FAIL_BAD_ACCURACY); - return; - } - - // set an valid maxMarkerPerimeterRate - params->maxMarkerPerimeterRate = max(0., (4. * markerSide) / float(imageSize) + 0.1); - aruco::detectMarkers(img, dictionary, corners, ids, params); - if(corners.size() != 1 || (corners.size() == 1 && ids[0] != id)) { - ts->printf(cvtest::TS::LOG, "Error in DetectorParameters::maxMarkerPerimeterRate"); - ts->set_failed_test_info(cvtest::TS::FAIL_BAD_ACCURACY); - return; - } - } -} - - -/** - * @brief Check error correction in marker bits - */ -class CV_ArucoBitCorrection : public cvtest::BaseTest { - public: - CV_ArucoBitCorrection(); - - protected: - void run(int); -}; - - -CV_ArucoBitCorrection::CV_ArucoBitCorrection() {} - - -void CV_ArucoBitCorrection::run(int) { - - Ptr _dictionary = aruco::getPredefinedDictionary(aruco::DICT_6X6_250); - aruco::Dictionary &dictionary = *_dictionary; - aruco::Dictionary dictionary2 = *_dictionary; - int markerSide = 50; - int imageSize = 150; - Ptr params = aruco::DetectorParameters::create(); - - // 10 markers - for(int l = 0; l < 10; l++) { - Mat marker; - int id = 10 + l * 20; - - Mat currentCodeBytes = dictionary.bytesList.rowRange(id, id + 1); - - // 5 valid cases - for(int i = 0; i < 5; i++) { - // how many bit errors (the error is low enough so it can be corrected) - params->errorCorrectionRate = 0.2 + i * 0.1; - int errors = - (int)std::floor(dictionary.maxCorrectionBits * params->errorCorrectionRate - 1.); - - // create erroneous marker in currentCodeBits - Mat currentCodeBits = - aruco::Dictionary::getBitsFromByteList(currentCodeBytes, dictionary.markerSize); - for(int e = 0; e < errors; e++) { - currentCodeBits.ptr< unsigned char >()[2 * e] = - !currentCodeBits.ptr< unsigned char >()[2 * e]; - } - - // add erroneous marker to dictionary2 in order to create the erroneous marker image - Mat currentCodeBytesError = aruco::Dictionary::getByteListFromBits(currentCodeBits); - currentCodeBytesError.copyTo(dictionary2.bytesList.rowRange(id, id + 1)); - Mat img = Mat(imageSize, imageSize, CV_8UC1, Scalar::all(255)); - dictionary2.drawMarker(id, markerSide, marker); - Mat aux = img.colRange(30, 30 + markerSide).rowRange(50, 50 + markerSide); - marker.copyTo(aux); - - // try to detect using original dictionary - vector< vector< Point2f > > corners; - vector< int > ids; - aruco::detectMarkers(img, _dictionary, corners, ids, params); - if(corners.size() != 1 || (corners.size() == 1 && ids[0] != id)) { - ts->printf(cvtest::TS::LOG, "Error in bit correction"); - ts->set_failed_test_info(cvtest::TS::FAIL_BAD_ACCURACY); - return; - } - } - - // 5 invalid cases - for(int i = 0; i < 5; i++) { - // how many bit errors (the error is too high to be corrected) - params->errorCorrectionRate = 0.2 + i * 0.1; - int errors = - (int)std::floor(dictionary.maxCorrectionBits * params->errorCorrectionRate + 1.); - - // create erroneous marker in currentCodeBits - Mat currentCodeBits = - aruco::Dictionary::getBitsFromByteList(currentCodeBytes, dictionary.markerSize); - for(int e = 0; e < errors; e++) { - currentCodeBits.ptr< unsigned char >()[2 * e] = - !currentCodeBits.ptr< unsigned char >()[2 * e]; - } - - // dictionary3 is only composed by the modified marker (in its original form) - Ptr _dictionary3 = makePtr( - dictionary2.bytesList.rowRange(id, id + 1).clone(), - dictionary.markerSize, - dictionary.maxCorrectionBits); - - // add erroneous marker to dictionary2 in order to create the erroneous marker image - Mat currentCodeBytesError = aruco::Dictionary::getByteListFromBits(currentCodeBits); - currentCodeBytesError.copyTo(dictionary2.bytesList.rowRange(id, id + 1)); - Mat img = Mat(imageSize, imageSize, CV_8UC1, Scalar::all(255)); - dictionary2.drawMarker(id, markerSide, marker); - Mat aux = img.colRange(30, 30 + markerSide).rowRange(50, 50 + markerSide); - marker.copyTo(aux); - - // try to detect using dictionary3, it should fail - vector< vector< Point2f > > corners; - vector< int > ids; - aruco::detectMarkers(img, _dictionary3, corners, ids, params); - if(corners.size() != 0) { - ts->printf(cvtest::TS::LOG, "Error in DetectorParameters::errorCorrectionRate"); - ts->set_failed_test_info(cvtest::TS::FAIL_BAD_ACCURACY); - return; - } - } - } -} - -typedef CV_ArucoDetectionPerspective CV_AprilTagDetectionPerspective; -typedef CV_ArucoDetectionPerspective CV_InvertedArucoDetectionPerspective; - -TEST(CV_InvertedArucoDetectionPerspective, algorithmic) { - CV_InvertedArucoDetectionPerspective test; - test.safe_run(CV_ArucoDetectionPerspective::DETECT_INVERTED_MARKER); -} - -TEST(CV_AprilTagDetectionPerspective, algorithmic) { - CV_AprilTagDetectionPerspective test; - test.safe_run(CV_ArucoDetectionPerspective::USE_APRILTAG); -} - -TEST(CV_ArucoDetectionSimple, algorithmic) { - CV_ArucoDetectionSimple test; - test.safe_run(); -} - -TEST(CV_ArucoDetectionPerspective, algorithmic) { - CV_ArucoDetectionPerspective test; - test.safe_run(); -} - -TEST(CV_ArucoDetectionMarkerSize, algorithmic) { - CV_ArucoDetectionMarkerSize test; - test.safe_run(); -} - -TEST(CV_ArucoBitCorrection, algorithmic) { - CV_ArucoBitCorrection test; - test.safe_run(); -} - -}} // namespace diff --git a/aruco_pose/vendor/aruco/test/test_boarddetection.cpp b/aruco_pose/vendor/aruco/test/test_boarddetection.cpp deleted file mode 100644 index 474bc372..00000000 --- a/aruco_pose/vendor/aruco/test/test_boarddetection.cpp +++ /dev/null @@ -1,407 +0,0 @@ -/* -By downloading, copying, installing or using the software you agree to this -license. If you do not agree to this license, do not download, install, -copy or use the software. - - License Agreement - For Open Source Computer Vision Library - (3-clause BSD License) - -Copyright (C) 2013, OpenCV Foundation, all rights reserved. -Third party copyrights are property of their respective owners. - -Redistribution and use in source and binary forms, with or without modification, -are permitted provided that the following conditions are met: - - * Redistributions of source code must retain the above copyright notice, - this list of conditions and the following disclaimer. - - * Redistributions in binary form must reproduce the above copyright notice, - this list of conditions and the following disclaimer in the documentation - and/or other materials provided with the distribution. - - * Neither the names of the copyright holders nor the names of the contributors - may be used to endorse or promote products derived from this software - without specific prior written permission. - -This software is provided by the copyright holders and contributors "as is" and -any express or implied warranties, including, but not limited to, the implied -warranties of merchantability and fitness for a particular purpose are -disclaimed. In no event shall copyright holders or contributors be liable for -any direct, indirect, incidental, special, exemplary, or consequential damages -(including, but not limited to, procurement of substitute goods or services; -loss of use, data, or profits; or business interruption) however caused -and on any theory of liability, whether in contract, strict liability, -or tort (including negligence or otherwise) arising in any way out of -the use of this software, even if advised of the possibility of such damage. -*/ - - -#include "test_precomp.hpp" - -namespace opencv_test { namespace { - -static double deg2rad(double deg) { return deg * CV_PI / 180.; } - -/** - * @brief Get rvec and tvec from yaw, pitch and distance - */ -static void getSyntheticRT(double yaw, double pitch, double distance, Mat &rvec, Mat &tvec) { - - rvec = Mat(3, 1, CV_64FC1); - tvec = Mat(3, 1, CV_64FC1); - - // Rvec - // first put the Z axis aiming to -X (like the camera axis system) - Mat rotZ(3, 1, CV_64FC1); - rotZ.ptr< double >(0)[0] = 0; - rotZ.ptr< double >(0)[1] = 0; - rotZ.ptr< double >(0)[2] = -0.5 * CV_PI; - - Mat rotX(3, 1, CV_64FC1); - rotX.ptr< double >(0)[0] = 0.5 * CV_PI; - rotX.ptr< double >(0)[1] = 0; - rotX.ptr< double >(0)[2] = 0; - - Mat camRvec, camTvec; - composeRT(rotZ, Mat(3, 1, CV_64FC1, Scalar::all(0)), rotX, Mat(3, 1, CV_64FC1, Scalar::all(0)), - camRvec, camTvec); - - // now pitch and yaw angles - Mat rotPitch(3, 1, CV_64FC1); - rotPitch.ptr< double >(0)[0] = 0; - rotPitch.ptr< double >(0)[1] = pitch; - rotPitch.ptr< double >(0)[2] = 0; - - Mat rotYaw(3, 1, CV_64FC1); - rotYaw.ptr< double >(0)[0] = yaw; - rotYaw.ptr< double >(0)[1] = 0; - rotYaw.ptr< double >(0)[2] = 0; - - composeRT(rotPitch, Mat(3, 1, CV_64FC1, Scalar::all(0)), rotYaw, - Mat(3, 1, CV_64FC1, Scalar::all(0)), rvec, tvec); - - // compose both rotations - composeRT(camRvec, Mat(3, 1, CV_64FC1, Scalar::all(0)), rvec, - Mat(3, 1, CV_64FC1, Scalar::all(0)), rvec, tvec); - - // Tvec, just move in z (camera) direction the specific distance - tvec.ptr< double >(0)[0] = 0.; - tvec.ptr< double >(0)[1] = 0.; - tvec.ptr< double >(0)[2] = distance; -} - -/** - * @brief Project a synthetic marker - */ -static void projectMarker(Mat &img, Ptr &dictionary, int id, - vector< Point3f > markerObjPoints, Mat cameraMatrix, Mat rvec, Mat tvec, - int markerBorder) { - - - // canonical image - Mat markerImg; - const int markerSizePixels = 100; - aruco::drawMarker(dictionary, id, markerSizePixels, markerImg, markerBorder); - - // projected corners - Mat distCoeffs(5, 1, CV_64FC1, Scalar::all(0)); - vector< Point2f > corners; - projectPoints(markerObjPoints, rvec, tvec, cameraMatrix, distCoeffs, corners); - - // get perspective transform - vector< Point2f > originalCorners; - originalCorners.push_back(Point2f(0, 0)); - originalCorners.push_back(Point2f((float)markerSizePixels, 0)); - originalCorners.push_back(Point2f((float)markerSizePixels, (float)markerSizePixels)); - originalCorners.push_back(Point2f(0, (float)markerSizePixels)); - Mat transformation = getPerspectiveTransform(originalCorners, corners); - - // apply transformation - Mat aux; - const char borderValue = 127; - warpPerspective(markerImg, aux, transformation, img.size(), INTER_NEAREST, BORDER_CONSTANT, - Scalar::all(borderValue)); - - // copy only not-border pixels - for(int y = 0; y < aux.rows; y++) { - for(int x = 0; x < aux.cols; x++) { - if(aux.at< unsigned char >(y, x) == borderValue) continue; - img.at< unsigned char >(y, x) = aux.at< unsigned char >(y, x); - } - } -} - - -/** - * @brief Get a synthetic image of GridBoard in perspective - */ -static Mat projectBoard(Ptr &board, Mat cameraMatrix, double yaw, double pitch, - double distance, Size imageSize, int markerBorder) { - - Mat rvec, tvec; - getSyntheticRT(yaw, pitch, distance, rvec, tvec); - - Mat img = Mat(imageSize, CV_8UC1, Scalar::all(255)); - for(unsigned int m = 0; m < board->ids.size(); m++) { - projectMarker(img, board->dictionary, board->ids[m], board->objPoints[m], cameraMatrix, rvec, - tvec, markerBorder); - } - - return img; -} - - - -/** - * @brief Check pose estimation of aruco board - */ -class CV_ArucoBoardPose : public cvtest::BaseTest { - public: - CV_ArucoBoardPose(); - - protected: - void run(int); -}; - - -CV_ArucoBoardPose::CV_ArucoBoardPose() {} - - -void CV_ArucoBoardPose::run(int) { - - int iter = 0; - Mat cameraMatrix = Mat::eye(3, 3, CV_64FC1); - Size imgSize(500, 500); - Ptr dictionary = aruco::getPredefinedDictionary(aruco::DICT_6X6_250); - Ptr gridboard = aruco::GridBoard::create(3, 3, 0.02f, 0.005f, dictionary); - Ptr board = gridboard.staticCast(); - cameraMatrix.at< double >(0, 0) = cameraMatrix.at< double >(1, 1) = 650; - cameraMatrix.at< double >(0, 2) = imgSize.width / 2; - cameraMatrix.at< double >(1, 2) = imgSize.height / 2; - Mat distCoeffs(5, 1, CV_64FC1, Scalar::all(0)); - - // for different perspectives - for(double distance = 0.2; distance <= 0.4; distance += 0.2) { - for(int yaw = 0; yaw < 360; yaw += 100) { - for(int pitch = 30; pitch <= 90; pitch += 50) { - for(unsigned int i = 0; i < gridboard->ids.size(); i++) - gridboard->ids[i] = (iter + int(i)) % 250; - int markerBorder = iter % 2 + 1; - iter++; - - // create synthetic image - Mat img = projectBoard(gridboard, cameraMatrix, deg2rad(pitch), deg2rad(yaw), distance, - imgSize, markerBorder); - - - vector< vector< Point2f > > corners; - vector< int > ids; - Ptr params = aruco::DetectorParameters::create(); - params->minDistanceToBorder = 3; - params->markerBorderBits = markerBorder; - aruco::detectMarkers(img, dictionary, corners, ids, params); - - if(ids.size() == 0) { - ts->printf(cvtest::TS::LOG, "Marker detection failed in Board test"); - ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); - return; - } - - // estimate pose - Mat rvec, tvec; - aruco::estimatePoseBoard(corners, ids, board, cameraMatrix, distCoeffs, rvec, tvec); - - // check result - for(unsigned int i = 0; i < ids.size(); i++) { - int foundIdx = -1; - for(unsigned int j = 0; j < gridboard->ids.size(); j++) { - if(gridboard->ids[j] == ids[i]) { - foundIdx = int(j); - break; - } - } - - if(foundIdx == -1) { - ts->printf(cvtest::TS::LOG, "Marker detected with wrong ID in Board test"); - ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); - return; - } - - vector< Point2f > projectedCorners; - projectPoints(gridboard->objPoints[foundIdx], rvec, tvec, cameraMatrix, distCoeffs, - projectedCorners); - - for(int c = 0; c < 4; c++) { - double repError = cv::norm(projectedCorners[c] - corners[i][c]); // TODO cvtest - if(repError > 5.) { - ts->printf(cvtest::TS::LOG, "Corner reprojection error too high"); - ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); - return; - } - } - } - } - } - } -} - - - -/** - * @brief Check refine strategy - */ -class CV_ArucoRefine : public cvtest::BaseTest { - public: - CV_ArucoRefine(); - - protected: - void run(int); -}; - - -CV_ArucoRefine::CV_ArucoRefine() {} - - -void CV_ArucoRefine::run(int) { - - int iter = 0; - Mat cameraMatrix = Mat::eye(3, 3, CV_64FC1); - Size imgSize(500, 500); - Ptr dictionary = aruco::getPredefinedDictionary(aruco::DICT_6X6_250); - Ptr gridboard = aruco::GridBoard::create(3, 3, 0.02f, 0.005f, dictionary); - Ptr board = gridboard.staticCast(); - cameraMatrix.at< double >(0, 0) = cameraMatrix.at< double >(1, 1) = 650; - cameraMatrix.at< double >(0, 2) = imgSize.width / 2; - cameraMatrix.at< double >(1, 2) = imgSize.height / 2; - Mat distCoeffs(5, 1, CV_64FC1, Scalar::all(0)); - - // for different perspectives - for(double distance = 0.2; distance <= 0.4; distance += 0.2) { - for(int yaw = 0; yaw < 360; yaw += 100) { - for(int pitch = 30; pitch <= 90; pitch += 50) { - for(unsigned int i = 0; i < gridboard->ids.size(); i++) - gridboard->ids[i] = (iter + int(i)) % 250; - int markerBorder = iter % 2 + 1; - iter++; - - // create synthetic image - Mat img = projectBoard(gridboard, cameraMatrix, deg2rad(pitch), deg2rad(yaw), distance, - imgSize, markerBorder); - - - // detect markers - vector< vector< Point2f > > corners, rejected; - vector< int > ids; - Ptr params = aruco::DetectorParameters::create(); - params->minDistanceToBorder = 3; - params->cornerRefinementMethod = aruco::CORNER_REFINE_SUBPIX; - params->markerBorderBits = markerBorder; - aruco::detectMarkers(img, dictionary, corners, ids, params, rejected); - - // remove a marker from detection - int markersBeforeDelete = (int)ids.size(); - if(markersBeforeDelete < 2) continue; - - rejected.push_back(corners[0]); - corners.erase(corners.begin(), corners.begin() + 1); - ids.erase(ids.begin(), ids.begin() + 1); - - // try to refind the erased marker - aruco::refineDetectedMarkers(img, board, corners, ids, rejected, cameraMatrix, - distCoeffs, 10, 3., true, noArray(), params); - - // check result - if((int)ids.size() < markersBeforeDelete) { - ts->printf(cvtest::TS::LOG, "Error in refine detected markers"); - ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); - return; - } - } - } - } -} - - - - -TEST(CV_ArucoBoardPose, accuracy) { - CV_ArucoBoardPose test; - test.safe_run(); -} - -TEST(CV_ArucoRefine, accuracy) { - CV_ArucoRefine test; - test.safe_run(); -} - -TEST(CV_ArucoBoardPose, CheckNegativeZ) -{ - double matrixData[9] = { -3.9062571886921410e+02, 0., 4.2350000000000000e+02, - 0., 3.9062571886921410e+02, 2.3950000000000000e+02, - 0., 0., 1 }; - cv::Mat cameraMatrix = cv::Mat(3, 3, CV_64F, matrixData); - - cv::Ptr boardPtr(new cv::aruco::Board); - cv::aruco::Board& board = *boardPtr; - board.ids.push_back(0); - board.ids.push_back(1); - - vector pts3d; - pts3d.push_back(cv::Point3f(0.326198f, -0.030621f, 0.303620f)); - pts3d.push_back(cv::Point3f(0.325340f, -0.100594f, 0.301862f)); - pts3d.push_back(cv::Point3f(0.255859f, -0.099530f, 0.293416f)); - pts3d.push_back(cv::Point3f(0.256717f, -0.029557f, 0.295174f)); - board.objPoints.push_back(pts3d); - pts3d.clear(); - pts3d.push_back(cv::Point3f(-0.033144f, -0.034819f, 0.245216f)); - pts3d.push_back(cv::Point3f(-0.035507f, -0.104705f, 0.241987f)); - pts3d.push_back(cv::Point3f(-0.105289f, -0.102120f, 0.237120f)); - pts3d.push_back(cv::Point3f(-0.102926f, -0.032235f, 0.240349f)); - board.objPoints.push_back(pts3d); - - vector > corners; - vector pts2d; - pts2d.push_back(cv::Point2f(37.7f, 203.3f)); - pts2d.push_back(cv::Point2f(38.5f, 120.5f)); - pts2d.push_back(cv::Point2f(105.5f, 115.8f)); - pts2d.push_back(cv::Point2f(104.2f, 202.7f)); - corners.push_back(pts2d); - pts2d.clear(); - pts2d.push_back(cv::Point2f(476.0f, 184.2f)); - pts2d.push_back(cv::Point2f(479.6f, 73.8f)); - pts2d.push_back(cv::Point2f(590.9f, 77.0f)); - pts2d.push_back(cv::Point2f(587.5f, 188.1f)); - corners.push_back(pts2d); - - Vec3d rvec, tvec; - int nUsed = cv::aruco::estimatePoseBoard(corners, board.ids, boardPtr, cameraMatrix, Mat(), rvec, tvec); - ASSERT_EQ(nUsed, 2); - - cv::Matx33d rotm; cv::Point3d out; - cv::Rodrigues(rvec, rotm); - out = cv::Point3d(tvec) + rotm*Point3d(board.objPoints[0][0]); - ASSERT_GT(out.z, 0); - - corners.clear(); pts2d.clear(); - pts2d.push_back(cv::Point2f(38.4f, 204.5f)); - pts2d.push_back(cv::Point2f(40.0f, 124.7f)); - pts2d.push_back(cv::Point2f(102.0f, 119.1f)); - pts2d.push_back(cv::Point2f(99.9f, 203.6f)); - corners.push_back(pts2d); - pts2d.clear(); - pts2d.push_back(cv::Point2f(476.0f, 184.3f)); - pts2d.push_back(cv::Point2f(479.2f, 75.1f)); - pts2d.push_back(cv::Point2f(588.7f, 79.2f)); - pts2d.push_back(cv::Point2f(586.3f, 188.5f)); - corners.push_back(pts2d); - - nUsed = cv::aruco::estimatePoseBoard(corners, board.ids, boardPtr, cameraMatrix, Mat(), rvec, tvec, true); - ASSERT_EQ(nUsed, 2); - - cv::Rodrigues(rvec, rotm); - out = cv::Point3d(tvec) + rotm*Point3d(board.objPoints[0][0]); - ASSERT_GT(out.z, 0); -} - -}} // namespace diff --git a/aruco_pose/vendor/aruco/test/test_charucodetection.cpp b/aruco_pose/vendor/aruco/test/test_charucodetection.cpp deleted file mode 100644 index 44b6f3f8..00000000 --- a/aruco_pose/vendor/aruco/test/test_charucodetection.cpp +++ /dev/null @@ -1,605 +0,0 @@ -/* -By downloading, copying, installing or using the software you agree to this -license. If you do not agree to this license, do not download, install, -copy or use the software. - - License Agreement - For Open Source Computer Vision Library - (3-clause BSD License) - -Copyright (C) 2013, OpenCV Foundation, all rights reserved. -Third party copyrights are property of their respective owners. - -Redistribution and use in source and binary forms, with or without modification, -are permitted provided that the following conditions are met: - - * Redistributions of source code must retain the above copyright notice, - this list of conditions and the following disclaimer. - - * Redistributions in binary form must reproduce the above copyright notice, - this list of conditions and the following disclaimer in the documentation - and/or other materials provided with the distribution. - - * Neither the names of the copyright holders nor the names of the contributors - may be used to endorse or promote products derived from this software - without specific prior written permission. - -This software is provided by the copyright holders and contributors "as is" and -any express or implied warranties, including, but not limited to, the implied -warranties of merchantability and fitness for a particular purpose are -disclaimed. In no event shall copyright holders or contributors be liable for -any direct, indirect, incidental, special, exemplary, or consequential damages -(including, but not limited to, procurement of substitute goods or services; -loss of use, data, or profits; or business interruption) however caused -and on any theory of liability, whether in contract, strict liability, -or tort (including negligence or otherwise) arising in any way out of -the use of this software, even if advised of the possibility of such damage. -*/ - - -#include "test_precomp.hpp" - -namespace opencv_test { namespace { - -static double deg2rad(double deg) { return deg * CV_PI / 180.; } - -/** - * @brief Get rvec and tvec from yaw, pitch and distance - */ -static void getSyntheticRT(double yaw, double pitch, double distance, Mat &rvec, Mat &tvec) { - - rvec = Mat(3, 1, CV_64FC1); - tvec = Mat(3, 1, CV_64FC1); - - // Rvec - // first put the Z axis aiming to -X (like the camera axis system) - Mat rotZ(3, 1, CV_64FC1); - rotZ.ptr< double >(0)[0] = 0; - rotZ.ptr< double >(0)[1] = 0; - rotZ.ptr< double >(0)[2] = -0.5 * CV_PI; - - Mat rotX(3, 1, CV_64FC1); - rotX.ptr< double >(0)[0] = 0.5 * CV_PI; - rotX.ptr< double >(0)[1] = 0; - rotX.ptr< double >(0)[2] = 0; - - Mat camRvec, camTvec; - composeRT(rotZ, Mat(3, 1, CV_64FC1, Scalar::all(0)), rotX, Mat(3, 1, CV_64FC1, Scalar::all(0)), - camRvec, camTvec); - - // now pitch and yaw angles - Mat rotPitch(3, 1, CV_64FC1); - rotPitch.ptr< double >(0)[0] = 0; - rotPitch.ptr< double >(0)[1] = pitch; - rotPitch.ptr< double >(0)[2] = 0; - - Mat rotYaw(3, 1, CV_64FC1); - rotYaw.ptr< double >(0)[0] = yaw; - rotYaw.ptr< double >(0)[1] = 0; - rotYaw.ptr< double >(0)[2] = 0; - - composeRT(rotPitch, Mat(3, 1, CV_64FC1, Scalar::all(0)), rotYaw, - Mat(3, 1, CV_64FC1, Scalar::all(0)), rvec, tvec); - - // compose both rotations - composeRT(camRvec, Mat(3, 1, CV_64FC1, Scalar::all(0)), rvec, - Mat(3, 1, CV_64FC1, Scalar::all(0)), rvec, tvec); - - // Tvec, just move in z (camera) direction the specific distance - tvec.ptr< double >(0)[0] = 0.; - tvec.ptr< double >(0)[1] = 0.; - tvec.ptr< double >(0)[2] = distance; -} - -/** - * @brief Project a synthetic marker - */ -static void projectMarker(Mat &img, Ptr dictionary, int id, - vector< Point3f > markerObjPoints, Mat cameraMatrix, Mat rvec, Mat tvec, - int markerBorder) { - - - Mat markerImg; - const int markerSizePixels = 100; - aruco::drawMarker(dictionary, id, markerSizePixels, markerImg, markerBorder); - - Mat distCoeffs(5, 1, CV_64FC1, Scalar::all(0)); - vector< Point2f > corners; - projectPoints(markerObjPoints, rvec, tvec, cameraMatrix, distCoeffs, corners); - - vector< Point2f > originalCorners; - originalCorners.push_back(Point2f(0, 0)); - originalCorners.push_back(Point2f((float)markerSizePixels, 0)); - originalCorners.push_back(Point2f((float)markerSizePixels, (float)markerSizePixels)); - originalCorners.push_back(Point2f(0, (float)markerSizePixels)); - - Mat transformation = getPerspectiveTransform(originalCorners, corners); - - Mat aux; - const char borderValue = 127; - warpPerspective(markerImg, aux, transformation, img.size(), INTER_NEAREST, BORDER_CONSTANT, - Scalar::all(borderValue)); - - // copy only not-border pixels - for(int y = 0; y < aux.rows; y++) { - for(int x = 0; x < aux.cols; x++) { - if(aux.at< unsigned char >(y, x) == borderValue) continue; - img.at< unsigned char >(y, x) = aux.at< unsigned char >(y, x); - } - } -} - -/** - * @brief Get a synthetic image of Chessboard in perspective - */ -static Mat projectChessboard(int squaresX, int squaresY, float squareSize, Size imageSize, - Mat cameraMatrix, Mat rvec, Mat tvec) { - - Mat img(imageSize, CV_8UC1, Scalar::all(255)); - Mat distCoeffs(5, 1, CV_64FC1, Scalar::all(0)); - - for(int y = 0; y < squaresY; y++) { - float startY = float(y) * squareSize; - for(int x = 0; x < squaresX; x++) { - if(y % 2 != x % 2) continue; - float startX = float(x) * squareSize; - - vector< Point3f > squareCorners; - squareCorners.push_back(Point3f(startX, startY, 0)); - squareCorners.push_back(squareCorners[0] + Point3f(squareSize, 0, 0)); - squareCorners.push_back(squareCorners[0] + Point3f(squareSize, squareSize, 0)); - squareCorners.push_back(squareCorners[0] + Point3f(0, squareSize, 0)); - - vector< vector< Point2f > > projectedCorners; - projectedCorners.push_back(vector< Point2f >()); - projectPoints(squareCorners, rvec, tvec, cameraMatrix, distCoeffs, projectedCorners[0]); - - vector< vector< Point > > projectedCornersInt; - projectedCornersInt.push_back(vector< Point >()); - - for(int k = 0; k < 4; k++) - projectedCornersInt[0] - .push_back(Point((int)projectedCorners[0][k].x, (int)projectedCorners[0][k].y)); - - fillPoly(img, projectedCornersInt, Scalar::all(0)); - } - } - - return img; -} - - -/** - * @brief Check pose estimation of charuco board - */ -static Mat projectCharucoBoard(Ptr &board, Mat cameraMatrix, double yaw, - double pitch, double distance, Size imageSize, int markerBorder, - Mat &rvec, Mat &tvec) { - - getSyntheticRT(yaw, pitch, distance, rvec, tvec); - - // project markers - Mat img = Mat(imageSize, CV_8UC1, Scalar::all(255)); - for(unsigned int m = 0; m < board->ids.size(); m++) { - projectMarker(img, board->dictionary, board->ids[m], board->objPoints[m], cameraMatrix, rvec, - tvec, markerBorder); - } - - // project chessboard - Mat chessboard = - projectChessboard(board->getChessboardSize().width, board->getChessboardSize().height, - board->getSquareLength(), imageSize, cameraMatrix, rvec, tvec); - - for(unsigned int i = 0; i < chessboard.total(); i++) { - if(chessboard.ptr< unsigned char >()[i] == 0) { - img.ptr< unsigned char >()[i] = 0; - } - } - - return img; -} - - - - -/** - * @brief Check Charuco detection - */ -class CV_CharucoDetection : public cvtest::BaseTest { - public: - CV_CharucoDetection(); - - protected: - void run(int); -}; - - -CV_CharucoDetection::CV_CharucoDetection() {} - - -void CV_CharucoDetection::run(int) { - - int iter = 0; - Mat cameraMatrix = Mat::eye(3, 3, CV_64FC1); - Size imgSize(500, 500); - Ptr dictionary = aruco::getPredefinedDictionary(aruco::DICT_6X6_250); - Ptr board = aruco::CharucoBoard::create(4, 4, 0.03f, 0.015f, dictionary); - - cameraMatrix.at< double >(0, 0) = cameraMatrix.at< double >(1, 1) = 650; - cameraMatrix.at< double >(0, 2) = imgSize.width / 2; - cameraMatrix.at< double >(1, 2) = imgSize.height / 2; - - Mat distCoeffs(5, 1, CV_64FC1, Scalar::all(0)); - - // for different perspectives - for(double distance = 0.2; distance <= 0.4; distance += 0.2) { - for(int yaw = 0; yaw < 360; yaw += 100) { - for(int pitch = 30; pitch <= 90; pitch += 50) { - - int markerBorder = iter % 2 + 1; - iter++; - - // create synthetic image - Mat rvec, tvec; - Mat img = projectCharucoBoard(board, cameraMatrix, deg2rad(pitch), deg2rad(yaw), - distance, imgSize, markerBorder, rvec, tvec); - - // detect markers - vector< vector< Point2f > > corners; - vector< int > ids; - Ptr params = aruco::DetectorParameters::create(); - params->minDistanceToBorder = 3; - params->markerBorderBits = markerBorder; - aruco::detectMarkers(img, dictionary, corners, ids, params); - - if(ids.size() == 0) { - ts->printf(cvtest::TS::LOG, "Marker detection failed"); - ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); - return; - } - - // interpolate charuco corners - vector< Point2f > charucoCorners; - vector< int > charucoIds; - - if(iter % 2 == 0) { - aruco::interpolateCornersCharuco(corners, ids, img, board, charucoCorners, - charucoIds); - } else { - aruco::interpolateCornersCharuco(corners, ids, img, board, charucoCorners, - charucoIds, cameraMatrix, distCoeffs); - } - - // check results - vector< Point2f > projectedCharucoCorners; - projectPoints(board->chessboardCorners, rvec, tvec, cameraMatrix, distCoeffs, - projectedCharucoCorners); - - for(unsigned int i = 0; i < charucoIds.size(); i++) { - - int currentId = charucoIds[i]; - - if(currentId >= (int)board->chessboardCorners.size()) { - ts->printf(cvtest::TS::LOG, "Invalid Charuco corner id"); - ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); - return; - } - - double repError = cv::norm(charucoCorners[i] - projectedCharucoCorners[currentId]); // TODO cvtest - - - if(repError > 5.) { - ts->printf(cvtest::TS::LOG, "Charuco corner reprojection error too high"); - ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); - return; - } - } - } - } - } -} - - - -/** - * @brief Check charuco pose estimation - */ -class CV_CharucoPoseEstimation : public cvtest::BaseTest { - public: - CV_CharucoPoseEstimation(); - - protected: - void run(int); -}; - - -CV_CharucoPoseEstimation::CV_CharucoPoseEstimation() {} - - -void CV_CharucoPoseEstimation::run(int) { - - int iter = 0; - Mat cameraMatrix = Mat::eye(3, 3, CV_64FC1); - Size imgSize(500, 500); - Ptr dictionary = aruco::getPredefinedDictionary(aruco::DICT_6X6_250); - Ptr board = aruco::CharucoBoard::create(4, 4, 0.03f, 0.015f, dictionary); - - cameraMatrix.at< double >(0, 0) = cameraMatrix.at< double >(1, 1) = 650; - cameraMatrix.at< double >(0, 2) = imgSize.width / 2; - cameraMatrix.at< double >(1, 2) = imgSize.height / 2; - - Mat distCoeffs(5, 1, CV_64FC1, Scalar::all(0)); - // for different perspectives - for(double distance = 0.2; distance <= 0.4; distance += 0.2) { - for(int yaw = 0; yaw < 360; yaw += 100) { - for(int pitch = 30; pitch <= 90; pitch += 50) { - - int markerBorder = iter % 2 + 1; - iter++; - - // get synthetic image - Mat rvec, tvec; - Mat img = projectCharucoBoard(board, cameraMatrix, deg2rad(pitch), deg2rad(yaw), - distance, imgSize, markerBorder, rvec, tvec); - - // detect markers - vector< vector< Point2f > > corners; - vector< int > ids; - Ptr params = aruco::DetectorParameters::create(); - params->minDistanceToBorder = 3; - params->markerBorderBits = markerBorder; - aruco::detectMarkers(img, dictionary, corners, ids, params); - - if(ids.size() == 0) { - ts->printf(cvtest::TS::LOG, "Marker detection failed"); - ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); - return; - } - - // interpolate charuco corners - vector< Point2f > charucoCorners; - vector< int > charucoIds; - - if(iter % 2 == 0) { - aruco::interpolateCornersCharuco(corners, ids, img, board, charucoCorners, - charucoIds); - } else { - aruco::interpolateCornersCharuco(corners, ids, img, board, charucoCorners, - charucoIds, cameraMatrix, distCoeffs); - } - - if(charucoIds.size() == 0) continue; - - // estimate charuco pose - aruco::estimatePoseCharucoBoard(charucoCorners, charucoIds, board, cameraMatrix, - distCoeffs, rvec, tvec); - - - // check result - vector< Point2f > projectedCharucoCorners; - projectPoints(board->chessboardCorners, rvec, tvec, cameraMatrix, distCoeffs, - projectedCharucoCorners); - - for(unsigned int i = 0; i < charucoIds.size(); i++) { - - int currentId = charucoIds[i]; - - if(currentId >= (int)board->chessboardCorners.size()) { - ts->printf(cvtest::TS::LOG, "Invalid Charuco corner id"); - ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); - return; - } - - double repError = cv::norm(charucoCorners[i] - projectedCharucoCorners[currentId]); // TODO cvtest - - - if(repError > 5.) { - ts->printf(cvtest::TS::LOG, "Charuco corner reprojection error too high"); - ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); - return; - } - } - } - } - } -} - - -/** - * @brief Check diamond detection - */ -class CV_CharucoDiamondDetection : public cvtest::BaseTest { - public: - CV_CharucoDiamondDetection(); - - protected: - void run(int); -}; - - -CV_CharucoDiamondDetection::CV_CharucoDiamondDetection() {} - - -void CV_CharucoDiamondDetection::run(int) { - - int iter = 0; - Mat cameraMatrix = Mat::eye(3, 3, CV_64FC1); - Size imgSize(500, 500); - Ptr dictionary = aruco::getPredefinedDictionary(aruco::DICT_6X6_250); - float squareLength = 0.03f; - float markerLength = 0.015f; - Ptr board = - aruco::CharucoBoard::create(3, 3, squareLength, markerLength, dictionary); - - cameraMatrix.at< double >(0, 0) = cameraMatrix.at< double >(1, 1) = 650; - cameraMatrix.at< double >(0, 2) = imgSize.width / 2; - cameraMatrix.at< double >(1, 2) = imgSize.height / 2; - - Mat distCoeffs(5, 1, CV_64FC1, Scalar::all(0)); - // for different perspectives - for(double distance = 0.3; distance <= 0.3; distance += 0.2) { - for(int yaw = 0; yaw < 360; yaw += 100) { - for(int pitch = 30; pitch <= 90; pitch += 30) { - - int markerBorder = iter % 2 + 1; - for(int i = 0; i < 4; i++) - board->ids[i] = 4 * iter + i; - iter++; - - // get synthetic image - Mat rvec, tvec; - Mat img = projectCharucoBoard(board, cameraMatrix, deg2rad(pitch), deg2rad(yaw), - distance, imgSize, markerBorder, rvec, tvec); - - // detect markers - vector< vector< Point2f > > corners; - vector< int > ids; - Ptr params = aruco::DetectorParameters::create(); - params->minDistanceToBorder = 0; - params->markerBorderBits = markerBorder; - aruco::detectMarkers(img, dictionary, corners, ids, params); - - if(ids.size() != 4) { - ts->printf(cvtest::TS::LOG, "Not enough markers for diamond detection"); - ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); - return; - } - - // detect diamonds - vector< vector< Point2f > > diamondCorners; - vector< Vec4i > diamondIds; - aruco::detectCharucoDiamond(img, corners, ids, squareLength / markerLength, - diamondCorners, diamondIds, cameraMatrix, distCoeffs); - - // check results - if(diamondIds.size() != 1) { - ts->printf(cvtest::TS::LOG, "Diamond not detected correctly"); - ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); - return; - } - - for(int i = 0; i < 4; i++) { - if(diamondIds[0][i] != board->ids[i]) { - ts->printf(cvtest::TS::LOG, "Incorrect diamond ids"); - ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); - return; - } - } - - - vector< Point2f > projectedDiamondCorners; - projectPoints(board->chessboardCorners, rvec, tvec, cameraMatrix, distCoeffs, - projectedDiamondCorners); - - vector< Point2f > projectedDiamondCornersReorder(4); - projectedDiamondCornersReorder[0] = projectedDiamondCorners[2]; - projectedDiamondCornersReorder[1] = projectedDiamondCorners[3]; - projectedDiamondCornersReorder[2] = projectedDiamondCorners[1]; - projectedDiamondCornersReorder[3] = projectedDiamondCorners[0]; - - - for(unsigned int i = 0; i < 4; i++) { - - double repError = cv::norm(diamondCorners[0][i] - projectedDiamondCornersReorder[i]); // TODO cvtest - - if(repError > 5.) { - ts->printf(cvtest::TS::LOG, "Diamond corner reprojection error too high"); - ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); - return; - } - } - - // estimate diamond pose - vector< Vec3d > estimatedRvec, estimatedTvec; - aruco::estimatePoseSingleMarkers(diamondCorners, squareLength, cameraMatrix, - distCoeffs, estimatedRvec, estimatedTvec); - - // check result - vector< Point2f > projectedDiamondCornersPose; - vector< Vec3f > diamondObjPoints(4); - diamondObjPoints[0] = Vec3f(-squareLength / 2.f, squareLength / 2.f, 0); - diamondObjPoints[1] = Vec3f(squareLength / 2.f, squareLength / 2.f, 0); - diamondObjPoints[2] = Vec3f(squareLength / 2.f, -squareLength / 2.f, 0); - diamondObjPoints[3] = Vec3f(-squareLength / 2.f, -squareLength / 2.f, 0); - projectPoints(diamondObjPoints, estimatedRvec[0], estimatedTvec[0], cameraMatrix, - distCoeffs, projectedDiamondCornersPose); - - for(unsigned int i = 0; i < 4; i++) { - double repError = cv::norm(projectedDiamondCornersReorder[i] - projectedDiamondCornersPose[i]); // TODO cvtest - - if(repError > 5.) { - ts->printf(cvtest::TS::LOG, "Charuco pose error too high"); - ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH); - return; - } - } - } - } - } -} - -/** -* @brief Check charuco board creation -*/ -class CV_CharucoBoardCreation : public cvtest::BaseTest { -public: - CV_CharucoBoardCreation(); - -protected: - void run(int); -}; - -CV_CharucoBoardCreation::CV_CharucoBoardCreation() {} - -void CV_CharucoBoardCreation::run(int) -{ - Ptr dictionary = aruco::getPredefinedDictionary(aruco::DICT_5X5_250); - int n = 6; - - float markerSizeFactor = 0.5f; - - for (float squareSize_mm = 5.0f; squareSize_mm < 35.0f; squareSize_mm += 0.1f) - { - Ptr board_meters = aruco::CharucoBoard::create( - n, n, squareSize_mm*1e-3f, squareSize_mm * markerSizeFactor * 1e-3f, dictionary); - - Ptr board_millimeters = aruco::CharucoBoard::create( - n, n, squareSize_mm, squareSize_mm * markerSizeFactor, dictionary); - - for (size_t i = 0; i < board_meters->nearestMarkerIdx.size(); i++) - { - if (board_meters->nearestMarkerIdx[i].size() != board_millimeters->nearestMarkerIdx[i].size() || - board_meters->nearestMarkerIdx[i][0] != board_millimeters->nearestMarkerIdx[i][0]) - { - ts->printf(cvtest::TS::LOG, - cv::format("Charuco board topology is sensitive to scale with squareSize=%.1f\n", - squareSize_mm).c_str()); - ts->set_failed_test_info(cvtest::TS::FAIL_INVALID_OUTPUT); - break; - } - } - } -} - - -TEST(CV_CharucoDetection, accuracy) { - CV_CharucoDetection test; - test.safe_run(); -} - -TEST(CV_CharucoPoseEstimation, accuracy) { - CV_CharucoPoseEstimation test; - test.safe_run(); -} - -TEST(CV_CharucoDiamondDetection, accuracy) { - CV_CharucoDiamondDetection test; - test.safe_run(); -} - -TEST(CV_CharucoBoardCreation, accuracy) { - CV_CharucoBoardCreation test; - test.safe_run(); -} - -}} // namespace diff --git a/aruco_pose/vendor/aruco/test/test_main.cpp b/aruco_pose/vendor/aruco/test/test_main.cpp deleted file mode 100644 index 0e51ddfd..00000000 --- a/aruco_pose/vendor/aruco/test/test_main.cpp +++ /dev/null @@ -1,6 +0,0 @@ -// This file is part of OpenCV project. -// It is subject to the license terms in the LICENSE file found in the top-level directory -// of this distribution and at http://opencv.org/license.html. -#include "test_precomp.hpp" - -CV_TEST_MAIN("cv") diff --git a/aruco_pose/vendor/aruco/test/test_misc.cpp b/aruco_pose/vendor/aruco/test/test_misc.cpp deleted file mode 100644 index 2224fc57..00000000 --- a/aruco_pose/vendor/aruco/test/test_misc.cpp +++ /dev/null @@ -1,27 +0,0 @@ -// This file is part of OpenCV project. -// It is subject to the license terms in the LICENSE file found in the top-level directory -// of this distribution and at http://opencv.org/license.html. - -#include "test_precomp.hpp" - -namespace opencv_test { namespace { - -TEST(CV_ArucoDrawMarker, regression_1226) -{ - int squares_x = 7; - int squares_y = 5; - int bwidth = 1600; - int bheight = 1200; - - cv::Ptr dict = cv::aruco::getPredefinedDictionary(cv::aruco::DICT_4X4_50); - cv::Ptr board = cv::aruco::CharucoBoard::create(squares_x, squares_y, 1.0, 0.75, dict); - cv::Size sz(bwidth, bheight); - cv::Mat mat; - - ASSERT_NO_THROW( - { - board->draw(sz, mat, 0, 1); - }); -} - -}} // namespace diff --git a/aruco_pose/vendor/aruco/test/test_precomp.hpp b/aruco_pose/vendor/aruco/test/test_precomp.hpp deleted file mode 100644 index d8c903f4..00000000 --- a/aruco_pose/vendor/aruco/test/test_precomp.hpp +++ /dev/null @@ -1,13 +0,0 @@ -// This file is part of OpenCV project. -// It is subject to the license terms in the LICENSE file found in the top-level directory -// of this distribution and at http://opencv.org/license.html. -#ifndef __OPENCV_TEST_PRECOMP_HPP__ -#define __OPENCV_TEST_PRECOMP_HPP__ - -#include "opencv2/ts.hpp" -#include "opencv2/imgproc.hpp" -#include "opencv2/calib3d.hpp" -#include "opencv2/aruco.hpp" -#include - -#endif diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/aruco_board_detection.markdown b/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/aruco_board_detection.markdown deleted file mode 100644 index e956f406..00000000 --- a/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/aruco_board_detection.markdown +++ /dev/null @@ -1,273 +0,0 @@ -Detection of ArUco Boards {#tutorial_aruco_board_detection} -============================== - -An ArUco Board is a set of markers that acts like a single marker in the sense that it provides a -single pose for the camera. - -The most popular board is the one with all the markers in the same plane, since it can be easily printed: - -![](images/gboriginal.png) - -However, boards are not limited to this arrangement and can represent any 2d or 3d layout. - -The difference between a Board and a set of independent markers is that the relative position between -the markers in the Board is known a priori. This allows that the corners of all the markers can be used for -estimating the pose of the camera respect to the whole Board. - -When you use a set of independent markers, you can estimate the pose for each marker individually, -since you dont know the relative position of the markers in the environment. - -The main benefits of using Boards are: - -- The pose estimation is much more versatile. Only some markers are necessary to perform pose estimation. -Thus, the pose can be calculated even in the presence of occlusions or partial views. -- The obtained pose is usually more accurate since a higher amount of point correspondences (marker -corners) are employed. - -The aruco module allows the use of Boards. The main class is the ```cv::aruco::Board``` class which defines the Board layout: - -@code{.cpp} - class Board { - public: - std::vector > objPoints; - cv::Ptr dictionary; - std::vector ids; - }; -@endcode - -A object of type ```Board``` has three parameters: -- The ```objPoints``` structure is the list of corner positions in the 3d Board reference system, i.e. its layout. -For each marker, its four corners are stored in the standard order, i.e. in clockwise order and starting -with the top left corner. -- The ```dictionary``` parameter indicates to which marker dictionary the Board markers belong to. -- Finally, the ```ids``` structure indicates the identifiers of each of the markers in ```objPoints``` respect to the specified ```dictionary```. - - -Board Detection ------ - -A Board detection is similar to the standard marker detection. The only difference is in the pose estimation step. -In fact, to use marker boards, a standard marker detection should be done before estimating the Board pose. - -The aruco module provides a specific function, ```estimatePoseBoard()```, to perform pose estimation for boards: - -@code{.cpp} - cv::Mat inputImage; - // camera parameters are read from somewhere - cv::Mat cameraMatrix, distCoeffs; - readCameraParameters(cameraMatrix, distCoeffs); - // assume we have a function to create the board object - cv::Ptr board = cv::aruco::Board::create(); - ... - std::vector markerIds; - std::vector> markerCorners; - cv::aruco::detectMarkers(inputImage, board.dictionary, markerCorners, markerIds); - // if at least one marker detected - if(markerIds.size() > 0) { - cv::Vec3d rvec, tvec; - int valid = cv::aruco::estimatePoseBoard(markerCorners, markerIds, board, cameraMatrix, distCoeffs, rvec, tvec); - } -@endcode - -The parameters of estimatePoseBoard are: - -- ```markerCorners``` and ```markerIds```: structures of detected markers from ```detectMarkers()``` function. -- ```board```: the ```Board``` object that defines the board layout and its ids -- ```cameraMatrix``` and ```distCoeffs```: camera calibration parameters necessary for pose estimation. -- ```rvec``` and ```tvec```: estimated pose of the Board. If not empty then treated as initial guess. -- The function returns the total number of markers employed for estimating the board pose. Note that not all the - markers provided in ```markerCorners``` and ```markerIds``` should be used, since only the markers whose ids are -listed in the ```Board::ids``` structure are considered. - -The ```drawAxis()``` function can be used to check the obtained pose. For instance: - -![Board with axis](images/gbmarkersaxis.png) - -And this is another example with the board partially occluded: - -![Board with occlusions](images/gbocclusion.png) - -As it can be observed, although some markers have not been detected, the Board pose can still be estimated from the rest of markers. - -Grid Board ------ - -Creating the ```Board``` object requires specifying the corner positions for each marker in the environment. -However, in many cases, the board will be just a set of markers in the same plane and in a grid layout, -so it can be easily printed and used. - -Fortunately, the aruco module provides the basic functionality to create and print these types of markers -easily. - -The ```GridBoard``` class is a specialized class that inherits from the ```Board``` class and which represents a Board -with all the markers in the same plane and in a grid layout, as in the following image: - -![Image with aruco board](images/gboriginal.png) - -Concretely, the coordinate system in a Grid Board is positioned in the board plane, centered in the bottom left -corner of the board and with the Z pointing out, like in the following image (X:red, Y:green, Z:blue): - -![Board with axis](images/gbaxis.png) - -A ```GridBoard``` object can be defined using the following parameters: - -- Number of markers in the X direction. -- Number of markers in the Y direction. -- Lenght of the marker side. -- Length of the marker separation. -- The dictionary of the markers. -- Ids of all the markers (X*Y markers). - -This object can be easily created from these parameters using the ```cv::aruco::GridBoard::create()``` static function: - -@code{.cpp} - cv::aruco::GridBoard board = cv::aruco::GridBoard::create(5, 7, 0.04, 0.01, dictionary); -@endcode - -- The first and second parameters are the number of markers in the X and Y direction respectively. -- The third and fourth parameters are the marker length and the marker separation respectively. They can be provided -in any unit, having in mind that the estimated pose for this board will be measured in the same units (in general, meters are used). -- Finally, the dictionary of the markers is provided. - -So, this board will be composed by 5x7=35 markers. The ids of each of the markers are assigned, by default, in ascending -order starting on 0, so they will be 0, 1, 2, ..., 34. This can be easily customized by accessing to the ids vector -through ```board.ids```, like in the ```Board``` parent class. - -After creating a Grid Board, we probably want to print it and use it. A function to generate the image -of a ```GridBoard``` is provided in ```cv::aruco::GridBoard::draw()```. For example: - -@code{.cpp} - cv::Ptr board = cv::aruco::GridBoard::create(5, 7, 0.04, 0.01, dictionary); - cv::Mat boardImage; - board->draw( cv::Size(600, 500), boardImage, 10, 1 ); -@endcode - -- The first parameter is the size of the output image in pixels. In this case 600x500 pixels. If this is not proportional -to the board dimensions, it will be centered on the image. -- ```boardImage```: the output image with the board. -- The third parameter is the (optional) margin in pixels, so none of the markers are touching the image border. -In this case the margin is 10. -- Finally, the size of the marker border, similarly to ```drawMarker()``` function. The default value is 1. - -The output image will be something like this: - -![](images/board.jpg) - -A full working example of board creation is included in the ```create_board.cpp``` inside the module samples folder. - -Note: The samples now take input via commandline via the [OpenCV Commandline Parser](http://docs.opencv.org/trunk/d0/d2e/classcv_1_1CommandLineParser.html#gsc.tab=0). For this file the example parameters will look like -@code{.cpp} - "_output path_/aboard.png" -w=5 -h=7 -l=100 -s=10 -d=10 -@endcode - -Finally, a full example of board detection: - -@code{.cpp} - cv::VideoCapture inputVideo; - inputVideo.open(0); - - cv::Mat cameraMatrix, distCoeffs; - // camera parameters are read from somewhere - readCameraParameters(cameraMatrix, distCoeffs); - - cv::Ptr dictionary = cv::aruco::getPredefinedDictionary(cv::aruco::DICT_6X6_250); - cv::Ptr board = cv::aruco::GridBoard::create(5, 7, 0.04, 0.01, dictionary); - - while (inputVideo.grab()) { - cv::Mat image, imageCopy; - inputVideo.retrieve(image); - image.copyTo(imageCopy); - - std::vector ids; - std::vector > corners; - cv::aruco::detectMarkers(image, dictionary, corners, ids); - - // if at least one marker detected - if (ids.size() > 0) { - cv::aruco::drawDetectedMarkers(imageCopy, corners, ids); - - cv::Vec3d rvec, tvec; - int valid = estimatePoseBoard(corners, ids, board, cameraMatrix, distCoeffs, rvec, tvec); - - // if at least one board marker detected - if(valid > 0) - cv::aruco::drawAxis(imageCopy, cameraMatrix, distCoeffs, rvec, tvec, 0.1); - } - - cv::imshow("out", imageCopy); - char key = (char) cv::waitKey(waitTime); - if (key == 27) - break; - } -@endcode - -Sample video: - -@htmlonly - -@endhtmlonly - -A full working example is included in the ```detect_board.cpp``` inside the module samples folder. - -Note: The samples now take input via commandline via the [OpenCV Commandline Parser](http://docs.opencv.org/trunk/d0/d2e/classcv_1_1CommandLineParser.html#gsc.tab=0). For this file the example parameters will look like -@code{.cpp} - -c="_path_"/calib.txt" "_path_/aboard.png" -w=5 -h=7 -l=100 -s=10 -d=10 -@endcode - - - -Refine marker detection ------ - -ArUco boards can also be used to improve the detection of markers. If we have detected a subset of the markers -that belongs to the board, we can use these markers and the board layout information to try to find the -markers that have not been previously detected. - -This can be done using the ```refineDetectedMarkers()``` function, which should be called -after calling ```detectMarkers()```. - -The main parameters of this function are the original image where markers were detected, the Board object, -the detected marker corners, the detected marker ids and the rejected marker corners. - -The rejected corners can be obtained from the ```detectMarkers()``` function and are also known as marker -candidates. This candidates are square shapes that have been found in the original image but have failed -to pass the identification step (i.e. their inner codification presents too many errors) and thus they -have not been recognized as markers. - -However, these candidates are sometimes actual markers that have not been correctly identified due to high -noise in the image, very low resolution or other related problems that affect to the binary code extraction. -The ```refineDetectedMarkers()``` function finds correspondences between these candidates and the missing -markers of the board. This search is based on two parameters: - -- Distance between the candidate and the projection of the missing marker. To obtain these projections, -it is necessary to have detected at least one marker of the board. The projections are obtained using the -camera parameters (camera matrix and distortion coefficients) if they are provided. If not, the projections -are obtained from local homography and only planar board are allowed (i.e. the Z coordinate of all the -marker corners should be the same). The ```minRepDistance``` parameter in ```refineDetectedMarkers()``` -determines the minimum euclidean distance between the candidate corners and the projected marker corners -(default value 10). - -- Binary codification. If a candidate surpasses the minimum distance condition, its internal bits -are analyzed again to determine if it is actually the projected marker or not. However, in this case, -the condition is not so strong and the number of allowed erroneous bits can be higher. This is indicated -in the ```errorCorrectionRate``` parameter (default value 3.0). If a negative value is provided, the -internal bits are not analyzed at all and only the corner distances are evaluated. - -This is an example of using the ```refineDetectedMarkers()``` function: - -@code{.cpp} - cv::Ptr dictionary = cv::aruco::getPredefinedDictionary(cv::aruco::DICT_6X6_250); - cv::Ptr board = cv::aruco::GridBoard::create(5, 7, 0.04, 0.01, dictionary); - std::vector markerIds; - std::vector> markerCorners, rejectedCandidates; - cv::aruco::detectMarkers(inputImage, dictionary, markerCorners, markerIds, cv::aruco::DetectorParameters(), rejectedCandidates); - - cv::aruco::refineDetectedMarkersinputImage, board, markerCorners, markerIds, rejectedCandidates); - // After calling this function, if any new marker has been detected it will be removed from rejectedCandidates and included - // at the end of markerCorners and markerIds -@endcode - -It must also be noted that, in some cases, if the number of detected markers in the first place is too low (for instance only -1 or 2 markers), the projections of the missing markers can be of bad quality, producing erroneous correspondences. - -See module samples for a more detailed implementation. diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/images/board.jpg b/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/images/board.jpg deleted file mode 100644 index 0f2c25b5..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/images/board.jpg and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/images/gbaxis.png b/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/images/gbaxis.png deleted file mode 100644 index 1e4e69fc..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/images/gbaxis.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/images/gbmarkersaxis.png b/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/images/gbmarkersaxis.png deleted file mode 100644 index 50593ba8..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/images/gbmarkersaxis.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/images/gbocclusion.png b/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/images/gbocclusion.png deleted file mode 100644 index cc6fc189..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/images/gbocclusion.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/images/gboriginal.png b/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/images/gboriginal.png deleted file mode 100644 index 7cdb393f..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_board_detection/images/gboriginal.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_calibration/aruco_calibration.markdown b/aruco_pose/vendor/aruco/tutorials/aruco_calibration/aruco_calibration.markdown deleted file mode 100644 index dbbdb026..00000000 --- a/aruco_pose/vendor/aruco/tutorials/aruco_calibration/aruco_calibration.markdown +++ /dev/null @@ -1,112 +0,0 @@ -Calibration with ArUco and ChArUco {#tutorial_aruco_calibration} -============================== - -The ArUco module can also be used to calibrate a camera. Camera calibration consists in obtaining the -camera intrinsic parameters and distortion coefficients. This parameters remain fixed unless the camera -optic is modified, thus camera calibration only need to be done once. - -Camera calibration is usually performed using the OpenCV ```calibrateCamera()``` function. This function -requires some correspondences between environment points and their projection in the camera image from -different viewpoints. In general, these correspondences are obtained from the corners of chessboard -patterns. See ```calibrateCamera()``` function documentation or the OpenCV calibration tutorial for -more detailed information. - -Using the ArUco module, calibration can be performed based on ArUco markers corners or ChArUco corners. -Calibrating using ArUco is much more versatile than using traditional chessboard patterns, since it -allows occlusions or partial views. - -As it can be stated, calibration can be done using both, marker corners or ChArUco corners. However, -it is highly recommended using the ChArUco corners approach since the provided corners are much -more accurate in comparison to the marker corners. Calibration using a standard Board should only be -employed in those scenarios where the ChArUco boards cannot be employed because of any kind of restriction. - -Calibration with ChArUco Boards ------- - -To calibrate using a ChArUco board, it is necessary to detect the board from different viewpoints, in the -same way that the standard calibration does with the traditional chessboard pattern. However, due to the -benefits of using ChArUco, occlusions and partial views are allowed, and not all the corners need to be -visible in all the viewpoints. - -![ChArUco calibration viewpoints](images/charucocalibration.png) - -The function to calibrate is ```calibrateCameraCharuco()```. Example: - -@code{.cpp} - cv::Ptr board = ... // create charuco board - cv::Size imgSize = ... // camera image size - - std::vector> allCharucoCorners; - std::vector> allCharucoIds; - // Detect charuco board from several viewpoints and fill allCharucoCorners and allCharucoIds - ... - ... - - // After capturing in several viewpoints, start calibration - cv::Mat cameraMatrix, distCoeffs; - std::vector rvecs, tvecs; - int calibrationFlags = ... // Set calibration flags (same than in calibrateCamera() function) - - double repError = cv::aruco::calibrateCameraCharuco(allCharucoCorners, allCharucoIds, board, imgSize, cameraMatrix, distCoeffs, rvecs, tvecs, calibrationFlags); -@endcode - -The ChArUco corners and ChArUco identifiers captured on each viewpoint are stored in the vectors ```allCharucoCorners``` and ```allCharucoIds```, one element per viewpoint. - -The ```calibrateCameraCharuco()``` function will fill the ```cameraMatrix``` and ```distCoeffs``` arrays with the camera calibration parameters. It will return the reprojection -error obtained from the calibration. The elements in ```rvecs``` and ```tvecs``` will be filled with the estimated pose of the camera (respect to the ChArUco board) -in each of the viewpoints. - -Finally, the ```calibrationFlags``` parameter determines some of the options for the calibration. Its format is equivalent to the flags parameter in the OpenCV -```calibrateCamera()``` function. - -A full working example is included in the ```calibrate_camera_charuco.cpp``` inside the module samples folder. - -Note: The samples now take input via commandline via the [OpenCV Commandline Parser](http://docs.opencv.org/trunk/d0/d2e/classcv_1_1CommandLineParser.html#gsc.tab=0). For this file the example parameters will look like -@code{.cpp} - _output path_" -dp="_path_/detector_params.yml" -w=5 -h=7 -sl=0.04 -ml=0.02 -d=10 -@endcode - - - -Calibration with ArUco Boards ------- - -As it has been stated, it is recommended the use of ChAruco boards instead of ArUco boards for camera calibration, since -ChArUco corners are more accurate than marker corners. However, in some special cases it must be required to use calibration -based on ArUco boards. For these cases, the ```calibrateCameraAruco()``` function is provided. As in the previous case, it -requires the detections of an ArUco board from different viewpoints. - -![ArUco calibration viewpoints](images/arucocalibration.png) - -Example of ```calibrateCameraAruco()``` use: - -@code{.cpp} - cv::Ptr board = ... // create aruco board - cv::Size imgSize = ... // camera image size - - std::vector> allCornersConcatenated; - std::vector allIdsConcatenated; - std::vector markerCounterPerFrame; - // Detect aruco board from several viewpoints and fill allCornersConcatenated, allIdsConcatenated and markerCounterPerFrame - ... - ... - - // After capturing in several viewpoints, start calibration - cv::Mat cameraMatrix, distCoeffs; - std::vector rvecs, tvecs; - int calibrationFlags = ... // Set calibration flags (same than in calibrateCamera() function) - - double repError = cv::aruco::calibrateCameraAruco(allCornersConcatenated, allIdsConcatenated, markerCounterPerFrame, board, imgSize, cameraMatrix, distCoeffs, rvecs, tvecs, calibrationFlags); -@endcode - -In this case, and contrary to the ```calibrateCameraCharuco()``` function, the detected markers on each viewpoint are concatenated in the arrays ```allCornersConcatenated``` and -```allCornersConcatenated``` (the first two parameters). The third parameter, the array ```markerCounterPerFrame```, indicates the number of marker detected on each viewpoint. -The rest of parameters are the same than in ```calibrateCameraCharuco()```, except the board layout object which does not need to be a ```CharucoBoard``` object, it can be -any ```Board``` object. - -A full working example is included in the ```calibrate_camera.cpp``` inside the module samples folder. - -Note: The samples now take input via commandline via the [OpenCV Commandline Parser](http://docs.opencv.org/trunk/d0/d2e/classcv_1_1CommandLineParser.html#gsc.tab=0). For this file the example parameters will look like -@code{.cpp} - "_path_/calib.txt" -w=5 -h=7 -l=100 -s=10 -d=10 -@endcode diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_calibration/images/arucocalibration.png b/aruco_pose/vendor/aruco/tutorials/aruco_calibration/images/arucocalibration.png deleted file mode 100644 index db1c0b72..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_calibration/images/arucocalibration.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_calibration/images/charucocalibration.png b/aruco_pose/vendor/aruco/tutorials/aruco_calibration/images/charucocalibration.png deleted file mode 100644 index b840a73f..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_calibration/images/charucocalibration.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_detection/aruco_detection.markdown b/aruco_pose/vendor/aruco/tutorials/aruco_detection/aruco_detection.markdown deleted file mode 100644 index 7e940544..00000000 --- a/aruco_pose/vendor/aruco/tutorials/aruco_detection/aruco_detection.markdown +++ /dev/null @@ -1,737 +0,0 @@ -Detection of ArUco Markers {#tutorial_aruco_detection} -============================== - -Pose estimation is of great importance in many computer vision applications: robot navigation, -augmented reality, and many more. This process is based on finding correspondences between points in -the real environment and their 2d image projection. This is usually a difficult step, and thus it is -common the use of synthetic or fiducial markers to make it easier. - -One of the most popular approach is the use of binary square fiducial markers. The main benefit -of these markers is that a single marker provides enough correspondences (its four corners) -to obtain the camera pose. Also, the inner binary codification makes them specially robust, allowing -the possibility of applying error detection and correction techniques. - -The aruco module is based on the [ArUco library](http://www.uco.es/investiga/grupos/ava/node/26), -a popular library for detection of square fiducial markers developed by Rafael Muñoz and Sergio Garrido: - -> S. Garrido-Jurado, R. Muñoz-Salinas, F. J. Madrid-Cuevas, and M. J. Marín-Jiménez. 2014. -> "Automatic generation and detection of highly reliable fiducial markers under occlusion". -> Pattern Recogn. 47, 6 (June 2014), 2280-2292. DOI=10.1016/j.patcog.2014.01.005 - -The aruco functionalities are included in: -@code{.cpp} - #include -@endcode - - -Markers and Dictionaries ------- - -An ArUco marker is a synthetic square marker composed by a wide black border and a inner binary -matrix which determines its identifier (id). The black border facilitates its fast detection in the -image and the binary codification allows its identification and the application of error detection -and correction techniques. The marker size determines the size of the internal matrix. For instance -a marker size of 4x4 is composed by 16 bits. - -Some examples of ArUco markers: - -![Example of markers images](images/markers.jpg) - -It must be noted that a marker can be found rotated in the environment, however, the detection -process needs to be able to determine its original rotation, so that each corner is identified -unequivocally. This is also done based on the binary codification. - -A dictionary of markers is a set of markers that are considered in an specific application. It is -simply the list of binary codifications of each of its markers. - -The main properties of a dictionary are the dictionary size and the marker size. - -- The dictionary size is the number of markers that composed the dictionary. -- The marker size is the size of those markers (the number of bits). - -The aruco module includes some predefined dictionaries covering a range of different dictionary -sizes and marker sizes. - -One may think that the marker id is the number obtained from converting the binary codification to -a decimal base number. However, this is not possible since for high marker sizes the number of bits -is too high and managing so huge numbers is not practical. Instead, a marker id is simply -the marker index inside the dictionary it belongs to. For instance, the first 5 markers inside a -dictionary has the ids: 0, 1, 2, 3 and 4. - -More information about dictionaries is provided in the "Selecting a dictionary" section. - - -Marker Creation ------- - -Before their detection, markers need to be printed in order to be placed in the environment. -Marker images can be generated using the ```drawMarker()``` function. - -For example, lets analyze the following call: - -@code{.cpp} - cv::Mat markerImage; - cv::Ptr dictionary = cv::aruco::getPredefinedDictionary(cv::aruco::DICT_6X6_250); - cv::aruco::drawMarker(dictionary, 23, 200, markerImage, 1); -@endcode - -First, the ```Dictionary``` object is created by choosing one of the predefined dictionaries in the aruco module. -Concretely, this dictionary is composed by 250 markers and a marker size of 6x6 bits (```DICT_6X6_250```). - -The parameters of ```drawMarker``` are: - -- The first parameter is the ```Dictionary``` object previously created. -- The second parameter is the marker id, in this case the marker 23 of the dictionary ```DICT_6X6_250```. -Note that each dictionary is composed by a different number of markers. In this case, the valid ids -go from 0 to 249. Any specific id out of the valid range will produce an exception. -- The third parameter, 200, is the size of the output marker image. In this case, the output image -will have a size of 200x200 pixels. Note that this parameter should be large enough to store the -number of bits for the specific dictionary. So, for instance, you cannot generate an image of -5x5 pixels for a marker size of 6x6 bits (and that is without considering the marker border). -Furthermore, to avoid deformations, this parameter should be proportional to the number of bits + -border size, or at least much higher than the marker size (like 200 in the example), so that -deformations are insignificant. -- The forth parameter is the output image. -- Finally, the last parameter is an optional parameter to specify the width of the marker black -border. The size is specified proportional to the number of bits. For instance a value of 2 means -that the border will have a width equivalent to the size of two internal bits. The default value -is 1. - -The generated image is: - -![Generated marker](images/marker23.jpg) - -A full working example is included in the ```create_marker.cpp``` inside the module samples folder. - -Note: The samples now take input via commandline via the [OpenCV Commandline Parser](http://docs.opencv.org/trunk/d0/d2e/classcv_1_1CommandLineParser.html#gsc.tab=0). For this file the example parameters will look like -@code{.cpp} - "/Users/Sarthak/Dropbox/OpenCV_GSoC/marker.png" -d=10 -id=1 -@endcode - -Marker Detection ------- - -Given an image where some ArUco markers are visible, the detection process has to return a list of -detected markers. Each detected marker includes: - -- The position of its four corners in the image (in their original order). -- The id of the marker. - -The marker detection process is comprised by two main steps: - -1. Detection of marker candidates. In this step the image is analyzed in order to find square shapes -that are candidates to be markers. It begins with an adaptive thresholding to segment the markers, -then contours are extracted from the thresholded image and those that are not convex or do not -approximate to a square shape are discarded. Some extra filtering are also applied (removing -too small or too big contours, removing contours too close to each other, etc). - -2. After the candidate detection, it is necessary to determine if they are actually markers by -analyzing their inner codification. This step starts by extracting the marker bits of each marker. -To do so, first, perspective transformation is applied to obtain the marker in its canonical form. Then, the -canonical image is thresholded using Otsu to separate white and black bits. The image is divided in -different cells according to the marker size and the border size and the amount of black or white -pixels on each cell is counted to determine if it is a white or a black bit. Finally, the bits -are analyzed to determine if the marker belongs to the specific dictionary and error correction -techniques are employed when necessary. - - -Consider the following image: - -![Original image with markers](images/singlemarkersoriginal.png) - -These are the detected markers (in green): - -![Image with detected markers](images/singlemarkersdetection.png) - -And these are the marker candidates that have been rejected during the identification step (in pink): - -![Image with rejected candidates](images/singlemarkersrejected.png) - -In the aruco module, the detection is performed in the ```detectMarkers()``` function. This function is -the most important in the module, since all the rest of functionalities are based on the -previous detected markers returned by ```detectMarkers()```. - -An example of marker detection: - -@code{.cpp} - cv::Mat inputImage; - ... - std::vector markerIds; - std::vector> markerCorners, rejectedCandidates; - cv::Ptr parameters; - cv::Ptr dictionary = cv::aruco::getPredefinedDictionary(cv::aruco::DICT_6X6_250); - cv::aruco::detectMarkers(inputImage, dictionary, markerCorners, markerIds, parameters, rejectedCandidates); -@endcode - -The parameters of ```detectMarkers``` are: - -- The first parameter is the image where the markers are going to be detected. -- The second parameter is the dictionary object, in this case one of the predefined dictionaries (```DICT_6X6_250```). -- The detected markers are stored in the ```markerCorners``` and ```markerIds``` structures: - - ```markerCorners``` is the list of corners of the detected markers. For each marker, its four - corners are returned in their original order (which is clockwise starting with top left). So, the first corner is the top left corner, followed by the top right, bottom right and bottom left. - - ```markerIds``` is the list of ids of each of the detected markers in ```markerCorners```. - Note that the returned ```markerCorners``` and ```markerIds``` vectors have the same sizes. -- The fourth parameter is the object of type ```DetectionParameters```. This object includes all the -parameters that can be customized during the detection process. This parameters are commented in -detail in the next section. -- The final parameter, ```rejectedCandidates```, is a returned list of marker candidates, i.e. those -squares that have been found but they do not present a valid codification. Each candidate is also -defined by its four corners, and its format is the same than the ```markerCorners``` parameter. This -parameter can be omitted and is only useful for debugging purposes and for 'refind' strategies (see ```refineDetectedMarkers()``` ). - - -The next thing you probably want to do after ```detectMarkers()``` is checking that your markers have -been correctly detected. Fortunately, the aruco module provides a function to draw the detected -markers in the input image, this function is ```drawDetectedMarkers()```. For example: - -@code{.cpp} - cv::Mat outputImage - cv::aruco::drawDetectedMarkers(image, markerCorners, markerIds); -@endcode - -- ```image``` is the input/output image where the markers will be drawn (it will normally be the same image where the markers were detected). -- ```markerCorners``` and ```markerIds``` are the structures of the detected markers in the same format -provided by the ```detectMarkers()``` function. - -![Image with detected markers](images/singlemarkersdetection.png) - -Note that this function is only provided for visualization and its use can be perfectly omitted. - -With these two functions we can create a basic marker detection loop to detect markers from our -camera: - -@code{.cpp} - cv::VideoCapture inputVideo; - inputVideo.open(0); - cv::Ptr dictionary = cv::aruco::getPredefinedDictionary(cv::aruco::DICT_6X6_250); - while (inputVideo.grab()) { - cv::Mat image, imageCopy; - inputVideo.retrieve(image); - image.copyTo(imageCopy); - - std::vector ids; - std::vector > corners; - cv::aruco::detectMarkers(image, dictionary, corners, ids); - - // if at least one marker detected - if (ids.size() > 0) - cv::aruco::drawDetectedMarkers(imageCopy, corners, ids); - - cv::imshow("out", imageCopy); - char key = (char) cv::waitKey(waitTime); - if (key == 27) - break; - } -@endcode - -Note that some of the optional parameters have been omitted, like the detection parameter object or the -output vector of rejected candidates. - -A full working example is included in the ```detect_markers.cpp``` inside the module samples folder. - -Note: The samples now take input via commandline via the [OpenCV Commandline Parser](http://docs.opencv.org/trunk/d0/d2e/classcv_1_1CommandLineParser.html#gsc.tab=0). For this file the example parameters will look like -@code{.cpp} - -c="_path_/calib.txt" -d=10 -@endcode - - - -Pose Estimation ------- - -The next thing you probably want to do after detecting the markers is to obtain the camera pose from them. - -To perform camera pose estimation you need to know the calibration parameters of your camera. This is -the camera matrix and distortion coefficients. If you do not know how to calibrate your camera, you can -take a look to the ```calibrateCamera()``` function and the Calibration tutorial of OpenCV. You can also calibrate your camera using the aruco module -as it is explained in the Calibration with aruco tutorial. Note that this only need to be done once unless the -camera optics are modified (for instance changing its focus). - -At the end, what you get after the calibration is the camera matrix: a matrix of 3x3 elements with the -focal distances and the camera center coordinates (a.k.a intrinsic parameters), and the distortion -coefficients: a vector of 5 elements or more that models the distortion produced by your camera. - -When you estimate the pose with ArUco markers, you can estimate the pose of each marker individually. -If you want to estimate one pose from a set of markers, what you want to use is aruco Boards (see ArUco -Boards tutorial). - -The camera pose respect to a marker is the 3d transformation from the marker coordinate system to the -camera coordinate system. It is specified by a rotation and a translation vector (see ```solvePnP()``` function for more -information). - -The aruco module provides a function to estimate the poses of all the detected markers: - -@code{.cpp} - cv::Mat cameraMatrix, distCoeffs; - ... - std::vector rvecs, tvecs; - cv::aruco::estimatePoseSingleMarkers(corners, 0.05, cameraMatrix, distCoeffs, rvecs, tvecs); -@endcode - -- The ```corners``` parameter is the vector of marker corners returned by the ```detectMarkers()``` function. -- The second parameter is the size of the marker side in meters or in any other unit. Note that the -translation vectors of the estimated poses will be in the same unit -- ```cameraMatrix``` and ```distCoeffs``` are the camera calibration parameters that need to be known a priori. -- ```rvecs``` and ```tvecs``` are the rotation and translation vectors respectively, for each of the markers -in corners. - -The marker coordinate system that is assumed by this function is placed at the center of the marker -with the Z axis pointing out, as in the following image. Axis-color correspondences are X:red, Y:green, Z:blue. - -![Image with axis drawn](images/singlemarkersaxis.png) - -The aruco module provides a function to draw the axis as in the image above, so pose estimation can be -checked: - -@code{.cpp} - cv::aruco::drawAxis(image, cameraMatrix, distCoeffs, rvec, tvec, 0.1); -@endcode - -- ```image``` is the input/output image where the axis will be drawn (it will normally be the same image where the markers were detected). -- ```cameraMatrix``` and ```distCoeffs``` are the camera calibration parameters. -- ```rvec``` and ```tvec``` are the pose parameters whose axis want to be drawn. -- The last parameter is the length of the axis, in the same unit that tvec (usually meters) - -A basic full example for pose estimation from single markers: - -@code{.cpp} - cv::VideoCapture inputVideo; - inputVideo.open(0); - - cv::Mat cameraMatrix, distCoeffs; - // camera parameters are read from somewhere - readCameraParameters(cameraMatrix, distCoeffs); - - cv::Ptr dictionary = cv::aruco::getPredefinedDictionary(cv::aruco::DICT_6X6_250); - - while (inputVideo.grab()) { - cv::Mat image, imageCopy; - inputVideo.retrieve(image); - image.copyTo(imageCopy); - - std::vector ids; - std::vector> corners; - cv::aruco::detectMarkers(image, dictionary, corners, ids); - - // if at least one marker detected - if (ids.size() > 0) { - cv::aruco::drawDetectedMarkers(imageCopy, corners, ids); - - std::vector rvecs, tvecs; - cv::aruco::estimatePoseSingleMarkers(corners, 0.05, cameraMatrix, distCoeffs, rvecs, tvecs); - // draw axis for each marker - for(int i=0; i -@endhtmlonly - -A full working example is included in the ```detect_markers.cpp``` inside the module samples folder. - -Note: The samples now take input via commandline via the [OpenCV Commandline Parser](http://docs.opencv.org/trunk/d0/d2e/classcv_1_1CommandLineParser.html#gsc.tab=0). For this file the example parameters will look like -@code{.cpp} - -c="_path_/calib.txt" -d=10 -@endcode - - - -Selecting a dictionary ------- - -The aruco module provides the ```Dictionary``` class to represent a dictionary of markers. - -Apart of the marker size and the number of markers in the dictionary, there is another important dictionary -parameter, the inter-marker distance. The inter-marker distance is the minimum distance among its markers -and it determines the error detection and correction capabilities of the dictionary. - -In general, lower dictionary sizes and higher marker sizes increase the inter-marker distance and -vice-versa. However, the detection of markers with higher sizes is more complex, due to the higher -amount of bits that need to be extracted from the image. - -For instance, if you need only 10 markers in your application, it is better to use a dictionary only -composed by those 10 markers than using one dictionary composed by 1000 markers. The reason is that -the dictionary composed by 10 markers will have a higher inter-marker distance and, thus, it will be -more robust to errors. - -As a consequence, the aruco module includes several ways to select your dictionary of markers, so that -you can increase your system robustness: - -- Predefined dictionaries: - -This is the easiest way to select a dictionary. The aruco module includes a set of predefined dictionaries - of a variety of marker sizes and number of markers. For instance: - -@code{.cpp} - cv::Ptr dictionary = cv::aruco::getPredefinedDictionary(cv::aruco::DICT_6X6_250); -@endcode - -DICT_6X6_250 is an example of predefined dictionary of markers with 6x6 bits and a total of 250 -markers. - -From all the provided dictionaries, it is recommended to choose the smaller one that fits to your application. -For instance, if you need 200 markers of 6x6 bits, it is better to use DICT_6X6_250 than DICT_6X6_1000. -The smaller the dictionary, the higher the inter-marker distance. - -- Automatic dictionary generation: - -The dictionary can be generated automatically to adjust to the desired number of markers and bits, so that -the inter-marker distance is optimized: - -@code{.cpp} - cv::Ptr dictionary = cv::aruco::generateCustomDictionary(36, 5); -@endcode - -This will generate a customized dictionary composed by 36 markers of 5x5 bits. The process can take several -seconds, depending on the parameters (it is slower for larger dictionaries and higher number of bits). - -- Manually dictionary generation: - -Finally, the dictionary can be configured manually, so that any codification can be employed. To do that, -the ```Dictionary``` object parameters need to be assigned manually. It must be noted that, unless you have - a special reason to do this manually, it is preferable to use one of the previous alternatives. - -The ```Dictionary``` parameters are: - - -@code{.cpp} - class Dictionary { - public: - - Mat bytesList; - int markerSize; - int maxCorrectionBits; // maximum number of bits that can be corrected - - ... - - } -@endcode - -bytesList is the array that contains all the information about the marker codes. ```markerSize``` is the size - of each marker dimension (for instance, 5 for markers with 5x5 bits). Finally, ```maxCorrectionBits``` is -the maximum number of erroneous bits that can be corrected during the marker detection. If this value is too -high, it can lead to a high amount of false positives. - -Each row in ```bytesList``` represents one of the dictionary markers. However, the markers are not stored in its -binary form, instead they are stored in a special format to simplificate their detection. - -Fortunately, a marker can be easily transformed to this form using the static method ```Dictionary::getByteListFromBits()```. - -For example: - -@code{.cpp} - cv::aruco::Dictionary dictionary; - // markers of 6x6 bits - dictionary.markerSize = 6; - // maximum number of bit corrections - dictionary.maxCorrectionBits = 3; - - // lets create a dictionary of 100 markers - for(int i=0; i<100; i++) - { - // assume generateMarkerBits() generate a new marker in binary format, so that - // markerBits is a 6x6 matrix of CV_8UC1 type, only containing 0s and 1s - cv::Mat markerBits = generateMarkerBits(); - cv::Mat markerCompressed = cv::aruco::Dictionary::getByteListFromBits(markerBits); - // add the marker as a new row - dictionary.bytesList.push_back(markerCompressed); - } -@endcode - - - - -Detector Parameters ------- - -One of the parameters of ```detectMarkers()``` function is a ```DetectorParameters``` object. This object -includes all the options that can be customized during the marker detection process. - -In this section, all these parameters are commented. The parameters can be classified depending on -the process they are involved: - -#### Thresholding - -One of the first steps of the marker detection process is an adaptive thresholding of the input image. - -For instance, the thresholded image for the sample image used above is: - -![Thresholded image](images/singlemarkersthresh.png) - -This thresholding can be customized in the following parameters: - -- ```int adaptiveThreshWinSizeMin```, ```int adaptiveThreshWinSizeMax```, ```int adaptiveThreshWinSizeStep``` - -The ```adaptiveThreshWinSizeMin``` and ```adaptiveThreshWinSizeMax``` parameters represent the interval where the -thresholding window sizes (in pixels) are selected for the adaptive thresholding (see OpenCV -```threshold()``` function for more details). - -The parameter ```adaptiveThreshWinSizeStep``` indicates the increments on the window size from -```adaptiveThreshWinSizeMin``` to adaptiveThreshWinSizeMax```. - -For instance, for the values ```adaptiveThreshWinSizeMin``` = 5 and adaptiveThreshWinSizeMax``` = 21 and -```adaptiveThreshWinSizeStep``` = 4, there will be 5 thresholding steps with window sizes 5, 9, 13, 17 and 21. -On each thresholding image, marker candidates will be extracted. - -Low values of window size can 'break' the marker border if the marker size is too large, and -it would not be detected, like in the following image: - -![Broken marker image](images/singlemarkersbrokenthresh.png) - -On the other hand, too high values can produce the same effect if the markers are too small, and it can also -reduce the performance. Moreover the process would tend to a global thresholding, losing the adaptive benefits. - -The simplest case is using the same value for ```adaptiveThreshWinSizeMin``` and - ```adaptiveThreshWinSizeMax```, which produces a single thresholding step. However, it is usually better using a - range of values for the window size, although many thresholding steps can also reduce the performance considerably. - -Default values: - -```adaptiveThreshWinSizeMin```: 3, ```adaptiveThreshWinSizeMax```: 23, ```adaptiveThreshWinSizeStep```: 10 - - -- ```double adaptiveThreshConstant``` - -This parameter represents the constant value added in the thresholding condition (see OpenCV -```threshold()``` function for more details). Its default value is a good option in most cases. - -Default value: 7 - - -#### Contour filtering - -After thresholding, contours are detected. However, not all contours -are considered as marker candidates. They are filtered out in different steps so that contours that are -very unlikely to be markers are discarded. The parameters in this section customize -this filtering process. - -It must be noted that in most cases it is a question of balance between detection capacity -and performance. All the considered contours will be processed in the following stages, which usually have -a higher computational cost. So, it is preferred to discard wrong candidates in this stage than in the later stages. - -On the other hand, if the filtering conditions are too strict, the real marker contours could be discarded and, -hence, not detected. - -- ```double minMarkerPerimeterRate```, ```double maxMarkerPerimeterRate``` - -These parameters determine the minimum and maximum size of a marker, concretely the maximum and -minimum marker perimeter. They are not specified in absolute pixels values, instead they are -specified relative to the maximum dimension of the input image. - -For instance, a image with size 640x480 and a minimum relative marker perimeter of 0.05 will lead -to a minimum marker perimeter of 640x0.05 = 32 pixels, since 640 is the maximum dimension of the -image. The same applies for the ```maxMarkerPerimeterRate``` parameter. - -If the ```minMarkerPerimeterRate``` is too low, it can penalize considerably the detection performance since -many more contours would be considered for future stages. -This penalization is not so noticeable for the ```maxMarkerPerimeterRate``` parameter, since there are -usually many more small contours than big contours. -A ```minMarkerPerimeterRate``` value of 0 and a ```maxMarkerPerimeterRate``` value of 4 (or more) will be -equivalent to consider all the contours in the image, however this is not recommended for -the performance reasons. - -Default values: - - ```minMarkerPerimeterRate``` : 0.03, ```maxMarkerPerimeterRate``` : 4.0 - - -- ```double polygonalApproxAccuracyRate``` - -A polygonal approximation is applied to each candidate and only those that approximate to a square -shape are accepted. This value determines the maximum error that the polygonal approximation can -produce (see ```approxPolyDP()``` function for more information). - -This parameter is relative to the candidate length (in pixels). So if the candidate has -a perimeter of 100 pixels and the value of ```polygonalApproxAccuracyRate``` is 0.04, the maximum error -would be 100x0.04=5.4 pixels. - -In most cases, the default value works fine, but higher error values could be necessary for high -distorted images. - -Default value: 0.05 - - -- ```double minCornerDistanceRate``` - -Minimum distance between any pair of corners in the same marker. It is expressed relative to the marker -perimeter. Minimum distance in pixels is Perimeter * minCornerDistanceRate. - -Default value: 0.05 - -- ```double minMarkerDistanceRate``` - -Minimum distance between any pair of corners from two different markers. It is expressed relative to -the minimum marker perimeter of the two markers. If two candidates are too close, the smaller one is ignored. - -Default value: 0.05 - -- ```int minDistanceToBorder``` - -Minimum distance to any of the marker corners to the image border (in pixels). Markers partially occluded -by the image border can be correctly detected if the occlusion is small. However, if one of the corner -is occluded, the returned corner is usually placed in a wrong position near the image border. - -If the position of marker corners is important, for instance if you want to do pose estimation, it is -better to discard markers with any of their corners are too close to the image border. Elsewhere, it is not necessary. - -Default value: 3 - - -#### Bits Extraction - -After candidate detection, the bits of each candidate are analyzed in order to determine if they -are markers or not. - -Before analyzing the binary code itself, the bits need to be extracted. To do so, the perspective -distortion is removed and the resulting image is thresholded using Otsu threshold to separate -black and white pixels. - -This is an example of the image obtained after removing the perspective distortion of a marker: - -![Perspective removing](images/removeperspective.png) - -Then, the image is divided in a grid with the same cells than the number of bits in the marker. -On each cell, the number of black and white pixels are counted to decide the bit assigned to the cell (from the majority value): - -![Marker cells](images/bitsextraction1.png) - -There are several parameters that can customize this process: - -- ```int markerBorderBits``` - -This parameter indicates the width of the marker border. It is relative to the size of each bit. So, a -value of 2 indicates the border has the width of two internal bits. - -This parameter needs to coincide with the border size of the markers you are using. The border size -can be configured in the marker drawing functions such as ```drawMarker()```. - -Default value: 1 - -- ```double minOtsuStdDev``` - -This value determines the minimum standard deviation on the pixels values to perform Otsu -thresholding. If the deviation is low, it probably means that all the square is black (or white) -and applying Otsu does not make sense. If this is the case, all the bits are set to 0 (or 1) -depending if the mean value is higher or lower than 128. - -Default value: 5.0 - - - ```int perspectiveRemovePixelPerCell``` - -This parameter determines the number of pixels (per cell) in the obtained image after removing perspective -distortion (including the border). This is the size of the red squares in the image above. - -For instance, lets assume we are dealing with markers of 5x5 bits and border size of 1 bit -(see ```markerBorderBits```). Then, the total number of cells/bits per dimension is 5 + 2*1 = 7 (the border -has to be counted twice). The total number of cells is 7x7. - -If the value of ```perspectiveRemovePixelPerCell``` is 10, then the size of the obtained image will be -10*7 = 70 -> 70x70 pixels. - -A higher value of this parameter can improve the bits extraction process (up to some degree), however it can penalize -the performance. - -Default value: 4 - -- ```double perspectiveRemoveIgnoredMarginPerCell``` - -When extracting the bits of each cell, the numbers of black and white pixels are counted. In general, it is -not recommended to consider all the cell pixels. Instead it is better to ignore some pixels in the -margins of the cells. - -The reason of this is that, after removing the perspective distortion, the cells' colors are, in general, not -perfectly separated and white cells can invade some pixels of black cells (and vice-versa). Thus, it is -better to ignore some pixels just to avoid counting erroneous pixels. - -For instance, in the following image: - -![Marker cell margins](images/bitsextraction2.png) - -only the pixels inside the green squares are considered. It can be seen in the right image that -the resulting pixels contain a lower amount of noise from neighbor cells. -The ```perspectiveRemoveIgnoredMarginPerCell``` parameter indicates the difference between the red and -the green squares. - -This parameter is relative to the total size of the cell. For instance if the cell size is 40 pixels and the -value of this parameter is 0.1, a margin of 40*0.1=4 pixels is ignored in the cells. This means that the total -amount of pixels that would be analyzed on each cell would actually be 32x32, instead of 40x40. - -Default value: 0.13 - - -#### Marker identification - -After the bits have been extracted, the next step is checking if the extracted code belongs to the marker -dictionary and, if necessary, error correction can be performed. - -- ```double maxErroneousBitsInBorderRate``` - -The bits of the marker border should be black. This parameter specifies the allowed number of erroneous -bits in the border, i.e. the maximum number of white bits in the border. It is represented -relative to the total number of bits in the marker. - -Default value: 0.35 - - -- ```double errorCorrectionRate``` - -Each marker dictionary has a theoretical maximum number of bits that can be corrected (```Dictionary.maxCorrectionBits```). -However, this value can be modified by the ```errorCorrectionRate``` parameter. - -For instance, if the allowed number of bits that can be corrected (for the used dictionary) is 6 and the value of ```errorCorrectionRate``` is -0.5, the real maximum number of bits that can be corrected is 6*0.5=3 bits. - -This value is useful to reduce the error correction capabilities in order to avoid false positives. - -Default value: 0.6 - - -#### Corner Refinement - -After markers have been detected and identified, the last step is performing subpixel refinement -in the corner positions (see OpenCV ```cornerSubPix()``` and ```cv::aruco::CornerRefineMethod```) - -Note that this step is optional and it only makes sense if the position of the marker corners have to -be accurate, for instance for pose estimation. It is usually a time consuming step and it is disabled by default. - -- ```int cornerRefinementMethod``` - -This parameter determines if the corner subpixel process is performed or not. It can be disabled -if accurate corners are not necessary. - -Default value: ```CORNER_REFINE_NONE```. - - - ```int cornerRefinementWinSize``` - -This parameter determines the window size of the subpixel refinement process. - -High values can produce the effect that close image corners are included in the window region, so that the -marker corner moves to a different and wrong location during the process. Furthermore -it can affect to performance. - -Default value: 5 - - -- ```int cornerRefinementMaxIterations```, ```double cornerRefinementMinAccuracy``` - -These two parameters determine the stop criterion of the subpixel refinement process. The -```cornerRefinementMaxIterations``` indicates the maximum number of iterations and -```cornerRefinementMinAccuracy``` the minimum error value before stopping the process. - -If the number of iterations is too high, it can affect the performance. On the other hand, if it is -too low, it can produce a poor subpixel refinement. - -Default values: - -```cornerRefinementMaxIterations```: 30, ```cornerRefinementMinAccuracy```: 0.1 diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/bitsextraction1.png b/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/bitsextraction1.png deleted file mode 100644 index 56b89aa6..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/bitsextraction1.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/bitsextraction2.png b/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/bitsextraction2.png deleted file mode 100644 index d3e8fb05..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/bitsextraction2.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/marker23.jpg b/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/marker23.jpg deleted file mode 100644 index c2de7475..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/marker23.jpg and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/markers.jpg b/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/markers.jpg deleted file mode 100644 index aa213f53..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/markers.jpg and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/removeperspective.png b/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/removeperspective.png deleted file mode 100644 index 6cc08620..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/removeperspective.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersaxis.png b/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersaxis.png deleted file mode 100644 index 842ae83a..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersaxis.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersbrokenthresh.png b/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersbrokenthresh.png deleted file mode 100644 index 5fa9ca44..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersbrokenthresh.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersdetection.png b/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersdetection.png deleted file mode 100644 index 2d5ab19d..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersdetection.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersoriginal.png b/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersoriginal.png deleted file mode 100644 index 5e2f7091..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersoriginal.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersrejected.png b/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersrejected.png deleted file mode 100644 index f3ed09a1..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersrejected.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersthresh.png b/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersthresh.png deleted file mode 100644 index 99f9d4f8..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/aruco_detection/images/singlemarkersthresh.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/aruco_faq/aruco_faq.markdown b/aruco_pose/vendor/aruco/tutorials/aruco_faq/aruco_faq.markdown deleted file mode 100644 index d6fa418a..00000000 --- a/aruco_pose/vendor/aruco/tutorials/aruco_faq/aruco_faq.markdown +++ /dev/null @@ -1,149 +0,0 @@ -Aruco module FAQ {#tutorial_aruco_faq} -============================== - -This is a compilation of questions that can be useful for those that want to use the aruco module. - -- I only want to label some objects, what should I use? - -In this case, you only need single ArUco markers. You can place one or several markers with different ids in each of the object you want to identify. - - -- Which algorithm is used for marker detection? - -The aruco module is based on the original ArUco library. A full description of the detection process can be found in: - -> S. Garrido-Jurado, R. Muñoz-Salinas, F. J. Madrid-Cuevas, and M. J. Marín-Jiménez. 2014. -> "Automatic generation and detection of highly reliable fiducial markers under occlusion". -> Pattern Recogn. 47, 6 (June 2014), 2280-2292. DOI=10.1016/j.patcog.2014.01.005 - - -- My markers are not being detected correctly, what can I do? - -There can be many factors that avoid the correct detection of markers. You probably need to adjust some of the parameters -in the ```DetectorParameters``` object. The first thing you can do is checking if your markers are returned -as rejected candidates by the ```detectMarkers()``` function. Depending on this, you should try to modify different parameters. - -If you are using a ArUco board, you can also try the ```refineDetectedMarkers()``` function. - - -- What are the benefits of ArUco boards? What are the drawbacks? - -Using a board of markers you can obtain the camera pose from a set of markers, instead of a single one. This way, -the detection is able to handle occlusion of partial views of the Board, since only one marker is necessary to obtain the pose. - -Furthermore, as in most cases you are using more corners for pose estimation, it will be more accurate than using a single marker. - -The main drawback is that a Board is not as versatile as a single marker. - - - -- What are the benefits of ChArUco boards over ArUco boards? And the drawbacks? - -ChArUco boards combines chessboards with ArUco boards. Thanks to this, the corners provided by ChArUco boards are more accurate than those provided by ArUco Boards (or single markers). - -The main drawback is that ChArUco boards are not as versatile as ArUco board. For instance, a ChArUco board is a planar board with a specific marker layout while the ArUco boards -can have any layout, even in 3d. Furthermore, the markers in the ChArUco board are usually smaller and more difficult to detect. - - -- I do not need pose estimation, should I use ChArUco boards? - -No. The main goal of ChArUco boards is provide high accurate corners for pose estimation or camera calibration. - - -- Should all the markers in an ArUco board be placed in the same plane? - -No, the marker corners in a ArUco board can be placed anywhere in its 3d coordinate system. - - -- Should all the markers in an ChArUco board be placed in the same plane? - -Yes, all the markers in a ChArUco board need to be in the same plane and their layout is fixed by the chessboard shape. - - -- What is the difference between a ```Board``` object and a ```GridBoard``` object? - -The ```GridBoard``` class is a specific type of board that inherits from ```Board``` class. A ```GridBoard``` object is a board whose markers are placed in the same -plane and in a grid layout. - - -- What are Diamond markers? - -Diamond markers are very similar to a ChArUco board of 3x3 squares. However, contrary to ChArUco boards, the detection of diamonds is based on the relative position of the markers. -They are useful when you want to provide a conceptual meaning to any (or all) of the markers in the diamond. An example is using one of the marker to provide the diamond scale. - - -- Do I need to detect marker before board detection, ChArUco board detection or Diamond detection? - -Yes, the detection of single markers is a basic tool in the aruco module. It is done using the ```detectMarkers()``` function. The rest of functionalities receives -a list of detected markers from this function. - - -- I want to calibrate my camera, can I use this module? - -Yes, the aruco module provides functionalities to calibrate the camera using both, ArUco boards and ChArUco boards. - - -- Should I calibrate using a ChArUco board or an ArUco board? - -It is highly recommended the calibration using ChArUco board due to the high accuracy. - - -- Should I use a predefined dictionary or generate my own dictionary? - -In general, it is easier to use one of the predefined dictionaries. However, if you need a bigger dictionary (in terms of number of markers or number of bits) -you should generate your own dictionary. Dictionary generation is also useful if you want to maximize the inter-marker distance to achieve a better error -correction during the identification step. - -- I am generating my own dictionary but it takes too long - -Dictionary generation should only be done once at the beginning of your application and it should take some seconds. If you are -generating the dictionary on each iteration of your detection loop, you are doing it wrong. - -Furthermore, it is recommendable to save the dictionary to a file and read it on every execution so you dont need to generate it. - - -- I would like to use some markers of the original ArUco library that I have already printed, can I use them? - -Yes, one of the predefined dictionary is ```DICT_ARUCO_ORIGINAL```, which detects the marker of the original ArUco library with the same identifiers. - - -- Can I use the Board configuration file of the original ArUco library in this module? - -Not directly, you will need to adapt the information of the ArUco file to the aruco module Board format. - - -- Can I use this module to detect the markers of other libraries based on binary fiducial markers? - -Probably yes, however you will need to port the dictionary of the original library to the aruco module format. - - -- Do I need to store the Dictionary information in a file so I can use it in different executions? - -If you are using one of the predefined dictionaries, it is not necessary. Otherwise, it is recommendable that you save it to file. - - -- Do I need to store the Board information in a file so I can use it in different executions? - -If you are using a ```GridBoard``` or a ```ChArUco``` board you only need to store the board measurements that are provided to the ```GridBoard::create()``` or ```ChArUco::create()``` functions. -If you manually modify the marker ids of the boards, or if you use a different type of board, you should save your board object to file. - -- Does the aruco module provide functions to save the Dictionary or Board to file? - -Not right now. However the data member of both the dictionary and board classes are public and can be easily stored. - - -- Alright, but how can I render a 3d model to create an augmented reality application? - -To do so, you will need to use an external rendering engine library, such as OpenGL. The aruco module only provides the functionality to -obtain the camera pose, i.e. the rotation and traslation vectors, which is necessary to create the augmented reality effect. -However, you will need to adapt the rotation and traslation vectors from the OpenCV format to the format accepted by your 3d rendering library. -The original ArUco library contains examples of how to do it for OpenGL and Ogre3D. - - -- I have use this module in my research work, how can I cite it? - -You can cite the original ArUco library: - -> S. Garrido-Jurado, R. Muñoz-Salinas, F. J. Madrid-Cuevas, and M. J. Marín-Jiménez. 2014. -> "Automatic generation and detection of highly reliable fiducial markers under occlusion". -> Pattern Recogn. 47, 6 (June 2014), 2280-2292. DOI=10.1016/j.patcog.2014.01.005 diff --git a/aruco_pose/vendor/aruco/tutorials/charuco_detection/charuco_detection.markdown b/aruco_pose/vendor/aruco/tutorials/charuco_detection/charuco_detection.markdown deleted file mode 100644 index 849aee10..00000000 --- a/aruco_pose/vendor/aruco/tutorials/charuco_detection/charuco_detection.markdown +++ /dev/null @@ -1,329 +0,0 @@ -Detection of ChArUco Corners {#tutorial_charuco_detection} -============================== - -ArUco markers and boards are very useful due to their fast detection and their versatility. -However, one of the problems of ArUco markers is that the accuracy of their corner positions is not too high, -even after applying subpixel refinement. - -On the contrary, the corners of chessboard patterns can be refined more accurately since each corner is -surrounded by two black squares. However, finding a chessboard pattern is not as versatile as finding an ArUco board: -it has to be completely visible and occlusions are not permitted. - -A ChArUco board tries to combine the benefits of these two approaches: - -![Charuco definition](images/charucodefinition.png) - -The ArUco part is used to interpolate the position of the chessboard corners, so that it has the versatility of marker -boards, since it allows occlusions or partial views. Moreover, since the interpolated corners belong to a chessboard, -they are very accurate in terms of subpixel accuracy. - -When high precision is necessary, such as in camera calibration, Charuco boards are a better option than standard -Aruco boards. - - -ChArUco Board Creation ------- - -The aruco module provides the ```cv::aruco::CharucoBoard``` class that represents a Charuco Board and which inherits from the ```Board``` class. - -This class, as the rest of ChArUco functionalities, are defined in: - -@code{.cpp} - #include -@endcode - -To define a ```CharucoBoard```, it is necesary: - -- Number of chessboard squares in X direction. -- Number of chessboard squares in Y direction. -- Length of square side. -- Length of marker side. -- The dictionary of the markers. -- Ids of all the markers. - -As for the ```GridBoard``` objects, the aruco module provides a function to create ```CharucoBoard```s easily. This function -is the static function ```cv::aruco::CharucoBoard::create()``` : - -@code{.cpp} - cv::aruco::CharucoBoard board = cv::aruco::CharucoBoard::create(5, 7, 0.04, 0.02, dictionary); -@endcode - -- The first and second parameters are the number of squares in X and Y direction respectively. -- The third and fourth parameters are the length of the squares and the markers respectively. They can be provided -in any unit, having in mind that the estimated pose for this board would be measured in the same units (usually meters are used). -- Finally, the dictionary of the markers is provided. - -The ids of each of the markers are assigned by default in ascending order and starting on 0, like in ```GridBoard::create()```. -This can be easily customized by accessing to the ids vector through ```board.ids```, like in the ```Board``` parent class. - -Once we have our ```CharucoBoard``` object, we can create an image to print it. This can be done with the -CharucoBoard::draw() method: - -@code{.cpp} - cv::Ptr board = cv::aruco::CharucoBoard::create(5, 7, 0.04, 0.02, dictionary); - cv::Mat boardImage; - board->draw( cv::Size(600, 500), boardImage, 10, 1 ); -@endcode - -- The first parameter is the size of the output image in pixels. In this case 600x500 pixels. If this is not proportional -to the board dimensions, it will be centered on the image. -- ```boardImage```: the output image with the board. -- The third parameter is the (optional) margin in pixels, so none of the markers are touching the image border. -In this case the margin is 10. -- Finally, the size of the marker border, similarly to ```drawMarker()``` function. The default value is 1. - -The output image will be something like this: - -![](images/charucoboard.jpg) - -A full working example is included in the ```create_board_charuco.cpp``` inside the module samples folder. - -Note: The samples now take input via commandline via the [OpenCV Commandline Parser](http://docs.opencv.org/trunk/d0/d2e/classcv_1_1CommandLineParser.html#gsc.tab=0). For this file the example parameters will look like -@code{.cpp} - "_ output path_/chboard.png" -w=5 -h=7 -sl=200 -ml=120 -d=10 -@endcode - - -ChArUco Board Detection ------- - -When you detect a ChArUco board, what you are actually detecting is each of the chessboard corners of the board. - -Each corner on a ChArUco board has a unique identifier (id) assigned. These ids go from 0 to the total number of corners -in the board. - -So, a detected ChArUco board consists in: - -- ```std::vector charucoCorners``` : list of image positions of the detected corners. -- ```std::vector charucoIds``` : ids for each of the detected corners in ```charucoCorners```. - -The detection of the ChArUco corners is based on the previous detected markers. So that, first markers are detected, and then -ChArUco corners are interpolated from markers. - -The function that detect the ChArUco corners is ```cv::aruco::interpolateCornersCharuco()``` . This example shows the whole process. First, markers are detected, and then the ChArUco corners are interpolated from these markers. - -@code{.cpp} - cv::Mat inputImage; - cv::Mat cameraMatrix, distCoeffs; - // camera parameters are read from somewhere - readCameraParameters(cameraMatrix, distCoeffs); - cv::Ptr dictionary = cv::aruco::getPredefinedDictionary(cv::aruco::DICT_6X6_250); - cv::Ptr board = cv::aruco::CharucoBoard::create(5, 7, 0.04, 0.02, dictionary); - ... - std::vector markerIds; - std::vector> markerCorners; - cv::aruco::detectMarkers(inputImage, board.dictionary, markerCorners, markerIds); - - // if at least one marker detected - if(markerIds.size() > 0) { - std::vector charucoCorners; - std::vector charucoIds; - cv::aruco::interpolateCornersCharuco(markerCorners, markerIds, inputImage, board, charucoCorners, charucoIds, cameraMatrix, distCoeffs); - } -@endcode - -The parameters of the ```interpolateCornersCharuco()``` function are: -- ```markerCorners``` and ```markerIds```: the detected markers from ```detectMarkers()``` function. -- ```inputImage```: the original image where the markers were detected. The image is necessary to perform subpixel refinement -in the ChArUco corners. -- ```board```: the ```CharucoBoard``` object -- ```charucoCorners``` and ```charucoIds```: the output interpolated Charuco corners -- ```cameraMatrix``` and ```distCoeffs```: the optional camera calibration parameters -- The function returns the number of Charuco corners interpolated. - -In this case, we have call ```interpolateCornersCharuco()``` providing the camera calibration parameters. However these parameters -are optional. A similar example without these parameters would be: - -@code{.cpp} - cv::Mat inputImage; - cv::Ptr dictionary = cv::aruco::getPredefinedDictionary(cv::aruco::DICT_6X6_250); - cv::Ptr board = cv::aruco::CharucoBoard::create(5, 7, 0.04, 0.02, dictionary); - ... - std::vector markerIds; - std::vector> markerCorners; - cv::Ptr params; - params->cornerRefinementMethod = cv::aruco::CORNER_REFINE_NONE; - cv::aruco::detectMarkers(inputImage, board.dictionary, markerCorners, markerIds, params); - - // if at least one marker detected - if(markerIds.size() > 0) { - std::vector charucoCorners; - std::vector charucoIds; - cv::aruco::interpolateCornersCharuco(markerCorners, markerIds, inputImage, board, charucoCorners, charucoIds); - } -@endcode - -If calibration parameters are provided, the ChArUco corners are interpolated by, first, estimating a rough pose from the ArUco markers -and, then, reprojecting the ChArUco corners back to the image. - -On the other hand, if calibration parameters are not provided, the ChArUco corners are interpolated by calculating the -corresponding homography between the ChArUco plane and the ChArUco image projection. - -The main problem of using homography is that the interpolation is more sensible to image distortion. Actually, the homography is only performed -using the closest markers of each ChArUco corner to reduce the effect of distortion. - -When detecting markers for ChArUco boards, and specially when using homography, it is recommended to disable the corner refinement of markers. The reason of this -is that, due to the proximity of the chessboard squares, the subpixel process can produce important -deviations in the corner positions and these deviations are propagated to the ChArUco corner interpolation, -producing poor results. - -Furthermore, only those corners whose two surrounding markers have be found are returned. If any of the two surrounding markers has -not been detected, this usually means that there is some occlusion or the image quality is not good in that zone. In any case, it is -preferable not to consider that corner, since what we want is to be sure that the interpolated ChArUco corners are very accurate. - -After the ChArUco corners have been interpolated, a subpixel refinement is performed. - -Once we have interpolated the ChArUco corners, we would probably want to draw them to see if their detections are correct. -This can be easily done using the ```drawDetectedCornersCharuco()``` function: - -@code{.cpp} - cv::aruco::drawDetectedCornersCharuco(image, charucoCorners, charucoIds, color); -@endcode - -- ```image``` is the image where the corners will be drawn (it will normally be the same image where the corners were detected). -- The ```outputImage``` will be a clone of ```inputImage``` with the corners drawn. -- ```charucoCorners``` and ```charucoIds``` are the detected Charuco corners from the ```interpolateCornersCharuco()``` function. -- Finally, the last parameter is the (optional) color we want to draw the corners with, of type ```cv::Scalar```. - -For this image: - -![Image with Charuco board](images/choriginal.png) - -The result will be: - -![Charuco board detected](images/chcorners.png) - -In the presence of occlusion. like in the following image, although some corners are clearly visible, not all their surrounding markers have been detected due occlusion and, thus, they are not interpolated: - -![Charuco detection with occlusion](images/chocclusion.png) - -Finally, this is a full example of ChArUco detection (without using calibration parameters): - -@code{.cpp} - cv::VideoCapture inputVideo; - inputVideo.open(0); - - cv::Ptr dictionary = cv::aruco::getPredefinedDictionary(cv::aruco::DICT_6X6_250); - cv::Ptr board = cv::aruco::CharucoBoard::create(5, 7, 0.04, 0.02, dictionary); - - cv::Ptr params; - params->cornerRefinementMethod = cv::aruco::CORNER_REFINE_NONE; - - while (inputVideo.grab()) { - cv::Mat image, imageCopy; - inputVideo.retrieve(image); - image.copyTo(imageCopy); - - std::vector ids; - std::vector> corners; - cv::aruco::detectMarkers(image, dictionary, corners, ids, params); - - // if at least one marker detected - if (ids.size() > 0) { - cv::aruco::drawDetectedMarkers(imageCopy, corners, ids); - - std::vector charucoCorners; - std::vector charucoIds; - cv::aruco::interpolateCornersCharuco(corners, ids, image, board, charucoCorners, charucoIds); - // if at least one charuco corner detected - if(charucoIds.size() > 0) - cv::aruco::drawDetectedCornersCharuco(imageCopy, charucoCorners, charucoIds, cv::Scalar(255, 0, 0)); - } - - cv::imshow("out", imageCopy); - char key = (char) cv::waitKey(waitTime); - if (key == 27) - break; - } -@endcode - -Sample video: - -@htmlonly - -@endhtmlonly - -A full working example is included in the ```detect_board_charuco.cpp``` inside the module samples folder. - -Note: The samples now take input via commandline via the [OpenCV Commandline Parser](http://docs.opencv.org/trunk/d0/d2e/classcv_1_1CommandLineParser.html#gsc.tab=0). For this file the example parameters will look like -@code{.cpp} - -c="_path_/calib.txt" -dp="_path_/detector_params.yml" -w=5 -h=7 -sl=0.04 -ml=0.02 -d=10 -@endcode - -ChArUco Pose Estimation ------- - -The final goal of the ChArUco boards is finding corners very accurately for a high precision calibration or pose estimation. - -The aruco module provides a function to perform ChArUco pose estimation easily. As in the ```GridBoard```, the coordinate system -of the ```CharucoBoard``` is placed in the board plane with the Z axis pointing out, and centered in the bottom left corner of the board. - -The function for pose estimation is ```estimatePoseCharucoBoard()```: - -@code{.cpp} - cv::aruco::estimatePoseCharucoBoard(charucoCorners, charucoIds, board, cameraMatrix, distCoeffs, rvec, tvec); -@endcode - -- The ```charucoCorners``` and ```charucoIds``` parameters are the detected charuco corners from the ```interpolateCornersCharuco()``` -function. -- The third parameter is the ```CharucoBoard``` object. -- The ```cameraMatrix``` and ```distCoeffs``` are the camera calibration parameters which are necessary for pose estimation. -- Finally, the ```rvec``` and ```tvec``` parameters are the output pose of the Charuco Board. -- The function returns true if the pose was correctly estimated and false otherwise. The main reason of failing is that there are -not enough corners for pose estimation or they are in the same line. - -The axis can be drawn using ```drawAxis()``` to check the pose is correctly estimated. The result would be: (X:red, Y:green, Z:blue) - -![Charuco Board Axis](images/chaxis.png) - -A full example of ChArUco detection with pose estimation: - -@code{.cpp} - cv::VideoCapture inputVideo; - inputVideo.open(0); - - cv::Mat cameraMatrix, distCoeffs; - // camera parameters are read from somewhere - readCameraParameters(cameraMatrix, distCoeffs); - - cv::Ptr dictionary = cv::aruco::getPredefinedDictionary(cv::aruco::DICT_6X6_250); - cv::Ptr board = cv::aruco::CharucoBoard::create(5, 7, 0.04, 0.02, dictionary); - - while (inputVideo.grab()) { - cv::Mat image, imageCopy; - inputVideo.retrieve(image); - image.copyTo(imageCopy); - - std::vector ids; - std::vector> corners; - cv::aruco::detectMarkers(image, dictionary, corners, ids); - - // if at least one marker detected - if (ids.size() > 0) { - std::vector charucoCorners; - std::vector charucoIds; - cv::aruco::interpolateCornersCharuco(corners, ids, image, board, charucoCorners, charucoIds, cameraMatrix, distCoeffs); - // if at least one charuco corner detected - if(charucoIds.size() > 0) { - cv::aruco::drawDetectedCornersCharuco(imageCopy, charucoCorners, charucoIds, cv::Scalar(255, 0, 0)); - cv::Vec3d rvec, tvec; - bool valid = cv::aruco::estimatePoseCharucoBoard(charucoCorners, charucoIds, board, cameraMatrix, distCoeffs, rvec, tvec); - // if charuco pose is valid - if(valid) - cv::aruco::drawAxis(imageCopy, cameraMatrix, distCoeffs, rvec, tvec, 0.1); - } - } - - cv::imshow("out", imageCopy); - char key = (char) cv::waitKey(waitTime); - if (key == 27) - break; - } -@endcode - -A full working example is included in the ```detect_board_charuco.cpp``` inside the module samples folder. - -Note: The samples now take input via commandline via the [OpenCV Commandline Parser](http://docs.opencv.org/trunk/d0/d2e/classcv_1_1CommandLineParser.html#gsc.tab=0). For this file the example parameters will look like -@code{.cpp} - "_path_/calib.txt" -dp="_path_/detector_params.yml" -w=5 -h=7 -sl=0.04 -ml=0.02 -d=10 -@endcode diff --git a/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/charucoboard.jpg b/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/charucoboard.jpg deleted file mode 100644 index eda7c86c..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/charucoboard.jpg and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/charucodefinition.png b/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/charucodefinition.png deleted file mode 100644 index 44684f31..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/charucodefinition.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/chaxis.png b/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/chaxis.png deleted file mode 100644 index 8eed13ef..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/chaxis.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/chcorners.png b/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/chcorners.png deleted file mode 100644 index 88506fec..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/chcorners.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/chocclusion.png b/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/chocclusion.png deleted file mode 100644 index b406263d..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/chocclusion.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/choriginal.png b/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/choriginal.png deleted file mode 100644 index b211458c..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/charuco_detection/images/choriginal.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/charuco_diamond_detection/charuco_diamond_detection.markdown b/aruco_pose/vendor/aruco/tutorials/charuco_diamond_detection/charuco_diamond_detection.markdown deleted file mode 100644 index 829c3e85..00000000 --- a/aruco_pose/vendor/aruco/tutorials/charuco_diamond_detection/charuco_diamond_detection.markdown +++ /dev/null @@ -1,174 +0,0 @@ -Detection of Diamond Markers {#tutorial_charuco_diamond_detection} -============================== - -A ChArUco diamond marker (or simply diamond marker) is a chessboard composed by 3x3 squares and 4 ArUco markers inside the white squares. -It is similar to a ChArUco board in appearance, however they are conceptually different. - -![Diamond marker examples](images/diamondmarkers.png) - -In both, ChArUco board and Diamond markers, their detection is based on the previous detected ArUco -markers. In the ChArUco case, the used markers are selected by directly looking their identifiers. This means -that if a marker (included in the board) is found on a image, it will be automatically assumed to belong to the board. Furthermore, -if a marker board is found more than once in the image, it will produce an ambiguity since the system wont -be able to know which one should be used for the Board. - -On the other hand, the detection of Diamond marker is not based on the identifiers. Instead, their detection -is based on the relative position of the markers. As a consequence, marker identifiers can be repeated in the -same diamond or among different diamonds, and they can be detected simultaneously without ambiguity. However, -due to the complexity of finding marker based on their relative position, the diamond markers are limited to -a size of 3x3 squares and 4 markers. - -As in a single ArUco marker, each Diamond marker is composed by 4 corners and a identifier. The four corners -correspond to the 4 chessboard corners in the marker and the identifier is actually an array of 4 numbers, which are -the identifiers of the four ArUco markers inside the diamond. - -Diamond markers are useful in those scenarios where repeated markers should be allowed. For instance: - -- To increase the number of identifiers of single markers by using diamond marker for labeling. They would allow -up to N^4 different ids, being N the number of markers in the used dictionary. - -- Give to each of the four markers a conceptual meaning. For instance, one of the four marker ids could be -used to indicate the scale of the marker (i.e. the size of the square), so that the same diamond can be found -in the environment with different sizes just by changing one of the four markers and the user does not need -to manually indicate the scale of each of them. This case is included in the ```diamond_detector.cpp``` file inside -the samples folder of the module. - -Furthermore, as its corners are chessboard corners, they can be used for accurate pose estimation. - -The diamond functionalities are included in `````` - - -ChArUco Diamond Creation ------- - -The image of a diamond marker can be easily created using the ```drawCharucoDiamond()``` function. -For instance: - -@code{.cpp} - cv::Mat diamondImage; - cv::Ptr dictionary = cv::aruco::getPredefinedDictionary(cv::aruco::DICT_6X6_250); - cv::aruco::drawCharucoDiamond(dictionary, cv::Vec4i(45,68,28,74), 200, 120, markerImage); -@endcode - -This will create a diamond marker image with a square size of 200 pixels and a marker size of 120 pixels. -The marker ids are given in the second parameter as a ```Vec4i``` object. The order of the marker ids -in the diamond layout are the same as in a standard ChArUco board, i.e. top, left, right and bottom. - -The image produced will be: - -![Diamond marker](images/diamondmarker.png) - -A full working example is included in the ```create_diamond.cpp``` inside the module samples folder. - -Note: The samples now take input via commandline via the [OpenCV Commandline Parser](http://docs.opencv.org/trunk/d0/d2e/classcv_1_1CommandLineParser.html#gsc.tab=0). For this file the example parameters will look like -@code{.cpp} - "_path_/mydiamond.png" -sl=200 -ml=120 -d=10 -ids=45,68,28,74 -@endcode - -ChArUco Diamond Detection ------- - -As in most cases, the detection of diamond markers requires a previous detection of ArUco markers. -After detecting markers, diamond are detected using the ```detectCharucoDiamond()``` function: - -@code{.cpp} - cv::Mat inputImage; - float squareLength = 0.40; - float markerLength = 0.25; - ... - - - std::vector markerIds; - std::vector> markerCorners; - - // detect ArUco markers - cv::aruco::detectMarkers(inputImage, dictionary, markerCorners, markerIds); - - std::vector diamondIds; - std::vector> diamondCorners; - - // detect diamon diamonds - cv::aruco::detectCharucoDiamond(inputImage, markerCorners, markerIds, squareLength / markerLength, diamondCorners, diamondIds); -@endcode - -The ```detectCharucoDiamond()``` function receives the original image and the previous detected marker corners and ids. -The input image is necessary to perform subpixel refinement in the ChArUco corners. -It also receives the rate between the square size and the marker sizes which is required for both, detecting the diamond -from the relative positions of the markers and interpolating the ChArUco corners. - -The function returns the detected diamonds in two parameters. The first parameter, ```diamondCorners```, is an array containing -all the four corners of each detected diamond. Its format is similar to the detected corners by the ```detectMarkers()``` -function and, for each diamond, the corners are represented in the same order than in the ArUco markers, i.e. clockwise order -starting with the top-left corner. The second returned parameter, ```diamondIds```, contains all the ids of the returned -diamond corners in ```diamondCorners```. Each id is actually an array of 4 integers that can be represented with ```Vec4i```. - -The detected diamond can be visualized using the function ```drawDetectedDiamonds()``` which simply recieves the image and the diamond -corners and ids: - -@code{.cpp} - ... - std::vector diamondIds; - std::vector> diamondCorners; - cv::aruco::detectCharucoDiamond(inputImage, markerCorners, markerIds, squareLength / markerLength, diamondCorners, diamondIds); - - cv::aruco::drawDetectedDiamonds(inputImage, diamondCorners, diamondIds); -@endcode - -The result is the same that the one produced by ```drawDetectedMarkers()```, but printing the four ids of the diamond: - -![Detected diamond markers](images/detecteddiamonds.png) - -A full working example is included in the ```detect_diamonds.cpp``` inside the module samples folder. - -Note: The samples now take input via commandline via the [OpenCV Commandline Parser](http://docs.opencv.org/trunk/d0/d2e/classcv_1_1CommandLineParser.html#gsc.tab=0). For this file the example parameters will look like -@code{.cpp} - -c="_path_/calib.txt" -dp="_path_/detector_params.yml" -sl=0.04 -ml=0.02 -d=10 -@endcode - -ChArUco Diamond Pose Estimation ------- - -Since a ChArUco diamond is represented by its four corners, its pose can be estimated in the same way than in a single ArUco marker, -i.e. using the ```estimatePoseSingleMarkers()``` function. For instance: - -@code{.cpp} - ... - - std::vector diamondIds; - std::vector> diamondCorners; - - // detect diamon diamonds - cv::aruco::detectCharucoDiamond(inputImage, markerCorners, markerIds, squareLength / markerLength, diamondCorners, diamondIds); - - // estimate poses - std::vector rvecs, tvecs; - cv::aruco::estimatePoseSingleMarkers(diamondCorners, squareLength, camMatrix, distCoeffs, rvecs, tvecs); - - // draw axis - for(unsigned int i=0; i -@endhtmlonly - -A full working example is included in the ```detect_diamonds.cpp``` inside the module samples folder. - -Note: The samples now take input via commandline via the [OpenCV Commandline Parser](http://docs.opencv.org/trunk/d0/d2e/classcv_1_1CommandLineParser.html#gsc.tab=0). For this file the example parameters will look like -@code{.cpp} - -c="_output path_/calib.txt" -dp="_path_/detector_params.yml" -sl=0.04 -ml=0.02 -d=10 -@endcode diff --git a/aruco_pose/vendor/aruco/tutorials/charuco_diamond_detection/images/detecteddiamonds.png b/aruco_pose/vendor/aruco/tutorials/charuco_diamond_detection/images/detecteddiamonds.png deleted file mode 100644 index fbb3f548..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/charuco_diamond_detection/images/detecteddiamonds.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/charuco_diamond_detection/images/diamondmarker.png b/aruco_pose/vendor/aruco/tutorials/charuco_diamond_detection/images/diamondmarker.png deleted file mode 100644 index f7dcd81d..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/charuco_diamond_detection/images/diamondmarker.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/charuco_diamond_detection/images/diamondmarkers.png b/aruco_pose/vendor/aruco/tutorials/charuco_diamond_detection/images/diamondmarkers.png deleted file mode 100644 index dc8b181f..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/charuco_diamond_detection/images/diamondmarkers.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/charuco_diamond_detection/images/diamondsaxis.png b/aruco_pose/vendor/aruco/tutorials/charuco_diamond_detection/images/diamondsaxis.png deleted file mode 100644 index b694df06..00000000 Binary files a/aruco_pose/vendor/aruco/tutorials/charuco_diamond_detection/images/diamondsaxis.png and /dev/null differ diff --git a/aruco_pose/vendor/aruco/tutorials/table_of_content_aruco.markdown b/aruco_pose/vendor/aruco/tutorials/table_of_content_aruco.markdown deleted file mode 100644 index ff52383c..00000000 --- a/aruco_pose/vendor/aruco/tutorials/table_of_content_aruco.markdown +++ /dev/null @@ -1,60 +0,0 @@ -ArUco marker detection (aruco module) {#tutorial_table_of_content_aruco} -========================================================== - -ArUco markers are binary square fiducial markers that can be used for camera pose estimation. -Their main benefit is that their detection is robust, fast and simple. - -The aruco module includes the detection of these types of markers and the tools to employ them -for pose estimation and camera calibration. - -Also, the ChArUco functionalities combine ArUco markers with traditional chessboards to allow -an easy and versatile corner detection. The module also includes the functions to detect -ChArUco corners and use them for pose estimation and camera calibration. - -- @subpage tutorial_aruco_detection - - *Compatibility:* \> OpenCV 3.0 - - *Author:* Sergio Garrido - - Basic detection and pose estimation from single ArUco markers. - -- @subpage tutorial_aruco_board_detection - - *Compatibility:* \> OpenCV 3.0 - - *Author:* Sergio Garrido - - Detection and pose estimation using a Board of markers - -- @subpage tutorial_charuco_detection - - *Compatibility:* \> OpenCV 3.0 - - *Author:* Sergio Garrido - - Basic detection using ChArUco corners - -- @subpage tutorial_charuco_diamond_detection - - *Compatibility:* \> OpenCV 3.0 - - *Author:* Sergio Garrido - - Detection and pose estimation using ChArUco markers - -- @subpage tutorial_aruco_calibration - - *Compatibility:* \> OpenCV 3.0 - - *Author:* Sergio Garrido - - Camera Calibration using ArUco and ChArUco boards - -- @subpage tutorial_aruco_faq - - *Compatibility:* \> OpenCV 3.0 - - *Author:* Sergio Garrido - - General and useful questions about the aruco module