Merge branch 'master' into terrain-frame

Allow setting Z with yaw=0
simple_offboard: add terrain frame
2026-06-01 15:39:32 +00:00 · 2022-10-13 00:08:46 +06:00 · 2022-10-12 23:07:25 +06:00 · 2022-09-23 00:30:42 +03:00
141 changed files with 826 additions and 4463 deletions
--- a/.github/workflows/build-image.yaml
+++ b/.github/workflows/build-image.yaml
@@ -7,7 +7,6 @@ on:
    branches: [ master ]
  release:
    types: [ created ]
  workflow_dispatch:
 jobs:
  build:
--- a/.github/workflows/build.yml
+++ b/.github/workflows/build.yml
@@ -5,7 +5,6 @@ on:
    branches: [ '*' ]
  pull_request:
    branches: [ master ]
  workflow_dispatch:
 jobs:
  # melodic:
--- a/.github/workflows/docs.yml
+++ b/.github/workflows/docs.yml
@@ -5,13 +5,16 @@ on:
    branches: [ '*' ]
  pull_request:
    branches: [ '*' ]
  workflow_dispatch:
 permissions:
  contents: read
  pages: write
  id-token: write
 concurrency:
  group: "pages"
  cancel-in-progress: true
 defaults:
  run:
    shell: bash
@@ -72,9 +75,6 @@ jobs:
  deploy-docs:
    if: ${{ github.event_name == 'push' && github.ref == 'refs/heads/master' }}
    concurrency:
        group: "pages"
        cancel-in-progress: true
    environment:
      name: github-pages
      url: ${{ steps.deployment.outputs.page_url }}
@@ -82,8 +82,5 @@ jobs:
    needs: docs
    steps:
      - name: Deploy to GitHub Pages
        env:
          FREEZE_DOCS: ${{ secrets.FREEZE_DOCS }}
        if: ${{ !env.FREEZE_DOCS }}
        id: deployment
        uses: actions/deploy-pages@v1
--- a/.github/workflows/editorconfig.yaml
+++ b/.github/workflows/editorconfig.yaml
@@ -5,7 +5,6 @@ on:
    branches: [ '*' ]
  pull_request:
    branches: [ master ]
  workflow_dispatch:
 jobs:
  editorconfig:
--- a/README.md
+++ b/README.md
@@ -20,7 +20,7 @@ Clover drone is used on a wide range of educational events, including [Copter Ha
 Preconfigured image for Raspberry Pi with installed and configured software, ready to fly, is available [in the Releases section](https://github.com/CopterExpress/clover/releases).
-![GitHub Workflow Status](https://img.shields.io/github/actions/workflow/status/CopterExpress/clover/build-image.yaml?branch=master)
+![GitHub Workflow Status](https://img.shields.io/github/workflow/status/CopterExpress/clover/CI)
 ![GitHub all releases](https://img.shields.io/github/downloads/CopterExpress/clover/total)
 Image features:
--- a/aruco_pose/README.md
+++ b/aruco_pose/README.md
@@ -43,8 +43,7 @@ It's recommended to run it within the same nodelet manager with the camera nodel
 * `~frame_id_prefix` (*string*) – prefix for TF transforms names, marker's ID is appended (default: `aruco_`)
 * `~length` (*double*) – markers' sides length
 * `~length_override` (*map*) – lengths of markers with specified ids
-* `~known_vertical` (*string*) – known vertical (Z axis) of all the markers as a frame
+* `~known_tilt` (*string*) – known tilt (pitch and roll) of all the markers as a frame
 * `~flip_vertical` – flip vertical vector
 ### Topics
@@ -72,8 +71,7 @@ It's recommended to run it within the same nodelet manager with the camera nodel
 * `~map` – path to text file with markers list
 * `~frame_id` – published frame id (default: `aruco_map`)
-* `~known_vertical` – known vertical (Z axis) of markers map as a frame
+* `~known_tilt` – known tilt (pitch and roll) of markers map as a frame
 * `~flip_vertical` – flip vertical vector
 * `~image_width` – debug image width (default: 2000)
 * `~image_height` – debug image height (default: 2000)
 * `~image_margin` – debug image margin (default: 200)
--- a/aruco_pose/cfg/Detector.cfg
+++ b/aruco_pose/cfg/Detector.cfg
@@ -4,10 +4,7 @@ PACKAGE = "aruco_pose"
 from dynamic_reconfigure.parameter_generator_catkin import *
 import cv2.aruco
-try:
+p = cv2.aruco.DetectorParameters_create()
        p = cv2.aruco.DetectorParameters_create()
 except AttributeError:
        p = cv2.aruco.DetectorParameters()
 gen = ParameterGenerator()
--- a/aruco_pose/package.xml
+++ b/aruco_pose/package.xml
@@ -1,7 +1,7 @@
 <?xml version="1.0"?>
-<package format="3">
+<package format="2">
  <name>aruco_pose</name>
-  <version>0.24.0</version>
+  <version>0.23.0</version>
  <description>Positioning with ArUco markers</description>
  <maintainer email="okalachev@gmail.com">Oleg Kalachev</maintainer>
@@ -28,8 +28,6 @@
  <depend>sensor_msgs</depend>
  <depend>rostest</depend>
  <depend>dynamic_reconfigure</depend>
  <depend condition="$ROS_PYTHON_VERSION == 2">python-docopt</depend>
  <depend condition="$ROS_PYTHON_VERSION == 3">python3-docopt</depend>
  <test_depend>image_publisher</test_depend>
  <test_depend>ros_pytest</test_depend>
--- a/aruco_pose/src/aruco_detect.cpp
+++ b/aruco_pose/src/aruco_detect.cpp
@@ -50,7 +50,6 @@
 #include <aruco_pose/DetectorConfig.h>
 #include <aruco_pose/SetMarkers.h>
 #include "draw.h"
 #include "utils.h"
 #include <memory>
 #include <functional>
@@ -72,12 +71,11 @@ private:
 	ros::Publisher markers_pub_, vis_markers_pub_;
 	ros::Subscriber map_markers_sub_;
 	ros::ServiceServer set_markers_srv_;
-	bool estimate_poses_, send_tf_, flip_vertical_, auto_flip_, use_map_markers_;
+	bool estimate_poses_, send_tf_, auto_flip_;
 	bool waiting_for_map_;
 	double length_;
 	ros::Duration transform_timeout_;
 	std::unordered_map<int, double> length_override_;
-	std::string frame_id_prefix_, known_vertical_;
+	std::string frame_id_prefix_, known_tilt_;
 	Mat camera_matrix_, dist_coeffs_;
 	aruco_pose::MarkerArray array_;
 	std::unordered_set<int> map_markers_ids_;
@@ -97,8 +95,6 @@ public:
 		dictionary = nh_priv_.param("dictionary", 2);
 		estimate_poses_ = nh_priv_.param("estimate_poses", true);
 		send_tf_ = nh_priv_.param("send_tf", true);
 		use_map_markers_ = nh_priv_.param("use_map_markers", false);
 		waiting_for_map_ = use_map_markers_;
 		if (estimate_poses_ && !nh_priv_.getParam("length", length_)) {
 			NODELET_FATAL("can't estimate marker's poses as ~length parameter is not defined");
 			ros::shutdown();
@@ -106,8 +102,7 @@ public:
 		readLengthOverride(nh_priv_);
 		transform_timeout_ = ros::Duration(nh_priv_.param("transform_timeout", 0.02));
-		known_vertical_ = nh_priv_.param("known_vertical", nh_priv_.param("known_tilt", std::string(""))); // known_tilt is an old name
+		known_tilt_ = nh_priv_.param<std::string>("known_tilt", "");
 		flip_vertical_ = nh_priv_.param<bool>("flip_vertical", false);
 		auto_flip_ = nh_priv_.param("auto_flip", false);
 		frame_id_prefix_ = nh_priv_.param<std::string>("frame_id_prefix", "aruco_");
@@ -138,15 +133,14 @@ private:
 	void imageCallback(const sensor_msgs::ImageConstPtr& msg, const sensor_msgs::CameraInfoConstPtr &cinfo)
 	{
 		if (!enabled_) return;
 		if (waiting_for_map_) return;
-		Mat image = cv_bridge::toCvShare(msg)->image;
+		Mat image = cv_bridge::toCvShare(msg, "bgr8")->image;
 		vector<int> ids;
 		vector<vector<cv::Point2f>> corners, rejected;
 		vector<cv::Vec3d> rvecs, tvecs;
 		vector<cv::Point3f> obj_points;
-		geometry_msgs::TransformStamped vertical;
+		geometry_msgs::TransformStamped snap_to;
 		// Detect markers
 		cv::aruco::detectMarkers(image, dictionary_, corners, ids, parameters_, rejected);
@@ -181,12 +175,12 @@ private:
 					}
 				}
-				if (!known_vertical_.empty()) {
+				if (!known_tilt_.empty()) {
 					try {
-						vertical = tf_buffer_->lookupTransform(msg->header.frame_id, known_vertical_,
+						snap_to = tf_buffer_->lookupTransform(msg->header.frame_id, known_tilt_,
-						                                       msg->header.stamp, transform_timeout_);
+						                                      msg->header.stamp, transform_timeout_);
 					} catch (const tf2::TransformException& e) {
-						NODELET_WARN_THROTTLE(5, "can't retrieve known vertical: %s", e.what());
+						NODELET_WARN_THROTTLE(5, "can't snap: %s", e.what());
 					}
 				}
 			}
@@ -207,9 +201,9 @@ private:
 				if (estimate_poses_) {
 					fillPose(marker.pose, rvecs[i], tvecs[i]);
-					// apply known vertical (if enabled and vertical frame available)
+					// snap orientation (if enabled and snap frame available)
-					if (!known_vertical_.empty() && !vertical.header.frame_id.empty()) {
+					if (!known_tilt_.empty() && !snap_to.header.frame_id.empty()) {
-						applyVertical(marker.pose.orientation, vertical.transform.rotation, false, auto_flip_);
+						snapOrientation(marker.pose.orientation, snap_to.transform.rotation, auto_flip_);
 					}
 					if (send_tf_) {
@@ -265,7 +259,8 @@ private:
 			cv::aruco::drawDetectedMarkers(debug, corners, ids); // draw markers
 			if (estimate_poses_)
 				for (unsigned int i = 0; i < ids.size(); i++)
-					_drawAxis(debug, camera_matrix_, dist_coeffs_, rvecs[i], tvecs[i], getMarkerLength(ids[i]));
+					cv::aruco::drawAxis(debug, camera_matrix_, dist_coeffs_,
 					                    rvecs[i], tvecs[i], getMarkerLength(ids[i]));
 			cv_bridge::CvImage out_msg;
 			out_msg.header.frame_id = msg->header.frame_id;
@@ -400,13 +395,7 @@ private:
 		map_markers_ids_.clear();
 		for (auto const& marker : msg.markers) {
 			map_markers_ids_.insert(marker.id);
 			if (use_map_markers_) {
 				if (length_override_.find(marker.id) == length_override_.end()) {
 					length_override_[marker.id] = marker.length;
 				}
 			}
 		}
 		waiting_for_map_ = false;
 	}
 	void paramCallback(aruco_pose::DetectorConfig &config, uint32_t level)
--- a/aruco_pose/src/aruco_map.cpp
+++ b/aruco_pose/src/aruco_map.cpp
@@ -81,9 +81,9 @@ private:
 	bool enabled_ = true;
 	std::string type_;
 	visualization_msgs::MarkerArray vis_array_;
-	std::string known_vertical_, map_, markers_frame_, markers_parent_frame_;
+	std::string known_tilt_, map_, markers_frame_, markers_parent_frame_;
 	int image_width_, image_height_, image_margin_;
-	bool flip_vertical_, auto_flip_, image_axis_, put_markers_count_to_covariance_;
+	bool auto_flip_, image_axis_;
 public:
 	virtual void onInit()
@@ -104,14 +104,12 @@ public:
 		type_ = nh_priv_.param<std::string>("type", "map");
 		transform_.child_frame_id = nh_priv_.param<std::string>("frame_id", "aruco_map");
-		known_vertical_ = nh_priv_.param("known_vertical", nh_priv_.param("known_tilt", std::string(""))); // known_tilt is an old name
+		known_tilt_ = nh_priv_.param<std::string>("known_tilt", "");
 		flip_vertical_ = nh_priv_.param<bool>("flip_vertical", false);
 		auto_flip_ = nh_priv_.param("auto_flip", false);
 		image_width_ = nh_priv_.param("image_width" , 2000);
 		image_height_ = nh_priv_.param("image_height", 2000);
 		image_margin_ = nh_priv_.param("image_margin", 200);
 		image_axis_ = nh_priv_.param("image_axis", true);
 		put_markers_count_to_covariance_ = nh_priv_.param("put_markers_count_to_covariance", false);
 		markers_parent_frame_ = nh_priv_.param<std::string>("markers/frame_id", transform_.child_frame_id);
 		markers_frame_ = nh_priv_.param<std::string>("markers/child_frame_id_prefix", "");
@@ -179,21 +177,7 @@ public:
 			corners.push_back(marker_corners);
 		}
-		if (put_markers_count_to_covariance_) {
+		if (known_tilt_.empty()) {
 			// HACK: pass markers count using covariance field
 			int valid_markers = 0;
 			for (auto const &marker : markers->markers) {
 				for (auto const &board_marker : board_->ids) {
 					if (board_marker == marker.id) {
 						valid_markers++;
 						break;
 					}
 				}
 			}
 			pose_.pose.covariance[0] = valid_markers;
 		}
 		if (known_vertical_.empty()) {
 			// simple estimation
 			valid = cv::aruco::estimatePoseBoard(corners, ids, board_, camera_matrix_, dist_coeffs_,
 			                                     rvec, tvec, false);
@@ -207,7 +191,7 @@ public:
 		} else {
 			Mat obj_points, img_points;
-			// estimation with known vertical
+			// estimation with "snapping"
 			cv::aruco::getBoardObjectAndImagePoints(board_, corners, ids, obj_points, img_points);
 			if (obj_points.empty()) goto publish_debug;
@@ -219,11 +203,11 @@ public:
 			fillTransform(transform_.transform, rvec, tvec);
 			try {
-				geometry_msgs::TransformStamped vertical = tf_buffer_.lookupTransform(markers->header.frame_id,
+				geometry_msgs::TransformStamped snap_to = tf_buffer_.lookupTransform(markers->header.frame_id,
-				                                           known_vertical_, markers->header.stamp, ros::Duration(0.02));
+				                                          known_tilt_, markers->header.stamp, ros::Duration(0.02));
-				applyVertical(transform_.transform.rotation, vertical.transform.rotation, flip_vertical_, auto_flip_);
+				snapOrientation(transform_.transform.rotation, snap_to.transform.rotation, auto_flip_);
 			} catch (const tf2::TransformException& e) {
-				NODELET_WARN_THROTTLE(1, "can't retrieve known vertical: %s", e.what());
+				NODELET_WARN_THROTTLE(1, "can't snap: %s", e.what());
 			}
 			geometry_msgs::TransformStamped shift;
@@ -519,7 +503,7 @@ publish_debug:
 		vis_marker.pose.position.x = x;
 		vis_marker.pose.position.y = y;
 		vis_marker.pose.position.z = z;
-		tf::quaternionTFToMsg(q, vis_marker.pose.orientation);
+		tf::quaternionTFToMsg(q, marker.pose.orientation);
 		vis_marker.frame_locked = true;
 		vis_array_.markers.push_back(vis_marker);
--- a/aruco_pose/src/utils.h
+++ b/aruco_pose/src/utils.h
@@ -106,25 +106,26 @@ inline bool isFlipped(tf::Quaternion& q)
 	return (abs(pitch) > M_PI / 2) || (abs(roll) > M_PI / 2);
 }
-/* Apply a vertical to an orientation */
+/* Set roll and pitch from "from" to "to", keeping yaw */
-inline void applyVertical(geometry_msgs::Quaternion& orientation, const geometry_msgs::Quaternion& vertical,
+inline void snapOrientation(geometry_msgs::Quaternion& to, const geometry_msgs::Quaternion& from, bool auto_flip = false)
                          bool flip_vertical = false, bool auto_flip = false) // editorconfig-checker-disable-line
 {
-	tf::Quaternion _vertical, _orientation;
+	tf::Quaternion _from, _to;
-	tf::quaternionMsgToTF(vertical, _vertical);
+	tf::quaternionMsgToTF(from, _from);
-	tf::quaternionMsgToTF(orientation, _orientation);
+	tf::quaternionMsgToTF(to, _to);
-	if (flip_vertical || (auto_flip && !isFlipped(_orientation))) {
+	if (auto_flip) {
-		static const tf::Quaternion flip = tf::createQuaternionFromRPY(M_PI, 0, 0);
+		if (!isFlipped(_from)) {
-		_vertical *= flip; // flip vertical
+			static const tf::Quaternion flip = tf::createQuaternionFromRPY(M_PI, 0, 0);
 			_from *= flip; // flip "from"
 		}
 	}
-	auto diff = tf::Matrix3x3(_orientation).transposeTimes(tf::Matrix3x3(_vertical));
+	auto diff = tf::Matrix3x3(_to).transposeTimes(tf::Matrix3x3(_from));
 	double _, yaw;
 	diff.getRPY(_, _, yaw);
 	auto q = tf::createQuaternionFromRPY(0, 0, -yaw);
-	_vertical = _vertical * q; // set yaw from orientation to vertical
+	_from = _from * q; // set yaw from "to" to "from"
-	tf::quaternionTFToMsg(_vertical, orientation); // set vertical to orientation
+	tf::quaternionTFToMsg(_from, to); // set "from" to "to"
 }
 inline void transformToPose(const geometry_msgs::Transform& transform, geometry_msgs::Pose& pose)
--- a/aruco_pose/test/basic.py
+++ b/aruco_pose/test/basic.py
@@ -6,7 +6,7 @@ import tf2_geometry_msgs
 from geometry_msgs.msg import PoseWithCovarianceStamped
 from sensor_msgs.msg import Image
 from aruco_pose.msg import MarkerArray
-from visualization_msgs.msg import MarkerArray as VisMarkerArray, Marker as VisMarker
+from visualization_msgs.msg import MarkerArray as VisMarkerArray
@pytest.fixture
@@ -199,36 +199,6 @@ def test_map_markers(node):
 def test_map_visualization(node):
    vis = rospy.wait_for_message('aruco_map/visualization', VisMarkerArray, timeout=5)
    assert len(vis.markers) == 7
    assert vis.markers[0].header.frame_id == 'aruco_map'
    assert vis.markers[0].type == VisMarker.CUBE
    assert vis.markers[0].action == VisMarker.ADD
    assert vis.markers[0].pose.position.x == 0
    assert vis.markers[0].pose.position.y == 0
    assert vis.markers[0].pose.position.z == 0
    assert vis.markers[0].pose.orientation.x == 0
    assert vis.markers[0].pose.orientation.y == 0
    assert vis.markers[0].pose.orientation.z == 0
    assert vis.markers[0].pose.orientation.w == 1
    assert vis.markers[0].scale.x == approx(0.33)
    assert vis.markers[0].scale.y == approx(0.33)
    assert vis.markers[0].scale.z == approx(0.001)
    assert vis.markers[1].pose.position.x == 1
    assert vis.markers[1].pose.position.y == 0
    assert vis.markers[1].pose.position.z == 0
    assert vis.markers[1].pose.orientation.x == 0
    assert vis.markers[1].pose.orientation.y == 0
    assert vis.markers[1].pose.orientation.z == 0
    assert vis.markers[1].pose.orientation.w == 1
    # non-zero yaw marker:
    assert vis.markers[4].scale.x == approx(0.5)
    assert vis.markers[4].pose.position.x == approx(0.5)
    assert vis.markers[4].pose.position.y == 2
    assert vis.markers[4].pose.position.z == 0
    assert vis.markers[4].pose.orientation.x == 0
    assert vis.markers[4].pose.orientation.y == 0
    assert vis.markers[4].pose.orientation.z == approx(0.5646424733950354)
    assert vis.markers[4].pose.orientation.w == approx(0.8253356149096783)
 def test_map_debug(node):
    img = rospy.wait_for_message('aruco_map/debug', Image, timeout=5)
--- a/builder/assets/noetic-rosdep-clover.yaml
+++ b/builder/assets/noetic-rosdep-clover.yaml
@@ -16,726 +16,3 @@ web_video_server:
 ws281x:
  debian:
    buster: [ros-noetic-ws281x]
 catkin:
  debian:
    buster: [ros-noetic-catkin]
 genmsg:
  debian:
    buster: [ros-noetic-genmsg]
 gencpp:
  debian:
    buster: [ros-noetic-gencpp]
 geneus:
  debian:
    buster: [ros-noetic-geneus]
 genlisp:
  debian:
    buster: [ros-noetic-genlisp]
 gennodejs:
  debian:
    buster: [ros-noetic-gennodejs]
 genpy:
  debian:
    buster: [ros-noetic-genpy]
 bond_core:
  debian:
    buster: [ros-noetic-bond-core]
 cmake_modules:
  debian:
    buster: [ros-noetic-cmake-modules]
 class_loader:
  debian:
    buster: [ros-noetic-class-loader]
 common_msgs:
  debian:
    buster: [ros-noetic-common-msgs]
 common_tutorials:
  debian:
    buster: [ros-noetic-common-tutorials]
 cpp_common:
  debian:
    buster: [ros-noetic-cpp-common]
 desktop:
  debian:
    buster: [ros-noetic-desktop]
 diagnostics:
  debian:
    buster: [ros-noetic-diagnostics]
 executive_smach:
  debian:
    buster: [ros-noetic-executive-smach]
 geometry:
  debian:
    buster: [ros-noetic-geometry]
 geometry_tutorials:
  debian:
    buster: [ros-noetic-geometry-tutorials]
 gl_dependency:
  debian:
    buster: [ros-noetic-gl-dependency]
 image_common:
  debian:
    buster: [ros-noetic-image-common]
 image_pipeline:
  debian:
    buster: [ros-noetic-image-pipeline]
 image_transport_plugins:
  debian:
    buster: [ros-noetic-image-transport-plugins]
 laser_pipeline:
  debian:
    buster: [ros-noetic-laser-pipeline]
 mavlink:
  debian:
    buster: [ros-noetic-mavlink]
 media_export:
  debian:
    buster: [ros-noetic-media-export]
 message_generation:
  debian:
    buster: [ros-noetic-message-generation]
 message_runtime:
  debian:
    buster: [ros-noetic-message-runtime]
 mk:
  debian:
    buster: [ros-noetic-mk]
 nodelet_core:
  debian:
    buster: [ros-noetic-nodelet-core]
 orocos_kdl:
  debian:
    buster: [ros-noetic-orocos-kdl]
 perception:
  debian:
    buster: [ros-noetic-perception]
 perception_pcl:
  debian:
    buster: [ros-noetic-perception-pcl]
 python_orocos_kdl:
  debian:
    buster: [ros-noetic-python-orocos-kdl]
 qt_dotgraph:
  debian:
    buster: [ros-noetic-qt-dotgraph]
 qt_gui:
  debian:
    buster: [ros-noetic-qt-gui]
 qt_gui_py_common:
  debian:
    buster: [ros-noetic-qt-gui-py-common]
 qwt_dependency:
  debian:
    buster: [ros-noetic-qwt-dependency]
 robot:
  debian:
    buster: [ros-noetic-robot]
 ros:
  debian:
    buster: [ros-noetic-ros]
 ros_base:
  debian:
    buster: [ros-noetic-ros-base]
 ros_comm:
  debian:
    buster: [ros-noetic-ros-comm]
 ros_core:
  debian:
    buster: [ros-noetic-ros-core]
 ros_environment:
  debian:
    buster: [ros-noetic-ros-environment]
 ros_tutorials:
  debian:
    buster: [ros-noetic-ros-tutorials]
 rosapi:
  debian:
    buster: [ros-noetic-rosapi]
 rosbag_migration_rule:
  debian:
    buster: [ros-noetic-rosbag-migration-rule]
 rosbash:
  debian:
    buster: [ros-noetic-rosbash]
 rosboost_cfg:
  debian:
    buster: [ros-noetic-rosboost-cfg]
 rosbridge_server:
  debian:
    buster: [ros-noetic-rosbridge-server]
 rosbridge_suite:
  debian:
    buster: [ros-noetic-rosbridge-suite]
 rosbuild:
  debian:
    buster: [ros-noetic-rosbuild]
 rosclean:
  debian:
    buster: [ros-noetic-rosclean]
 roscpp_core:
  debian:
    buster: [ros-noetic-roscpp-core]
 roscpp_traits:
  debian:
    buster: [ros-noetic-roscpp-traits]
 roscreate:
  debian:
    buster: [ros-noetic-roscreate]
 rosgraph:
  debian:
    buster: [ros-noetic-rosgraph]
 roslang:
  debian:
    buster: [ros-noetic-roslang]
 roslint:
  debian:
    buster: [ros-noetic-roslint]
 roslisp:
  debian:
    buster: [ros-noetic-roslisp]
 rosmake:
  debian:
    buster: [ros-noetic-rosmake]
 rosmaster:
  debian:
    buster: [ros-noetic-rosmaster]
 rospack:
  debian:
    buster: [ros-noetic-rospack]
 roslib:
  debian:
    buster: [ros-noetic-roslib]
 rosparam:
  debian:
    buster: [ros-noetic-rosparam]
 rospy:
  debian:
    buster: [ros-noetic-rospy]
 rosserial:
  debian:
    buster: [ros-noetic-rosserial]
 rosserial_msgs:
  debian:
    buster: [ros-noetic-rosserial-msgs]
 rosserial_python:
  debian:
    buster: [ros-noetic-rosserial-python]
 rosservice:
  debian:
    buster: [ros-noetic-rosservice]
 rostime:
  debian:
    buster: [ros-noetic-rostime]
 roscpp_serialization:
  debian:
    buster: [ros-noetic-roscpp-serialization]
 python_qt_binding:
  debian:
    buster: [ros-noetic-python-qt-binding]
 roslaunch:
  debian:
    buster: [ros-noetic-roslaunch]
 rosunit:
  debian:
    buster: [ros-noetic-rosunit]
 angles:
  debian:
    buster: [ros-noetic-angles]
 libmavconn:
  debian:
    buster: [ros-noetic-libmavconn]
 rosconsole:
  debian:
    buster: [ros-noetic-rosconsole]
 pluginlib:
  debian:
    buster: [ros-noetic-pluginlib]
 qt_gui_cpp:
  debian:
    buster: [ros-noetic-qt-gui-cpp]
 resource_retriever:
  debian:
    buster: [ros-noetic-resource-retriever]
 rosconsole_bridge:
  debian:
    buster: [ros-noetic-rosconsole-bridge]
 roslz4:
  debian:
    buster: [ros-noetic-roslz4]
 rosserial_client:
  debian:
    buster: [ros-noetic-rosserial-client]
 rostest:
  debian:
    buster: [ros-noetic-rostest]
 rqt_action:
  debian:
    buster: [ros-noetic-rqt-action]
 rqt_bag:
  debian:
    buster: [ros-noetic-rqt-bag]
 rqt_bag_plugins:
  debian:
    buster: [ros-noetic-rqt-bag-plugins]
 rqt_common_plugins:
  debian:
    buster: [ros-noetic-rqt-common-plugins]
 rqt_console:
  debian:
    buster: [ros-noetic-rqt-console]
 rqt_dep:
  debian:
    buster: [ros-noetic-rqt-dep]
 rqt_graph:
  debian:
    buster: [ros-noetic-rqt-graph]
 rqt_gui:
  debian:
    buster: [ros-noetic-rqt-gui]
 rqt_logger_level:
  debian:
    buster: [ros-noetic-rqt-logger-level]
 rqt_moveit:
  debian:
    buster: [ros-noetic-rqt-moveit]
 rqt_msg:
  debian:
    buster: [ros-noetic-rqt-msg]
 rqt_nav_view:
  debian:
    buster: [ros-noetic-rqt-nav-view]
 rqt_plot:
  debian:
    buster: [ros-noetic-rqt-plot]
 rqt_pose_view:
  debian:
    buster: [ros-noetic-rqt-pose-view]
 rqt_publisher:
  debian:
    buster: [ros-noetic-rqt-publisher]
 rqt_py_console:
  debian:
    buster: [ros-noetic-rqt-py-console]
 rqt_reconfigure:
  debian:
    buster: [ros-noetic-rqt-reconfigure]
 rqt_robot_dashboard:
  debian:
    buster: [ros-noetic-rqt-robot-dashboard]
 rqt_robot_monitor:
  debian:
    buster: [ros-noetic-rqt-robot-monitor]
 rqt_robot_plugins:
  debian:
    buster: [ros-noetic-rqt-robot-plugins]
 rqt_robot_steering:
  debian:
    buster: [ros-noetic-rqt-robot-steering]
 rqt_runtime_monitor:
  debian:
    buster: [ros-noetic-rqt-runtime-monitor]
 rqt_service_caller:
  debian:
    buster: [ros-noetic-rqt-service-caller]
 rqt_shell:
  debian:
    buster: [ros-noetic-rqt-shell]
 rqt_srv:
  debian:
    buster: [ros-noetic-rqt-srv]
 rqt_tf_tree:
  debian:
    buster: [ros-noetic-rqt-tf-tree]
 rqt_top:
  debian:
    buster: [ros-noetic-rqt-top]
 rqt_topic:
  debian:
    buster: [ros-noetic-rqt-topic]
 rqt_web:
  debian:
    buster: [ros-noetic-rqt-web]
 smach:
  debian:
    buster: [ros-noetic-smach]
 smclib:
  debian:
    buster: [ros-noetic-smclib]
 std_msgs:
  debian:
    buster: [ros-noetic-std-msgs]
 actionlib_msgs:
  debian:
    buster: [ros-noetic-actionlib-msgs]
 bond:
  debian:
    buster: [ros-noetic-bond]
 diagnostic_msgs:
  debian:
    buster: [ros-noetic-diagnostic-msgs]
 geometry_msgs:
  debian:
    buster: [ros-noetic-geometry-msgs]
 eigen_conversions:
  debian:
    buster: [ros-noetic-eigen-conversions]
 kdl_conversions:
  debian:
    buster: [ros-noetic-kdl-conversions]
 nav_msgs:
  debian:
    buster: [ros-noetic-nav-msgs]
 rosbridge_msgs:
  debian:
    buster: [ros-noetic-rosbridge-msgs]
 rosgraph_msgs:
  debian:
    buster: [ros-noetic-rosgraph-msgs]
 rosmsg:
  debian:
    buster: [ros-noetic-rosmsg]
 rqt_py_common:
  debian:
    buster: [ros-noetic-rqt-py-common]
 shape_msgs:
  debian:
    buster: [ros-noetic-shape-msgs]
 smach_msgs:
  debian:
    buster: [ros-noetic-smach-msgs]
 std_srvs:
  debian:
    buster: [ros-noetic-std-srvs]
 tf2_msgs:
  debian:
    buster: [ros-noetic-tf2-msgs]
 tf2:
  debian:
    buster: [ros-noetic-tf2]
 tf2_eigen:
  debian:
    buster: [ros-noetic-tf2-eigen]
 trajectory_msgs:
  debian:
    buster: [ros-noetic-trajectory-msgs]
 control_msgs:
  debian:
    buster: [ros-noetic-control-msgs]
 urdf_parser_plugin:
  debian:
    buster: [ros-noetic-urdf-parser-plugin]
 urdfdom_py:
  debian:
    buster: [ros-noetic-urdfdom-py]
 uuid_msgs:
  debian:
    buster: [ros-noetic-uuid-msgs]
 geographic_msgs:
  debian:
    buster: [ros-noetic-geographic-msgs]
 vision_opencv:
  debian:
    buster: [ros-noetic-vision-opencv]
 visualization_msgs:
  debian:
    buster: [ros-noetic-visualization-msgs]
 visualization_tutorials:
  debian:
    buster: [ros-noetic-visualization-tutorials]
 viz:
  debian:
    buster: [ros-noetic-viz]
 webkit_dependency:
  debian:
    buster: [ros-noetic-webkit-dependency]
 xmlrpcpp:
  debian:
    buster: [ros-noetic-xmlrpcpp]
 roscpp:
  debian:
    buster: [ros-noetic-roscpp]
 bondcpp:
  debian:
    buster: [ros-noetic-bondcpp]
 bondpy:
  debian:
    buster: [ros-noetic-bondpy]
 nodelet:
  debian:
    buster: [ros-noetic-nodelet]
 nodelet_tutorial_math:
  debian:
    buster: [ros-noetic-nodelet-tutorial-math]
 pluginlib_tutorials:
  debian:
    buster: [ros-noetic-pluginlib-tutorials]
 roscpp_tutorials:
  debian:
    buster: [ros-noetic-roscpp-tutorials]
 rosout:
  debian:
    buster: [ros-noetic-rosout]
 camera_calibration:
  debian:
    buster: [ros-noetic-camera-calibration]
 diagnostic_aggregator:
  debian:
    buster: [ros-noetic-diagnostic-aggregator]
 diagnostic_updater:
  debian:
    buster: [ros-noetic-diagnostic-updater]
 diagnostic_common_diagnostics:
  debian:
    buster: [ros-noetic-diagnostic-common-diagnostics]
 dynamic_reconfigure:
  debian:
    buster: [ros-noetic-dynamic-reconfigure]
 filters:
  debian:
    buster: [ros-noetic-filters]
 joint_state_publisher:
  debian:
    buster: [ros-noetic-joint-state-publisher]
 message_filters:
  debian:
    buster: [ros-noetic-message-filters]
 rosauth:
  debian:
    buster: [ros-noetic-rosauth]
 rosbag_storage:
  debian:
    buster: [ros-noetic-rosbag-storage]
 rosnode:
  debian:
    buster: [ros-noetic-rosnode]
 rospy_tutorials:
  debian:
    buster: [ros-noetic-rospy-tutorials]
 rosshow:
  debian:
    buster: [ros-noetic-rosshow]
 rostopic:
  debian:
    buster: [ros-noetic-rostopic]
 rqt_gui_cpp:
  debian:
    buster: [ros-noetic-rqt-gui-cpp]
 rqt_gui_py:
  debian:
    buster: [ros-noetic-rqt-gui-py]
 self_test:
  debian:
    buster: [ros-noetic-self-test]
 smach_ros:
  debian:
    buster: [ros-noetic-smach-ros]
 tf2_py:
  debian:
    buster: [ros-noetic-tf2-py]
 topic_tools:
  debian:
    buster: [ros-noetic-topic-tools]
 rosbag:
  debian:
    buster: [ros-noetic-rosbag]
 actionlib:
  debian:
    buster: [ros-noetic-actionlib]
 actionlib_tutorials:
  debian:
    buster: [ros-noetic-actionlib-tutorials]
 diagnostic_analysis:
  debian:
    buster: [ros-noetic-diagnostic-analysis]
 nodelet_topic_tools:
  debian:
    buster: [ros-noetic-nodelet-topic-tools]
 roswtf:
  debian:
    buster: [ros-noetic-roswtf]
 rqt_launch:
  debian:
    buster: [ros-noetic-rqt-launch]
 sensor_msgs:
  debian:
    buster: [ros-noetic-sensor-msgs]
 camera_calibration_parsers:
  debian:
    buster: [ros-noetic-camera-calibration-parsers]
 cv_bridge:
  debian:
    buster: [ros-noetic-cv-bridge]
 image_geometry:
  debian:
    buster: [ros-noetic-image-geometry]
 image_transport:
  debian:
    buster: [ros-noetic-image-transport]
 camera_info_manager:
  debian:
    buster: [ros-noetic-camera-info-manager]
 compressed_depth_image_transport:
  debian:
    buster: [ros-noetic-compressed-depth-image-transport]
 compressed_image_transport:
  debian:
    buster: [ros-noetic-compressed-image-transport]
 cv_camera:
  debian:
    buster: [ros-noetic-cv-camera]
 image_proc:
  debian:
    buster: [ros-noetic-image-proc]
 image_publisher:
  debian:
    buster: [ros-noetic-image-publisher]
 map_msgs:
  debian:
    buster: [ros-noetic-map-msgs]
 mavros_msgs:
  debian:
    buster: [ros-noetic-mavros-msgs]
 pcl_msgs:
  debian:
    buster: [ros-noetic-pcl-msgs]
 pcl_conversions:
  debian:
    buster: [ros-noetic-pcl-conversions]
 polled_camera:
  debian:
    buster: [ros-noetic-polled-camera]
 rqt_image_view:
  debian:
    buster: [ros-noetic-rqt-image-view]
 stereo_msgs:
  debian:
    buster: [ros-noetic-stereo-msgs]
 image_view:
  debian:
    buster: [ros-noetic-image-view]
 rosbridge_library:
  debian:
    buster: [ros-noetic-rosbridge-library]
 stereo_image_proc:
  debian:
    buster: [ros-noetic-stereo-image-proc]
 tf2_ros:
  debian:
    buster: [ros-noetic-tf2-ros]
 depth_image_proc:
  debian:
    buster: [ros-noetic-depth-image-proc]
 mavros:
  debian:
    buster: [ros-noetic-mavros]
 tf:
  debian:
    buster: [ros-noetic-tf]
 interactive_markers:
  debian:
    buster: [ros-noetic-interactive-markers]
 interactive_marker_tutorials:
  debian:
    buster: [ros-noetic-interactive-marker-tutorials]
 laser_geometry:
  debian:
    buster: [ros-noetic-laser-geometry]
 laser_assembler:
  debian:
    buster: [ros-noetic-laser-assembler]
 laser_filters:
  debian:
    buster: [ros-noetic-laser-filters]
 pcl_ros:
  debian:
    buster: [ros-noetic-pcl-ros]
 tf2_geometry_msgs:
  debian:
    buster: [ros-noetic-tf2-geometry-msgs]
 image_rotate:
  debian:
    buster: [ros-noetic-image-rotate]
 tf2_kdl:
  debian:
    buster: [ros-noetic-tf2-kdl]
 tf2_web_republisher:
  debian:
    buster: [ros-noetic-tf2-web-republisher]
 tf_conversions:
  debian:
    buster: [ros-noetic-tf-conversions]
 theora_image_transport:
  debian:
    buster: [ros-noetic-theora-image-transport]
 turtlesim:
  debian:
    buster: [ros-noetic-turtlesim]
 turtle_actionlib:
  debian:
    buster: [ros-noetic-turtle-actionlib]
 turtle_tf:
  debian:
    buster: [ros-noetic-turtle-tf]
 turtle_tf2:
  debian:
    buster: [ros-noetic-turtle-tf2]
 urdf:
  debian:
    buster: [ros-noetic-urdf]
 kdl_parser:
  debian:
    buster: [ros-noetic-kdl-parser]
 kdl_parser_py:
  debian:
    buster: [ros-noetic-kdl-parser-py]
 mavros_extras:
  debian:
    buster: [ros-noetic-mavros-extras]
 robot_state_publisher:
  debian:
    buster: [ros-noetic-robot-state-publisher]
 rviz:
  debian:
    buster: [ros-noetic-rviz]
 librviz_tutorial:
  debian:
    buster: [ros-noetic-librviz-tutorial]
 rqt_rviz:
  debian:
    buster: [ros-noetic-rqt-rviz]
 rviz_plugin_tutorials:
  debian:
    buster: [ros-noetic-rviz-plugin-tutorials]
 rviz_python_tutorial:
  debian:
    buster: [ros-noetic-rviz-python-tutorial]
 urdf_tutorial:
  debian:
    buster: [ros-noetic-urdf-tutorial]
 usb_cam:
  debian:
    buster: [ros-noetic-usb-cam]
 visualization_marker_tutorials:
  debian:
    buster: [ros-noetic-visualization-marker-tutorials]
 vl53l1x:
  debian:
    buster: [ros-noetic-vl53l1x]
 xacro:
  debian:
    buster: [ros-noetic-xacro]
 ddynamic_reconfigure:
  debian:
    buster: [ros-noetic-ddynamic-reconfigure]
 librealsense2:
  debian:
    buster: [ros-noetic-librealsense2]
 realsense2_camera:
  debian:
    buster: [ros-noetic-realsense2-camera]
 realsense2_description:
  debian:
    buster: [ros-noetic-realsense2-description]
 geographiclib:
  debian:
    buster: [libgeographic-dev]
--- a/builder/image-ros.sh
+++ b/builder/image-ros.sh
@@ -49,7 +49,7 @@ echo_stamp() {
 my_travis_retry() {
  local result=0
  local count=1
-  local max_count=5
+  local max_count=50
  while [ $count -le $max_count ]; do
    [ $result -ne 0 ] && {
      echo -e "\nThe command \"$@\" failed. Retrying, $count of $max_count.\n" >&2
@@ -72,7 +72,7 @@ my_travis_retry() {
 echo_stamp "Init rosdep"
 my_travis_retry rosdep init
 # FIXME: Re-add this after missing packages are built
-echo "yaml file:///etc/ros/rosdep/${ROS_DISTRO}-rosdep-clover.yaml" >> /etc/ros/rosdep/sources.list.d/10-clover.list
+echo "yaml file:///etc/ros/rosdep/${ROS_DISTRO}-rosdep-clover.yaml" >> /etc/ros/rosdep/sources.list.d/20-default.list
 my_travis_retry rosdep update
 echo_stamp "Populate rosdep for ROS user"
@@ -125,12 +125,11 @@ cd /home/pi/catkin_ws/src/clover
 builder/assets/install_gitbook.sh
 gitbook install
 gitbook build
 # replace assets copy to assets symlink to save space
 rm -rf _book/assets && ln -s ../docs/assets _book/assets
 touch node_modules/CATKIN_IGNORE docs/CATKIN_IGNORE _book/CATKIN_IGNORE clover/www/CATKIN_IGNORE apps/CATKIN_IGNORE # ignore documentation files by catkin
 echo_stamp "Installing additional ROS packages"
 my_travis_retry apt-get install -y --no-install-recommends \
    ros-${ROS_DISTRO}-dynamic-reconfigure \
    ros-${ROS_DISTRO}-rosbridge-suite \
    ros-${ROS_DISTRO}-rosserial \
    ros-${ROS_DISTRO}-usb-cam \
@@ -138,9 +137,7 @@ my_travis_retry apt-get install -y --no-install-recommends \
    ros-${ROS_DISTRO}-ws281x \
    ros-${ROS_DISTRO}-rosshow \
    ros-${ROS_DISTRO}-cmake-modules \
-    ros-${ROS_DISTRO}-image-view \
+    ros-${ROS_DISTRO}-image-view
    ros-${ROS_DISTRO}-nodelet-topic-tools \
    ros-${ROS_DISTRO}-stereo-msgs
 # TODO move GeographicLib datasets to Mavros debian package
 echo_stamp "Install GeographicLib datasets (needed for mavros)" \
@@ -154,9 +151,6 @@ catkin_make run_tests #&& catkin_test_results
 echo_stamp "Change permissions for catkin_ws"
 chown -Rf pi:pi /home/pi/catkin_ws
 echo_stamp "Update www"
 sudo -u pi sh -c ". devel/setup.sh && rosrun clover www"
 echo_stamp "Make \$HOME/examples symlink"
 ln -s "$(catkin_find clover examples --first-only)" /home/pi
 chown -Rf pi:pi /home/pi/examples
--- a/builder/image-validate.sh
+++ b/builder/image-validate.sh
@@ -37,7 +37,3 @@ apt-cache show openvpn
 echo "Move /etc/ld.so.preload back to its original position"
 mv /etc/ld.so.preload.disabled-for-build /etc/ld.so.preload
 echo "Largest packages installed"
 sudo -E sh -c 'apt-get install -y debian-goodies'
 dpigs -H -n 100
--- a/builder/test/tests.py
+++ b/builder/test/tests.py
@@ -2,7 +2,6 @@
 # validate all required modules installed
 import os
 import rospy
 from geometry_msgs.msg import PoseStamped
 from sensor_msgs.msg import Range, BatteryState
@@ -23,7 +22,6 @@ from clover.srv import GetTelemetry, Navigate, NavigateGlobal, SetPosition, SetV
 from led_msgs.srv import SetLEDs
 from led_msgs.msg import LEDStateArray, LEDState
 from aruco_pose.msg import Marker, MarkerArray, Point2D
 from clover import long_callback
 import dynamic_reconfigure.client
@@ -33,15 +31,9 @@ import tf2_geometry_msgs
 import VL53L1X
 import pymavlink
 from pymavlink import mavutil
-from image_geometry import PinholeCameraModel, StereoCameraModel
+import rpi_ws281x
 import pigpio
 # from espeak import espeak
 from pyzbar import pyzbar
 import docopt
 import geopy
 import flask
 print(cv2.getBuildInformation())
 if not os.environ.get('VM'):
    import rpi_ws281x
    import pigpio
--- a/builder/test/tests.sh
+++ b/builder/test/tests.sh
@@ -6,10 +6,16 @@ set -ex
 # validate required software is installed
 python --version
 python2 --version
 python3 --version
 ipython --version
 ipython3 --version
 # ptvsd does not have a stand-alone binary
 python -m ptvsd --version
 python3 -m ptvsd --version
 node -v
 npm -v
@@ -19,77 +25,42 @@ lsof -v
 git --version
 vim --version
 pip --version
 pip2 --version
 pip3 --version
 tcpdump --version
 monkey --version
 pigpiod -v
 i2cdetect -V
 butterfly -h
 # espeak --version
 mjpg_streamer --version
 systemctl --version
 if [ -z $VM ]; then
 	# rpi only software
 	python --version
 	ipython --version
 	pip2 --version
 	# `python` is python2 for now
 	[[ $(python -c 'import sys;print(sys.version_info.major)') == "2" ]]
 	# ptvsd does not have a stand-alone binary
 	python -m ptvsd --version
 	python3 -m ptvsd --version
 	pigpiod -v
 	i2cdetect -V
 	butterfly -h
 	mjpg_streamer --version
 fi
 # ros stuff
 roscore -h
 rosversion clover
 rosversion aruco_pose
 rosversion vl53l1x
 rosversion mavros
 rosversion mavros_extras
 rosversion ws281x
 rosversion led_msgs
 rosversion dynamic_reconfigure
 rosversion tf2_web_republisher
-rosversion rosbridge_server
+rosversion compressed_image_transport
 rosversion rosbridge_suite
 rosversion rosserial
 rosversion usb_cam
 rosversion cv_camera
 rosversion web_video_server
 rosversion rosshow
 rosversion nodelet
 rosversion image_view
 # validate some versions
 [[ $(rosversion cv_camera) == "0.5.1" ]] # patched version with init fix
 [[ $(rosversion ws281x) == "0.0.13" ]]
 if [ -z $VM ]; then
 	rosversion compressed_image_transport
 	rosversion rosshow
 	rosversion vl53l1x
 	rosversion rosserial
 	[[ $(rosversion cv_camera) == "0.5.1" ]] # patched version with init fix
 fi
 # determine user home directory
 [ $VM ] && H="/home/clover" || H="/home/pi"
 # test basic ros tool work
 source $H/catkin_ws/devel/setup.bash
 roscd
 rosrun
 rosmsg
 rossrv
 rosnode || [ $? -eq 64 ] # usage output code is 64
 rostopic || [ $? -eq 64 ]
 rosservice || [ $? -eq 64 ]
 rosparam
 roslaunch -h
 # validate examples are present
-[[ $(ls $H/examples/*) ]]
+[[ $(ls /home/pi/examples/*) ]]
 # validate web tools present
 [ -d $H/.ros/www ]
 [ "$(readlink $H/.ros/www/clover)" = "$H/catkin_ws/src/clover/clover/www" ]
 [ "$(readlink $H/.ros/www/clover_blocks)" = "$H/catkin_ws/src/clover/clover_blocks/www" ]
--- a/check_assets_size.py
+++ b/check_assets_size.py
@@ -18,7 +18,7 @@ EXCLUDE = 'rviz.png', 'ssid.png', 'sitl_docker_demo.png', 'qgc-params.png', 'but
    'qgc-battery.png', 'qgc-radio.png', 'qgc-cal-acc.png', 'qgc-esc.png', 'qgc-cal-compass.png', \
    'qgc.png', 'qgc-parameters.png', 'clever4-front-white-large.png', 'qgc-modes.png', \
    'qgc-requires-setup.png', 'clever4-front-white.png', 'clever4-kit-white.png', '26_1.png', 'battery_holder.stl', \
-    'camera_case.stl', 'camera_mount.stl', 'grip_right.stl', 'grip_left.stl'
+    'camera_case.stl', 'camera_mount.stl'
 code = 0
--- a/clover/CMakeLists.txt
+++ b/clover/CMakeLists.txt
@@ -30,8 +30,6 @@ find_package(catkin REQUIRED COMPONENTS
 list(APPEND CMAKE_MODULE_PATH "${CMAKE_CURRENT_LIST_DIR}/cmake")
 # https://github.com/mavlink/mavros/blob/7f1a8/mavros/CMakeLists.txt#L42
 set(CMAKE_MODULE_PATH "${CMAKE_MODULE_PATH};/usr/share/cmake/geographiclib")
 find_package(GeographicLib REQUIRED)
 # Workaround for OpenCV 3/4 support
@@ -55,7 +53,7 @@ find_package(OpenCV ${_opencv_version} REQUIRED
 ## Uncomment this if the package has a setup.py. This macro ensures
 ## modules and global scripts declared therein get installed
 ## See http://ros.org/doc/api/catkin/html/user_guide/setup_dot_py.html
-catkin_python_setup()
+# catkin_python_setup()
 ################################################
 ## Declare ROS messages, services and actions ##
@@ -82,10 +80,11 @@ catkin_python_setup()
 ##   * add every package in MSG_DEP_SET to generate_messages(DEPENDENCIES ...)
 ## Generate messages in the 'msg' folder
-add_message_files(
+# add_message_files(
-  FILES
+#   FILES
-  State.msg
+#   Message1.msg
-)
+#   Message2.msg
 # )
 ## Generate services in the 'srv' folder
 add_service_files(
@@ -93,9 +92,6 @@ add_service_files(
  GetTelemetry.srv
  Navigate.srv
  NavigateGlobal.srv
  SetAltitude.srv
  SetYaw.srv
  SetYawRate.srv
  SetPosition.srv
  SetVelocity.srv
  SetAttitude.srv
@@ -310,5 +306,4 @@ endif()
 if (CATKIN_ENABLE_TESTING)
  find_package(rostest REQUIRED)
  add_rostest(test/basic.test)
  add_rostest(test/offboard.test)
 endif()
--- a/clover/cmake/FindGeographicLib.cmake
+++ b/clover/cmake/FindGeographicLib.cmake
@@ -0,0 +1,18 @@
 # taken from: https://github.com/mavlink/mavros/blob/master/libmavconn/cmake/Modules/FindGeographicLib.cmake
 # Look for GeographicLib
 #
 # Set
 #  GEOGRAPHICLIB_FOUND = TRUE
 #  GeographicLib_INCLUDE_DIRS = /usr/local/include
 #  GeographicLib_LIBRARIES = /usr/local/lib/libGeographic.so
 #  GeographicLib_LIBRARY_DIRS = /usr/local/lib
 find_path (GeographicLib_INCLUDE_DIRS NAMES GeographicLib/Config.h)
 find_library (GeographicLib_LIBRARIES NAMES Geographic)
 include (FindPackageHandleStandardArgs)
 find_package_handle_standard_args (GeographicLib DEFAULT_MSG
  GeographicLib_LIBRARIES GeographicLib_INCLUDE_DIRS)
 mark_as_advanced (GeographicLib_LIBRARIES GeographicLib_INCLUDE_DIRS)
--- a/clover/examples/camera.py
+++ b/clover/examples/camera.py
@@ -1,64 +0,0 @@
 # Information: https://clover.coex.tech/camera
 # Example on basic working with the camera and image processing:
 # - cuts out a central square from the camera image;
 # - publishes this cropped image to the topic `/cv/center`;
 # - computes the average color of it;
 # - prints its name to the console.
 import rospy
 import cv2
 from sensor_msgs.msg import Image
 from cv_bridge import CvBridge
 from clover import long_callback
 rospy.init_node('cv')
 bridge = CvBridge()
 printed_color = None
 center_pub = rospy.Publisher('~center', Image, queue_size=1)
 def get_color_name(h):
    if h < 15: return 'red'
    elif h < 30: return 'orange'
    elif h < 60: return 'yellow'
    elif h < 90: return 'green'
    elif h < 120: return 'cyan'
    elif h < 150: return 'blue'
    elif h < 170: return 'magenta'
    else: return 'red'
@long_callback
 def image_callback(msg):
    img = bridge.imgmsg_to_cv2(msg, 'bgr8')
    # convert to HSV to work with color hue
    img_hsv = cv2.cvtColor(img, cv2.COLOR_BGR2HSV)
    # cut out a central square
    w = img.shape[1]
    h = img.shape[0]
    r = 20
    center = img_hsv[h // 2 - r:h // 2 + r, w // 2 - r:w // 2 + r]
    # compute and print the average hue
    mean_hue = center[:, :, 0].mean()
    color = get_color_name(mean_hue)
    global printed_color
    if color != printed_color:
        print(color)
        printed_color = color
    # publish the cropped image
    center = cv2.cvtColor(center, cv2.COLOR_HSV2BGR)
    center_pub.publish(bridge.cv2_to_imgmsg(center, 'bgr8'))
 # process every frame:
 image_sub = rospy.Subscriber('main_camera/image_raw', Image, image_callback, queue_size=1)
 # process 5 frames per second:
 # image_sub = rospy.Subscriber('main_camera/image_raw_throttled', Image, image_callback, queue_size=1)
 rospy.spin()
--- a/clover/examples/navigate_wait.py
+++ b/clover/examples/navigate_wait.py
@@ -16,8 +16,11 @@ set_attitude = rospy.ServiceProxy('set_attitude', srv.SetAttitude)
 set_rates = rospy.ServiceProxy('set_rates', srv.SetRates)
 land = rospy.ServiceProxy('land', Trigger)
-def navigate_wait(x=0, y=0, z=0, yaw=math.nan, speed=0.5, frame_id='body', tolerance=0.2, auto_arm=False):
+def navigate_wait(x=0, y=0, z=0, yaw=float('nan'), yaw_rate=0, speed=0.5, \
-    res = navigate(x=x, y=y, z=z, yaw=yaw, speed=speed, frame_id=frame_id, auto_arm=auto_arm)
+        frame_id='body', tolerance=0.2, auto_arm=False):
    res = navigate(x=x, y=y, z=z, yaw=yaw, yaw_rate=yaw_rate, speed=speed, \
        frame_id=frame_id, auto_arm=auto_arm)
    if not res.success:
        return res
--- a/clover/examples/red_circle.py
+++ b/clover/examples/red_circle.py
@@ -1,91 +0,0 @@
 # This example makes the drone find and follow the red circle.
 # To test in the simulator, place 'Red Circle' model on the floor.
 # More information: https://clover.coex.tech/red_circle
 # Input topic: main_camera/image_raw (camera image)
 # Output topics:
 #   cv/mask (red color mask)
 #   cv/red_circle (position of the center of the red circle in 3D space)
 import rospy
 import cv2
 import numpy as np
 from math import nan
 from sensor_msgs.msg import Image, CameraInfo
 from geometry_msgs.msg import PointStamped, Point
 from cv_bridge import CvBridge
 from clover import long_callback, srv
 import tf2_ros
 import tf2_geometry_msgs
 import image_geometry
 rospy.init_node('cv', disable_signals=True) # disable signals to allow interrupting with ctrl+c
 get_telemetry = rospy.ServiceProxy('get_telemetry', srv.GetTelemetry)
 set_position = rospy.ServiceProxy('set_position', srv.SetPosition)
 bridge = CvBridge()
 tf_buffer = tf2_ros.Buffer()
 tf_listener = tf2_ros.TransformListener(tf_buffer)
 mask_pub = rospy.Publisher('~mask', Image, queue_size=1)
 point_pub = rospy.Publisher('~red_circle', PointStamped, queue_size=1)
 # read camera info
 camera_model = image_geometry.PinholeCameraModel()
 camera_model.fromCameraInfo(rospy.wait_for_message('main_camera/camera_info', CameraInfo))
 def img_xy_to_point(xy, dist):
    xy_rect = camera_model.rectifyPoint(xy)
    ray = camera_model.projectPixelTo3dRay(xy_rect)
    return Point(x=ray[0] * dist, y=ray[1] * dist, z=dist)
 def get_center_of_mass(mask):
    M = cv2.moments(mask)
    if M['m00'] == 0:
        return None
    return M['m10'] // M['m00'], M['m01'] // M['m00']
 follow_red_circle = False
@long_callback
 def image_callback(msg):
    img = bridge.imgmsg_to_cv2(msg, 'bgr8')
    img_hsv = cv2.cvtColor(img, cv2.COLOR_BGR2HSV)
    # we need to use two ranges for red color
    mask1 = cv2.inRange(img_hsv, (0, 150, 150), (15, 255, 255))
    mask2 = cv2.inRange(img_hsv, (160, 150, 150), (180, 255, 255))
    # combine two masks using bitwise OR
    mask = cv2.bitwise_or(mask1, mask2)
    # publish the mask
    if mask_pub.get_num_connections() > 0:
        mask_pub.publish(bridge.cv2_to_imgmsg(mask, 'mono8'))
    # calculate x and y of the circle
    xy = get_center_of_mass(mask)
    if xy is None:
        return
    # calculate and publish the position of the circle in 3D space
    altitude = get_telemetry('terrain').z
    xy3d = img_xy_to_point(xy, altitude)
    target = PointStamped(header=msg.header, point=xy3d)
    point_pub.publish(target)
    if follow_red_circle:
        # follow the target
        setpoint = tf_buffer.transform(target, 'map', timeout=rospy.Duration(0.2))
        set_position(x=setpoint.point.x, y=setpoint.point.y, z=nan, yaw=nan, frame_id=setpoint.header.frame_id)
 # process each camera frame:
 image_sub = rospy.Subscriber('main_camera/image_raw', Image, image_callback, queue_size=1)
 rospy.loginfo('Hit enter to follow the red circle')
 input()
 follow_red_circle = True
 rospy.spin()
--- a/clover/launch/aruco.launch
+++ b/clover/launch/aruco.launch
@@ -16,12 +16,10 @@
        <remap from="image_raw" to="main_camera/image_raw"/>
        <remap from="camera_info" to="main_camera/camera_info"/>
        <remap from="map_markers" to="aruco_map/map"/>
        <param name="dictionary" value="2"/> <!-- DICT_4X4_250 -->
        <param name="estimate_poses" value="true"/>
        <param name="send_tf" value="true"/>
-        <param name="use_map_markers" value="true"/>
+        <param name="known_tilt" value="map" if="$(eval placement == 'floor')"/>
-        <param name="known_vertical" value="map" if="$(eval placement == 'floor' or placement == 'ceiling')"/>
+        <param name="known_tilt" value="map_flipped" if="$(eval placement == 'ceiling')"/>
        <param name="flip_vertical" value="true" if="$(eval placement == 'ceiling')"/>
        <param name="length" value="$(arg length)"/>
        <param name="transform_timeout" value="0.1"/>
        <!-- aruco detector parameters -->
@@ -37,8 +35,8 @@
        <remap from="camera_info" to="main_camera/camera_info"/>
        <remap from="markers" to="aruco_detect/markers"/>
        <param name="map" value="$(find aruco_pose)/map/$(arg map)"/>
-        <param name="known_vertical" value="map" if="$(eval placement == 'floor' or placement == 'ceiling')"/>
+        <param name="known_tilt" value="map" if="$(eval placement == 'floor')"/>
-        <param name="flip_vertical" value="true" if="$(eval placement == 'ceiling')"/>
+        <param name="known_tilt" value="map_flipped" if="$(eval placement == 'ceiling')"/>
        <param name="image_axis" value="true"/>
        <param name="frame_id" value="aruco_map_detected" if="$(arg aruco_vpe)"/>
        <param name="frame_id" value="aruco_map" unless="$(arg aruco_vpe)"/>
--- a/clover/launch/clover.launch
+++ b/clover/launch/clover.launch
@@ -45,13 +45,13 @@
        <remap from="camera_info" to="main_camera/camera_info"/>
        <param name="calc_flow_gyro" value="true"/>
        <param name="roi_rad" value="0.8"/>
        <param name="disable_on_vpe" value="true"/>
    </node>
    <node pkg="tf2_ros" type="static_transform_publisher" name="map_flipped_frame" args="0 0 0 3.1415926 3.1415926 0 map map_flipped"/>
    <!-- simplified offboard control -->
    <node name="simple_offboard" pkg="clover" type="simple_offboard" output="screen" clear_params="true">
        <param name="reference_frames/main_camera_optical" value="map"/>
        <param name="terrain_frame_mode" value="range"/>
    </node>
    <!-- main camera -->
@@ -72,9 +72,6 @@
        <param name="pass_statuses" type="yaml" value="[0, 6, 7, 11]"/>
    </node>
    <!-- rangefinder's frame -->
    <node pkg="tf2_ros" type="static_transform_publisher" name="rangefinder_frame" args="0 0 -0.05 0 1.5707963268 0 base_link rangefinder" if="$(arg rangefinder_vl53l1x)"/>
    <!-- led strip -->
    <include file="$(find clover)/launch/led.launch" if="$(arg led)">
        <arg name="simulator" value="$(arg simulator)"/>
@@ -89,4 +86,8 @@
        <param name="use_fake_gcs" value="false"/>
    </node>
    <!-- Update static directory -->
    <node pkg="roswww_static" name="roswww_static" type="main.py" clear_params="true">
        <param name="default_package" value="clover"/>
    </node>
 </launch>
--- a/clover/launch/led.launch
+++ b/clover/launch/led.launch
@@ -21,8 +21,7 @@
    </node>
    <!-- high level led effects control, events notification with leds -->
-    <node pkg="clover" name="led_effect" type="led" clear_params="true" output="screen" if="$(arg led_effect)">
+    <node pkg="clover" name="led_effect" type="led" ns="led" clear_params="true" output="screen" if="$(arg led_effect)">
        <param name="led" value="led"/>
        <param name="blink_rate" value="2"/>
        <param name="fade_period" value="0.5"/>
        <param name="rainbow_period" value="5"/>
--- a/clover/launch/main_camera.launch
+++ b/clover/launch/main_camera.launch
@@ -6,7 +6,6 @@
    <arg name="device" default="/dev/video0"/> <!-- v4l2 device -->
    <arg name="throttled_topic" default="true"/> <!-- enable throttled image topic -->
    <arg name="throttled_topic_rate" default="5.0"/> <!-- throttled image topic rate -->
    <arg name="rectify" default="false"/> <!-- enable rectification -->
    <arg name="simulator" default="false"/>
    <node if="$(eval direction_z == 'down' and direction_y == 'backward')" pkg="tf2_ros" type="static_transform_publisher" name="main_camera_frame" args="0.05 0 -0.07 -1.5707963 0 3.1415926 base_link main_camera_optical"/>
@@ -50,11 +49,4 @@
    <!-- image topic throttled -->
    <node pkg="topic_tools" name="main_camera_throttle" type="throttle" ns="main_camera"
        args="messages image_raw $(arg throttled_topic_rate) image_raw_throttled" if="$(arg throttled_topic)"/>
    <!-- rectified image topic -->
    <node pkg="nodelet" type="nodelet" name="rectify" args="load image_proc/rectify main_camera_nodelet_manager" if="$(arg rectify)">
        <remap from="image_mono" to="main_camera/image_raw"/>
        <remap from="camera_info" to="main_camera/camera_info"/>
        <remap from="image_rect" to="main_camera/image_rect"/>
    </node>
 </launch>
--- a/clover/launch/mavros.launch
+++ b/clover/launch/mavros.launch
@@ -77,6 +77,9 @@
        covariance: 1  # cm
    </rosparam>
    <!-- Rangefinders frame -->
    <node pkg="tf2_ros" type="static_transform_publisher" name="rangefinder_frame" args="0 0 -0.05 0 1.5707963268 0 base_link rangefinder"/>
    <!-- Copter visualization -->
    <node name="visualization" pkg="mavros_extras" type="visualization" if="$(arg viz)">
        <remap to="mavros/local_position/pose" from="local_position"/>
--- a/clover/launch/simulator.launch
+++ b/clover/launch/simulator.launch
@@ -1,4 +1,4 @@
 <launch>
-    <!-- shortcut for running the simulation (`roslaunch clover simulator.launch`) -->
+    <!-- shurtcut for running the simulation (`roslaunch clover simulator.launch`) -->
    <include file="$(find clover_simulation)/launch/simulator.launch"/>
 </launch>
--- a/clover/msg/State.msg
+++ b/clover/msg/State.msg
@@ -1,38 +0,0 @@
 uint8 MODE_NONE = 0
 uint8 MODE_NAVIGATE = 1
 uint8 MODE_NAVIGATE_GLOBAL = 2
 uint8 MODE_POSITION = 3
 uint8 MODE_VELOCITY = 4
 uint8 MODE_ATTITUDE = 5
 uint8 MODE_RATES = 6
 uint8 YAW_MODE_YAW = 0
 uint8 YAW_MODE_YAW_RATE = 1
 uint8 YAW_MODE_YAW_TOWARDS = 2
 # type of offboard control
 uint8 mode
 uint8 yaw_mode
 # targets
 float32 x
 float32 y
 float32 z
 float32 speed
 float32 lat
 float32 lon
 float32 vx
 float32 vy
 float32 vz
 float32 roll
 float32 pitch
 float32 yaw
 float32 roll_rate
 float32 pitch_rate
 float32 yaw_rate
 float32 thrust
 # frames of reference
 string xy_frame_id
 string z_frame_id
 string yaw_frame_id
--- a/clover/package.xml
+++ b/clover/package.xml
@@ -1,7 +1,7 @@
 <?xml version="1.0"?>
 <package format="3">
  <name>clover</name>
-  <version>0.24.0</version>
+  <version>0.23.0</version>
  <description>The Clover package</description>
  <maintainer email="okalachev@gmail.com">Oleg Kalachev</maintainer>
@@ -42,10 +42,9 @@
  <depend condition="$ROS_PYTHON_VERSION == 2">python-lxml</depend>
  <depend condition="$ROS_PYTHON_VERSION == 3">python3-lxml</depend>
  <depend>dynamic_reconfigure</depend>
  <depend>image_proc</depend>
  <depend>image_geometry</depend>
  <exec_depend>python-pymavlink</exec_depend>
-  <test_depend>ros_pytest</test_depend>
+  <!-- Use test_depend for packages you need only for testing: -->
  <!--   <test_depend>gtest</test_depend> -->
  <!-- The export tag contains other, unspecified, tags -->
  <export>
--- a/clover/requirements.txt
+++ b/clover/requirements.txt
@@ -1,4 +1,5 @@
-flask
+flask==1.1.1
-geopy
+docopt==0.6.2
-smbus2
+geopy==1.11.0
-VL53L1X
+smbus2==0.3.0
 VL53L1X==0.0.5
--- a/clover/setup.py
+++ b/clover/setup.py
@@ -1,11 +0,0 @@
 ## ! DO NOT MANUALLY INVOKE THIS setup.py, USE CATKIN INSTEAD
 from distutils.core import setup
 from catkin_pkg.python_setup import generate_distutils_setup
 # fetch values from package.xml
 setup_args = generate_distutils_setup(
    packages=['clover'],
    package_dir={'': 'src'})
 setup(**setup_args)
--- a/clover/src/autotest/autotest_aruco.py
+++ b/clover/src/autotest/autotest_aruco.py
@@ -13,12 +13,7 @@ from util import handle_response
 rospy.init_node('autotest_aruco', disable_signals=True) # disable signals to allow interrupting with ctrl+c
-try:
+flow_client = dynamic_reconfigure.client.Client('optical_flow')
    flow_client = dynamic_reconfigure.client.Client('optical_flow', timeout=2)
 except rospy.ROSException:
    flow_client = None
    print('Cannot configure optical flow, skip')
 get_telemetry = rospy.ServiceProxy('get_telemetry', srv.GetTelemetry)
 navigate = handle_response(rospy.ServiceProxy('navigate', srv.Navigate))
 land = handle_response(rospy.ServiceProxy('land', Trigger))
@@ -35,8 +30,11 @@ def print_current_map_position():
    dist = rospy.wait_for_message('rangefinder/range', Range).range
    print('Map position:\tx={:.1f}\ty={:.1f}\tz={:.1f}\tyaw={:.1f}\tdist={:.2f}'.format(telem.x, telem.y, telem.z, telem.yaw, dist))
-def navigate_wait(x=0, y=0, z=0, yaw=math.nan, speed=0.5, frame_id='body', tolerance=0.2, auto_arm=False):
+def navigate_wait(x=0, y=0, z=0, yaw=float('nan'), yaw_rate=0, speed=0.5, \
-    res = navigate(x=x, y=y, z=z, yaw=yaw, speed=speed, frame_id=frame_id, auto_arm=auto_arm)
+        frame_id='body', tolerance=0.2, auto_arm=False):
    res = navigate(x=x, y=y, z=z, yaw=yaw, yaw_rate=yaw_rate, speed=speed, \
        frame_id=frame_id, auto_arm=auto_arm)
    if not res.success:
        return res
@@ -69,13 +67,12 @@ input('Go to center %g %g 1.5 speed 5 [enter] ' % (center_x, center_y))
 navigate_wait(x=center_x, y=center_y, z=1.5, speed=5, frame_id='aruco_map')
 print_current_map_position()
-if flow_client:
+input('Disable optical flow and keep hovering [enter] ')
-    input('Disable optical flow and keep hovering [enter] ')
+flow_client.update_configuration({'enabled': False})
-    flow_client.update_configuration({'enabled': False})
+rospy.sleep(5)
    rospy.sleep(5)
-    input('Enable optical flow back [enter] ')
+input('Enable optical flow back [enter] ')
-    flow_client.update_configuration({'enabled': True})
+flow_client.update_configuration({'enabled': True})
 input('Go to side 1 %g 2 heading top [enter] ' % (center_y))
 navigate_wait(x=1, y=center_y, z=2, yaw=1.57, frame_id='aruco_map')
--- a/clover/src/autotest/autotest_flight.py
+++ b/clover/src/autotest/autotest_flight.py
@@ -2,7 +2,7 @@
 import rospy
 import math
-from math import nan, inf
+from math import nan
 import signal
 import sys
 from clover import srv
@@ -15,8 +15,6 @@ rospy.init_node('autotest_flight', disable_signals=True) # disable signals to al
 get_telemetry = rospy.ServiceProxy('get_telemetry', srv.GetTelemetry)
 navigate = handle_response(rospy.ServiceProxy('navigate', srv.Navigate))
 navigate_global = handle_response(rospy.ServiceProxy('navigate_global', srv.NavigateGlobal))
 set_yaw = handle_response(rospy.ServiceProxy('set_yaw', srv.SetYaw))
 set_yaw_rate = handle_response(rospy.ServiceProxy('set_yaw_rate', srv.SetYawRate))
 set_position = handle_response(rospy.ServiceProxy('set_position', srv.SetPosition))
 set_velocity = handle_response(rospy.ServiceProxy('set_velocity', srv.SetVelocity))
 set_attitude = handle_response(rospy.ServiceProxy('set_attitude', srv.SetAttitude))
@@ -30,8 +28,11 @@ def interrupt(sig, frame):
 signal.signal(signal.SIGINT, interrupt)
-def navigate_wait(x=0, y=0, z=0, yaw=nan, speed=0.5, frame_id='body', tolerance=0.2, auto_arm=False):
+def navigate_wait(x=0, y=0, z=0, yaw=nan, yaw_rate=0, speed=0.5, \
-    res = navigate(x=x, y=y, z=z, yaw=yaw, speed=speed, frame_id=frame_id, auto_arm=auto_arm)
+        frame_id='body', tolerance=0.2, auto_arm=False):
    res = navigate(x=x, y=y, z=z, yaw=yaw, yaw_rate=yaw_rate, speed=speed, \
        frame_id=frame_id, auto_arm=auto_arm)
    if not res.success:
        return res
@@ -68,17 +69,17 @@ set_velocity(vx=1, vy=0.0, vz=0, frame_id='body')
 rospy.sleep(2)
 set_position(frame_id='body')
-input('Rotate right 90° using set_yaw [enter] ')
+input('Rotate right 90° [enter] ')
-set_yaw(yaw=-math.pi / 2, frame_id='navigate_target')
+navigate(yaw=-math.pi / 2, frame_id='navigate_target')
 rospy.sleep(3)
 input('Use set_attitude to fly backwards [enter]')
-set_attitude(roll=0, pitch=-0.3, yaw=0, thrust=0.5, frame_id='body')
+set_attitude(pitch=-0.3, roll=0, yaw=0, thrust=0.5, frame_id='body')
 rospy.sleep(0.3)
 set_position(frame_id='body')
 input('Use set_attitude to fly right [enter]')
-set_attitude(roll=0.3, pitch=0, yaw=0, thrust=0.5, frame_id='body')
+set_attitude(pitch=0, roll=0.3, yaw=0, thrust=0.5, frame_id='body')
 rospy.sleep(0.5)
 set_position(frame_id='body')
@@ -87,13 +88,13 @@ set_rates(roll_rate=1.2, thrust=0.5)
 rospy.sleep(0.4)
 set_position(frame_id='body')
-input('Rotate 360° to the right using set_yaw_rate [enter]')
+input('Rotate 360° to the right using yaw_rate [enter]')
-set_yaw_rate(yaw_rate=-1)
+set_position(x=nan, y=nan, z=nan, frame_id='body', yaw=nan, yaw_rate=-1)
 rospy.sleep(2 * math.pi)
 set_position(frame_id='body')
-input('Return to start point heading forward [enter]')
+input('Return to start point [enter]')
-navigate_wait(x=start.x, y=start.y, z=start.z, yaw=inf, speed=1, frame_id='map')
+navigate_wait(x=start.x, y=start.y, z=start.z, yaw=start.yaw, speed=1, frame_id='map')
 input('Land [enter]')
 land()
--- a/clover/src/clover/init.py
+++ b/clover/src/clover/init.py
@@ -1,35 +0,0 @@
 import rospy
 from threading import Thread, Event
 def long_callback(fn):
    """
    Decorator fixing a rospy issue for long-running topic callbacks, primarily
    for image processing.
    See: https://github.com/ros/ros_comm/issues/1901.
    Usage example:
    @long_callback
    def image_callback(msg):
        # perform image processing
        # ...
    rospy.Subscriber('main_camera/image_raw', Image, image_callback, queue_size=1)
    """
    e = Event()
    def thread():
        while not rospy.is_shutdown():
            e.wait()
            e.clear()
            fn(thread.current_msg)
    thread.current_msg = None
    Thread(target=thread, daemon=True).start()
    def wrapper(msg):
        thread.current_msg = msg
        e.set()
    return wrapper
--- a/clover/src/led.cpp
+++ b/clover/src/led.cpp
@@ -309,22 +309,18 @@ int main(int argc, char **argv)
 	nh_priv.param("notify/low_battery/threshold", low_battery_threshold, 3.7);
 	nh_priv.param("notify/error/ignore", error_ignore, {});
-	std::string led; // led namespace
+	ros::service::waitForService("set_leds"); // cannot work without set_leds service
-	nh_priv.param("led", led, std::string("led"));
+	set_leds_srv = nh.serviceClient<led_msgs::SetLEDs>("set_leds", true);
 	if (!led.empty()) led += "/";
 	ros::service::waitForService(led + "set_leds"); // cannot work without set_leds service
 	set_leds_srv = nh.serviceClient<led_msgs::SetLEDs>(led + "set_leds", true);
 	// wait for leds count info
-	handleState(*ros::topic::waitForMessage<led_msgs::LEDStateArray>(led + "state", nh));
+	handleState(*ros::topic::waitForMessage<led_msgs::LEDStateArray>("state", nh));
-	auto state_sub = nh.subscribe(led + "state", 1, &handleState);
+	auto state_sub = nh.subscribe("state", 1, &handleState);
-	auto set_effect = nh.advertiseService(led + "set_effect", &setEffect);
+	auto set_effect = nh.advertiseService("set_effect", &setEffect);
-	auto mavros_state_sub = nh.subscribe("mavros/state", 1, &handleMavrosState);
+	auto mavros_state_sub = nh.subscribe("/mavros/state", 1, &handleMavrosState);
-	auto battery_sub = nh.subscribe("mavros/battery", 1, &handleBattery);
+	auto battery_sub = nh.subscribe("/mavros/battery", 1, &handleBattery);
 	auto rosout_sub = nh.subscribe("/rosout_agg", 1, &handleLog);
 	timer = nh.createTimer(ros::Duration(0), &proceed, false, false);
--- a/clover/src/optical_flow.cpp
+++ b/clover/src/optical_flow.cpp
@@ -25,7 +25,6 @@
 #include <dynamic_reconfigure/server.h>
 #include <mavros_msgs/OpticalFlowRad.h>
 #include <sensor_msgs/Imu.h>
 #include <geometry_msgs/PoseStamped.h>
 #include <geometry_msgs/Vector3Stamped.h>
 #include <geometry_msgs/PointStamped.h>
 #include <geometry_msgs/TwistStamped.h>
@@ -58,9 +57,6 @@ private:
 	std::unique_ptr<tf2_ros::TransformListener> tf_listener_;
 	bool calc_flow_gyro_;
 	float flow_gyro_default_;
 	bool disable_on_vpe_;
 	ros::Subscriber vpe_sub_;
 	ros::Time last_vpe_time_;
 	std::shared_ptr<dynamic_reconfigure::Server<clover::FlowConfig>> dyn_srv_;
 	void onInit()
@@ -91,11 +87,6 @@ private:
 		img_sub_ = it.subscribeCamera("image_raw", 1, &OpticalFlow::flow, this);
 		disable_on_vpe_ = nh_priv.param("disable_on_vpe", false);
 		if (disable_on_vpe_) {
 			vpe_sub_ = nh.subscribe("mavros/vision_pose/pose", 1, &OpticalFlow::vpeCallback, this);
 		}
 		dyn_srv_ = std::make_shared<dynamic_reconfigure::Server<clover::FlowConfig>>(nh_priv);
 		dynamic_reconfigure::Server<clover::FlowConfig>::CallbackType cb;
@@ -130,12 +121,6 @@ private:
 	{
 		if (!enabled_) return;
 		if (disable_on_vpe_ &&
 			!last_vpe_time_.isZero() &&
 			(msg->header.stamp - last_vpe_time_).toSec() < 0.1) {
 			return;
 		}
 		parseCameraInfo(cinfo);
 		auto img = cv_bridge::toCvShare(msg, "mono8")->image;
@@ -251,14 +236,6 @@ private:
 			prev_ = curr_.clone();
 			prev_stamp_ = msg->header.stamp;
 			// Publish estimated angular velocity
 			geometry_msgs::TwistStamped velo;
 			velo.header.stamp = msg->header.stamp;
 			velo.header.frame_id = fcu_frame_id_;
 			velo.twist.angular.x = flow_fcu.vector.x / integration_time.toSec();
 			velo.twist.angular.y = flow_fcu.vector.y / integration_time.toSec();
 			velo_pub_.publish(velo);
 publish_debug:
 			// Publish debug image
 			if (img_pub_.getNumSubscribers() > 0) {
@@ -271,6 +248,14 @@ publish_debug:
 				out_msg.image = img;
 				img_pub_.publish(out_msg.toImageMsg());
 			}
 			// Publish estimated angular velocity
 			geometry_msgs::TwistStamped velo;
 			velo.header.stamp = msg->header.stamp;
 			velo.header.frame_id = fcu_frame_id_;
 			velo.twist.angular.x = flow_fcu.vector.x / integration_time.toSec();
 			velo.twist.angular.y = flow_fcu.vector.y / integration_time.toSec();
 			velo_pub_.publish(velo);
 		}
 	}
@@ -299,10 +284,6 @@ publish_debug:
 			prev_ = Mat(); // clear previous frame
 		}
 	}
 	void vpeCallback(const geometry_msgs::PoseStamped& vpe) {
 		last_vpe_time_ = vpe.header.stamp;
 	}
 };
 PLUGINLIB_EXPORT_CLASS(OpticalFlow, nodelet::Nodelet)
--- a/clover/src/selfcheck.py
+++ b/clover/src/selfcheck.py
@@ -9,14 +9,13 @@
 # The above copyright notice and this permission notice shall be included in all
 # copies or substantial portions of the Software.
-import os, sys
+import os
 import math
 import subprocess
 import re
 from collections import OrderedDict
 import traceback
-import threading
+from threading import Event
 from threading import Event, Thread, Lock
 import numpy
 import rospy
 import tf2_ros
@@ -28,16 +27,24 @@ from mavros_msgs.msg import State, OpticalFlowRad, Mavlink
 from mavros_msgs.srv import ParamGet
 from geometry_msgs.msg import PoseStamped, TwistStamped, PoseWithCovarianceStamped, Vector3Stamped
 from visualization_msgs.msg import MarkerArray as VisualizationMarkerArray
 from diagnostic_msgs.msg import DiagnosticArray
 import tf.transformations as t
 from aruco_pose.msg import MarkerArray
 from mavros import mavlink
 import locale
 # TODO: check attitude is present
 # TODO: disk free space
 # TODO: map, base_link, body
 # TODO: rc service
 # TODO: perform commander check, ekf2 status on PX4
 # TODO: check if FCU params setter succeed
 # TODO: selfcheck ROS service (with blacklists for checks)
 rospy.init_node('selfcheck')
-os.environ['ROSCONSOLE_FORMAT']='${message}'
+os.environ['ROSCONSOLE_FORMAT']='[${severity}]: ${message}'
 # use user's locale to convert numbers, etc
 locale.setlocale(locale.LC_ALL, '')
@@ -46,68 +53,46 @@ tf_buffer = tf2_ros.Buffer()
 tf_listener = tf2_ros.TransformListener(tf_buffer)
-thread_local = threading.local()
+failures = []
-reports_lock = Lock()
+infos = []
-
+current_check = None
 # formatting colors
 if sys.stdout.isatty():
    GREY = '\033[90m'
    GREEN = '\033[92m'
    RED = '\033[31m'
    END = '\033[0m'
 else:
    GREY = GREEN = RED = END = ''
 def failure(text, *args):
    msg = text % args
-    thread_local.reports += [{'failure': msg}]
+    rospy.logwarn('%s: %s', current_check, msg)
    failures.append(msg)
 def info(text, *args):
    msg = text % args
-    thread_local.reports += [{'info': msg}]
+    rospy.loginfo('%s: %s', current_check, msg)
    infos.append(msg)
 def check(name):
    def inner(fn):
        def wrapper(*args, **kwargs):
-            start = rospy.get_time()
+            failures[:] = []
-            thread_local.reports = []
+            infos[:] = []
            global current_check
            current_check = name
            try:
                fn(*args, **kwargs)
            except Exception as e:
                traceback.print_exc()
                rospy.logerr('%s: exception occurred', name)
-            with reports_lock:
+                return
-                for report in thread_local.reports:
+            if not failures and not infos:
-                    if 'failure' in report:
+                rospy.loginfo('%s: OK', name)
                        rospy.logerr('%s: %s', name, report['failure'])
                    elif 'info' in report:
                        rospy.loginfo(GREY + name + END + ': ' + report['info'])
                if not thread_local.reports:
                    rospy.loginfo(GREY + name + END + ': ' + GREEN + 'OK' + END)
                if rospy.get_param('~time', False):
                    rospy.loginfo('%s: %.1f sec', name, rospy.get_time() - start)
        return wrapper
    return inner
 def ff(value, precision=2):
    # safely format float or int
    if value is None:
        return RED + '???' + END
    if isinstance(value, float):
        return ('{:.' + str(precision + 1) + '}').format(value)
    elif isinstance(value, int):
        return str(value)
 param_get = rospy.ServiceProxy('mavros/param/get', ParamGet)
-def get_param(name, default=None, strict=True):
+def get_param(name):
    try:
        res = param_get(param_id=name)
    except rospy.ServiceException as e:
@@ -115,19 +100,13 @@ def get_param(name, default=None, strict=True):
        return None
    if not res.success:
-        if strict:
+        failure('unable to retrieve PX4 parameter %s', name)
            failure('unable to retrieve PX4 parameter %s', name)
        return default
    else:
        if res.value.integer != 0:
            return res.value.integer
        return res.value.real
 def get_paramf(name, precision=2):
    return ff(get_param(name), precision)
 recv_event = Event()
 link = mavutil.mavlink.MAVLink('', 255, 1)
 mavlink_pub = rospy.Publisher('mavlink/to', Mavlink, queue_size=1)
@@ -172,24 +151,6 @@ def mavlink_exec(cmd, timeout=3.0):
    return mavlink_recv
 def read_diagnostics(name, key):
    e = Event()
    def cb(msg):
        for status in msg.status:
            if status.name.lower() == name.lower():
                for value in status.values:
                    if value.key.lower() == key.lower():
                        cb.value = value.value
                        e.set()
                        return
    cb.value = None
    sub = rospy.Subscriber('/diagnostics', DiagnosticArray, cb)
    e.wait(1.0)  # wait to read all the diagnostics from nodes publishing them
    sub.unregister()
    return cb.value
 BOARD_ROTATIONS = {
    0: 'no rotation',
    1: 'yaw 45°',
@@ -235,36 +196,34 @@ def check_fcu():
        state = rospy.wait_for_message('mavros/state', State, timeout=3)
        if not state.connected:
            failure('no connection to the FCU (check wiring)')
            info('fcu_url = %s', rospy.get_param('mavros/fcu_url', '?'))
            return
-        if not is_process_running('px4', exact=True): # can't use px4 console in SITL
+        clover_tag = re.compile(r'-cl[oe]ver\.\d+$')
-            clover_tag = re.compile(r'-cl[oe]ver\.\d+$')
+        clover_fw = False
            clover_fw = False
-            # Make sure the console is available to us
+        # Make sure the console is available to us
-            mavlink_exec('\n')
+        mavlink_exec('\n')
-            version_str = mavlink_exec('ver all')
+        version_str = mavlink_exec('ver all')
-            if version_str == '':
+        if version_str == '':
-                info('no version data available from SITL')
+            info('no version data available from SITL')
-            for line in version_str.split('\n'):
+        for line in version_str.split('\n'):
-                if line.startswith('FW version: '):
+            if line.startswith('FW version: '):
-                    info(line[len('FW version: '):])
+                info(line[len('FW version: '):])
-                elif line.startswith('FW git tag: '): # only Clover's firmware
+            elif line.startswith('FW git tag: '): # only Clover's firmware
-                    tag = line[len('FW git tag: '):]
+                tag = line[len('FW git tag: '):]
-                    clover_fw = clover_tag.search(tag)
+                clover_fw = clover_tag.search(tag)
-                    info(tag)
+                info(tag)
-                elif line.startswith('HW arch: '):
+            elif line.startswith('HW arch: '):
-                    info(line[len('HW arch: '):])
+                info(line[len('HW arch: '):])
-            if not clover_fw:
+        if not clover_fw:
-                info('not Clover PX4 firmware, check https://clover.coex.tech/firmware')
+            info('not Clover PX4 firmware, check https://clover.coex.tech/firmware')
        est = get_param('SYS_MC_EST_GROUP')
        if est == 1:
            info('selected estimator: LPE')
-            fuse = int(get_param('LPE_FUSION'))
+            fuse = get_param('LPE_FUSION')
            if fuse & (1 << 4):
                info('LPE_FUSION: land detector fusion is enabled')
            else:
@@ -296,35 +255,21 @@ def check_fcu():
        if cbrk_usb_chk != 197848:
            failure('set parameter CBRK_USB_CHK to 197848 for flying with USB connected')
        if not is_process_running('px4', exact=True): # skip battery check in SITL
            try:
                battery = rospy.wait_for_message('mavros/battery', BatteryState, timeout=3)
                if not battery.cell_voltage:
                    failure('cell voltage is not available, https://clover.coex.tech/power')
                else:
                    cell = battery.cell_voltage[0]
                    if cell > 4.3 or cell < 3.0:
                        failure('incorrect cell voltage: %.2f V, https://clover.coex.tech/power', cell)
                    elif cell < 3.7:
                        failure('critically low cell voltage: %.2f V, recharge battery', cell)
            except rospy.ROSException:
                failure('no battery state')
        # time sync check
        try:
-            info('time sync offset: %.2f s', float(read_diagnostics('mavros: Time Sync', 'Estimated time offset (s)')))
+            battery = rospy.wait_for_message('mavros/battery', BatteryState, timeout=3)
-        except:
+            if not battery.cell_voltage:
-            failure('cannot read time sync offset')
+                failure('cell voltage is not available, https://clover.coex.tech/power')
            else:
                cell = battery.cell_voltage[0]
                if cell > 4.3 or cell < 3.0:
                    failure('incorrect cell voltage: %.2f V, https://clover.coex.tech/power', cell)
                elif cell < 3.7:
                    failure('critically low cell voltage: %.2f V, recharge battery', cell)
        except rospy.ROSException:
            failure('no battery state')
    except rospy.ROSException:
-        failure('no MAVROS state')
+        failure('no MAVROS state (check wiring)')
        fcu_url = rospy.get_param('mavros/fcu_url', '?')
        if fcu_url == '/dev/px4fmu':
            if not os.path.exists('/lib/udev/rules.d/99-px4fmu.rules'):
                info('udev rules are not installed, install udev rules or change usb_device to /dev/ttyACM0 in mavros.launch')
            else:
                info('udev did\'t recognize px4fmu device, check wiring or change usb_device to /dev/ttyACM0 in mavros.launch')
        info('fcu_url = %s', rospy.get_param('mavros/fcu_url', '?'))
 def describe_direction(v):
@@ -401,24 +346,19 @@ def is_process_running(binary, exact=False, full=False):
@check('ArUco markers')
 def check_aruco():
    markers = None
    if is_process_running('aruco_detect', full=True):
        try:
-            info('aruco_detect/length = %g m', rospy.get_param('aruco_detect/length', '?'))
+            info('aruco_detect/length = %g m', rospy.get_param('aruco_detect/length'))
        except KeyError:
            failure('aruco_detect/length parameter is not set')
-        known_vertical = rospy.get_param('aruco_detect/known_vertical', '')
+        known_tilt = rospy.get_param('aruco_detect/known_tilt', '')
-        flip_vertical = rospy.get_param('aruco_detect/flip_vertical', False)
+        if known_tilt == 'map':
-        description = ''
+            known_tilt += ' (ALL markers are on the floor)'
-        if known_vertical == 'map' and not flip_vertical:
+        elif known_tilt == 'map_flipped':
-            description = ' (all markers are on the floor)'
+            known_tilt += ' (ALL markers are on the ceiling)'
-        elif known_vertical == 'map' and flip_vertical:
+        info('aruco_detector/known_tilt = %s', known_tilt)
            description = ' (all markers are on the ceiling)'
        info('aruco_detect/known_vertical = %s', known_vertical)
        info('aruco_detect/flip_vertical = %s%s', flip_vertical, description)
        try:
-            markers = rospy.wait_for_message('aruco_detect/markers', MarkerArray, timeout=0.8)
+            rospy.wait_for_message('aruco_detect/markers', MarkerArray, timeout=1)
        except rospy.ROSException:
            failure('no markers detection')
            return
@@ -427,61 +367,42 @@ def check_aruco():
        return
    if is_process_running('aruco_map', full=True):
-        known_vertical = rospy.get_param('aruco_map/known_vertical', '')
+        known_tilt = rospy.get_param('aruco_map/known_tilt', '')
-        flip_vertical = rospy.get_param('aruco_map/flip_vertical', False)
+        if known_tilt == 'map':
-        description = ''
+            known_tilt += ' (marker\'s map is on the floor)'
-        if known_vertical == 'map' and not flip_vertical:
+        elif known_tilt == 'map_flipped':
-            description += ' (markers map is on the floor)'
+            known_tilt += ' (marker\'s map is on the ceiling)'
-        elif known_vertical == 'map' and flip_vertical:
+        info('aruco_map/known_tilt = %s', known_tilt)
            description += ' (markers map is on the ceiling)'
        info('aruco_map/known_vertical = %s', known_vertical)
        info('aruco_map/flip_vertical = %s%s', flip_vertical, description)
        try:
-            visualization = rospy.wait_for_message('aruco_map/visualization', VisualizationMarkerArray, timeout=0.8)
+            visualization = rospy.wait_for_message('aruco_map/visualization', VisualizationMarkerArray, timeout=1)
            info('map has %s markers', len(visualization.markers))
        except:
            failure('cannot read aruco_map/visualization topic')
        try:
-            rospy.wait_for_message('aruco_map/pose', PoseWithCovarianceStamped, timeout=0.8)
+            rospy.wait_for_message('aruco_map/pose', PoseWithCovarianceStamped, timeout=1)
        except rospy.ROSException:
-            if not markers:
+            failure('no map detection')
                info('no map detection as no markers detection')
            elif not markers.markers:
                info('no map detection as no markers detected')
            else:
                failure('no map detection')
    else:
        info('aruco_map is not running')
 def is_on_the_floor():
    try:
        dist = rospy.wait_for_message('rangefinder/range', Range, timeout=1)
        return dist.range < 0.3
    except rospy.ROSException:
        return False
@check('Vision position estimate')
 def check_vpe():
    vis = None
    try:
-        vis = rospy.wait_for_message('mavros/vision_pose/pose', PoseStamped, timeout=0.8)
+        vis = rospy.wait_for_message('mavros/vision_pose/pose', PoseStamped, timeout=1)
    except rospy.ROSException:
        try:
-            vis = rospy.wait_for_message('mavros/mocap/pose', PoseStamped, timeout=0.8)
+            vis = rospy.wait_for_message('mavros/mocap/pose', PoseStamped, timeout=1)
        except rospy.ROSException:
-            if not is_process_running('vpe_publisher', full=True):
+            failure('no VPE or MoCap messages')
-                info('no vision position estimate, vpe_publisher is not running')
+            # check if vpe_publisher is running
-            elif rospy.get_param('aruco_map/known_vertical', '') == 'map' \
+            try:
-                   and rospy.get_param('aruco_map/flip_vertical', False):
+                subprocess.check_output(['pgrep', '-x', 'vpe_publisher'])
-                failure('no vision position estimate, markers are on the ceiling')
+            except subprocess.CalledProcessError:
-            elif is_on_the_floor():
+                return  # it's not running, skip following checks
                info('no vision position estimate, the drone is on the floor')
            else:
                failure('no vision position estimate')
    # check PX4 settings
    est = get_param('SYS_MC_EST_GROUP')
@@ -493,37 +414,26 @@ def check_vpe():
        if vision_yaw_w == 0:
            failure('vision yaw weight is zero, change ATT_W_EXT_HDG parameter')
        else:
-            info('vision yaw weight: %s', ff(vision_yaw_w))
+            info('Vision yaw weight: %.2f', vision_yaw_w)
-        fuse = int(get_param('LPE_FUSION'))
+        fuse = get_param('LPE_FUSION')
        if not fuse & (1 << 2):
            failure('vision position fusion is disabled, change LPE_FUSION parameter')
        delay = get_param('LPE_VIS_DELAY')
        if delay != 0:
-            failure('LPE_VIS_DELAY = %s, but it should be zero', delay)
+            failure('LPE_VIS_DELAY parameter is %s, but it should be zero', delay)
-        info('LPE_VIS_XY = %s m, LPE_VIS_Z = %s m', get_paramf('LPE_VIS_XY'), get_paramf('LPE_VIS_Z'))
+        info('LPE_VIS_XY is %.2f m, LPE_VIS_Z is %.2f m', get_param('LPE_VIS_XY'), get_param('LPE_VIS_Z'))
    elif est == 2:
-        ev_ctrl = get_param('EKF2_EV_CTRL', strict=False)
+        fuse = get_param('EKF2_AID_MASK')
-        if ev_ctrl is not None: # PX4 after v1.14
+        if not fuse & (1 << 3):
-            ev_ctrl = int(ev_ctrl)
+            failure('vision position fusion is disabled, change EKF2_AID_MASK parameter')
-            if not ev_ctrl & (1 << 0):
+        if not fuse & (1 << 4):
-                failure('vision horizontal position fusion is disabled, change EKF2_EV_CTRL parameter')
+            failure('vision yaw fusion is disabled, change EKF2_AID_MASK parameter')
            if not ev_ctrl & (1 << 1):
                failure('vision vertical position fusion is disabled, change EKF2_EV_CTRL parameter')
            if not ev_ctrl & (1 << 3):
                failure('vision yaw fusion is disabled, change EKF2_EV_CTRL parameter')
        else: # PX4 before v1.14
            fuse = int(get_param('EKF2_AID_MASK'))
            if not fuse & (1 << 3):
                failure('vision position fusion is disabled, change EKF2_AID_MASK parameter')
            if not fuse & (1 << 4):
                failure('vision yaw fusion is disabled, change EKF2_AID_MASK parameter')
        delay = get_param('EKF2_EV_DELAY')
        if delay != 0:
-            failure('EKF2_EV_DELAY = %.2f, but it should be zero', delay)
+            failure('EKF2_EV_DELAY is %.2f, but it should be zero', delay)
-        info('EKF2_EVA_NOISE = %s, EKF2_EVP_NOISE = %s',
+        info('EKF2_EVA_NOISE is %.3f, EKF2_EVP_NOISE is %.3f',
-            get_paramf('EKF2_EVA_NOISE', 3),
+            get_param('EKF2_EVA_NOISE'),
-            get_paramf('EKF2_EVP_NOISE', 3))
+            get_param('EKF2_EVP_NOISE'))
    if not vis:
        return
@@ -621,25 +531,15 @@ def check_velocity():
@check('Global position (GPS)')
 def check_global_position():
    try:
-        rospy.wait_for_message('mavros/global_position/global', NavSatFix, timeout=0.8)
+        rospy.wait_for_message('mavros/global_position/global', NavSatFix, timeout=1)
    except rospy.ROSException:
        info('no global position')
-        if get_param('SYS_MC_EST_GROUP') == 2:
+        if get_param('SYS_MC_EST_GROUP') == 2 and (get_param('EKF2_AID_MASK') & (1 << 0)):
-            gps_ctrl = get_param('EKF2_GPS_CTRL', strict=False)
+            failure('enabled GPS fusion may suppress vision position aiding')
            if gps_ctrl is not None: # PX4 after v1.14
                if int(gps_ctrl) & (1 << 0):
                    failure('GPS fusion enabled may suppress vision position aiding, change EKF2_GPS_CTRL')
            else: # PX4 before v1.14
                if int(get_param('EKF2_AID_MASK', 0)) & (1 << 0):
                    failure('GPS fusion enabled may suppress vision position aiding, change EKF2_AID_MASK')
@check('Optical flow')
 def check_optical_flow():
    if not is_process_running('optical_flow', full=True):
        info('optical_flow is not running')
        return
    # TODO:check FPS!
    try:
        rospy.wait_for_message('mavros/px4flow/raw/send', OpticalFlowRad, timeout=0.5)
@@ -647,49 +547,40 @@ def check_optical_flow():
        # check PX4 settings
        rot = get_param('SENS_FLOW_ROT')
        if rot != 0:
-            failure('SENS_FLOW_ROT = %s, but it should be zero', rot)
+            failure('SENS_FLOW_ROT parameter is %s, but it should be zero', rot)
        est = get_param('SYS_MC_EST_GROUP')
        if est == 1:
-            fuse = int(get_param('LPE_FUSION'))
+            fuse = get_param('LPE_FUSION')
            if not fuse & (1 << 1):
                failure('optical flow fusion is disabled, change LPE_FUSION parameter')
            if not fuse & (1 << 1):
                failure('flow gyro compensation is disabled, change LPE_FUSION parameter')
-            scale = get_param('LPE_FLW_SCALE', 1)
+            scale = get_param('LPE_FLW_SCALE')
            if not numpy.isclose(scale, 1.0):
-                failure('LPE_FLW_SCALE = %.2f, but it should be 1.0', scale)
+                failure('LPE_FLW_SCALE parameter is %.2f, but it should be 1.0', scale)
-            info('LPE_FLW_QMIN = %s, LPE_FLW_R = %s, LPE_FLW_RR = %s',
+            info('LPE_FLW_QMIN is %s, LPE_FLW_R is %.4f, LPE_FLW_RR is %.4f, SENS_FLOW_MINHGT is %.3f, SENS_FLOW_MAXHGT is %.3f',
-                          get_paramf('LPE_FLW_QMIN'),
+                          get_param('LPE_FLW_QMIN'),
-                          get_paramf('LPE_FLW_R', 4),
+                          get_param('LPE_FLW_R'),
-                          get_paramf('LPE_FLW_RR', 4))
+                          get_param('LPE_FLW_RR'),
                          get_param('SENS_FLOW_MINHGT'),
                          get_param('SENS_FLOW_MAXHGT'))
        elif est == 2:
-            of_ctrl = get_param('EKF2_OF_CTRL', strict=False)
+            fuse = get_param('EKF2_AID_MASK')
-            if of_ctrl is not None: # PX4 after v1.14
+            if not fuse & (1 << 1):
-                if of_ctrl == 0:
+                failure('optical flow fusion is disabled, change EKF2_AID_MASK parameter')
-                    failure('optical flow fusion is disabled, change EKF2_OF_CTRL')
+            delay = get_param('EKF2_OF_DELAY')
            else: # PX4 before v1.14
                fuse = int(get_param('EKF2_AID_MASK', 0))
                if not fuse & (1 << 1):
                    failure('optical flow fusion is disabled, change EKF2_AID_MASK parameter')
            delay = get_param('EKF2_OF_DELAY', 0)
            if delay != 0:
-                failure('EKF2_OF_DELAY = %.2f, but it should be zero', delay)
+                failure('EKF2_OF_DELAY is %.2f, but it should be zero', delay)
-            info('EKF2_OF_QMIN = %s, EKF2_OF_N_MIN = %s, EKF2_OF_N_MAX = %s',
+            info('EKF2_OF_QMIN is %s, EKF2_OF_N_MIN is %.4f, EKF2_OF_N_MAX is %.4f, SENS_FLOW_MINHGT is %.3f, SENS_FLOW_MAXHGT is %.3f',
-                          get_paramf('EKF2_OF_QMIN'),
+                          get_param('EKF2_OF_QMIN'),
-                          get_paramf('EKF2_OF_N_MIN', 4),
+                          get_param('EKF2_OF_N_MIN'),
-                          get_paramf('EKF2_OF_N_MAX', 4))
+                          get_param('EKF2_OF_N_MAX'),
-        info('SENS_FLOW_MINHGT = %s, SENS_FLOW_MAXHGT = %s', get_paramf('SENS_FLOW_MINHGT', 3), get_paramf('SENS_FLOW_MAXHGT', 3))
+                          get_param('SENS_FLOW_MINHGT'),
                          get_param('SENS_FLOW_MAXHGT'))
    except rospy.ROSException:
-        if rospy.get_param('optical_flow/disable_on_vpe', False):
+        failure('no optical flow data (from Raspberry)')
            try:
                rospy.wait_for_message('mavros/vision_pose/pose', PoseStamped, timeout=1)
                info('no optical flow as disable_on_vpe is true')
            except:
                failure('no optical flow on RPi, disable_on_vpe is true, but no vision pose also')
        else:
            failure('no optical flow on RPi')
@check('Rangefinder')
@@ -713,26 +604,23 @@ def check_rangefinder():
    est = get_param('SYS_MC_EST_GROUP')
    if est == 1:
-        fuse = int(get_param('LPE_FUSION', 0))
+        fuse = get_param('LPE_FUSION')
        if not fuse & (1 << 5):
            info('"pub agl as lpos down" in LPE_FUSION is disabled, NOT operating over flat surface')
        else:
            info('"pub agl as lpos down" in LPE_FUSION is enabled, operating over flat surface')
    elif est == 2:
-        hgt = get_param('EKF2_HGT_REF', strict=False)
+        hgt = get_param('EKF2_HGT_MODE')
        if hgt is None: # PX4 before v1.14
            hgt = get_param('EKF2_HGT_MODE')
        if hgt != 2:
            info('EKF2_HGT_MODE != Range sensor, NOT operating over flat surface')
        else:
            info('EKF2_HGT_MODE = Range sensor, operating over flat surface')
-        aid = get_param('EKF2_RNG_AID', strict=False)
+        aid = get_param('EKF2_RNG_AID')
-        if aid is not None: # PX4 before v1.14
+        if aid != 1:
-            if aid != 1:
+            info('EKF2_RNG_AID != 1, range sensor aiding disabled')
-                info('EKF2_RNG_AID != 1, range sensor aiding disabled')
+        else:
-            else:
+            info('EKF2_RNG_AID = 1, range sensor aiding enabled')
                info('EKF2_RNG_AID = 1, range sensor aiding enabled')
@check('Boot duration')
@@ -750,7 +638,7 @@ def check_boot_duration():
@check('CPU usage')
 def check_cpu_usage():
-    WHITELIST = 'nodelet', 'gzclient', 'gzserver', 'selfcheck.py'
+    WHITELIST = 'nodelet', 'gzclient', 'gzserver'
    CMD = "top -n 1 -b -i | tail -n +8 | awk '{ printf(\"%-8s\\t%-8s\\t%-8s\\n\", $1, $9, $12); }'"
    output = subprocess.check_output(CMD, shell=True).decode()
    processes = output.split('\n')
@@ -819,10 +707,7 @@ def check_image():
    try:
        info('version: %s', open('/etc/clover_version').read().strip())
    except IOError:
-        try:
+        info('no /etc/clover_version file, not the Clover image?')
            info('VM version: %s', open('/etc/clover_vm_version').read().strip())
        except IOError:
            info('no /etc/clover_version file, not the Clover image?')
@check('Preflight status')
@@ -933,47 +818,26 @@ def check_board():
        info('could not open /proc/device-tree/model, not a Raspberry Pi?')
 def parallel_for(fns):
    threads = []
    for fn in fns:
        thread = Thread(target=fn)
        thread.start()
        threads.append(thread)
    for thread in threads:
        thread.join()
 def consequentially_for(fns):
    for fn in fns:
        fn()
 def selfcheck():
-    checks = [
+    check_image()
-        check_image,
+    check_board()
-        check_board,
+    check_clover_service()
-        check_clover_service,
+    check_network()
-        check_network,
+    check_fcu()
-        check_fcu,
+    check_imu()
-        check_imu,
+    check_local_position()
-        check_local_position,
+    check_velocity()
-        check_velocity,
+    check_global_position()
-        check_global_position,
+    check_preflight_status()
-        check_preflight_status,
+    check_main_camera()
-        check_main_camera,
+    check_aruco()
-        check_aruco,
+    check_simpleoffboard()
-        check_simpleoffboard,
+    check_optical_flow()
-        check_optical_flow,
+    check_vpe()
-        check_vpe,
+    check_rangefinder()
-        check_rangefinder,
+    check_rpi_health()
-        check_rpi_health,
+    check_cpu_usage()
-        check_cpu_usage,
+    check_boot_duration()
        check_boot_duration,
    ]
    if rospy.get_param('~parallel', False):
        parallel_for(checks)
    else:
        consequentially_for(checks)
 if __name__ == '__main__':
--- a/clover/src/simple_offboard.cpp
+++ b/clover/src/simple_offboard.cpp
@@ -23,14 +23,12 @@
 #include <tf2_ros/static_transform_broadcaster.h>
 #include <tf2_geometry_msgs/tf2_geometry_msgs.h>
 #include <std_srvs/Trigger.h>
 #include <geometry_msgs/PointStamped.h>
 #include <geometry_msgs/PoseStamped.h>
 #include <geometry_msgs/TwistStamped.h>
 #include <geometry_msgs/Vector3Stamped.h>
 #include <geometry_msgs/QuaternionStamped.h>
 #include <sensor_msgs/NavSatFix.h>
 #include <sensor_msgs/BatteryState.h>
 #include <sensor_msgs/Range.h>
 #include <mavros_msgs/CommandBool.h>
 #include <mavros_msgs/SetMode.h>
 #include <mavros_msgs/PositionTarget.h>
@@ -44,14 +42,10 @@
 #include <clover/GetTelemetry.h>
 #include <clover/Navigate.h>
 #include <clover/NavigateGlobal.h>
 #include <clover/SetAltitude.h>
 #include <clover/SetYaw.h>
 #include <clover/SetYawRate.h>
 #include <clover/SetPosition.h>
 #include <clover/SetVelocity.h>
 #include <clover/SetAttitude.h>
 #include <clover/SetRates.h>
 #include <clover/State.h>
 using std::string;
 using std::isnan;
@@ -87,43 +81,37 @@ float default_speed;
 bool auto_release;
 bool land_only_in_offboard, nav_from_sp, check_kill_switch;
 std::map<string, string> reference_frames;
 string terrain_frame_mode;
 // Publishers
-ros::Publisher attitude_pub, attitude_raw_pub, position_pub, position_raw_pub, rates_pub, thrust_pub, state_pub;
+ros::Publisher attitude_pub, attitude_raw_pub, position_pub, position_raw_pub, rates_pub, thrust_pub;
 // Service clients
 ros::ServiceClient arming, set_mode;
 // Containers
 ros::Timer setpoint_timer;
 tf::Quaternion tq;
 PoseStamped position_msg;
 PositionTarget position_raw_msg;
-//TwistStamped rates_msg;
+AttitudeTarget att_raw_msg;
 Thrust thrust_msg;
 TwistStamped rates_msg;
 TransformStamped target, setpoint;
 geometry_msgs::TransformStamped body;
 geometry_msgs::TransformStamped terrain;
 // State
 PoseStamped nav_start;
-PointStamped setpoint_position;
+PoseStamped setpoint_position, setpoint_position_transformed;
-PointStamped setpoint_altitude;
+Vector3Stamped setpoint_z, setpoint_z_transformed; // for z-only commands
-Vector3Stamped setpoint_velocity;
+Vector3Stamped setpoint_velocity, setpoint_velocity_transformed;
-float setpoint_yaw, setpoint_roll, setpoint_pitch;
+QuaternionStamped setpoint_attitude, setpoint_attitude_transformed;
-Vector3 setpoint_rates;
+float setpoint_yaw_rate;
 string yaw_frame_id;
 float setpoint_thrust;
 float nav_speed;
 float setpoint_lat = NAN, setpoint_lon = NAN;
 bool busy = false;
 bool wait_armed = false;
 bool nav_from_sp_flag = false;
 // Last published
 PoseStamped setpoint_pose_local;
 Vector3Stamped setpoint_velocity_local;
 float yaw_local;
 enum setpoint_type_t {
 	NONE,
 	NAVIGATE,
@@ -131,16 +119,15 @@ enum setpoint_type_t {
 	POSITION,
 	VELOCITY,
 	ATTITUDE,
-	RATES,
+	RATES
 	_ALTITUDE,
 	_YAW,
 	_YAW_RATE,
 };
 enum setpoint_type_t setpoint_type = NONE;
 enum { YAW, YAW_RATE, TOWARDS } setpoint_yaw_type;
 bool setpoint_z_valid = false;
 // Last received telemetry messages
 mavros_msgs::State state;
 mavros_msgs::StatusText statustext;
@@ -189,7 +176,16 @@ void handleLocalPosition(const PoseStamped& pose)
 {
 	local_position = pose;
 	publishBodyFrame();
-	// TODO: home?
+	// TODO: terrain?, home?
 }
 void handleAltitude(const Altitude& alt)
 {
 	// publish terrain frame
 	if (!std::isfinite(alt.bottom_clearance)) return;
 	terrain.header.stamp = alt.header.stamp;
 	terrain.transform.translation.z = -alt.bottom_clearance;
 	transform_broadcaster->sendTransform(terrain);
 }
 // wait for transform without interrupting publishing setpoints
@@ -207,29 +203,6 @@ inline bool waitTransform(const string& target, const string& source,
 	return false;
 }
 void publishTerrain(const double distance, const ros::Time& stamp)
 {
 	if (!waitTransform(local_frame, body.child_frame_id, stamp, ros::Duration(0.1))) return;
 	auto t = tf_buffer.lookupTransform(local_frame, body.child_frame_id, stamp);
 	t.child_frame_id = terrain.child_frame_id;
 	t.transform.translation.z -= distance;
 	static_transform_broadcaster->sendTransform(t);
 }
 void handleAltitude(const Altitude& alt)
 {
 	if (!std::isfinite(alt.bottom_clearance)) return;
 	publishTerrain(alt.bottom_clearance, alt.header.stamp);
 }
 void handleRange(const Range& range)
 {
 	if (!std::isfinite(range.range)) return;
 	// TODO: check it's facing down
 	publishTerrain(range.range, range.header.stamp);
 }
 #define TIMEOUT(msg, timeout) (msg.header.stamp.isZero() || (ros::Time::now() - msg.header.stamp > timeout))
 bool getTelemetry(GetTelemetry::Request& req, GetTelemetry::Response& res)
@@ -249,11 +222,11 @@ bool getTelemetry(GetTelemetry::Request& req, GetTelemetry::Response& res)
 	res.vx = NAN;
 	res.vy = NAN;
 	res.vz = NAN;
 	res.roll = NAN;
 	res.pitch = NAN;
 	res.roll = NAN;
 	res.yaw = NAN;
 	res.roll_rate = NAN;
 	res.pitch_rate = NAN;
 	res.roll_rate = NAN;
 	res.yaw_rate = NAN;
 	res.voltage = NAN;
 	res.cell_voltage = NAN;
@@ -383,20 +356,20 @@ inline float getDistance(const Point& from, const Point& to)
 	return hypot(from.x - to.x, from.y - to.y, from.z - to.z);
 }
-void getNavigateSetpoint(const ros::Time& stamp, const float speed, Point& nav_setpoint)
+void getNavigateSetpoint(const ros::Time& stamp, float speed, Point& nav_setpoint)
 {
 	if (wait_armed) {
 		// don't start navigating if we're waiting arming
 		nav_start.header.stamp = stamp;
 	}
-	float distance = getDistance(nav_start.pose.position, setpoint_pose_local.pose.position);
+	float distance = getDistance(nav_start.pose.position, setpoint_position_transformed.pose.position);
 	float time = distance / speed;
 	float passed = std::min((stamp - nav_start.header.stamp).toSec() / time, 1.0);
-	nav_setpoint.x = nav_start.pose.position.x + (setpoint_pose_local.pose.position.x - nav_start.pose.position.x) * passed;
+	nav_setpoint.x = nav_start.pose.position.x + (setpoint_position_transformed.pose.position.x - nav_start.pose.position.x) * passed;
-	nav_setpoint.y = nav_start.pose.position.y + (setpoint_pose_local.pose.position.y - nav_start.pose.position.y) * passed;
+	nav_setpoint.y = nav_start.pose.position.y + (setpoint_position_transformed.pose.position.y - nav_start.pose.position.y) * passed;
-	nav_setpoint.z = nav_start.pose.position.z + (setpoint_pose_local.pose.position.z - nav_start.pose.position.z) * passed;
+	nav_setpoint.z = nav_start.pose.position.z + (setpoint_position_transformed.pose.position.z - nav_start.pose.position.z) * passed;
 }
 PoseStamped globalToLocal(double lat, double lon)
@@ -427,101 +400,56 @@ PoseStamped globalToLocal(double lat, double lon)
 	return pose;
 }
 // publish navigate_target frame
 void publishTarget(ros::Time stamp, bool _static = false)
 {
 	bool single_frame = (setpoint_position.header.frame_id == setpoint_altitude.header.frame_id);
 	// handle yaw for target frame
 	if (setpoint_yaw_type == YAW || setpoint_yaw_type == YAW_RATE) { // use last set yaw for yaw_rate
 		if (setpoint_altitude.header.frame_id == yaw_frame_id) {
 			target.transform.rotation = tf::createQuaternionMsgFromYaw(setpoint_yaw);
 		} else {
 			single_frame = false;
 			target.transform.rotation = tf::createQuaternionMsgFromYaw(yaw_local);
 		}
 	} else if (setpoint_yaw_type == TOWARDS) {
 		single_frame = false;
 		target.transform.rotation = tf::createQuaternionMsgFromYaw(yaw_local);
 	}
 	if (_static && single_frame) {
 		// publish at user's command, if all frames are the same
 		target.header.frame_id = setpoint_position.header.frame_id;
 		target.header.stamp = stamp;
 		target.transform.translation.x = setpoint_position.point.x;
 		target.transform.translation.y = setpoint_position.point.y;
 		target.transform.translation.z = setpoint_position.point.z;
 	} else if (!_static) {
 		// publish at each iteration, if frames are different
 		target.header = setpoint_pose_local.header;
 		target.transform.translation.x = setpoint_pose_local.pose.position.x;
 		target.transform.translation.y = setpoint_pose_local.pose.position.y;
 		target.transform.translation.z = setpoint_pose_local.pose.position.z;
 	}
 	static_transform_broadcaster->sendTransform(target);
 }
 void publish(const ros::Time stamp)
 {
 	if (setpoint_type == NONE) return;
 	position_raw_msg.header.stamp = stamp;
 	thrust_msg.header.stamp = stamp;
 	rates_msg.header.stamp = stamp;
-	// transform position
+	try {
-	if (setpoint_type == NAVIGATE || setpoint_type == NAVIGATE_GLOBAL || setpoint_type == POSITION) {
+		// transform position and/or yaw
-		setpoint_position.header.stamp = stamp;
+		if (setpoint_type == NAVIGATE || setpoint_type == NAVIGATE_GLOBAL || setpoint_type == POSITION || setpoint_type == VELOCITY || setpoint_type == ATTITUDE) {
-		setpoint_altitude.header.stamp = stamp;
+			setpoint_position.header.stamp = stamp;
-		// transform xy
+			tf_buffer.transform(setpoint_position, setpoint_position_transformed, local_frame, ros::Duration(0.05));
 		try {
 			auto xy = tf_buffer.transform(setpoint_position, local_frame, ros::Duration(0.05));
 			setpoint_pose_local.header = xy.header;
 			setpoint_pose_local.pose.position.x = xy.point.x;
 			setpoint_pose_local.pose.position.y = xy.point.y;
 		} catch (tf2::TransformException& ex) {
 			// can't transform xy, use last known
 			ROS_WARN_THROTTLE(10, "can't transform: %s", ex.what());
 		}
-		// transform altitude
+
-		try {
+		// transform velocity
-			setpoint_pose_local.pose.position.z = tf_buffer.transform(setpoint_altitude, local_frame, ros::Duration(0.05)).point.z;
+		if (setpoint_type == VELOCITY) {
-		} catch (tf2::TransformException& ex) {
+			setpoint_velocity.header.stamp = stamp;
-			// can't transform altitude, use last known
+			tf_buffer.transform(setpoint_velocity, setpoint_velocity_transformed, local_frame, ros::Duration(0.05));
 			ROS_WARN_THROTTLE(10, "can't transform: %s", ex.what());
 		}
 	} catch (const tf2::TransformException& e) {
 		ROS_WARN_THROTTLE(10, "can't transform");
 	}
 	// transform yaw
 	if (setpoint_yaw_type == YAW) {
 		try {
 			QuaternionStamped q;
 			q.header.stamp = stamp;
 			q.header.frame_id = yaw_frame_id;
 			q.quaternion = tf::createQuaternionMsgFromYaw(setpoint_yaw);
 			yaw_local = tf2::getYaw(tf_buffer.transform(q, local_frame, ros::Duration(0.05)).quaternion);
 		} catch (tf2::TransformException& ex) {
 			// can't transform yaw, use last known
 			ROS_WARN_THROTTLE(10, "can't transform: %s", ex.what());
 		}
 	}
 	// compute navigate setpoint
 	if (setpoint_type == NAVIGATE || setpoint_type == NAVIGATE_GLOBAL) {
 		position_msg.pose.orientation = setpoint_position_transformed.pose.orientation; // copy yaw
 		getNavigateSetpoint(stamp, nav_speed, position_msg.pose.position);
 		if (setpoint_yaw_type == TOWARDS) {
-			yaw_local = atan2(position_msg.pose.position.y - nav_start.pose.position.y,
+			double yaw_towards = atan2(position_msg.pose.position.y - nav_start.pose.position.y,
-			                  position_msg.pose.position.x - nav_start.pose.position.x);
+			                           position_msg.pose.position.x - nav_start.pose.position.x);
 			position_msg.pose.orientation = tf::createQuaternionMsgFromRollPitchYaw(0, 0, yaw_towards);
 		}
 	}
-		position_msg.pose.orientation = tf::createQuaternionMsgFromYaw(yaw_local);
+	if (setpoint_z_valid && setpoint_type == NAVIGATE || setpoint_type == NAVIGATE_GLOBAL || setpoint_type == POSITION) {
 		setpoint_z.header.stamp = stamp;
 		try {
 			tf_buffer.transform(setpoint_z, setpoint_z_transformed, local_frame, ros::Duration(0.05));
 			setpoint_position_transformed.pose.position.z = setpoint_z_transformed.vector.z;
 		} catch (const tf2::TransformException& e) {
 			ROS_WARN_THROTTLE(10, "can't transform z coordinate from %s to %s, ignoring z coordinate", 
 			                  setpoint_z.header.frame_id.c_str(), local_frame.c_str());
 		}
 	}
 	if (setpoint_type == POSITION) {
-		position_msg = setpoint_pose_local;
+		position_msg = setpoint_position_transformed;
 		position_msg.pose.orientation = tf::createQuaternionMsgFromYaw(yaw_local);
 	}
 	if (setpoint_type == POSITION || setpoint_type == NAVIGATE || setpoint_type == NAVIGATE_GLOBAL) {
@@ -538,14 +466,14 @@ void publish(const ros::Time stamp)
 			                             PositionTarget::IGNORE_AFY +
 			                             PositionTarget::IGNORE_AFZ +
 			                             PositionTarget::IGNORE_YAW;
-			position_raw_msg.yaw_rate = setpoint_rates.z;
+			position_raw_msg.yaw_rate = setpoint_yaw_rate;
 			position_raw_msg.position = position_msg.pose.position;
 			position_raw_pub.publish(position_raw_msg);
 		}
 		// publish setpoint frame
 		if (!setpoint.child_frame_id.empty()) {
-			if (setpoint.header.stamp >= position_msg.header.stamp) {
+			if (setpoint.header.stamp == position_msg.header.stamp) {
 				return; // avoid TF_REPEATED_DATA warnings
 			}
@@ -557,22 +485,9 @@ void publish(const ros::Time stamp)
 			setpoint.header.stamp = position_msg.header.stamp;
 			transform_broadcaster->sendTransform(setpoint);
 		}
 		// publish dynamic target frame
 		publishTarget(stamp);
 	}
 	if (setpoint_type == VELOCITY) {
 		// transform velocity to local frame
 		setpoint_velocity.header.stamp = stamp;
 		try {
 			setpoint_velocity_local = tf_buffer.transform(setpoint_velocity, local_frame, ros::Duration(0.05));
 		} catch (tf2::TransformException& ex) {
 			// can't transform velocity, use last known
 			ROS_WARN_THROTTLE(10, "can't transform: %s", ex.what());
 		}
 		// publish velocity
 		position_raw_msg.type_mask = PositionTarget::IGNORE_PX +
 		                             PositionTarget::IGNORE_PY +
 		                             PositionTarget::IGNORE_PZ +
@@ -580,22 +495,14 @@ void publish(const ros::Time stamp)
 		                             PositionTarget::IGNORE_AFY +
 		                             PositionTarget::IGNORE_AFZ;
 		position_raw_msg.type_mask += setpoint_yaw_type == YAW ? PositionTarget::IGNORE_YAW_RATE : PositionTarget::IGNORE_YAW;
-		position_raw_msg.velocity = setpoint_velocity_local.vector;
+		position_raw_msg.velocity = setpoint_velocity_transformed.vector;
-		position_raw_msg.yaw = yaw_local;
+		position_raw_msg.yaw = tf2::getYaw(setpoint_position_transformed.pose.orientation);
-		position_raw_msg.yaw_rate = setpoint_rates.z;
+		position_raw_msg.yaw_rate = setpoint_yaw_rate;
 		position_raw_pub.publish(position_raw_msg);
 	}
 	if (setpoint_type == ATTITUDE) {
-		PoseStamped msg;
+		attitude_pub.publish(setpoint_position_transformed);
 		msg.header.stamp = stamp;
 		msg.header.frame_id = local_frame;
 		msg.pose.orientation = tf::createQuaternionMsgFromRollPitchYaw(setpoint_roll, setpoint_pitch, yaw_local);
 		attitude_pub.publish(msg);
 		Thrust thrust_msg;
 		thrust_msg.header.stamp = stamp;
 		thrust_msg.thrust = setpoint_thrust;
 		thrust_pub.publish(thrust_msg);
 	}
@@ -604,12 +511,11 @@ void publish(const ros::Time stamp)
 		// thrust_pub.publish(thrust_msg);
 		// mavros rates topics waits for rates in local frame
 		// use rates in body frame for simplicity
 		AttitudeTarget att_raw_msg;
 		att_raw_msg.header.stamp = stamp;
 		att_raw_msg.header.frame_id = fcu_frame;
 		att_raw_msg.type_mask = AttitudeTarget::IGNORE_ATTITUDE;
-		att_raw_msg.body_rate = setpoint_rates;
+		att_raw_msg.body_rate = rates_msg.twist.angular;
-		att_raw_msg.thrust = setpoint_thrust;
+		att_raw_msg.thrust = thrust_msg.thrust;
 		attitude_raw_pub.publish(att_raw_msg);
 	}
 }
@@ -649,59 +555,10 @@ inline void checkState()
 		throw std::runtime_error("No connection to FCU, https://clover.coex.tech/connection");
 }
 void publishState()
 {
 	clover::State msg;
 	msg.mode = setpoint_type;
 	msg.yaw_mode = setpoint_yaw_type;
 	if (setpoint_position.header.frame_id.empty()) {
 		msg.x = NAN;
 		msg.y = NAN;
 		msg.z = NAN;
 	} else {
 		msg.x = setpoint_position.point.x;
 		msg.y = setpoint_position.point.y;
 		msg.z = setpoint_altitude.point.z;
 	}
 	msg.speed = nav_speed;
 	msg.lat = setpoint_lat;
 	msg.lon = setpoint_lon;
 	msg.vx = setpoint_velocity.vector.x;
 	msg.vy = setpoint_velocity.vector.y;
 	msg.vz = setpoint_velocity.vector.z;
 	msg.roll = setpoint_roll;
 	msg.pitch = setpoint_pitch;
 	msg.yaw = !yaw_frame_id.empty() ? setpoint_yaw : NAN;
 	msg.roll_rate = setpoint_rates.x;
 	msg.pitch_rate = setpoint_rates.y;
 	msg.yaw_rate = setpoint_rates.z;
 	msg.thrust = setpoint_thrust;
 	if (setpoint_type == VELOCITY) {
 		msg.xy_frame_id = setpoint_velocity.header.frame_id;
 		msg.z_frame_id = setpoint_velocity.header.frame_id;
 	} else {
 		msg.xy_frame_id = setpoint_position.header.frame_id;
 		msg.z_frame_id = setpoint_altitude.header.frame_id;
 	}
 	msg.yaw_frame_id = yaw_frame_id;
 	state_pub.publish(msg);
 }
 inline float safe(float value) {
 	return std::isfinite(value) ? value : 0;
 }
 #define ENSURE_FINITE(var) { if (!std::isfinite(var)) throw std::runtime_error(#var " argument cannot be NaN or Inf"); }
 #define ENSURE_NON_INF(var) { if (std::isinf(var)) throw std::runtime_error(#var " argument cannot be Inf"); }
 bool serve(enum setpoint_type_t sp_type, float x, float y, float z, float vx, float vy, float vz,
-           float roll, float pitch, float yaw, float roll_rate, float pitch_rate, float yaw_rate, // editorconfig-checker-disable-line
+           float pitch, float roll, float yaw, float pitch_rate, float roll_rate, float yaw_rate, // editorconfig-checker-disable-line
           float lat, float lon, float thrust, float speed, string frame_id, bool auto_arm, // editorconfig-checker-disable-line
           uint8_t& success, string& message) // editorconfig-checker-disable-line
 {
@@ -726,42 +583,82 @@ bool serve(enum setpoint_type_t sp_type, float x, float y, float z, float vx, fl
 		// look up for reference frame
 		auto search = reference_frames.find(frame_id);
-		const string& reference_frame = search == reference_frames.end() ? frame_id : search->second;
+		const string& reference_frame = search == reference_frames.end() ? frame_id : search->second; // when not found it's the same frame
-		ENSURE_NON_INF(x);
+		// Serve "partial" commands
 		ENSURE_NON_INF(y);
 		ENSURE_NON_INF(z);
 		ENSURE_NON_INF(speed); // TODO: allow inf
 		ENSURE_NON_INF(vx);
 		ENSURE_NON_INF(vy);
 		ENSURE_NON_INF(vz);
 		ENSURE_NON_INF(roll);
 		ENSURE_NON_INF(pitch);
 		ENSURE_NON_INF(roll_rate);
 		ENSURE_NON_INF(pitch_rate);
 		ENSURE_NON_INF(yaw_rate);
 		ENSURE_NON_INF(thrust);
-		if (sp_type == NAVIGATE_GLOBAL) {
+		if (!auto_arm && std::isfinite(yaw) &&
 		    isnan(x) && isnan(y) && isnan(z) && isnan(vx) && isnan(vy) && isnan(vz) &&
 		    isnan(pitch) && isnan(roll) && isnan(thrust) &&
 		    isnan(lat) && isnan(lon)) {
 			// change only the yaw
 			if (setpoint_type == POSITION || setpoint_type == NAVIGATE || setpoint_type == NAVIGATE_GLOBAL || setpoint_type == VELOCITY) {
 				if (!waitTransform(setpoint_position.header.frame_id, frame_id, stamp, transform_timeout))
 					throw std::runtime_error("Can't transform from " + frame_id + " to " + setpoint_position.header.frame_id);
 				message = "Changing yaw only";
 				QuaternionStamped q;
 				q.header.frame_id = frame_id;
 				q.header.stamp = stamp;
 				q.quaternion = tf::createQuaternionMsgFromYaw(yaw); // TODO: pitch=0, roll=0 is not totally correct
 				setpoint_position.pose.orientation = tf_buffer.transform(q, setpoint_position.header.frame_id).quaternion;
 				setpoint_yaw_type = YAW;
 				goto publish_setpoint;
 			} else {
 				throw std::runtime_error("Setting yaw is possible only when position or velocity setpoints active");
 			}
 		}
 		if (!auto_arm && std::isfinite(z) &&
 		    isnan(x) && isnan(y) && isnan(vx) && isnan(vy) && isnan(vz) &&
 		    isnan(pitch) && isnan(roll) && isnan(thrust) &&
 		    isnan(lat) && isnan(lon)) {
 			// set only the z
 			if (setpoint_type == POSITION || setpoint_type == NAVIGATE || setpoint_type == NAVIGATE_GLOBAL) {
 				if (!waitTransform(setpoint_position.header.frame_id, frame_id, stamp, transform_timeout))
 					throw std::runtime_error("Can't transform from " + frame_id + " to " + setpoint_position.header.frame_id);
 				message = "Changing z only";
 				setpoint_z.header.frame_id = frame_id;
 				setpoint_z.header.stamp = stamp;
 				setpoint_z.vector.z = z;
 				setpoint_z_valid = true;
 				goto publish_setpoint;
 			} else {
 				throw std::runtime_error("Setting z is possible only when position setpoint active");
 			}
 		}
 		// commands without z
 		if (isnan(z) && setpoint_z_valid && (sp_type == NAVIGATE || sp_type == NAVIGATE_GLOBAL || sp_type == POSITION)) {
 			z = 0;
 		}
 		// Serve normal commands
 		if (sp_type == NAVIGATE || sp_type == POSITION) {
 			ENSURE_FINITE(x);
 			ENSURE_FINITE(y);
 			ENSURE_FINITE(z);
 		} else if (sp_type == NAVIGATE_GLOBAL) {
 			ENSURE_FINITE(lat);
 			ENSURE_FINITE(lon);
-		}
+			ENSURE_FINITE(z);
-
+		} else if (sp_type == VELOCITY) {
-		if (isfinite(x) != isfinite(y)) {
+			ENSURE_FINITE(vx);
-			throw std::runtime_error("x and y can be set only together");
+			ENSURE_FINITE(vy);
-		}
+			ENSURE_FINITE(vz);
-
+		} else if (sp_type == ATTITUDE) {
-		if (isfinite(yaw_rate)) {
+			ENSURE_FINITE(pitch);
-			if (sp_type > RATES && setpoint_type == ATTITUDE) {
+			ENSURE_FINITE(roll);
-				throw std::runtime_error("Yaw rate cannot be set in attitude mode.");
+			ENSURE_FINITE(thrust);
-			}
+		} else if (sp_type == RATES) {
-		}
+			ENSURE_FINITE(pitch_rate);
-
+			ENSURE_FINITE(roll_rate);
-		// set_altitude
+			ENSURE_FINITE(thrust);
 		if (sp_type == _ALTITUDE) {
 			if (setpoint_type == VELOCITY || setpoint_type == ATTITUDE || setpoint_type == RATES) {
 				throw std::runtime_error("Altitude cannot be set in velocity, attitude or rates mode.");
 			}
 		}
 		if (sp_type == NAVIGATE || sp_type == NAVIGATE_GLOBAL) {
@@ -775,13 +672,20 @@ bool serve(enum setpoint_type_t sp_type, float x, float y, float z, float vx, fl
 				speed = default_speed;
 		}
 		if (sp_type == NAVIGATE || sp_type == NAVIGATE_GLOBAL || sp_type == POSITION || sp_type == VELOCITY) {
 			if (yaw_rate != 0 && !std::isnan(yaw))
 				throw std::runtime_error("Yaw value should be NaN for setting yaw rate");
 			if (std::isnan(yaw_rate) && std::isnan(yaw))
 				throw std::runtime_error("Both yaw and yaw_rate cannot be NaN");
 		}
 		if (sp_type == NAVIGATE_GLOBAL) {
 			if (TIMEOUT(global_position, global_position_timeout))
 				throw std::runtime_error("No global position");
 		}
-		// if any value need to be transformed to reference frame
+		if (sp_type == NAVIGATE || sp_type == NAVIGATE_GLOBAL || sp_type == POSITION || sp_type == VELOCITY || sp_type == ATTITUDE) {
 		if (isfinite(x) || isfinite(y) || isfinite(z) || isfinite(vx) || isfinite(vy) || isfinite(vz) || isfinite(yaw)) {
 			// make sure transform from frame_id to reference frame available
 			if (!waitTransform(reference_frame, frame_id, stamp, transform_timeout))
 				throw std::runtime_error("Can't transform from " + frame_id + " to " + reference_frame);
@@ -798,27 +702,15 @@ bool serve(enum setpoint_type_t sp_type, float x, float y, float z, float vx, fl
 			auto xy_in_req_frame = tf_buffer.transform(pose_local, frame_id);
 			x = xy_in_req_frame.pose.position.x;
 			y = xy_in_req_frame.pose.position.y;
 			setpoint_lat = lat;
 			setpoint_lon = lon;
 		}
 		// Everything fine - switch setpoint type
-		if (sp_type <= RATES) {
+		setpoint_type = sp_type;
 			setpoint_type = sp_type;
 		}
-		if (setpoint_type != NAVIGATE && setpoint_type != NAVIGATE_GLOBAL) {
+		if (sp_type != NAVIGATE && sp_type != NAVIGATE_GLOBAL) {
 			nav_from_sp_flag = false;
 		}
 		bool to_auto_arm = auto_arm && (state.mode != "OFFBOARD" || !state.armed);
 		if (to_auto_arm || setpoint_type == VELOCITY || setpoint_type == ATTITUDE || setpoint_type == RATES) {
 			// invalidate position setpoint
 			setpoint_position.header.frame_id = "";
 			setpoint_altitude.header.frame_id = "";
 			yaw_frame_id = "";
 		}
 		if (sp_type == NAVIGATE || sp_type == NAVIGATE_GLOBAL) {
 			// starting point
 			if (nav_from_sp && nav_from_sp_flag) {
@@ -827,139 +719,89 @@ bool serve(enum setpoint_type_t sp_type, float x, float y, float z, float vx, fl
 			} else {
 				nav_start = local_position;
 			}
-
+			nav_speed = speed;
 			if (!isnan(speed)) {
 				nav_speed = speed;
 			}
 			nav_from_sp_flag = true;
 		}
-		// handle position
+		// if (sp_type == NAVIGATE || sp_type == NAVIGATE_GLOBAL || sp_type == POSITION || sp_type == VELOCITY) {
-		if (setpoint_type == NAVIGATE || setpoint_type == NAVIGATE_GLOBAL || setpoint_type == POSITION) {
+		// 	if (std::isnan(yaw) && yaw_rate == 0) {
 		// 		// keep yaw unchanged
 		//		// TODO: this is incorrect, because we need yaw in desired frame
 		// 		yaw = tf2::getYaw(local_position.pose.orientation);
 		// 	}
 		// }
-			PointStamped desired;
+		if (sp_type == POSITION || sp_type == NAVIGATE || sp_type == NAVIGATE_GLOBAL || sp_type == VELOCITY || sp_type == ATTITUDE) {
-			desired.header.frame_id = frame_id;
+			// destination point and/or attitude
-			desired.header.stamp = stamp;
+			PoseStamped ps;
-			desired.point.x = safe(x);
+			ps.header.frame_id = frame_id;
-			desired.point.y = safe(y);
+			ps.header.stamp = stamp;
-			desired.point.z = safe(z);
+			ps.pose.position.x = x;
 			ps.pose.position.y = y;
 			ps.pose.position.z = z;
 			ps.pose.orientation.w = 1.0; // Ensure quaternion is always valid
-			// transform to reference frame
+			if (sp_type == ATTITUDE) {
-			desired = tf_buffer.transform(desired, reference_frame);
+				ps.pose.position.x = 0;
-
+				ps.pose.position.y = 0;
-			// set horizontal position
+				ps.pose.position.z = 0;
-			if (isfinite(x) && isfinite(y)) {
+				ps.pose.orientation = tf::createQuaternionMsgFromRollPitchYaw(roll, pitch, yaw);
-				setpoint_position = desired;
+			} else if (std::isnan(yaw)) {
-			} else if (setpoint_position.header.frame_id.empty()) {
+				setpoint_yaw_type = YAW_RATE;
-				 // TODO: use transform for current stamp
+				setpoint_yaw_rate = yaw_rate;
-				setpoint_position.header = local_position.header;
+			} else if (std::isinf(yaw) && yaw > 0) {
 				setpoint_position.point = local_position.pose.position;
 			}
 			// set altitude
 			if (isfinite(z)) {
 				setpoint_altitude = desired;
 			} else if (setpoint_altitude.header.frame_id.empty()) {
 				setpoint_altitude.header = local_position.header;
 				setpoint_altitude.point = local_position.pose.position;
 			}
 		}
 		// handle velocity
 		if (sp_type == VELOCITY) {
 			// TODO: allow setting different modes by altitude and xy
 			Vector3Stamped desired;
 			desired.header.frame_id = frame_id;
 			desired.header.stamp = stamp;
 			desired.vector.x = safe(vx);
 			desired.vector.y = safe(vy);
 			desired.vector.z = safe(vz);
 			// transform to reference frame
 			desired = tf_buffer.transform(desired, reference_frame);
 			setpoint_velocity.header = desired.header;
 			// set horizontal velocity
 			if (isfinite(vx) && isfinite(vy)) {
 				setpoint_velocity.vector.x = desired.vector.x;
 				setpoint_velocity.vector.y = desired.vector.y;
 			}
 			// set vertical velocity
 			if (isfinite(vz)) {
 				setpoint_velocity.vector.z = desired.vector.z;
 			}
 		}
 		// handle yaw
 		if (sp_type == NAVIGATE || sp_type == NAVIGATE_GLOBAL || sp_type == POSITION || sp_type == VELOCITY || sp_type == ATTITUDE || sp_type == _YAW) {
 			if (isfinite(yaw)) {
 				setpoint_yaw_type = YAW;
 				QuaternionStamped desired;
 				desired.header.frame_id = frame_id;
 				desired.header.stamp = stamp;
 				desired.quaternion = tf::createQuaternionMsgFromYaw(yaw);
 				// transform to reference frame
 				desired = tf_buffer.transform(desired, reference_frame);
 				setpoint_yaw = tf2::getYaw(desired.quaternion);
 				yaw_frame_id = reference_frame;
 			} else if (isinf(yaw) && yaw > 0) {
 				// yaw towards
 				setpoint_yaw_type = TOWARDS;
-
+				yaw = 0;
-			} else if (yaw_frame_id.empty() || sp_type == _YAW) {
+				setpoint_yaw_rate = 0;
-				// yaw is nan and not set previously OR set_yaw(yaw=nan) was called
+			} else {
 				setpoint_yaw_type = YAW;
-				setpoint_yaw = tf2::getYaw(local_position.pose.orientation); // set yaw to current yaw
+				setpoint_yaw_rate = 0;
-				yaw_frame_id = local_position.header.frame_id;
+				ps.pose.orientation = tf::createQuaternionMsgFromYaw(yaw);
 			}
 			tf_buffer.transform(ps, setpoint_position, reference_frame);
 		}
-		// handle roll
+		if (sp_type == VELOCITY) {
-		if (isfinite(roll)) {
+			Vector3Stamped vel;
-			setpoint_roll = roll;
+			vel.header.frame_id = frame_id;
 			vel.header.stamp = stamp;
 			vel.vector.x = vx;
 			vel.vector.y = vy;
 			vel.vector.z = vz;
 			tf_buffer.transform(vel, setpoint_velocity, reference_frame);
 		}
-		// handle pitch
+		if (sp_type == ATTITUDE || sp_type == RATES) {
-		if (isfinite(pitch)) {
+			thrust_msg.thrust = thrust;
 			setpoint_pitch = pitch;
 		}
-		// handle yaw rate
+		if (sp_type == RATES) {
-		if (isfinite(yaw_rate)) {
+			rates_msg.twist.angular.x = roll_rate;
-			setpoint_yaw_type = YAW_RATE;
+			rates_msg.twist.angular.y = pitch_rate;
-			setpoint_rates.z = yaw_rate;
+			rates_msg.twist.angular.z = yaw_rate;
 		}
 		// handle pitch rate
 		if (isfinite(roll_rate)) {
 			setpoint_rates.x = roll_rate;
 		}
 		// handle roll rate
 		if (isfinite(pitch_rate)) {
 			setpoint_rates.y = pitch_rate;
 		}
 		// handle thrust
 		if (isfinite(thrust)) {
 			setpoint_thrust = thrust;
 		}
 		wait_armed = auto_arm;
 publish_setpoint:
 		publish(stamp); // calculate initial transformed messages first
 		setpoint_timer.start();
-		if (setpoint_type == NAVIGATE || setpoint_type == NAVIGATE_GLOBAL || setpoint_type == POSITION) {
+		// publish target frame
-			publishTarget(stamp, true);
+		if (!target.child_frame_id.empty()) {
 			if (setpoint_type == NAVIGATE || setpoint_type == NAVIGATE_GLOBAL || setpoint_type == POSITION) {
 				target.header.frame_id = setpoint_position.header.frame_id;
 				target.header.stamp = stamp;
 				target.transform.translation.x = setpoint_position.pose.position.x;
 				target.transform.translation.y = setpoint_position.pose.position.y;
 				target.transform.translation.z = setpoint_position.pose.position.z;
 				target.transform.rotation = setpoint_position.pose.orientation;
 				static_transform_broadcaster->sendTransform(target);
 			}
 		}
 		publishState();
 		if (auto_arm) {
 			offboardAndArm();
 			wait_armed = false;
@@ -984,39 +826,27 @@ bool serve(enum setpoint_type_t sp_type, float x, float y, float z, float vx, fl
 }
 bool navigate(Navigate::Request& req, Navigate::Response& res) {
-	return serve(NAVIGATE, req.x, req.y, req.z, NAN, NAN, NAN, NAN, NAN, req.yaw, NAN, NAN, NAN, NAN, NAN, NAN, req.speed, req.frame_id, req.auto_arm, res.success, res.message);
+	return serve(NAVIGATE, req.x, req.y, req.z, NAN, NAN, NAN, NAN, NAN, req.yaw, NAN, NAN, req.yaw_rate, NAN, NAN, NAN, req.speed, req.frame_id, req.auto_arm, res.success, res.message);
 }
 bool navigateGlobal(NavigateGlobal::Request& req, NavigateGlobal::Response& res) {
-	return serve(NAVIGATE_GLOBAL, NAN, NAN, req.z, NAN, NAN, NAN, NAN, NAN, req.yaw, NAN, NAN, NAN, req.lat, req.lon, NAN, req.speed, req.frame_id, req.auto_arm, res.success, res.message);
+	return serve(NAVIGATE_GLOBAL, NAN, NAN, req.z, NAN, NAN, NAN, NAN, NAN, req.yaw, NAN, NAN, req.yaw_rate, req.lat, req.lon, NAN, req.speed, req.frame_id, req.auto_arm, res.success, res.message);
 }
 bool setAltitude(SetAltitude::Request& req, SetAltitude::Response& res) {
 	return serve(_ALTITUDE, NAN, NAN, req.z, NAN, NAN, NAN, NAN, NAN, NAN, NAN, NAN, NAN, NAN, NAN, NAN, NAN, req.frame_id, false, res.success, res.message);
 }
 bool setYaw(SetYaw::Request& req, SetYaw::Response& res) {
 	return serve(_YAW, NAN, NAN, NAN, NAN, NAN, NAN, NAN, NAN, req.yaw, NAN, NAN, NAN, NAN, NAN, NAN, NAN, req.frame_id, false, res.success, res.message);
 }
 bool setYawRate(SetYawRate::Request& req, SetYawRate::Response& res) {
 	return serve(_YAW_RATE, NAN, NAN, NAN, NAN, NAN, NAN, NAN, NAN, NAN, NAN, NAN, req.yaw_rate, NAN, NAN, NAN, NAN, "", false, res.success, res.message);
 }
 bool setPosition(SetPosition::Request& req, SetPosition::Response& res) {
-	return serve(POSITION, req.x, req.y, req.z, NAN, NAN, NAN, NAN, NAN, req.yaw, NAN, NAN, NAN, NAN, NAN, NAN, NAN, req.frame_id, req.auto_arm, res.success, res.message);
+	return serve(POSITION, req.x, req.y, req.z, NAN, NAN, NAN, NAN, NAN, req.yaw, NAN, NAN, req.yaw_rate, NAN, NAN, NAN, NAN, req.frame_id, req.auto_arm, res.success, res.message);
 }
 bool setVelocity(SetVelocity::Request& req, SetVelocity::Response& res) {
-	return serve(VELOCITY, NAN, NAN, NAN, req.vx, req.vy, req.vz, NAN, NAN, req.yaw, NAN, NAN, NAN, NAN, NAN, NAN, NAN, req.frame_id, req.auto_arm, res.success, res.message);
+	return serve(VELOCITY, NAN, NAN, NAN, req.vx, req.vy, req.vz, NAN, NAN, req.yaw, NAN, NAN, req.yaw_rate, NAN, NAN, NAN, NAN, req.frame_id, req.auto_arm, res.success, res.message);
 }
 bool setAttitude(SetAttitude::Request& req, SetAttitude::Response& res) {
-	return serve(ATTITUDE, NAN, NAN, NAN, NAN, NAN, NAN, req.roll, req.pitch, req.yaw, NAN, NAN, NAN, NAN, NAN, req.thrust, NAN, req.frame_id, req.auto_arm, res.success, res.message);
+	return serve(ATTITUDE, NAN, NAN, NAN, NAN, NAN, NAN, req.pitch, req.roll, req.yaw, NAN, NAN, NAN, NAN, NAN, req.thrust, NAN, req.frame_id, req.auto_arm, res.success, res.message);
 }
 bool setRates(SetRates::Request& req, SetRates::Response& res) {
-	return serve(RATES, NAN, NAN, NAN, NAN, NAN, NAN, NAN, NAN, NAN, req.roll_rate, req.pitch_rate, req.yaw_rate, NAN, NAN, req.thrust, NAN, "", req.auto_arm, res.success, res.message);
+	return serve(RATES, NAN, NAN, NAN, NAN, NAN, NAN, NAN, NAN, NAN, req.pitch_rate, req.roll_rate, req.yaw_rate, NAN, NAN, req.thrust, NAN, "", req.auto_arm, res.success, res.message);
 }
 bool land(std_srvs::Trigger::Request& req, std_srvs::Trigger::Response& res)
@@ -1048,7 +878,9 @@ bool land(std_srvs::Trigger::Request& req, std_srvs::Trigger::Response& res)
 		auto start = ros::Time::now();
 		while (ros::ok()) {
 			if (state.mode == "AUTO.LAND") {
-				break;
+				res.success = true;
 				busy = false;
 				return true;
 			}
 			if (ros::Time::now() - start > land_timeout)
 				throw std::runtime_error("Land request timed out");
@@ -1057,18 +889,6 @@ bool land(std_srvs::Trigger::Request& req, std_srvs::Trigger::Response& res)
 			r.sleep();
 		}
 		// stop setpoints and invalidate position setpoint
 		setpoint_timer.stop();
 		setpoint_type = NONE;
 		setpoint_position.header.frame_id = "";
 		setpoint_altitude.header.frame_id = "";
 		yaw_frame_id = "";
 		publishState();
 		res.success = true;
 		busy = false;
 		return true;
 	} catch (const std::exception& e) {
 		res.message = e.what();
 		ROS_INFO("%s", e.what());
@@ -1081,11 +901,6 @@ bool land(std_srvs::Trigger::Request& req, std_srvs::Trigger::Response& res)
 bool release(std_srvs::Trigger::Request& req, std_srvs::Trigger::Response& res)
 {
 	setpoint_timer.stop();
 	setpoint_type = NONE;
 	setpoint_position.header.frame_id = "";
 	setpoint_altitude.header.frame_id = "";
 	yaw_frame_id = "";
 	publishState();
 	res.success = true;
 	return true;
 }
@@ -1112,7 +927,6 @@ int main(int argc, char **argv)
 	nh_priv.param("default_speed", default_speed, 0.5f);
 	nh_priv.param<string>("body_frame", body.child_frame_id, "body");
 	nh_priv.param<string>("terrain_frame", terrain.child_frame_id, "terrain");
 	nh_priv.param<string>("terrain_frame_mode", terrain_frame_mode, "altitude");
 	nh_priv.getParam("reference_frames", reference_frames);
 	// Default reference frames
@@ -1150,16 +964,9 @@ int main(int argc, char **argv)
 	ros::Subscriber altitude_sub;
 	if (!body.child_frame_id.empty() && !terrain.child_frame_id.empty()) {
-		terrain.header.frame_id = local_frame;
+		terrain.header.frame_id = body.child_frame_id;
-		if (terrain_frame_mode == "altitude") {
+		terrain.transform.rotation = tf::createQuaternionMsgFromRollPitchYaw(0, 0, 0);
-			altitude_sub = nh.subscribe(mavros + "/altitude", 1, &handleAltitude);
+		altitude_sub = nh.subscribe(mavros + "/altitude", 1, &handleAltitude);
 		} else if (terrain_frame_mode == "range") {
 			string range_topic = nh_priv.param("range_topic", string("rangefinder/range"));
 			altitude_sub = nh.subscribe(range_topic, 1, &handleRange);
 		} else {
 			ROS_FATAL("Unknown terrain_frame_mode: %s, valid values: altitude, range", terrain_frame_mode.c_str());
 			ros::shutdown();
 		}
 	}
 	// Setpoint publishers
@@ -1170,16 +977,10 @@ int main(int argc, char **argv)
 	rates_pub = nh.advertise<TwistStamped>(mavros + "/setpoint_attitude/cmd_vel", 1);
 	thrust_pub = nh.advertise<Thrust>(mavros + "/setpoint_attitude/thrust", 1);
 	// State publisher
 	state_pub = nh_priv.advertise<clover::State>("state", 1, true);
 	 // Service servers
 	auto gt_serv = nh.advertiseService("get_telemetry", &getTelemetry);
 	auto na_serv = nh.advertiseService("navigate", &navigate);
 	auto ng_serv = nh.advertiseService("navigate_global", &navigateGlobal);
 	auto sl_serv = nh.advertiseService("set_altitude", &setAltitude);
 	auto ya_serv = nh.advertiseService("set_yaw", &setYaw);
 	auto yr_serv = nh.advertiseService("set_yaw_rate", &setYawRate);
 	auto sp_serv = nh.advertiseService("set_position", &setPosition);
 	auto sv_serv = nh.advertiseService("set_velocity", &setVelocity);
 	auto sa_serv = nh.advertiseService("set_attitude", &setAttitude);
@@ -1193,7 +994,7 @@ int main(int argc, char **argv)
 	position_msg.header.frame_id = local_frame;
 	position_raw_msg.header.frame_id = local_frame;
 	position_raw_msg.coordinate_frame = PositionTarget::FRAME_LOCAL_NED;
-	//rates_msg.header.frame_id = fcu_frame;
+	rates_msg.header.frame_id = fcu_frame;
 	ROS_INFO("ready");
 	ros::spin();
--- a/clover/src/vpe_publisher.cpp
+++ b/clover/src/vpe_publisher.cpp
@@ -11,14 +11,12 @@
 #include <string>
 #include <ros/ros.h>
 #include <tf/transform_datatypes.h>
 #include <tf2/transform_datatypes.h>
 #include <tf2_ros/buffer.h>
 #include <tf2_ros/transform_listener.h>
 #include <tf2_ros/static_transform_broadcaster.h>
 #include <tf2_geometry_msgs/tf2_geometry_msgs.h>
 #include <geometry_msgs/TransformStamped.h>
 #include <geometry_msgs/Quaternion.h>
 #include <geometry_msgs/PoseStamped.h>
 #include <geometry_msgs/PoseWithCovarianceStamped.h>
 #include <std_srvs/Trigger.h>
@@ -27,7 +25,7 @@
 using std::string;
 using namespace geometry_msgs;
-bool reset_flag = true; // offset should be reset on the start
+bool reset_flag = false;
 string local_frame_id, frame_id, child_frame_id, offset_frame_id;
 tf2_ros::Buffer tf_buffer;
 ros::Publisher vpe_pub;
@@ -68,13 +66,6 @@ inline Pose getPose(const PoseStampedConstPtr& pose) { return pose->pose; }
 inline Pose getPose(const PoseWithCovarianceStampedConstPtr& pose) { return pose->pose.pose; }
 inline void keepYaw(Quaternion& quaternion)
 {
 	tf::Quaternion q;
 	q.setRPY(0, 0, tf::getYaw(quaternion));
 	tf::quaternionTFToMsg(q, quaternion);
 }
 template <typename T>
 void callback(const T& msg)
 {
@@ -97,29 +88,10 @@ void callback(const T& msg)
 		if (!offset_frame_id.empty()) {
 			if (reset_flag || msg->header.stamp - vpe.header.stamp > offset_timeout) {
 				// calculate the offset
-				if (!frame_id.empty()) {
+				offset = tf_buffer.lookupTransform(local_frame_id, frame_id,
-					// calculate from TF
+				                                   msg->header.stamp, ros::Duration(0.02));
-					offset = tf_buffer.lookupTransform(local_frame_id, frame_id,
+				// offset.header.frame_id = vpe.header.frame_id;
-					                                   msg->header.stamp, ros::Duration(0.02));
+				offset.child_frame_id = offset_frame_id;
 					// offset.header.frame_id = vpe.header.frame_id;
 					offset.child_frame_id = offset_frame_id;
 				} else {
 					// calculate transform between pose in vpe frame and pose in local frame
 					TransformStamped local_pose = tf_buffer.lookupTransform(local_frame_id, child_frame_id,
 					                                                        msg->header.stamp, ros::Duration(0.02));
 					keepYaw(local_pose.transform.rotation);
 					tf::Transform vpeTransform, poseTransform;
 					tf::poseMsgToTF(vpe.pose, vpeTransform);
 					tf::transformMsgToTF(local_pose.transform, poseTransform);
 					tf::Transform offset_tf = vpeTransform.inverseTimes(poseTransform);
 					tf::transformTFToMsg(offset_tf, offset.transform);
 					offset.header.frame_id = local_frame_id;
 					offset.header.stamp = msg->header.stamp;
 					offset.child_frame_id = offset_frame_id;
 				}
 				br.sendTransform(offset);
 				reset_flag = false;
 				ROS_INFO("offset reset");
@@ -150,9 +122,8 @@ int main(int argc, char **argv) {
 	tf2_ros::TransformListener tf_listener(tf_buffer);
-	nh_priv.param<string>("frame_id", frame_id, ""); // name for used visual pose frame
+	nh_priv.param<string>("frame_id", frame_id, "");
-	nh_priv.param<string>("offset_frame_id", offset_frame_id, ""); // name for published offset frame
+	nh_priv.param<string>("offset_frame_id", offset_frame_id, "");
 	nh.param<string>("mavros/local_position/frame_id", local_frame_id, "map");
 	nh.param<string>("mavros/local_position/tf/child_frame_id", child_frame_id, "base_link");
 	offset_timeout = ros::Duration(nh_priv.param("offset_timeout", 3.0));
--- a/clover/src/www
+++ b/clover/src/www
@@ -1,4 +0,0 @@
 #!/usr/bin/env bash
 export ROSWWW_DEFAULT=clover
 rosrun roswww_static update
--- a/clover/srv/GetTelemetry.srv
+++ b/clover/srv/GetTelemetry.srv
@@ -13,11 +13,11 @@ float32 alt
 float32 vx
 float32 vy
 float32 vz
 float32 roll
 float32 pitch
 float32 roll
 float32 yaw
 float32 roll_rate
 float32 pitch_rate
 float32 roll_rate
 float32 yaw_rate
 float32 voltage
 float32 cell_voltage
--- a/clover/srv/Navigate.srv
+++ b/clover/srv/Navigate.srv
@@ -2,6 +2,7 @@ float32 x
 float32 y
 float32 z
 float32 yaw
 float32 yaw_rate
 float32 speed
 string frame_id
 bool auto_arm
--- a/clover/srv/NavigateGlobal.srv
+++ b/clover/srv/NavigateGlobal.srv
@@ -2,6 +2,7 @@ float64 lat
 float64 lon
 float32 z
 float32 yaw
 float32 yaw_rate
 float32 speed
 string frame_id
 bool auto_arm
--- a/clover/srv/SetAltitude.srv
+++ b/clover/srv/SetAltitude.srv
@@ -1,5 +0,0 @@
 float32 z
 string frame_id
 ---
 bool success
 string message
--- a/clover/srv/SetAttitude.srv
+++ b/clover/srv/SetAttitude.srv
@@ -1,5 +1,5 @@
 float32 roll
 float32 pitch
 float32 roll
 float32 yaw
 float32 thrust
 string frame_id
--- a/clover/srv/SetPosition.srv
+++ b/clover/srv/SetPosition.srv
@@ -2,6 +2,7 @@ float32 x
 float32 y
 float32 z
 float32 yaw
 float32 yaw_rate
 string frame_id
 bool auto_arm
 ---
--- a/clover/srv/SetRates.srv
+++ b/clover/srv/SetRates.srv
@@ -1,5 +1,5 @@
 float32 roll_rate
 float32 pitch_rate
 float32 roll_rate
 float32 yaw_rate
 float32 thrust
 bool auto_arm
--- a/clover/srv/SetVelocity.srv
+++ b/clover/srv/SetVelocity.srv
@@ -2,6 +2,7 @@ float32 vx
 float32 vy
 float32 vz
 float32 yaw
 float32 yaw_rate
 string frame_id
 bool auto_arm
 ---
--- a/clover/srv/SetYaw.srv
+++ b/clover/srv/SetYaw.srv
@@ -1,5 +0,0 @@
 float32 yaw
 string frame_id
 ---
 bool success
 string message
--- a/clover/srv/SetYawRate.srv
+++ b/clover/srv/SetYawRate.srv
@@ -1,4 +0,0 @@
 float32 yaw_rate
 ---
 bool success
 string message
--- a/clover/test/basic.py
+++ b/clover/test/basic.py
@@ -3,7 +3,6 @@ import rospy
 import pytest
 from mavros_msgs.msg import State
 from clover import srv
 import time
@pytest.fixture()
 def node():
@@ -61,18 +60,3 @@ def test_blocks(node):
    t.join()
    assert wait_print.result == 'test'
 def test_long_callback():
    from clover import long_callback
    from time import sleep
    # very basic test for long_callback
    @long_callback
    def cb(i):
        cb.counter += i
    cb.counter = 0
    cb(2)
    sleep(0.1)
    cb(3)
    sleep(1)
    assert cb.counter == 5
--- a/clover/test/basic.test
+++ b/clover/test/basic.test
@@ -40,16 +40,6 @@
    <node pkg="topic_tools" name="main_camera_throttle" type="throttle" ns="main_camera"
        args="messages image_raw 5.0 image_raw_throttled" required="true"/>
    <node pkg="nodelet" type="nodelet" name="main_camera_nodelet_manager" args="manager" output="screen" required="true">
        <param name="num_worker_threads" value="2"/>
    </node>
    <node pkg="nodelet" type="nodelet" name="rectify" args="load image_proc/rectify main_camera_nodelet_manager" required="true">
        <remap from="image_mono" to="main_camera/image_raw"/>
        <remap from="camera_info" to="main_camera/camera_info"/>
        <remap from="image_rect" to="main_camera/image_rect"/>
    </node>
    <param name="test_module" value="$(find clover)/test/basic.py"/>
    <test test-name="basic_test" pkg="ros_pytest" type="ros_pytest_runner"/>
 </launch>
--- a/clover/test/offboard.py
+++ b/clover/test/offboard.py
@@ -1,437 +0,0 @@
 import rospy
 import pytest
 from pytest import approx
 import threading
 import mavros_msgs.msg
 from mavros_msgs.srv import SetMode
 from geometry_msgs.msg import PoseStamped
 from clover import srv
 from clover.msg import State
 from std_srvs.srv import Trigger
 from math import nan, inf
 import tf2_ros
 import tf2_geometry_msgs
@pytest.fixture()
 def node():
    return rospy.init_node('offboard_test', anonymous=True)
@pytest.fixture
 def tf_buffer():
    buf = tf2_ros.Buffer()
    tf2_ros.TransformListener(buf)
    return buf
 def get_state():
    return rospy.wait_for_message('/simple_offboard/state', State, timeout=1)
 def get_navigate_target(tf_buffer):
    target = tf_buffer.lookup_transform('map', 'navigate_target', rospy.get_rostime(), rospy.Duration(1))
    assert target.child_frame_id == 'navigate_target'
    return target
 def test_offboard(node, tf_buffer):
    navigate = rospy.ServiceProxy('navigate', srv.Navigate)
    set_position = rospy.ServiceProxy('set_position', srv.SetPosition)
    set_altitude = rospy.ServiceProxy('set_altitude', srv.SetAltitude)
    set_yaw = rospy.ServiceProxy('set_yaw', srv.SetYaw)
    set_yaw_rate = rospy.ServiceProxy('set_yaw_rate', srv.SetYawRate)
    set_velocity = rospy.ServiceProxy('set_velocity', srv.SetVelocity)
    set_attitude = rospy.ServiceProxy('set_attitude', srv.SetAttitude)
    set_rates = rospy.ServiceProxy('set_rates', srv.SetRates)
    get_telemetry = rospy.ServiceProxy('get_telemetry', srv.GetTelemetry)
    land = rospy.ServiceProxy('land', Trigger)
    res = navigate()
    assert res.success == False
    assert res.message.startswith('State timeout')
    telem = get_telemetry()
    assert telem.connected == False
    # mocked state publisher
    state_pub = rospy.Publisher('/mavros/state', mavros_msgs.msg.State, latch=True, queue_size=1)
    state_msg = mavros_msgs.msg.State(mode='OFFBOARD', armed=True)
    def publish_state():
        r = rospy.Rate(2)
        while not rospy.is_shutdown():
            state_msg.header.stamp = rospy.Time.now()
            state_pub.publish(state_msg)
            r.sleep()
    # start publishing state
    threading.Thread(target=publish_state, daemon=True).start()
    rospy.sleep(0.5)
    # set_mode service mock
    def set_mode(req):
        state_msg.mode = req.custom_mode # set mocked mode to requested
        return True,
    rospy.Service('/mavros/set_mode', SetMode, set_mode)
    telem = get_telemetry()
    assert telem.connected == False
    res = navigate()
    assert res.success == False
    assert res.message.startswith('No connection to FCU')
    state_msg.connected = True
    rospy.sleep(1)
    telem = get_telemetry()
    assert telem.connected == True
    res = navigate()
    assert res.success == False
    assert res.message.startswith('No local position')
    local_position_pub = rospy.Publisher('/mavros/local_position/pose', PoseStamped, latch=True, queue_size=1)
    local_position_msg = PoseStamped()
    local_position_msg.header.frame_id = 'map'
    local_position_msg.pose.position.x = 1
    local_position_msg.pose.position.y = 2
    local_position_msg.pose.position.z = 3
    local_position_msg.pose.orientation.w = 1
    def publish_local_position():
        r = rospy.Rate(30)
        while not rospy.is_shutdown():
            local_position_msg.header.stamp = rospy.Time.now()
            local_position_pub.publish(local_position_msg)
            r.sleep()
    # start publishing local position
    threading.Thread(target=publish_local_position, daemon=True).start()
    rospy.sleep(0.5)
    # check body frame
    body = tf_buffer.lookup_transform('map', 'body', rospy.get_rostime(), rospy.Duration(1))
    assert body.child_frame_id == 'body'
    assert body.transform.translation.x == approx(1)
    assert body.transform.translation.y == approx(2)
    assert body.transform.translation.z == approx(3)
    res = navigate(x=3, y=2, z=1, frame_id='map')
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_NAVIGATE
    assert state.yaw_mode == State.YAW_MODE_YAW
    assert state.x == 3
    assert state.y == 2
    assert state.z == 1
    assert state.yaw == 0
    assert state.xy_frame_id == 'map'
    assert state.z_frame_id == 'map'
    assert state.yaw_frame_id == 'map'
    target = get_navigate_target(tf_buffer)
    assert target.header.frame_id == 'map'
    assert target.transform.translation.x == approx(3)
    assert target.transform.translation.y == approx(2)
    assert target.transform.translation.z == approx(1)
    assert target.transform.rotation.x == 0
    assert target.transform.rotation.y == 0
    assert target.transform.rotation.z == 0
    assert target.transform.rotation.w == 1
    # try to set only the y
    res = navigate(x=nan, y=1, z=nan)
    assert res.success == False
    assert res.message.startswith('x and y can be set only together')
    # set z in body frame
    res = navigate(x=nan, y=nan, z=1, frame_id='body')
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_NAVIGATE
    assert state.yaw_mode == State.YAW_MODE_YAW
    assert state.x == 3
    assert state.y == 2
    assert state.z == 4
    assert state.yaw == 0
    assert state.xy_frame_id == 'map'
    assert state.z_frame_id == 'map'
    assert state.yaw_frame_id == 'map'
    # set xy in test frame
    res = navigate(x=1, y=2, z=nan, frame_id='test')
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_NAVIGATE
    assert state.yaw_mode == State.YAW_MODE_YAW
    assert state.x == 1
    assert state.y == 2
    assert state.z == 4
    assert state.yaw == 0
    assert state.xy_frame_id == 'test'
    assert state.z_frame_id == 'map'
    assert state.yaw_frame_id == 'test'
    # auto_arm should not invalidate the setpoint if not effective
    res = navigate(x=nan, y=nan, z=1, frame_id='map', auto_arm=True)
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_NAVIGATE
    assert state.yaw_mode == State.YAW_MODE_YAW
    assert state.x == 1
    assert state.y == 2
    assert state.z == 1
    assert state.yaw == 0
    assert state.xy_frame_id == 'test'
    assert state.z_frame_id == 'map'
    assert state.yaw_frame_id == 'map'
    # auto_arm should invalidate the setpoint if effective
    state_msg.mode = 'STABILIZED' # pretend we are not in OFFBOARD mode
    rospy.sleep(1)
    res = navigate(x=nan, y=nan, z=1, frame_id='map', auto_arm=True)
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_NAVIGATE
    assert state.yaw_mode == State.YAW_MODE_YAW
    assert state.x == 1
    assert state.y == 2
    assert state.z == 1
    assert state.yaw == 0
    assert state.xy_frame_id == 'map'
    assert state.z_frame_id == 'map'
    assert state.yaw_frame_id == 'map'
    state_msg.mode = 'OFFBOARD'
    rospy.sleep(1)
    # set_attitude should invalidate the setpoint
    res = set_attitude()
    assert res.success == True
    res = navigate(x=5, y=6, z=nan, yaw=nan, frame_id='map')
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_NAVIGATE
    assert state.yaw_mode == State.YAW_MODE_YAW
    assert state.x == 5
    assert state.y == 6
    assert state.z == 3
    assert state.yaw == 0
    assert state.xy_frame_id == 'map'
    assert state.z_frame_id == 'map'
    assert state.yaw_frame_id == 'map'
    # test set_altitude
    res = set_altitude(z=7, frame_id='test')
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_NAVIGATE
    assert state.yaw_mode == State.YAW_MODE_YAW
    assert state.x == 5
    assert state.y == 6
    assert state.z == 7
    assert state.yaw == 0
    assert state.xy_frame_id == 'map'
    assert state.z_frame_id == 'test'
    assert state.yaw_frame_id == 'map'
    # test set_yaw
    res = set_yaw(yaw=0.5, frame_id='test2')
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_NAVIGATE
    assert state.yaw_mode == State.YAW_MODE_YAW
    assert state.x == 5
    assert state.y == 6
    assert state.z == 7
    assert state.yaw == 0.5
    assert state.xy_frame_id == 'map'
    assert state.z_frame_id == 'test'
    assert state.yaw_frame_id == 'test2'
    # test set_yaw_rate
    res = set_yaw_rate(yaw_rate=2)
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_NAVIGATE
    assert state.yaw_mode == State.YAW_MODE_YAW_RATE
    assert state.x == 5
    assert state.y == 6
    assert state.z == 7
    assert state.yaw_rate == 2
    assert state.xy_frame_id == 'map'
    assert state.z_frame_id == 'test'
    # navigate(yaw=nan) should keep yaw rate mode
    res = navigate(x=nan, y=nan, z=nan, yaw=nan)
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_NAVIGATE
    assert state.yaw_mode == State.YAW_MODE_YAW_RATE
    assert state.x == 5
    assert state.y == 6
    assert state.z == 7
    assert state.yaw_rate == 2
    assert state.xy_frame_id == 'map'
    assert state.z_frame_id == 'test'
    # set_yaw(nan) should change back to yaw mode
    res = set_yaw(yaw=nan)
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_NAVIGATE
    assert state.yaw_mode == State.YAW_MODE_YAW
    assert state.yaw == 0
    assert state.yaw_frame_id == 'map'
    # test set_position
    res = set_position(x=nan, y=nan, z=13, yaw=nan, frame_id='test2')
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_POSITION
    assert state.yaw_mode == State.YAW_MODE_YAW
    assert state.x == 5
    assert state.y == 6
    assert state.z == 13
    assert state.yaw == 0
    assert state.xy_frame_id == 'map'
    assert state.z_frame_id == 'test2'
    assert state.yaw_frame_id == 'map'
    # set_altitude should not change the mode
    res = set_altitude(z=3, frame_id='test')
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_POSITION
    assert state.yaw_mode == State.YAW_MODE_YAW
    assert state.x == 5
    assert state.y == 6
    assert state.z == 3
    assert state.yaw == 0
    assert state.xy_frame_id == 'map'
    assert state.z_frame_id == 'test'
    assert state.yaw_frame_id == 'map'
    # set_yaw should not change the main mode
    res = set_yaw(yaw=1, frame_id='test2')
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_POSITION
    assert state.yaw_mode == State.YAW_MODE_YAW
    assert state.x == 5
    assert state.y == 6
    assert state.z == 3
    assert state.yaw == 1
    assert state.xy_frame_id == 'map'
    assert state.z_frame_id == 'test'
    assert state.yaw_frame_id == 'test2'
    # test set_velocity
    res = set_velocity(vx=1, frame_id='body')
    state = get_state()
    assert state.mode == State.MODE_VELOCITY
    assert state.yaw_mode == State.YAW_MODE_YAW
    assert state.vx == 1
    assert state.vy == 0
    assert state.vz == 0
    assert state.yaw == 0
    assert state.xy_frame_id == 'map'
    assert state.z_frame_id == 'map'
    assert state.yaw_frame_id == 'map'
    # set_altitude should not work in velocity mode
    res = set_altitude(z=3, frame_id='test')
    assert res.success == False
    assert res.message.startswith('Altitude cannot be set in')
    # test set_attitude
    res = set_attitude(roll=0.1, pitch=0.2, yaw=0.3, thrust=0.5)
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_ATTITUDE
    assert state.yaw_mode == State.YAW_MODE_YAW
    assert state.roll == approx(0.1)
    assert state.pitch == approx(0.2)
    assert state.yaw == approx(0.3)
    assert state.thrust == approx(0.5)
    assert state.yaw_frame_id == 'map'
    msg = rospy.wait_for_message('/mavros/setpoint_attitude/attitude', PoseStamped, timeout=3)
    # Tait-Bryan ZYX angle (rzyx) converted to quaternion
    assert msg.pose.orientation.x == approx(0.0342708)
    assert msg.pose.orientation.y == approx(0.10602051)
    assert msg.pose.orientation.z == approx(0.14357218)
    assert msg.pose.orientation.w == approx(0.98334744)
    msg = rospy.wait_for_message('/mavros/setpoint_attitude/thrust', mavros_msgs.msg.Thrust, timeout=3)
    assert msg.thrust == approx(0.5)
    # set_yaw should work in attitude mode
    res = set_yaw(yaw=0.7, frame_id='test2')
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_ATTITUDE
    assert state.yaw_mode == State.YAW_MODE_YAW
    assert state.roll == approx(0.1)
    assert state.pitch == approx(0.2)
    assert state.yaw == approx(0.7)
    assert state.thrust == approx(0.5)
    assert state.yaw_frame_id == 'test2'
    # set_yaw_rate should not work in attitude mode
    res = set_yaw_rate(yaw_rate=0.3)
    assert res.success == False
    assert res.message.startswith('Yaw rate cannot be set in')
    # test set_rates
    res = set_rates(roll_rate=nan, pitch_rate=nan, yaw_rate=0.3, thrust=0.6)
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_RATES
    assert state.yaw_mode == State.YAW_MODE_YAW_RATE
    assert state.roll_rate == approx(0)
    assert state.pitch_rate == approx(0)
    assert state.yaw_rate == approx(0.3)
    assert state.thrust == approx(0.6)
    msg = rospy.wait_for_message('/mavros/setpoint_raw/attitude', mavros_msgs.msg.AttitudeTarget, timeout=3)
    assert msg.thrust == approx(0.6)
    res = set_rates(roll_rate=0.3, pitch_rate=0.2, yaw_rate=0.1, thrust=0.4)
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_RATES
    assert state.yaw_mode == State.YAW_MODE_YAW_RATE
    assert state.roll_rate == approx(0.3)
    assert state.pitch_rate == approx(0.2)
    assert state.yaw_rate == approx(0.1)
    assert state.thrust == approx(0.4)
    res = set_rates(roll_rate=nan, pitch_rate=nan, yaw_rate=nan, thrust=0.3)
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_RATES
    assert state.yaw_mode == State.YAW_MODE_YAW_RATE
    assert state.roll_rate == approx(0.3)
    assert state.pitch_rate == approx(0.2)
    assert state.yaw_rate == approx(0.1)
    assert state.thrust == approx(0.3)
    msg = rospy.wait_for_message('/mavros/setpoint_raw/attitude', mavros_msgs.msg.AttitudeTarget, timeout=3)
    assert msg.type_mask == mavros_msgs.msg.AttitudeTarget.IGNORE_ATTITUDE
    assert msg.body_rate.x == approx(0.3)
    assert msg.body_rate.y == approx(0.2)
    assert msg.body_rate.z == approx(0.1)
    # set_yaw_rate should work in rates mode
    res = set_yaw_rate(yaw_rate=0.4)
    assert res.success == True
    state = get_state()
    assert state.mode == State.MODE_RATES
    assert state.yaw_mode == State.YAW_MODE_YAW_RATE
    assert state.roll_rate == approx(0.3)
    assert state.pitch_rate == approx(0.2)
    assert state.yaw_rate == approx(0.4)
    assert state.thrust == approx(0.3)
    res = set_rates(roll_rate=inf)
    assert res.success == False
    assert res.message == 'roll_rate argument cannot be Inf'
    # test land service
    res = land()
    assert res.success == True
    assert state_msg.mode == 'AUTO.LAND' # check that the mode was set correctly
--- a/clover/test/offboard.test
+++ b/clover/test/offboard.test
@@ -1,10 +0,0 @@
 <launch>
    <node name="simple_offboard" pkg="clover" type="simple_offboard" required="true" output="screen"/>
    <node pkg="tf2_ros" type="static_transform_publisher" name="test_frame" args="10 20 30 0 0 0 map test"/>
    <node pkg="tf2_ros" type="static_transform_publisher" name="test2_frame" args="100 200 300 0 0 0 map test2"/>
    <param name="test_module" value="$(find clover)/test/offboard.py"/>
    <test test-name="offboard_test" pkg="ros_pytest" type="ros_pytest_runner"/>
 </launch>
--- a/clover/udev/99-px4fmu.rules
+++ b/clover/udev/99-px4fmu.rules
@@ -1,54 +1,17 @@
-# Source files: PX4-Autopilot/boards/**/nuttx-config/nsh/defconfig
+# PixHawk (px4fmu-v2), px4fmu-v3
 # Additional info:
 # https://docs.px4.io/main/en/flight_controller/
 # https://github.com/mavlink/qgroundcontrol/blob/master/src/comm/USBBoardInfo.json
 SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0001", ATTRS{product}=="PX4 GNF405", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0001", ATTRS{product}=="PX4 OmnibusF4SD", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0016", ATTRS{product}=="PX4 Crazyflie v2.0", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="1FC9", ATTRS{idProduct}=="001c", ATTRS{product}=="PX4 FMUK66 v3.x", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="1FC9", ATTRS{idProduct}=="001c", ATTRS{product}=="PX4 FMUK66 E", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="1FC9", ATTRS{idProduct}=="001d", ATTRS{product}=="PX4 FMURT1062 v1.x", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0001", ATTRS{product}=="DiatoneMambaF405 MK2", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="0483", ATTRS{idProduct}=="a32f", ATTRS{product}=="PX4 FMU ModalAI FCv1", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="0483", ATTRS{idProduct}=="a330", ATTRS{product}=="PX4 FMU ModalAI FCv2", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0012", ATTRS{product}=="PX4 FMU UVify Core", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="3162", ATTRS{idProduct}=="0050", ATTRS{product}=="PX4 KakuteH7", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="3162", ATTRS{idProduct}=="0050", ATTRS{product}=="PX4 KakuteH7v2", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="3162", ATTRS{idProduct}=="004b", ATTRS{product}=="PX4 DurandalV1", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0050", ATTRS{product}=="PX4 KakuteF7", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="3162", ATTRS{idProduct}=="0050", ATTRS{product}=="PX4 KakuteH7Mini-nand", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="3162", ATTRS{idProduct}=="004E", ATTRS{product}=="PX4 PIX32V5", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0061", ATTRS{product}=="PX4 ATL Mantis-EDU", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="3163", ATTRS{idProduct}=="004c", ATTRS{product}=="PX4 CUAV Nora", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="3163", ATTRS{idProduct}=="004c", ATTRS{product}=="PX4 CUAV X7Pro", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="1B8C", ATTRS{idProduct}=="0036", ATTRS{product}=="MatekH743-mini", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="1B8C", ATTRS{idProduct}=="0036", ATTRS{product}=="MatekH743", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="120A", ATTRS{idProduct}=="1004", ATTRS{product}=="Matekgnssm9nf4", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="1209", ATTRS{idProduct}=="1013", ATTRS{product}=="MatekH743", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="0483", ATTRS{idProduct}=="0037", ATTRS{product}=="PX4 FMU SmartAP AIRLink", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="2DAE", ATTRS{idProduct}=="1058", ATTRS{product}=="CubeOrange+", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="2DAE", ATTRS{idProduct}=="1012", ATTRS{product}=="CubeYellow", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="2DAE", ATTRS{idProduct}=="1016", ATTRS{product}=="CubeOrange", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="3185", ATTRS{idProduct}=="0035", ATTRS{product}=="PX4 FMU v6X.x", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="3185", ATTRS{idProduct}=="0038", ATTRS{product}=="PX4 FMU v6C.x", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="3185", ATTRS{idProduct}=="0033", ATTRS{product}=="PX4 FMU v5X.x", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="1B8C", ATTRS{idProduct}=="0036", ATTRS{product}=="PX4 FMU v6U.x", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0013", ATTRS{product}=="PX4 FMU v4.x PRO", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0011", ATTRS{product}=="PX4 FMU v2.x", SYMLINK+="px4fmu"
 # PixRacer (px4fmu-v4)
 SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0012", ATTRS{product}=="PX4 FMU v4.x", SYMLINK+="px4fmu"
 # px4fmu-v5
 SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0032", ATTRS{product}=="PX4 FMU v5.x", SYMLINK+="px4fmu"
-SUBSYSTEM=="tty", ATTRS{idVendor}=="3162", ATTRS{idProduct}=="004b", ATTRS{product}=="PX4 SP RACING H7 EXTREME", SYMLINK+="px4fmu"
+# auav
-SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0030", ATTRS{product}=="MindPX FMU v2.x", SYMLINK+="px4fmu"
+SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0021", ATTRS{product}=="PX4 AUAV x2.1", SYMLINK+="px4fmu"
-SUBSYSTEM=="tty", ATTRS{idVendor}=="3185", ATTRS{idProduct}=="0039", ATTRS{product}=="ARK FMU v6X.x", SYMLINK+="px4fmu"
+# crazyflie
-SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0016", ATTRS{product}=="PX4 FreeFly RTK GPS", SYMLINK+="px4fmu"
+SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0016", ATTRS{product}=="PX4 Crazyflie v2.0", SYMLINK+="px4fmu"
-SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="1024", ATTRS{product}=="mRoControlZeroH7 OEM", SYMLINK+="px4fmu"
+# px4fmu-v4pro
-SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="1017", ATTRS{product}=="mRoPixracerPro", SYMLINK+="px4fmu"
+SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0013", ATTRS{product}=="PX4 FMU v4.x PRO", SYMLINK+="px4fmu"
-SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="1023", ATTRS{product}=="mRoControlZeroH7", SYMLINK+="px4fmu"
+# Omnibus
-SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="008D", ATTRS{product}=="mRoControlZeroF7", SYMLINK+="px4fmu"
+SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0001", ATTRS{product}=="PX4 OmnibusF4SD", SYMLINK+="px4fmu"
-SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0021", ATTRS{product}=="PX4 AUAV X2.1", SYMLINK+="px4fmu"
+# CUAV X7 Pro
-SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="1022", ATTRS{product}=="mRoControlZero Classic", SYMLINK+="px4fmu"
+SUBSYSTEM=="tty", ATTRS{idVendor}=="3163", ATTRS{idProduct}=="004c", ATTRS{product}=="PX4 CUAV X7Pro", SYMLINK+="px4fmu"
-SUBSYSTEM=="tty", ATTRS{idVendor}=="26ac", ATTRS{idProduct}=="0088", ATTRS{product}=="mRo x2.1-777", SYMLINK+="px4fmu"
+
 SUBSYSTEM=="tty", ATTRS{idVendor}=="35a7", ATTRS{idProduct}=="0002", ATTRS{product}=="FCC-R1", SYMLINK+="px4fmu"
 SUBSYSTEM=="tty", ATTRS{idVendor}=="35a7", ATTRS{idProduct}=="0001", ATTRS{product}=="FCC-K1", SYMLINK+="px4fmu"
--- a/clover_blocks/README.md
+++ b/clover_blocks/README.md
@@ -47,7 +47,6 @@ http://<hostname>/clover_blocks/?navigate_tolerance=0.5&sleep_time=0.1
 * `~running` ([*std_msgs/Bool*](http://docs.ros.org/noetic/api/std_msgs/html/msg/Bool.html)) – indicates if the program is currently running.
 * `~block` ([*std_msgs/String*](http://docs.ros.org/noetic/api/std_msgs/html/msg/String.html)) – current executing block (maximum topic rate is limited).
 * `~print` ([*std_msgs/String*](http://docs.ros.org/noetic/api/std_msgs/html/msg/String.html)) – user program output messages (published in *print* blocks).
 * `~error` ([*std_msgs/String*](http://docs.ros.org/noetic/api/std_msgs/html/msg/String.html)) – user program errors and exceptions.
 * `~prompt` ([*clover_blocks/Prompt*](msg/Prompt.msg)) – user input request (includes random request ID string).
--- a/clover_blocks/package.xml
+++ b/clover_blocks/package.xml
@@ -1,7 +1,7 @@
 <?xml version="1.0"?>
 <package format="2">
  <name>clover_blocks</name>
-  <version>0.24.0</version>
+  <version>0.23.0</version>
  <description>Blockly programming support for Clover</description>
  <maintainer email="okalachev@gmail.com">Oleg Kalachev</maintainer>
  <license>MIT</license>
--- a/clover_blocks/www/blocks.js
+++ b/clover_blocks/www/blocks.js
@@ -15,7 +15,6 @@ const COLOR_GPIO = 200;
 const DOCS_URL = 'https://clover.coex.tech/en/blocks.html';
 var frameIds = [["body", "BODY"], ["markers map", "ARUCO_MAP"], ["marker", "ARUCO"], ["last navigate target", "NAVIGATE_TARGET"], ["map", "MAP"]];
 var frameIdsWithTerrain = frameIds.concat([["terrain", "TERRAIN"]]);
 function considerFrameId(e) {
 	if (!(e instanceof Blockly.Events.Change || e instanceof Blockly.Events.Create)) return;
@@ -23,7 +22,7 @@ function considerFrameId(e) {
 	var frameId = this.getFieldValue('FRAME_ID');
 	// set appropriate coordinates labels
 	if (this.getInput('X')) { // block has x-y-z fields
-		if (frameId == 'BODY' || frameId == 'NAVIGATE_TARGET' || frameId == 'BASE_LINK' || frameId == 'TERRAIN') {
+		if (frameId == 'BODY' || frameId == 'NAVIGATE_TARGET' || frameId == 'BASE_LINK') {
 			this.getInput('X').fieldRow[0].setValue('forward');
 			this.getInput('Y').fieldRow[0].setValue('left');
 			this.getInput('Z').fieldRow[0].setValue('up');
@@ -60,8 +59,8 @@ function updateSetpointBlock(e) {
 	this.getInput('VY').setVisible(velocity);
 	this.getInput('VZ').setVisible(velocity);
 	this.getInput('YAW').setVisible(attitude);
 	this.getInput('ROLL').setVisible(attitude);
 	this.getInput('PITCH').setVisible(attitude);
 	this.getInput('ROLL').setVisible(attitude);
 	this.getInput('THRUST').setVisible(attitude);
 	this.getInput('RELATIVE_TO').setVisible(type != 'RATES');
@@ -74,7 +73,7 @@ function updateSetpointBlock(e) {
 Blockly.Blocks['navigate'] = {
 	init: function () {
-		let navFrameId = frameIdsWithTerrain.slice();
+		let navFrameId = frameIds.slice();
 		navFrameId.push(['global', 'GLOBAL_LOCAL'])
 		navFrameId.push(['global, WGS 84 alt.', 'GLOBAL'])
 		this.appendDummyInput()
@@ -164,14 +163,14 @@ Blockly.Blocks['setpoint'] = {
 		this.appendValueInput("VZ")
 			.setCheck("Number")
 			.appendField("vz");
 		this.appendValueInput("ROLL")
 			.setCheck("Number")
 			.appendField("roll")
 			.setVisible(false);
 		this.appendValueInput("PITCH")
 			.setCheck("Number")
 			.appendField("pitch")
 			.setVisible(false);
 		this.appendValueInput("ROLL")
 			.setCheck("Number")
 			.appendField("roll")
 			.setVisible(false);
 		this.appendValueInput("YAW")
 			.setCheck("Number")
 			.appendField("yaw")
@@ -214,7 +213,7 @@ Blockly.Blocks['get_position'] = {
 			.appendField("current")
 			.appendField(new Blockly.FieldDropdown([["x", "X"], ["y", "Y"], ["z", "Z"], ["vx", "VX"], ["vy", "VY"], ["vz", "VZ"]]), "FIELD")
 			.appendField("relative to")
-			.appendField(new Blockly.FieldDropdown(frameIdsWithTerrain), "FRAME_ID");
+			.appendField(new Blockly.FieldDropdown(frameIds), "FRAME_ID");
 		this.appendValueInput("ID")
 			.setCheck("Number")
 			.appendField("with ID")
@@ -248,7 +247,7 @@ Blockly.Blocks['get_attitude'] = {
 	init: function () {
 		this.appendDummyInput()
 			.appendField("current")
-			.appendField(new Blockly.FieldDropdown([["roll", "ROLL"], ["pitch", "PITCH"], ["roll rate", "ROLL_RATE"], ["pitch rate", "PITCH_RATE"], ["yaw rate", "YAW_RATE"]]), "FIELD");
+			.appendField(new Blockly.FieldDropdown([["pitch", "PITCH"], ["roll", "ROLL"], ["pitch rate", "PITCH_RATE"], ["roll rate", "ROLL_RATE"], ["yaw rate", "YAW_RATE"]]), "FIELD");
 		this.setOutput(true, "Number");
 		this.setColour(COLOR_STATE);
 		this.setTooltip("Returns current orientation or angle rates in degree or degree per second (not radian).");
@@ -269,19 +268,6 @@ Blockly.Blocks['voltage'] = {
 	}
 };
 Blockly.Blocks['get_rc'] = {
 	init: function () {
 		this.appendDummyInput()
 			.appendField("RC channel")
 		this.appendValueInput("CHANNEL")
 			.setCheck("Number");
 		this.setInputsInline(true);
 		this.setOutput(true, "Number");
 		this.setColour(COLOR_STATE);
 		this.setTooltip("Returns current RC channel value.");
 		this.setHelpUrl(DOCS_URL + '#' + this.type);
 	}
 }
 Blockly.Blocks['armed'] = {
 	init: function () {
@@ -523,7 +509,7 @@ Blockly.Blocks['distance'] = {
 			.appendField("z");
 		this.appendDummyInput()
 			.appendField("relative to")
-			.appendField(new Blockly.FieldDropdown([["markers map", "ARUCO_MAP"], ["marker", "ARUCO"], ["last navigate target", "NAVIGATE_TARGET"], ["terrain", "TERRAIN"]]), "FRAME_ID");
+			.appendField(new Blockly.FieldDropdown([["markers map", "ARUCO_MAP"], ["marker", "ARUCO"], ["last navigate target", "NAVIGATE_TARGET"]]), "FRAME_ID");
 		this.appendValueInput("ID")
 			.setCheck("Number")
 			.appendField("with ID")
--- a/clover_blocks/www/index.html
+++ b/clover_blocks/www/index.html
@@ -69,8 +69,8 @@
 				<value name="VX"><shadow type="math_number"><field name="NUM">0</field></shadow></value>
 				<value name="VY"><shadow type="math_number"><field name="NUM">0</field></shadow></value>
 				<value name="VZ"><shadow type="math_number"><field name="NUM">0</field></shadow></value>
 				<value name="ROLL"><shadow type="math_number"><field name="NUM">0</field></shadow></value>
 				<value name="PITCH"><shadow type="math_number"><field name="NUM">0</field></shadow></value>
 				<value name="ROLL"><shadow type="math_number"><field name="NUM">0</field></shadow></value>
 				<value name="YAW"><shadow type="math_number"><field name="NUM">0</field></shadow></value>
 				<value name="THRUST"><shadow type="math_number"><field name="NUM">0.5</field></shadow></value>
 				<value name="ID"><shadow type="math_number"><field name="NUM">0</field></shadow></value>
@@ -100,9 +100,6 @@
 			<block type="mode"></block>
 			<block type="armed"></block>
 			<block type="voltage"></block>
 			<block type="get_rc">
 				<value name="CHANNEL"><shadow type="math_number"><field name="NUM">0</field></shadow></value>
 			</block>
 		</category>
 		<category name="LED" colour="#02d754">
 			<block type="set_effect">
--- a/clover_blocks/www/python.js
+++ b/clover_blocks/www/python.js
@@ -81,10 +81,7 @@ function generateROSDefinitions() {
 		code += `get_telemetry = rospy.ServiceProxy('get_telemetry', srv.GetTelemetry)\n`;
 		code += `navigate = rospy.ServiceProxy('navigate', srv.Navigate)\n`;
 		if (rosDefinitions.navigateGlobal) {
-			code += `navigate_global = rospy.ServiceProxy('navigate_global', srv.NavigateGlobal)\n`;
+		code += `navigate_global = rospy.ServiceProxy('navigate_global', srv.NavigateGlobal)\n`;
 		}
 		if (rosDefinitions.setYaw) {
 			code += `set_yaw = rospy.ServiceProxy('set_yaw', srv.SetYaw)\n`;
 		}
 		if (rosDefinitions.setVelocity) {
 			code += `set_velocity = rospy.ServiceProxy('set_velocity', srv.SetVelocity)\n`;
@@ -279,11 +276,10 @@ Blockly.Python.angle = function(block) {
 }
 Blockly.Python.set_yaw = function(block) {
 	rosDefinitions.setYaw = true;
 	simpleOffboard();
 	let yaw = Blockly.Python.valueToCode(block, 'YAW', Blockly.Python.ORDER_NONE);
 	let frameId = buildFrameId(block);
-	let code = `set_yaw(yaw=${yaw}, frame_id=${frameId})\n`;
+	let code = `navigate(x=float('nan'), y=float('nan'), z=float('nan'), yaw=${yaw}, frame_id=${frameId})\n`;
 	if (block.getFieldValue('WAIT') == 'TRUE') {
 		rosDefinitions.waitYaw = true;
 		simpleOffboard();
@@ -332,11 +328,11 @@ Blockly.Python.setpoint = function(block) {
 	} else if (type == 'ATTITUDE') {
 		rosDefinitions.setAttitude = true;
 		simpleOffboard();
-		return `set_attitude(roll=${roll}, pitch=${pitch}, yaw=${yaw}, thrust=${thrust}, frame_id=${frameId})\n`;
+		return `set_attitude(pitch=${pitch}, roll=${roll}, yaw=${yaw}, thrust=${thrust}, frame_id=${frameId})\n`;
 	} else if (type == 'RATES') {
 		rosDefinitions.setRates = true;
 		simpleOffboard();
-		return `set_rates(roll_rate=${roll}, pitch_rate=${pitch}, yaw_rate=${yaw}, thrust=${thrust})\n`;
+		return `set_rates(pitch_rate=${pitch}, roll_rate=${roll}, yaw_rate=${yaw}, thrust=${thrust})\n`;
 	}
 }
@@ -402,12 +398,6 @@ Blockly.Python.voltage = function(block) {
 	return [code, Blockly.Python.ORDER_FUNCTION_CALL];
 }
 Blockly.Python.get_rc = function(block) {
 	Blockly.Python.definitions_['import_rcin'] = 'from mavros_msgs.msg import RCIn';
 	var channel = Blockly.Python.valueToCode(block, 'CHANNEL', Blockly.Python.ORDER_NONE);
 	return [`rospy.wait_for_message('mavros/rc/in', RCIn).channels[${channel}]`, Blockly.Python.ORDER_FUNCTION_CALL]
 }
 function parseColor(color) {
 	return {
 		r: parseInt(color.substr(2, 2), 16),
--- a/clover_description/package.xml
+++ b/clover_description/package.xml
@@ -1,6 +1,6 @@
 <package format="2">
  <name>clover_description</name>
-  <version>0.24.0</version>
+  <version>0.23.0</version>
  <description>The clover_description package provides URDF models of the Clover series of quadcopters.</description>
  <maintainer email="sfalexrog@gmail.com">Alexey Rogachevskiy</maintainer>
--- a/clover_description/urdf/sensors/distance_sensor.urdf.xacro
+++ b/clover_description/urdf/sensors/distance_sensor.urdf.xacro
@@ -2,7 +2,7 @@
 <robot name="rpi_camera" xmlns:xacro="http://ros.org/wiki/xacro">
  <xacro:include filename="../camera_sensor.urdf.xacro"/>
-  <xacro:macro name="distance_sensor" params="name:=lidar_vl53l1x parent x:=0 y:=0 z:=0 roll:=0 pitch:=0 yaw:=0 range_min:=0.01 range_max:=4.0 resolution:=0.01 rate:=10 fov:=0.471239">
+  <xacro:macro name="distance_sensor" params="name:=lidar_vl53l1x parent x:=0 y:=0 z:=0 roll:=0 pitch:=0 yaw:=0 range_min:=0.01 range_max:=4.0 resolution:=0.01 rate:=10">
    <joint name="${name}_joint" type="fixed">
      <origin xyz="${x} ${y} ${z}"
              rpy="${roll} ${pitch} ${yaw}"/>
@@ -58,7 +58,7 @@
          <topicName>/rangefinder/range</topicName>
          <frameName>rangefinder</frameName>
          <radiation>infrared</radiation>
-          <fov>${fov}</fov>
+          <fov>0.01</fov>
          <gaussianNoise>0.001</gaussianNoise>
          <updateRate>${rate}</updateRate>
          <min_distance>${range_min}</min_distance>
--- a/clover_simulation/airframes/4500_clover
+++ b/clover_simulation/airframes/4500_clover
@@ -31,7 +31,7 @@ param set-default EKF2_OF_DELAY 0
 param set-default EKF2_OF_QMIN 10
 param set-default EKF2_OF_N_MIN 0.05
 param set-default EKF2_OF_N_MAX 0.2
-param set-default EKF2_HGT_MODE 3 # 0 = baro, 1 = gps, 2 = range, 3 = vision
+param set-default EKF2_HGT_MODE 2 # 0 = baro, 1 = gps, 2 = range, 3 = vision
 param set-default EKF2_EVA_NOISE 0.1
 param set-default EKF2_EVP_NOISE 0.1
 param set-default EKF2_EV_DELAY 0
--- a/clover_simulation/models/red_circle/materials/scripts/red_circle.material
+++ b/clover_simulation/models/red_circle/materials/scripts/red_circle.material
@@ -1,16 +0,0 @@
 material red_circle
 {
 	technique
 	{
 		pass
 		{
 			scene_blend alpha_blend
 			texture_unit
 			{
 				texture red_circle.png
 				filtering none
 				scale 1.0 1.0
 			}
 		}
 	}
 }
--- a/clover_simulation/models/red_circle/materials/textures/red_circle.png
+++ b/clover_simulation/models/red_circle/materials/textures/red_circle.png
--- a/clover_simulation/models/red_circle/model.config
+++ b/clover_simulation/models/red_circle/model.config
@@ -1,13 +0,0 @@
 <?xml version="1.0"?>
 <model>
    <name>Red Circle</name>
    <version>1.0</version>
    <sdf version="1.5">red_circle.sdf</sdf>
    <author>
        <name>Oleg Kalachev</name>
        <email>okalachev@gmail.com</email>
    </author>
    <description>
        Red circle of size 40 cm on the floor for recognizing by a drone
    </description>
 </model>
--- a/clover_simulation/models/red_circle/red_circle.sdf
+++ b/clover_simulation/models/red_circle/red_circle.sdf
@@ -1,24 +0,0 @@
 <?xml version="1.0"?>
 <sdf version="1.5">
    <model name="red_circle">
        <static>true</static>
        <link name="red_circle_link">
            <pose>0 0 1e-3 0 0 0</pose>
            <visual name="red_circle_texture">
                <cast_shadows>false</cast_shadows>
                <geometry>
                    <box>
                        <size>0.4 0.4 1e-3</size>
                    </box>
                </geometry>
                <material>
                    <script>
                        <uri>model://red_circle/materials/scripts</uri>
                        <uri>model://red_circle/materials/textures</uri>
                        <name>red_circle</name>
                    </script>
                </material>
            </visual>
        </link>
    </model>
 </sdf>
--- a/clover_simulation/models/red_circle/red_circle.svg
+++ b/clover_simulation/models/red_circle/red_circle.svg
@@ -1,7 +0,0 @@
 <?xml version="1.0" encoding="UTF-8"?>
 <svg xmlns="http://www.w3.org/2000/svg" width="20" height="20" viewBox="0 0 20 20">
 	<title>
 		red_circle
 	</title><g fill="red">
 	<circle cx="10.05" cy="10.05" r="9.9"/>
 </g></svg>
--- a/clover_simulation/package.xml
+++ b/clover_simulation/package.xml
@@ -1,6 +1,6 @@
-<package format="3">
+<package format="2">
    <name>clover_simulation</name>
-    <version>0.24.0</version>
+    <version>0.23.0</version>
    <description>The clover_simulation package provides worlds and launch files for Gazebo.</description>
    <maintainer email="okalachev@gmail.com">Oleg Kalachev</maintainer>
@@ -22,8 +22,6 @@
    <depend>gazebo_ros</depend>
    <depend>gazebo_plugins</depend>
    <depend>rospy</depend>
    <depend condition="$ROS_PYTHON_VERSION == 2">python-docopt</depend>
    <depend condition="$ROS_PYTHON_VERSION == 3">python3-docopt</depend>
    <export>
        <gazebo_ros gazebo_media_path="${prefix}"/>
--- a/clover_simulation/src/sim_leds.cpp
+++ b/clover_simulation/src/sim_leds.cpp
@@ -65,8 +65,7 @@ public:
 		}
 		role = (ros::this_node::getName() == "/gazebo") ? Role::Server : Role::Client;
-		ROS_INFO_NAMED(("LedController_" + robotNamespace).c_str(), "LedController has started (as %s) in namespace '%s'",
+		ROS_INFO_NAMED(("LedController_" + robotNamespace).c_str(), "LedController has started (as %s)", role == Role::Client ? "client" : "server");
 			role == Role::Client ? "client" : "server", robotNamespace.c_str());
 		nh.reset(new ros::NodeHandle(robotNamespace));
@@ -110,6 +109,7 @@ LedController& get(std::string robotNamespace)
 	std::lock_guard<std::mutex> lock(controllerMutex);
 	auto it = controllers.find(robotNamespace);
 	if (it == controllers.end()) {
 		gzwarn << "Creating new LED controller for namespace " << robotNamespace << "\n";
 		controllers[robotNamespace].reset(new LedController(robotNamespace));
 		return *controllers[robotNamespace];
 	}
--- a/docs/assets/ftl/acp_workflow1.png
+++ b/docs/assets/ftl/acp_workflow1.png
--- a/docs/assets/ftl/acp_workflow2.png
+++ b/docs/assets/ftl/acp_workflow2.png
--- a/docs/assets/ftl/acp_workflow3.png
+++ b/docs/assets/ftl/acp_workflow3.png
--- a/docs/assets/ftl/acp_workflow4.png
+++ b/docs/assets/ftl/acp_workflow4.png
--- a/docs/assets/mocap_clover/block_ROS.jpg
+++ b/docs/assets/mocap_clover/block_ROS.jpg
--- a/docs/assets/mocap_clover/block_udp.jpg
+++ b/docs/assets/mocap_clover/block_udp.jpg
--- a/docs/assets/mocap_clover/drone_approach_small.jpg
+++ b/docs/assets/mocap_clover/drone_approach_small.jpg
--- a/docs/assets/mocap_clover/px4_control_structure.jpg
+++ b/docs/assets/mocap_clover/px4_control_structure.jpg
--- a/docs/assets/mocap_clover/semi_logo_small.jpg
+++ b/docs/assets/mocap_clover/semi_logo_small.jpg
--- a/docs/assets/raspberry-uart-telemetry2.png
+++ b/docs/assets/raspberry-uart-telemetry2.png
--- a/docs/assets/ssh-keys-known_hosts-fingerprint.png
+++ b/docs/assets/ssh-keys-known_hosts-fingerprint.png
--- a/docs/assets/stl/grip_left.stl
+++ b/docs/assets/stl/grip_left.stl
--- a/docs/assets/stl/grip_right.stl
+++ b/docs/assets/stl/grip_right.stl
--- a/docs/assets/swarm_in_blocks_2/capa_swarm_23_banner.png
+++ b/docs/assets/swarm_in_blocks_2/capa_swarm_23_banner.png
--- a/docs/en/SUMMARY.md
+++ b/docs/en/SUMMARY.md
@@ -36,7 +36,7 @@
  * [Optical Flow](optical_flow.md)
  * [Autonomous flight (OFFBOARD)](simple_offboard.md)
  * [Coordinate systems (frames)](frames.md)
-  * [Code examples](snippets.md)
+  * [Code snippets](snippets.md)
  * [Interfacing with a laser rangefinder](laser.md)
  * [LED strip](leds.md)
  * [Working with GPIO](gpio.md)
@@ -57,7 +57,6 @@
  * [COEX Pix](coex_pix.md)
  * [COEX PDB](coex_pdb.md)
  * [COEX GPS](coex_gps.md)
  * [Using SSH keys](ssh_keys.md)
  * [Guide on autonomous flight](auto_setup.md)
  * [Hostname](hostname.md)
  * [PX4 Simulation](sitl.md)
@@ -106,12 +105,6 @@
  * [Video contest](video_contest.md)
  * [Educational contests](educational_contests.md)
 * [Clover-based projects](projects.md)
  * [Clover Cloud Platform](clover-cloud-platform.md)
  * [Autonomous Racing Drone](djs_phoenix_chetak.md)
  * [Motion Capture System](mocap_clover.md)
  * [Swarm in Blocks 2](swarm_in_blocks_2.md)
  * [Advanced Clover 2](advanced_clover_simulator_platform.md)
  * [Network of charging stations](liceu128.md)
  * [Swarm-in-blocks](swarm_in_blocks.md)
  * [Obstacle avoidance using artificial potential fields method](obstacle-avoidance-potential-fields.md)
  * [The Clover Rescue Project](clover-rescue-team.md)
--- a/docs/en/advanced_clover_simulator_platform.md
+++ b/docs/en/advanced_clover_simulator_platform.md
@@ -1,161 +0,0 @@
 # Advanced Clover 3: The Platform
 [CopterHack-2023](copterhack2023.md), team **FTL**.
 ## Team Information
 ```cpp
 #include "veryInterestingCommandDescription.h"
 ```
 Team members:
 - Maxim Ramanouski, [@max8rr8](https://t.me/max8rr8).
 Country: Belarus.
 ## Project Description
 Last year at CopterHack 2022, we created a [project](../ru/advanced_clover_simulator.html) that simplified the simulation of Clover, and in 2021, we created a [project](../ru/advanced_clover.html) that simplified the development of products for Clover (IDE and library for writing). The time has come to combine them and achieve unlimited power.
 ### Project Idea
 The idea of the project is to combine CloverIDE and CloverSim (a tool for running Clover simulations). Thus, a platform is planned that allows developing products based on Clover using a simulator and an advanced IDE. The platform will include the following features:
 - Add a web interface that allows using CloverSim without touching the command line.
 - Work both in the browser (without installing anything) and from CLI.
 - Have a course that covers different aspects of clover.
 - Simplify installation, especially in WSL.
 - Running a simulation on a remote device (more powerful computer or cloud).
 ### Project videos
 Video presentation of the project: [link](https://www.youtube.com/watch?v=T4RU9sfxsSI).
 Live presentation at CopterHack: TBD.
 CLI demonstration: [link](https://www.youtube.com/watch?v=Ao-ukR58sSQ).
 ## Installation
 Installation process is described in the [project documentation](https://ftl-team.github.io/clover_sim/#/?id=installation).
 ## Usage
 The CloverSim platform offers a seamless workflow for users:
 1. Users can effortlessly select or create a workspace and task and
   launch them with ease.
   ![Step 1 screenshot](../assets/ftl/acp_workflow1.png)
 2. After launching the simulation, users are presented with CloverSim WebUI that
   provides them with an intuitive way to view their scores and progress,
   control the simulator, and access task descriptions and scoring information.
   From it users can open terminal, gzweb and more importantly they can easily
   access the CloverSim IDE to solve task.
   ![Step 2 screenshot](../assets/ftl/acp_workflow2.png)
 3. The IDE provides a full suite of tools and features for writing and
   debugging code. One example is autocompletion to help streamline the
   development process, making it more efficient and effective.
   ![Step 3 screenshot](../assets/ftl/acp_workflow3.png)
 4. Users can launch their programs with ease and monitor its progress via
   the GZWeb, CopterStatus, and SimulatorStatus views of the IDE.
   ![Step 4 screenshot](../assets/ftl/acp_workflow4.png)
 5. Users can track their progress and scores in real-time and effortlessly
  restart the simulator if necessary. Additionally, different randomization
  seed can be set to check various inputs and outcomes.
 We also have video demonstration/tutorial: [link](https://www.youtube.com/watch?v=aPOPHD3M3ZM).
 ## More features
 - Easy installation process.
 - Efficient simulation launch, surpassing traditional virtual machines.
 - Generation of dynamic Gazebo worlds with randomization based on seed.
 - Real-time task completion verification and score presentation.
 - Execution with security in isolated containers.
 - Multiple project capability without the need for multiple virtual machine images.
 - WebUI for ease of use, removing the need to use the command line.
 - IDE similar to VSCode with support for C++ and Python, including autocompletion and autoformatting.
 - Custom-patched GZWeb with bug fixes and additional features, including the display of the Clover LED strip.
 - GZWeb provides a follow-objects feature superior to that of Gazebo.
 - IDE includes tools to interact with ROS, such as topic visualization, service calling, and image topic visualization.
 - IDE also includes Copter Status, displaying most of the drone's information, including position, camera, and LED strip, in one view.
 - IDE integrates with the simulator by providing control from it, viewing task descriptions, and opening GZWeb.
 We also have developed a learning course based on CloverSim: [link](https://github.com/FTL-team/CloverSim_course). It currently has the following tasks:
 - 1_thesquare - First task of CloverSim course with goal to fly square.
 - 2_iseeall - Task that teaches how to interact with camera.
 - 3_landmid - Find and land onto randomly positioned object.
 - 4_flybyline - Flying along the line.
 - 5_posknown - Find position of objects relative to ArUco map.
 ## More details
 At this point, our platform consists of four major parts:
 - [CloverSim](https://github.com/FTL-team/clover_sim) - tool that manages simulation.
 - [CloverSim Basefs](https://github.com/FTL-team/clover_sim_basefs) - container image that is used in simulator.
 - [Clover IDE](https://github.com/FTL-team/cloverIDE) - clover ide tools and theia.
 - [CloverSim course](https://github.com/FTL-team/CloverSim_course) - course with tasks based on our platform.
 ### CloverSim
 The simulation architecture is a continuation of work from CopterHack 2022, but while 2022 version was closer to Proof-of-Concept, the updated version is more robust.
 There are three major difference in simulator architecture
 - Replacement of `systemd-nspawn` with `runc` provides us higher degree of container control and seemingless support of non-systemd systems, for example WSL.
 - Migration to squash fs images, which greatly reduced size of installed CloverSim from 13 gigabytes to just 3.5 gigabytes.
 - Tasks are now mounted instead of being copied and also build before starting.
 Because of the way catkin_make works, it is incredibly slow when new packages are added (whole cmake configuration is rerun for all packages). catkin_make provides a way to build only some packages, but it caches this packages and to reset this cache you need to recompile whole catkin_make. But we have found a solution: `catkin_make -DCATKIN_WHITELIST_PACKAGES="task;CloverSim" --build build_CloverSim` This command, builds only CloverSim and task package in separate build directory, this drastically reduces time that catkin_make takes, and keeps expected behavior of catkin_make without arguments.
 There are also differences in tool that launches simulation:
 - Client-server architecture allows us to create web UI and run CloverSim on server.
 - More robust error handling improves user experience.
 - Rewritten in rust, better reliability and development experience.
 ### CloverSim basefs
 Version 2 integrates CloverIDE into system. We also updated clover in simulator to v0.23 and added web terminal. Basefs is now squashed and doesn't require additional installation. It also uses patched(by us) version of gzweb that is more suitable for our use-case:
 - Unlike original GZWeb assets can be dynamically loaded, which is required to support dynamically generated tasks.
 - It also implements multiple bugfixes for rendering, UI.
 - Fixed performance, original gzweb had two constantly running loops that used 200% of cpu. We fixed this by instead using synchronization primitives.
 - Clover LED strip is rendered, our gzweb connects to ROS and pulls LED data from there to render LED strip like Gazebo does.
 - Users can now follow-objects like in Gazebo better actually.
 - Reconnect on disconnect, when simulator is restarted gzweb looses connection and it now can automatically reconnect.
 Patched gzweb available there: [FTL-team/gzweb](https://github.com/FTL-team/gzweb).
 ### CloverIDE
 CloverIDE got some updates too:
 - We have updated theia and extensions used.
 - Better C++ support via clangd.
 - Clover IDE tools can now reconnect after simulator restart.
 - Copter Status now displays LED strip status.
 - Tools ui has better support for different themes.
 But the most important change is CloverSim integration, there are new tools (task description, simulator control and gzweb). While gzweb tool is just an iframe (though it's very cool to have it in IDE).
 Task description and simulator control are more interesting as they have to interact with both IDE and CloverSim, to maintain different versions support we use quite interesting trick, extension webview after being initialized dynamically loads JavaScript from CloverSim. That provides better integration between two.
 ### CloverSim course
 CloverSim course is a new part of our platform. It uses robust task API of CloverSim to create practical learning course. It currently teaches different aspects of clover development that i encountered during my participation in different contests involving clover. But we are happy to accpet suggestions about other aspects we should teach in out course.
 ## Conclusion
 This project is a final (or maybe there is more?) project of our advanced clover saga. AdvancedClover is a project that is easy to use and greatly improves experience during learning about clover, participating in clover based competitions and development clover based projects. We thank COEX team for their support and look forward to further cooperation.
--- a/docs/en/aruco_marker.md
+++ b/docs/en/aruco_marker.md
@@ -72,6 +72,12 @@ Sample code to fly to a point 1 metre to the left and 2 metres above marker with
 navigate(frame_id='aruco_7', x=-1, y=0, z=2)
 ```
 Sample code to rotate counterclockwise while hovering 1.5 metres above marker id 10:
 ```python
 navigate(frame_id='aruco_10', x=0, y=0, z=1.5, yaw_rate=0.5)
 ```
 Note that if the required marker isn't detected for 0.5 seconds after the `navigate` command, the command will be ignored.
 These frames may also be used in other services that accept TF frames (like `get_telemetry`). The following code will get the drone's position relative to the marker with id 3:
--- a/docs/en/blocks.md
+++ b/docs/en/blocks.md
@@ -2,7 +2,7 @@
 <img src="../assets/blocks/blockly.svg" width=200 align="right">
-Visual blocks programming feature has been added to the [RPi image](image.md), starting with the version **0.21**. Blocks programming is implemented using [Google Blockly](https://developers.google.com/blockly) library. Blocks programming integration can lower the entry barrier to a minimum.
+Visual blocks programming feature has been added to the [RPi image](image.md), starting with the version **0.21**. Blocks programming is implemented using [Google Blockly](https://developers.google.com/blockly) platform. Blocks programming integration can lower the entry barrier to a minimum.
 ## Configuration
--- a/docs/en/camera.md
+++ b/docs/en/camera.md
@@ -1,7 +1,5 @@
 # Working with the camera
 > **Note** The following applies to the [image version **0.24**](https://github.com/CopterExpress/clover/releases/tag/v0.24), which is not yet released. Older documentation is still available for [for version **0.23**](https://github.com/CopterExpress/clover/blob/f78a03ec8943b596d5a99b893188a159d5319888/docs/en/camera.md).
 Make sure the camera is enabled in the `~/catkin_ws/src/clover/clover/launch/clover.launch` file:
 ```xml
@@ -16,7 +14,7 @@ The `clover` service must be restarted after the launch-file has been edited:
 sudo systemctl restart clover
 ```
-You may use [rqt](rviz.md) or [web_video_server](web_video_server.md) to view the camera stream.
+You may use rqt or [web_video_server](web_video_server.md) to view the camera stream.
 ## Troubleshooting
@@ -54,6 +52,8 @@ The [SD card image](image.md) comes with a preinstalled [OpenCV](https://opencv.
 ### Python
 Main article: http://wiki.ros.org/cv_bridge/Tutorials/ConvertingBetweenROSImagesAndOpenCVImagesPython.
 An example of creating a subscriber for a topic with an image from the main camera for processing with OpenCV:
 ```python
@@ -61,14 +61,12 @@ import rospy
 import cv2
 from sensor_msgs.msg import Image
 from cv_bridge import CvBridge
 from clover import long_callback
-rospy.init_node('cv')
+rospy.init_node('computer_vision_sample')
 bridge = CvBridge()
@long_callback
 def image_callback(data):
-    img = bridge.imgmsg_to_cv2(data, 'bgr8')  # OpenCV image
+    cv_image = bridge.imgmsg_to_cv2(data, 'bgr8')  # OpenCV image
    # Do any image processing with cv2...
 image_sub = rospy.Subscriber('main_camera/image_raw', Image, image_callback)
@@ -76,31 +74,19 @@ image_sub = rospy.Subscriber('main_camera/image_raw', Image, image_callback)
 rospy.spin()
 ```
 > **Note** Image processing may take significant time to finish. This can cause an [issue](https://github.com/ros/ros_comm/issues/1901) in rospy library, which would lead to processing stale camera frames. To solve this problem you need to use `long_callback` decorator from `clover` library, as in the example above.
 #### Limiting CPU usage
 When using the `main_camera/image_raw` topic, the script will process the maximum number of frames from the camera, actively utilizing the CPU (up to 100%). In tasks, where processing each camera frame is not critical, you can use the topic, where the frames are published at rate 5 Hz: `main_camera/image_raw_throttled`:
 ```python
 image_sub = rospy.Subscriber('main_camera/image_raw_throttled', Image, image_callback, queue_size=1)
 ```
 #### Publishing images
 To debug image processing, you can publish a separate topic with the processed image:
 ```python
 image_pub = rospy.Publisher('~debug', Image)
 ```
-Publishing the processed image:
+Publishing the processed image (at the end of the image_callback function):
 ```python
-image_pub.publish(bridge.cv2_to_imgmsg(img, 'bgr8'))
+image_pub.publish(bridge.cv2_to_imgmsg(cv_image, 'bgr8'))
 ```
-The published images can be viewed using [web_video_server](web_video_server.md) or [rqt](rviz.md).
+The obtained images can be viewed using [web_video_server](web_video_server.md).
 #### Retrieving one frame
@@ -111,7 +97,7 @@ import rospy
 from sensor_msgs.msg import Image
 from cv_bridge import CvBridge
-rospy.init_node('cv')
+rospy.init_node('computer_vision_sample')
 bridge = CvBridge()
 # ...
@@ -133,32 +119,40 @@ QR codes recognition in Python:
 ```python
 import rospy
 from pyzbar import pyzbar
 import cv2
 from cv_bridge import CvBridge
 from sensor_msgs.msg import Image
 from clover import long_callback
 rospy.init_node('cv')
 bridge = CvBridge()
-@long_callback
+rospy.init_node('barcode_test')
-def image_callback(msg):
+
-    img = bridge.imgmsg_to_cv2(msg, 'bgr8')
+# Image subscriber callback function
-    barcodes = pyzbar.decode(img)
+def image_callback(data):
    cv_image = bridge.imgmsg_to_cv2(data, 'bgr8')  # OpenCV image
    barcodes = pyzbar.decode(cv_image)
    for barcode in barcodes:
-        b_data = barcode.data.decode('utf-8')
+        b_data = barcode.data.decode("utf-8")
        b_type = barcode.type
        (x, y, w, h) = barcode.rect
        xc = x + w/2
        yc = y + h/2
-        print('Found {} with data {} with center at x={}, y={}'.format(b_type, b_data, xc, yc))
+        print("Found {} with data {} with center at x={}, y={}".format(b_type, b_data, xc, yc))
-image_sub = rospy.Subscriber('main_camera/image_raw_throttled', Image, image_callback, queue_size=1)
+image_sub = rospy.Subscriber('main_camera/image_raw', Image, image_callback, queue_size=1)
 rospy.spin()
 ```
-> **Hint** See other computer vision examples in the `~/examples` directory of the [RPi image](image.md).
+The script will take up to 100% CPU capacity. To slow down the script artificially, you can use [throttling](http://wiki.ros.org/topic_tools/throttle) of frames from the camera, for example, at 5 Hz (`main_camera.launch`):
 > **Note** Starting from [image](image.md) version **0.24** `image_raw_throttled` topic is available without addition configuration.
 ```xml
 <node pkg="topic_tools" name="cam_throttle" type="throttle"
    args="messages main_camera/image_raw 5.0 main_camera/image_raw_throttled"/>
 ```
 The topic for the subscriber in this case should be changed for `main_camera/image_raw_throttled`.
 ## Video recording
--- a/docs/en/cli.md
+++ b/docs/en/cli.md
@@ -30,16 +30,6 @@ Print path to the current directory:
 pwd
 ```
 Go to the user's home directory:
 ```bash
 # all three commands are equivalent, where the tilde character (~) is an abbreviated
 # path entry to the home directory, and the $HOME variable stores this path
 cd
 cd ~
 cd $HOME
 ```
 Print contents of the `file.py` file:
 ```bash
--- a/docs/en/clover-cloud-platform.md
+++ b/docs/en/clover-cloud-platform.md
@@ -1,93 +0,0 @@
 # Clover Cloud Platform
 [CopterHack-2023](copterhack2023.md), team **Clover Cloud Team**.
 The list of our team members:
 * Кирилл Лещинский / Kirill Leshchinskiy, [@k_leshchinskiy](https://t.me/k_leshchinskiy) - Team Lead.
 * Кузнецов Михаил / Mikhail Kuznetsov, [@bruhfloppa](https://t.me/bruhfloppa) - Frontend Developer.
 * Даниил Валишин / Daniil Valishin, [@Astel_1](https://t.me/Astel_1) - Backend Developer.
 ## Table of contents
 * [Introduction](#introduction)
 * [Usability](#usability)
 * [How to work with our platform?](#how-to-work-with-our-platform)
 * [About the development of the platform](#about-the-development-of-the-platform)
 * [Conclusion](#conclusion)
 ## Video demonstration
 <p align="center">
  <a href="https://www.youtube.com/watch?v=FZPl2LOMgi4"><img img width="560" height="315" src="https://img.youtube.com/vi/FZPl2LOMgi4/maxresdefault.jpg" /></a>
 </p>
 ## Introduction
 Clover Cloud Platform is an innovative platform that enables users to access COEX Clover drone simulation online, without the need to download any programs or virtual machines.
 > **Note** Visit our [documentation](https://docs.clovercloud.software) to learn all about the platform, its development and how to use it.
 ## Unleash Your Coding Power: Develop Autonomous Flight Code at Lightning Speed on Clover Cloud Platform
 If you're a developer working on autonomous flight projects, you know how time-consuming and distracting all of the routine activities can be. Between managing your hardware, debugging, and configuring your environment, it can feel like the real work of coding gets lost in the shuffle.
 That's where our platform comes in. Our streamlined interface and powerful tools make it easy to tackle all of those essential tasks so you can focus on what really matters: developing flawless, high-performance code for your autonomous flight project.
 So why wait to unleash your coding power? Sign up for our platform today and discover the difference it can make in the speed, quality, and focus of your autonomous flight coding work.
 ## Usability
 Our platform is incredibly user-friendly and provides seamless access to the simulation in just a few clicks. Together with a simulator that displays simulation data accurately and without delay, there is a map editor allows users to edit the ArUco marker map and add or modify other objects on the scene directly within the simulation window. Additionally, users can create pre-configured workspaces complete with autonomous flight code and simulation scene configuration. Each user can also create their templates or apply a pre-made one to their workspace in just a few clicks. In addition to its other features, Clover Cloud Platform provides users with a convenient code editor for autonomous flight coding. Users can write code in the built-in editor and run it directly from the editor, viewing program output in real-time in the terminal. The platform also includes a file manager that simplifies file manipulation tasks, further enhancing the user's overall experience. With these tools at your fingertips, Clover Cloud Platform delivers an unparalleled level of accessibility and convenience for autonomous flight simulation.
 <p align="center">
  <img src="https://raw.githubusercontent.com/Clover-Cloud-Platform/clover-cloud-platform-frontend/master/docs/workspace.png" alt="Workspace screenshot">
 </p>
 ## The CodeSandbox for COEX Clover
 You can describe the usability and relevance of our platform in another way. Have you heard of CodeSandbox? Our platform offers the same convenience, flexibility, and accessibility as CodeSandbox, but is specifically designed to work with the COEX Clover drone simulation.
 ## How to work with our platform?
 Let's dive into the sea of functionality that our platform offers. Detailed description of each feature is available in our [documentation](https://docs.clovercloud.software), here we will provide a general overview of the platform.
 ### Creating an account
 First, you should create an account on our site. You can do this by clicking on this [link](https://clovercloud.software/signup).
 ### Instance management
 After creating an account, you will be taken to the [dashboard](https://clovercloud.software/instances). Here you can create, start, stop and delete workspaces.
 >Workspaces are containers with Gazebo simulator and our software that provide data flow for simulation visualization, as well as handle requests from file manager, code editor and terminal.
 <p align="center">
  <img src="https://raw.githubusercontent.com/Clover-Cloud-Platform/clover-cloud-platform-frontend/master/docs/instances.gif" alt="Instance management">
 </p>
 ### Workspace overview
 In the workspace, in addition to the simulator, you have a file manager, code editor and terminal. There is also an editing mode in the simulator - one of the key features of our project. It allows you to quickly and conveniently edit the simulation scene, namely: move ArUco markers, change their size, change id of the marker, load instead of marker picture, add new markers or delete them. You can also add 3d objects to the scene and change their position, size and color. Below is an example of working with our workspace.
 <p align="center">
  <img src="https://github.com/Clover-Cloud-Platform/clover-cloud-platform-frontend/raw/master/docs/workspace.gif" alt="Workspace overview">
 </p>
 ### Templates
 Templates are another key feature of our platform.Is there something you can't do and you want to see how to properly perform a task? Look for the right template with ready-made code in the Template Browser and apply it to your workspace! Each user can create a template with an autonomous flight code and simulator configuration and share it.
 ## About the development of the platform
 Our team has worked tirelessly to develop a simple yet multifunctional platform. We utilized the most modern standards and tools and implemented numerous optimization methods to ensure seamless performance and error-free operation. The frontend programming language chosen was JavaScript with the React framework, as a design system we utilizing Material Design style for an elegant and intuitive user interface. With the help of GitHub Actions the website is being built and deployed to Firebase hosting. The platform's backend is written in Python and contains multiple simultaneously running scripts. User data is secured and stored in a MongoDB database. Communication between the server and site is enabled through web sockets and the socket.io library, guaranteeing lightning-fast data transfer with minimal lag.
 You can view the source code of our platform by clicking on the links below:
 [Repository with the frontend-side code](https://github.com/Clover-Cloud-Platform/clover-cloud-platform-frontend)
 [Repository with the backend-side code](https://github.com/Clover-Cloud-Platform/clover-cloud-platform-backend)
 ## Conclusion
 In conclusion, we have successfully created a truly convenient and useful platform, suitable for both novice and advanced COEX Clover drone users. Beginners can test their first autonomous flight code without the need for demanding simulator installation or virtual machines. They can also explore all of the drone's functions and capabilities without editing any configuration files. Advanced users benefit from access to their workspace from anywhere in the world and on any device, along with a convenient code-sharing system. In the future, we plan to add more new features to our platform, scale our network to serve a greater number of users, and collaborate with COEX to integrate their Clover quadcopter documentation into our platform, offering users a very simple and user-friendly way to learn to program autonomous drone flight. We also want to express gratitude to the COEX customer support team for their assistance in resolving complex issues that arose during development.
--- a/docs/en/connection.md
+++ b/docs/en/connection.md
@@ -6,59 +6,37 @@ In order to program [autonomous flights](simple_offboard.md), [work with Pixhawk
 USB connection is the preferred way to connect to the flight controller.
 <img src="../assets/assembling_clever4/usb_connection_1.png" alt="USB connection" height=400 class="zoom border center">
 1. Connect your FCU to the Raspberry Pi using a microUSB to USB cable.
 2. [Connect to the Raspberry Pi over SSH](ssh.md).
-3. Make sure that the connection is working properly by [running the following command on the Raspberry Pi](cli.md):
+3. Make sure the connection is working by [running the following command on the Raspberry Pi](ssh.md):
    ```bash
    rostopic echo /mavros/state
    ```
-    The `connected` field should have the `True` value.
+    The `connected` field should have the `True` value.s
 > **Hint** You need to set the `CBRK_USB_CHK` [parameter](parameters.md) to 197848 for the USB connection to work.
 ## UART connection
 <!-- TODO: Connection scheme -->
 UART connection is another way for the Raspberry Pi and FCU to communicate.
 <img src="../assets/raspberry-uart-telemetry2.png" alt="UART connection via TELEM2" height=400 class="zoom border center">
 If the pin marked GND is occupied, you can use any other ground pin (look at the [pinout](https://pinout.xyz) for reference).
 1. Connect the TELEM 2 port on the flight controller using a UART cable to the Raspberry Pi pins following this instruction: the black cable (*GND*) to Ground, the green cable (*UART_RX*) to *GPIO14*, the yellow cable (*UART_TX*) to *GPIO15*. Do not connect the red cable (*5V*).
-2. In PX4 of version v1.9.0 or higher, set parameter values: `MAV_1_CONFIG` to TELEM 2, `SER_TEL2_BAUND` to 921600 8N1. In PX4 of version [prior to v1.9.0](https://github.com/mavlink/qgroundcontrol/issues/6905#issuecomment-464549610) the parameter `SYS_COMPANION` should be set to `Companion Link (921600 baud, 8N1)`, to set it correctly use the old version of QGC [v3.3.1](https://github.com/mavlink/qgroundcontrol/releases/tag/v3.3.1).
+2. Set the PX4 parameters: `MAV_1_CONFIG` to TELEM 2, `SER_TEL2_BAUND` to 921600 8N1. In PX4 of version prior to v1.10.0 the parameter `SYS_COMPANION` should be set to 921600.
 3. [Connect to the Raspberry Pi over SSH](ssh.md).
-4. Check the presence of the parameters `enable_uart=1` and `dtoverlay=pi 3-disable-bt` in the file `/boot/config.txt` by [running the following command on the Raspberry Pi](cli.md):
+4. Change the connection type in `~/catkin_ws/src/clover/clover/launch/clover.launch` to UART:
    ```bash
    cat /boot/config.txt | grep -E "^enable_uart=.|^dtoverlay=pi3-disable-bt"
    ```
    If the parameters in the file are different or missing, then edit the file and restart the Raspberry Pi.
 5. Change the connection type from `usb` to `uart` in the Clover' launch file `~/catkin_ws/src/clover/clover/launch/clover.launch`:
    ```xml
    <arg name="fcu_conn" default="uart"/>
    ```
-    If you change the launch file, you need to restart the `clover' service:
+    Be sure to restart the `clover` service after editing the .launch file:
    ```bash
    sudo systemctl restart clover
    ```
 6. Make sure that the connection is working properly by running the following command:
    ```bash
    rostopic echo -n1 /mavros/state
    ```
    The `connected` field should have the `True` value.
 Read more in the PX4 docs: https://docs.px4.io/main/en/peripherals/serial_configuration.html.
 **Next**: [Using QGroundControl over Wi-Fi](gcs_bridge.md)
--- a/docs/en/copterhack2023.md
+++ b/docs/en/copterhack2023.md
@@ -8,36 +8,6 @@ To learn more about the articles of the CopterHack finalist teams follow the lin
 The proposed projects are supposed to be open-source and be compatible with the Clover quadcopter platform. Teams-participants are supposed to work on their projects throughout the competition, bringing them closer to the state of the finished product while being assisted by industry experts through lectures and regular feedback.
 Final of the CopterHack 2022 was held on May 27, 2023. The winner team was the team 🇷🇺 **[Clover Cloud Platform](clover-cloud-platform.md)**.
 ## Full stream of the final
 <iframe width="560" height="315" src="https://www.youtube.com/embed/Hdl6Sah7nkE" frameborder="0" allow="accelerometer; autoplay; encrypted-media; gyroscope; picture-in-picture" allowfullscreen></iframe>
 ## Projects of the contest's participants {#participants}
 |Place|Team|Project|Points|
 |:-:|-|-|-|
 |1|🇷🇺 Clover Cloud Team|[Clover Cloud Platform](clover-cloud-platform.md)|21.7|
 |2|🇧🇾 FTL|[Advanced Clover 2](advanced_clover_simulator_platform.md)|21|
 |3|🇨🇦 Clover with Motion Capture System|[Clover with Motion Capture System](mocap_clover.md)|20.5|
 |4|🇧🇷 Atena|[Swarm in Blocks 2](swarm_in_blocks_2.md)|20.3|
 |5|🇷🇺 C305|[Система радио-навигации](../ru/nav-beacon.html)|17.5|
 |6|🇮🇳 DJS PHOENIX|[Autonomous Racing Drone](djs_phoenix_chetak.md)|14.6|
 |7|🇷🇺 Lyceum №128|[Network of Clover charging stations](liceu128.md)|13.7|
 |✕|🇰🇬 Zavarka|[Система обмена грузами с помощью конвейера](https://github.com/aiurobotics/clover/blob/conveyance/docs/ru/conveyance.md)||
 |✕|🇷🇺 FSOTM|[Drone Interceptor](https://github.com/deadln/clover/blob/interceptor/docs/ru/interceptor.md)||
 |✕|🇰🇬 Homelesses|[Trash Collector](https://github.com/Isa-jesus/clover/blob/trash-collector/docs/ru/show_maker.md)||
 |✕|🇷🇺 Digital otters|[Digital otters](https://github.com/Mentalsupernova/clover_cool/blob/new-article.md/docs/ru/new-article.md)||
 |✕|🇷🇺 Light Flight|[Сопровождение БПЛА при посадке](https://github.com/SirSerow/clover_inertial_ns/blob/inertial-1/Description.md)||
 |✕|🇰🇬 LiveSavers|[LiveSavers](https://github.com/Sarvar00/clover/blob/livesavers/docs/ru/livesaver.md)||
 |✕|🇷🇺 XenCOM|[Bound by fate](https://github.com/xenkek/clover/blob/xenkek-patch-1/docs/ru/bound_by_fate.md)||
 |✕|🇷🇺 Ava_Clover|[DoubleClover](https://github.com/bessiaka/clover/blob/Ava_Clover/docs/ru/soosocta.md)||
 |✕|🇷🇺 TPU_1|[Совместная транспортировка груза](https://github.com/shamoleg/clover/blob/tpu_1/docs/ru/tpu_1.md)||
 |✕|🇷🇺 TPU_2|[Алгоритм полета сквозь лесную местность](https://github.com/shamoleg/clover/blob/tpu_2/docs/ru/tpu_2.md)|&nbsp;|
 See all points by criteria in the [full table](https://docs.google.com/spreadsheets/d/1qTpW8zFVdSEGnbtOvMgQD6DcYwu8URFt1RKOCeUaOe8).
 ## CopterHack 2023 stages
 The qualifying and project development stages will be held in an online format, however, the final round will be in a hybrid mode (offline + online). The competition involves monthly updates from the teams with regular feedback from the jury. All teams are required to prepare a final video and presentation on the project's results to participate in the final stage.
--- a/docs/en/djs_phoenix_chetak.md
+++ b/docs/en/djs_phoenix_chetak.md
@@ -1,55 +0,0 @@
 # Autonomous Racing Drone: CHETAK
 [CopterHack-2023](copterhack2023.md), team **DJS PHOENIX**.
 ## Team Information
 ![Without bg](https://user-images.githubusercontent.com/93365067/195974501-0acef6b7-e4ea-4c47-bd7a-615caf73a625.png)
 We are the DJS Phoenix, the official drone team of Dwarkadas. J. Sanghvi College of Engineering
 The list of team members:
 * Shubham Mehta, @Just_me_05, Mentor.
 * Harshal Warde, @kryptonisinert, Mechanical.
 * Parth Sawjiyani, @Non_Active, Mechanical.
 * Soham Dalvi, @devilsfootprint_1973, Mechanical.
 * Vedant Patel, @VedantMP, Mechanical.
 * Harsh Shah, @harssshhhhh, Mechanical.
 * Lisha Mehta, @lishamehta, Mechanical.
 * Shubh Pokarne, @Shubhpokarne, Electronics.
 * Tushar Nagda, @tushar_n11, Electronics.
 * Deep Tank, @Kraven, Electronics.
 * Khushi Sanghvi, @Cryptoknigghtt, Programmer.
 * Harshil Shah, @divine_fossil, Programmer.
 * Omkar Parab, @Omkar_parab21, Programmer.
 * Madhura Korgaonkar, @Madhura221, Programmer.
 * Shruti Shah, @Shrutishah22, Programmer.
 * Aditi Dubey, @aditi_0503, Marketing.
 * Krisha Lakhani, @krishalakhani, Marketing.
 ## Project Description
 This year, our team DJS Phoenix, presents to you a fully Autonomous Racing Drone. The drone scans for ArUco tags on the gates and passes through them.
 ### Project Idea
 This project proposes to develop an autonomous racing drone that can navigate through complex courses at high speeds while avoiding obstacles and detecting changes in the environment. In racing competitions, autonomous drones can compete in high-speed, precision races that challenge their agility, speed, and accuracy. These competitions could be held in indoor arenas or outdoor tracks, and they could attract enthusiasts and spectators from all over the world. With their advanced capabilities, autonomous racing drones could usher in a new era of racing events that are more exciting and challenging than ever before. From racing competitions to search and rescue operations, the autonomous racing drone can be used in a wide range of applications that benefit individuals, businesses, and society as a whole.
 ## Potential Outcome
 ### Problem
 In many industries and applications, there is a need for fast, efficient, and safe movement of goods and information. Drones have become an increasingly popular tool for a wide range of applications, from aerial photography to surveying and monitoring. However, operating a drone requires a certain level of skill and experience, which can be a barrier for individuals or businesses who want to take advantage of this technology. Additionally, traditional drones can be expensive and time-consuming to operate, limiting their accessibility and effectiveness. Therefore, there is a need for a more user-friendly and affordable solution that can expand the use of drones to new audiences and applications.
 ### Solution
 The solution to the above problem statement is an autonomous racing drone. An autonomous racing drone is equipped with a camera that scans the ArUco tags for gate detection which is supported by software used in autonomous flights that enable it to navigate through a predetermined course while avoiding obstacles and achieving high speeds. Unlike traditional drones, an autonomous racing drone does not require manual control, making it an ideal solution for those who do not have the skills or experience to operate a drone.Its autonomous capabilities make it a more accessible and user-friendly solution than traditional drones, enabling individuals or businesses to take advantage of this technology without requiring extensive training or expertise.
 ![image](https://user-images.githubusercontent.com/93365067/235303281-f63e379d-c156-45ad-b554-2c84bd82781d.png)
 ### Additional Information
 In 2017, a student committee for DJS Phoenix was formed. In India, our team has participated in a number of contests, including IDRL-IIT GandhiNagar (sixth rank), IDRL-SVPCET Nagpur(second rank) and TECHNOXIAN (second place out of 50 national teams). In CopterHack-2021, our team participated, and we placed eighth internationally. We are back with improved concepts after learning from the previous season.
 For more information checkout gitbook: https://djs-phoenix.gitbook.io/chetak-faster-than-you-can-imagine/.
--- a/docs/en/educational_contests.md
+++ b/docs/en/educational_contests.md
@@ -20,7 +20,7 @@ The main goal of the contest is aerial robotics popularization  and community de
 * Third parties can provide technical support for recording a lecture.
 * The status of the participant is unlimited (student, representative of a general education institution, representative of the industry, amateur).
-Applications deadline: November 30, 2022.
+Applications deadline: September 1, 2022.
 ### How to apply?
@@ -64,7 +64,7 @@ The main goal of the contest is aerial robotics popularization  and community de
 The application to the contest is performed via the [Google Form](https://docs.google.com/forms/d/e/1FAIpQLSdelVy6yQ1iN6u88KeiEIKGj7gGaM0xccSt2tiYKB46ICmjkQ/viewform).
-Applications deadline: November 30, 2022.
+Applications deadline: September 1, 2022.
 ### Prizes
@@ -105,7 +105,7 @@ The course is evaluated according to a separate, publicly available lesson submi
 The application to the contest is performed via the [Google Form](https://docs.google.com/forms/d/e/1FAIpQLSdf2Q68X4hPnFE9f3EP95AxPNnzHKqIsFHtTRT6EBKiH93wzg/viewform) where the link to the video course should be attached.
-Applications deadline: November 30, 2022.
+Applications deadline: September 1, 2022.
 ### Prizes
--- a/docs/en/firmware.md
+++ b/docs/en/firmware.md
@@ -17,8 +17,6 @@ It is advisable to use a specialized build of PX4 with the necessary fixes and b
 </ul>
 </div>
 > **Warning** If you are using the firmware version older than *v1.10* (for example, `v1.8.2-clover.13`), then in order to avoid configuration errors, use [QGroundControl version *v4.2.0*](https://github.com/mavlink/qgroundcontrol/releases/tag/v4.2.0) (or older). See [detailed information](https://docs.px4.io/v1.11/en/config/battery.html#parameter-migration-notes) about changes in the firmware parameters that cause errors in newer versions of QGroundControl.
 <script type="text/javascript">
    // get latest release from GitHub
    fetch('https://api.github.com/repos/CopterExpress/Firmware/releases').then(function(res) {
--- a/docs/en/frames.md
+++ b/docs/en/frames.md
@@ -9,7 +9,6 @@ Main frames in the `clover` package:
 * `base_link` is rigidly bound to the drone. It is shown by the simplified drone model on the image above;
 * `body` is bound to the drone, but its Z axis points up regardless of the drone's pitch and roll. It is shown by the red, blue and green lines in the illustration;
 * <a name="navigate_target"></a>`navigate_target` is bound to the current navigation target (as set by the [navigate](simple_offboard.md#navigate) service);
 * `terrain` is bound to the floor at the current drone position (see the [set_altitude](simple_offboard.md#set_altitude) service);
 * `setpoint` is current position setpoint;
 * `main_camera_optical` is the coordinate system, [linked to the main camera](camera_setup.md#frame);
--- a/docs/en/liceu128.md
+++ b/docs/en/liceu128.md
@@ -1,45 +0,0 @@
 # "QCS" - the network of Clover charging stations
 [CopterHack-2023](copterhack2023.md), team **Lyceum 128**.
 ## Network realisation
 Our charging stations use Python web server created with Django framework. On that server we storage information about charging stations:
 - Position (GPS + ArUco marker).
 - Possibility to drone landing.
 - Drone info (If it's on it).
 To connect to server we use API with special personal key for every drone and station. It can be regenerated if secured key became public.
 If you want to test station without drone you can use API Debug page. You must be in your account to open it.
 ### Electronics in the station
 There are Arduino Mega and Wemos D1 on the station.
 ![scheme](https://github.com/Juli-Shvetsova/clover/assets/78372613/3ab05a79-0046-463b-83dd-4db06115909b)
 Wemos D1 connect with server to collect information, do tasks. Arduino Mega receive signals from Wemos and make physical updates such as moving landing platform, LED indication and other more.
 After completing mission Wemos send request to a server to confirm updates on the server.
 ## Clover flight
 We're using recursive landing algorithm to achieve success landing. Small ArUco marker is on the landing platform. Camera can use this marker on the ~25cm height. Next drone use standard landing.
 ## Visit our landing and API page
 [https://qcs.pythonanywhere.com/](https://qcs.pythonanywhere.com/)
 ## Source code
 Of that project is in our [GitHub page](https://github.com/qcs-charge/).
 ## Team
 CH2023, Lyceum 128.
 - Mikhail Konstantinov, [@mikemka](https://t.me/mikemka/), programmer.
 - Julia Shvecova, [@Juli_Phil](https://t.me/Juli_Phil/), science adviser.
 - Oleg Sherstobitov, [@kulumuluu](https://t.me/kulumuluu/), constructor.
--- a/Show More
+++ b/Show More
Author	SHA1	Message	Date
Oleg Kalachev	aa89077c23	Merge branch 'master' into terrain-frame	2022-10-13 00:08:46 +06:00
Oleg Kalachev	0d45b6cb7f	Allow setting Z with yaw=0	2022-10-12 23:07:25 +06:00
Oleg Kalachev	d61760a718	simple_offboard: add terrain frame	2022-09-23 00:30:42 +03:00