L

通过网盘分享的文件:FishBot_VMware
链接: https://pan.baidu.com/s/1tVDm_pWtZ0m1XENqSAKLUg?pwd=fish 提取码: fish
--来自百度网盘超级会员v2的分享

1、下载网盘里的文件
a7bb14e0-6876-44a9-8f4c-85dbf659b4ad-image.png

2、打开VMware-workstation-full-17.5.2-23775571.exe,一直点击下一步,安装VMware。在最后一步完成时输入密钥,密钥为VM全版本许可证密钥里的VMware-workstation 17的密钥。
安装完成之后桌面上会有如下图标
14992647-5f13-4378-9109-77fc5f6bdfbe-image.png

3、解压网盘里的镜像文件压缩包
095bca56-ce46-486a-9391-011741d79a3e-image.png

4、双击点开VMware,在文件里面打开解压得到的Ubuntu22_FishBot
0b899981-1ccb-407c-a92d-408630e63035-image.png
e3abc024-40da-49e5-808a-eff512aeda56-image.png

5、打开之后会弹出导入虚拟机的弹窗,给虚拟机起一个名字,安排合适的路径
5fa6ea21-667e-4f4d-b2ff-39312bace706-image.png

设置完之后点击导入

6、导入之后,在编辑虚拟机设置里面可以修改内存大小,直接点击“开启此虚拟机”进入fishros的虚拟机,密码ros
59a3a74d-ec21-460c-a176-21b54bb289d6-image.png

FishBot二驱机器人
1

主机无法接收到机器人的发送,通过tcpdump抓包,在主机向机器人发送数据时,两端都能够抓取到数据包,而机器人向主机发送时,仅在机器人端能够抓取到数据包。
想要完成在主机接受机身摄像头发布的图像数据,但是主机无法发现机器人发布的主题

社区运营
Q

安装mirco-ROS-Agent,colcon build时,出现如下错误

7fcd7191-e5ec-49f7-ad18-e878624fcd45-image.png

ROS2机器人开发:从入门到实践

我的系统是ubuntu20.04,用的ros是galactic,我在同步之前录制了一个bag包,包含6个相机和一个激光雷达的信息系,下面是bag包的相关信息:

c606@ubuntu:~/fyx/data_bag$ ros2 bag info rosbag2_2025_07_10-03_25_26 Files: rosbag2_2025_07_10-03_25_26_0.db3 Bag size: 2.4 GiB Storage id: sqlite3 Duration: 17.252s Start: Jul 10 2025 03:25:28.197 (1752143128.197) End: Jul 10 2025 03:25:45.450 (1752143145.450) Messages: 999 Topic information: Topic: /rslidar_points | Type: sensor_msgs/msg/PointCloud2 | Count: 173 | Serialization Format: cdr Topic: /camera1/pylon_ros2_camera_node/image_raw | Type: sensor_msgs/msg/Image | Count: 135 | Serialization Format: cdr Topic: /camera3/pylon_ros2_camera_node/image_raw | Type: sensor_msgs/msg/Image | Count: 137 | Serialization Format: cdr Topic: /camera2/pylon_ros2_camera_node/image_raw | Type: sensor_msgs/msg/Image | Count: 123 | Serialization Format: cdr Topic: /camera4/pylon_ros2_camera_node/image_raw | Type: sensor_msgs/msg/Image | Count: 144 | Serialization Format: cdr Topic: /camera5/pylon_ros2_camera_node/image_raw | Type: sensor_msgs/msg/Image | Count: 146 | Serialization Format: cdr Topic: /camera6/pylon_ros2_camera_node/image_raw | Type: sensor_msgs/msg/Image | Count: 141 | Serialization Format: cdr

接着我写了一个功能包,作用是接受相机和雷达的话题,将话题内容同步后再以话题的形式发送出去,在写好节点代码后,我先通过命令ros2 run sys_time sys_time_node开启节点,再通过ros2 bag record -o synced_bag /clock $(ros2 topic list | grep "synced")命令开启录制,最后通过ros2 bag play rosbag2_2025_07_10-03_25_26 --loop --clock --read-ahead-queue-size 10000命令播放原始bag包。

在播放bag包后我发现同步节点的回调函数没有被调用,结束录制命令后我通过rqt_bag synced_bag命令查看时间戳,发现没有时间戳,这证明同步未进行或者同步失败了。

下面是我同步节点的运行日志:
c606@ubuntu:~/fyx/e2e_ws$ ros2 run sys_time sys_time_node
[INFO] [1752477350.845923197] [multi_sensor_sync]: 🚀 多传感器同步节点已启动 (ApproximateTime策略)
[WARN] [1752477359.044116748] []: Messages of type 6 arrived out of order (will print only once)
[WARN] [1752477376.810937820] []: Messages of type 3 arrived out of order (will print only once)
[WARN] [1752477376.825926258] []: Messages of type 0 arrived out of order (will print only once)
[WARN] [1752477376.831166002] []: Messages of type 2 arrived out of order (will print only once)
[WARN] [1752477376.840478915] []: Messages of type 5 arrived out of order (will print only once)
[WARN] [1752477376.891147241] []: Messages of type 1 arrived out of order (will print only once)
[WARN] [1752477377.102514764] []: Messages of type 4 arrived out of order (will print only once)

下面是我的同步节点代码:

#include <rclcpp/rclcpp.hpp> #include <sensor_msgs/msg/image.hpp> #include <sensor_msgs/msg/point_cloud2.hpp> #include <message_filters/subscriber.h> #include <message_filters/synchronizer.h> #include <message_filters/sync_policies/approximate_time.h> using ImageMsg = sensor_msgs::msg::Image; using PointCloud2Msg = sensor_msgs::msg::PointCloud2; class MultiSensorSync : public rclcpp::Node { public: MultiSensorSync() : Node("multi_sensor_sync") { // 增强QoS配置 auto qos = rclcpp::SensorDataQoS() .keep_last(20) // 增大缓存队列 .reliable() // 可靠传输模式 .durability_volatile(); // 允许历史数据 initPublishers(qos); initSubscribersAndSync(qos); RCLCPP_INFO(this->get_logger(), "🚀 多传感器同步节点已启动 (ApproximateTime策略)"); } private: void initPublishers(const rclcpp::QoS& qos) { for (int i = 0; i < 6; ++i) { cam_pubs_.push_back( this->create_publisher<ImageMsg>("/camera" + std::to_string(i+1) + "/synced/image_raw", qos) ); } lidar_pub_ = this->create_publisher<PointCloud2Msg>("/rslidar_points/synced", qos); } void initSubscribersAndSync(const rclcpp::QoS& qos) { // 创建相机订阅器 for (int i = 0; i < 6; ++i) { cam_subs_.push_back( std::make_shared<message_filters::Subscriber<ImageMsg>>( this, "/camera" + std::to_string(i+1) + "/pylon_ros2_camera_node/image_raw", qos.get_rmw_qos_profile() ) ); } // 创建雷达订阅器 lidar_sub_ = std::make_shared<message_filters::Subscriber<PointCloud2Msg>>( this, "/rslidar_points", qos.get_rmw_qos_profile() ); // 配置ApproximateTime策略 using SyncPolicy = message_filters::sync_policies::ApproximateTime< ImageMsg, ImageMsg, ImageMsg, ImageMsg, ImageMsg, ImageMsg, PointCloud2Msg>; // 创建同步器(增大时间窗口) sync_ = std::make_shared<message_filters::Synchronizer<SyncPolicy>>( SyncPolicy(50), // 队列大小增至50 *cam_subs_[0], *cam_subs_[1], *cam_subs_[2], *cam_subs_[3], *cam_subs_[4], *cam_subs_[5], *lidar_sub_ ); // 注册回调并绑定生命周期 sync_->registerCallback( std::bind(&MultiSensorSync::syncCallback, this, std::placeholders::_1, std::placeholders::_2, std::placeholders::_3, std::placeholders::_4, std::placeholders::_5, std::placeholders::_6, std::placeholders::_7 ) ); } void syncCallback( const ImageMsg::ConstSharedPtr& cam1, const ImageMsg::ConstSharedPtr& cam2, const ImageMsg::ConstSharedPtr& cam3, const ImageMsg::ConstSharedPtr& cam4, const ImageMsg::ConstSharedPtr& cam5, const ImageMsg::ConstSharedPtr& cam6, const PointCloud2Msg::ConstSharedPtr& lidar) { // 使用第一个相机的时间戳作为基准 //const auto& base_stamp = cam1->header.stamp; const auto& base_stamp = lidar->header.stamp; // 发布所有相机数据(统一时间戳) publishWithStamp(cam_pubs_[0], cam1, base_stamp); publishWithStamp(cam_pubs_[1], cam2, base_stamp); publishWithStamp(cam_pubs_[2], cam3, base_stamp); publishWithStamp(cam_pubs_[3], cam4, base_stamp); publishWithStamp(cam_pubs_[4], cam5, base_stamp); publishWithStamp(cam_pubs_[5], cam6, base_stamp); // 发布雷达数据(统一时间戳) auto new_lidar = std::make_shared<PointCloud2Msg>(*lidar); new_lidar->header.stamp = base_stamp; lidar_pub_->publish(*new_lidar); // 修复时间戳访问方式 RCLCPP_INFO(this->get_logger(), "🔥 同步发布 @ %d.%09d", base_stamp.sec, base_stamp.nanosec); } void publishWithStamp(rclcpp::Publisher<ImageMsg>::SharedPtr pub, const ImageMsg::ConstSharedPtr& msg, const builtin_interfaces::msg::Time& stamp) { auto new_msg = std::make_shared<ImageMsg>(*msg); new_msg->header.stamp = stamp; pub->publish(*new_msg); } // 成员变量 std::vector<rclcpp::Publisher<ImageMsg>::SharedPtr> cam_pubs_; std::vector<std::shared_ptr<message_filters::Subscriber<ImageMsg>>> cam_subs_; rclcpp::Publisher<PointCloud2Msg>::SharedPtr lidar_pub_; std::shared_ptr<message_filters::Subscriber<PointCloud2Msg>> lidar_sub_; using SyncPolicy = message_filters::sync_policies::ApproximateTime< ImageMsg, ImageMsg, ImageMsg, ImageMsg, ImageMsg, ImageMsg, PointCloud2Msg>; std::shared_ptr<message_filters::Synchronizer<SyncPolicy>> sync_; }; int main(int argc, char** argv) { rclcpp::init(argc, argv); rclcpp::executors::MultiThreadedExecutor executor; auto node = std::make_shared<MultiSensorSync>(); executor.add_node(node); executor.spin(); rclcpp::shutdown(); return 0; }

最后还有一点,我录制的原始bag中相机和雷达的频率在10hz左右,下面是原始bag中的时间戳截图:
Screenshot from 2025-07-14 00-46-07.png

综合问题
A
rviz中Map no map received,没有接受到地图信息 目前发现是时间不一致导致的,问如何解决

20463530-d3c1-4bc8-b699-776cafed8f9d-image.png

rviz显示如下

8f421ede-a828-4232-a3b4-0ae7983716fe-image.png

rqt显示如下

3dcb6256-528d-483f-8a24-980a0329e5b0-image.png

查看 map 无数据输出 odom无相关话题

62e41c4b-f894-4f64-b0a6-5683e2b3e1bc-image.png

f468274a-ce94-4134-b849-ba15812a7b10-image.png

scan有输出

8aedd05c-c5b2-43da-91db-7c65337983a7-image.png
851cdefd-0755-4a22-beeb-0a5c4212a9fe-image.png

gazebo_sim.launch.py 代码 import launch import launch_ros from ament_index_python.packages import get_package_share_directory from launch.launch_description_sources import PythonLaunchDescriptionSource def generate_launch_description(): # 获取默认路径 robot_name_in_model = "fishbot" urdf_tutorial_path = get_package_share_directory('fishbot_description') default_model_path = urdf_tutorial_path + '/urdf/fishbot/firstbot.urdf.xacro' default_world_path = urdf_tutorial_path + '/world/custom_room.world' # 为 Launch 声明参数 action_declare_arg_mode_path = launch.actions.DeclareLaunchArgument( name='model', default_value=str(default_model_path), description='URDF 的绝对路径') # 获取文件内容生成新的参数 robot_description = launch_ros.parameter_descriptions.ParameterValue( launch.substitutions.Command( ['xacro ', launch.substitutions.LaunchConfiguration('model')]), value_type=str) robot_state_publisher_node = launch_ros.actions.Node( package='robot_state_publisher', executable='robot_state_publisher', parameters=[{'robot_description': robot_description}] ) # 通过 IncludeLaunchDescription 包含另外一个 launch 文件 launch_gazebo = launch.actions.IncludeLaunchDescription( PythonLaunchDescriptionSource([get_package_share_directory( 'gazebo_ros'), '/launch', '/gazebo.launch.py']), # 传递参数 launch_arguments=[('world', default_world_path),('verbose','true')] ) # 请求 Gazebo 加载机器人 spawn_entity_node = launch_ros.actions.Node( package='gazebo_ros', executable='spawn_entity.py', arguments=['-topic', '/robot_description', '-entity', robot_name_in_model, ]) # 加载并激活 fishbot_joint_state_broadcaster 控制器 load_joint_state_controller = launch.actions.ExecuteProcess( cmd=['ros2', 'control', 'load_controller', '--set-state', 'active', 'fishbot_joint_state_broadcaster'], output='screen' ) # 加载并激活 fishbot_effort_controller 控制器 load_fishbot_effort_controller = launch.actions.ExecuteProcess( cmd=['ros2', 'control', 'load_controller', '--set-state', 'active','fishbot_effort_controller'], output='screen') load_fishbot_diff_drive_controller = launch.actions.ExecuteProcess( cmd=['ros2', 'control', 'load_controller', '--set-state', 'active','fishbot_diff_drive_controller'], output='screen') return launch.LaunchDescription([ action_declare_arg_mode_path, robot_state_publisher_node, launch_gazebo, spawn_entity_node, # 事件动作,当加载机器人结束后执行 launch.actions.RegisterEventHandler( event_handler=launch.event_handlers.OnProcessExit( target_action=spawn_entity_node, on_exit=[load_joint_state_controller],) ), # 事件动作,load_fishbot_diff_drive_controller launch.actions.RegisterEventHandler( event_handler=launch.event_handlers.OnProcessExit( target_action=load_joint_state_controller, on_exit=[load_fishbot_diff_drive_controller],) ), ])
综合问题
W

42917dc4-86c4-4dce-9796-ecfb8cbe83f5-d0680705-af49-4751-90f3-d136d009ab53.png,出现了如下bug,怎么解决呢

动手学ROS2
3

导航时一跑地图就飘了怎么办

Nav2
Q
主题缩略图
综合问题
B

~/chapt4/chapt4_ws$ colcon build
Starting >>> chapt4_interfaces
--- stderr: chapt4_interfaces
CMake Error at /opt/ros/jazzy/share/rosidl_adapter/cmake/rosidl_adapt_interfaces.cmake:57 (message):
execute_process(/usr/bin/python3 -m rosidl_adapter --package-name
chapt4_interfaces --arguments-file
/home/zhaoyibo/chapt4/chapt4_ws/build/chapt4_interfaces/rosidl_adapter__arguments__chapt4_interfaces.json
--output-dir
/home/zhaoyibo/chapt4/chapt4_ws/build/chapt4_interfaces/rosidl_adapter/chapt4_interfaces
--output-file
/home/zhaoyibo/chapt4/chapt4_ws/build/chapt4_interfaces/rosidl_adapter/chapt4_interfaces.idls)
returned error code 1:

TypeError processing template 'srv.idl.em'

Traceback (most recent call last):

File "<frozen runpy>", line 198, in _run_module_as_main File "<frozen runpy>", line 88, in _run_code File "/opt/ros/jazzy/lib/python3.12/site-packages/rosidl_adapter/__main__.py", line 19, in <module> sys.exit(main()) ^^^^^^ File "/opt/ros/jazzy/lib/python3.12/site-packages/rosidl_adapter/main.py", line 53, in main abs_idl_file = convert_to_idl( ^^^^^^^^^^^^^^^ File "/opt/ros/jazzy/lib/python3.12/site-packages/rosidl_adapter/__init__.py", line 24, in convert_to_idl return convert_srv_to_idl( ^^^^^^^^^^^^^^^^^^^ File "/opt/ros/jazzy/lib/python3.12/site-packages/rosidl_adapter/srv/__init__.py", line 39, in convert_srv_to_idl expand_template('srv.idl.em', data, output_file, encoding='iso-8859-1') File "/opt/ros/jazzy/lib/python3.12/site-packages/rosidl_adapter/resource/__init__.py", line 29, in expand_template content = evaluate_template(template_name, data) ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ File "/opt/ros/jazzy/lib/python3.12/site-packages/rosidl_adapter/resource/__init__.py", line 65, in evaluate_template _interpreter = em( ^^^

TypeError: 'module' object is not callable

Call Stack (most recent call first):
/opt/ros/jazzy/share/rosidl_cmake/cmake/rosidl_generate_interfaces.cmake:132 (rosidl_adapt_interfaces)
CMakeLists.txt:13 (rosidl_generate_interfaces)

Failed <<< chapt4_interfaces [0.58s, exited with code 1]

ROS 2相关问题
7607541447

按照配套视频2.1.1节写代码,ctrl+c退出后生成日志:
[main:7]:Hello Python Node!
^CTraceback (most recent call last):
File "/home/aokawayou/chapt2/ros2_python_node.py", line 12, in <module>
main()
File "/home/aokawayou/chapt2/ros2_python_node.py", line 8, in main
rclpy.spin(node)
File "/opt/ros/humble/local/lib/python3.10/dist-packages/rclpy/init.py", line 226, in spin
executor.spin_once()
File "/opt/ros/humble/local/lib/python3.10/dist-packages/rclpy/executors.py", line 751, in spin_once
self._spin_once_impl(timeout_sec)
File "/opt/ros/humble/local/lib/python3.10/dist-packages/rclpy/executors.py", line 740, in _spin_once_impl
handler, entity, node = self.wait_for_ready_callbacks(timeout_sec=timeout_sec)
File "/opt/ros/humble/local/lib/python3.10/dist-packages/rclpy/executors.py", line 723, in wait_for_ready_callbacks
return next(self._cb_iter)
File "/opt/ros/humble/local/lib/python3.10/dist-packages/rclpy/executors.py", line 620, in _wait_for_ready_callbacks
wait_set.wait(timeout_nsec)
KeyboardInterrupt
然后ros2 node list显示为空,请问是怎么回事,问deepseek说是什么防火墙配置有问题,但按他生成的代码改还是会报错

ROS2机器人开发:从入门到实践
8

机械臂关节采用JointTrajectoryController控制器,但是运行时总是无法加载yaml文件中相关参数

controller_manager: ros__parameters: update_rate: 100 # Hz dm_joint_state_broadcaster: type: joint_state_broadcaster/JointStateBroadcaster dm_arm_controller: type: joint_trajectory_controller/JointTrajectoryController joints: - joint1 - joint2 - joint3 - joint4 - joint5 - joint6 command_interfaces: - position - velocity state_interfaces: - position - velocity action_name: follow_joint_trajectory interpolation_method: splines constraints: stopped_velocity_tolerance: 0.05 goal_time: 0.0 joint1: trajectory: 0.1 goal: 0.05 joint2: trajectory: 0.1 goal: 0.05 joint3: trajectory: 0.1 goal: 0.05 joint4: trajectory: 0.1 goal: 0.05 joint5: trajectory: 0.1 goal: 0.05 joint6: trajectory: 0.1 goal: 0.05 dm_hand_controller: type: joint_trajectory_controller/JointTrajectoryController joints: - joint7 command_interfaces: - position - velocity state_interfaces: - position - velocity action_name: follow_joint_trajectory interpolation_method: splines constraints: stopped_velocity_tolerance: 0.05 goal_time: 0.0 joint7: trajectory: 0.1 goal: 0.05

launch文件中加载参数

controller_manager_node = launch_ros.actions.Node( package='controller_manager', executable='ros2_control_node', name='controller_manager', parameters=[ {'robot_description': robot_description_value}, ros2_control_yaml_path ], output='screen' )

启动信息

[INFO] [launch]: All log files can be found below /home/hizaml/.ros/log/2025-07-09-22-24-00-351696-Hizam-82561 [INFO] [launch]: Default logging verbosity is set to INFO [INFO] [robot_state_publisher-1]: process started with pid [82563] [INFO] [rviz2-2]: process started with pid [82565] [INFO] [ros2_control_node-3]: process started with pid [82567] [robot_state_publisher-1] [INFO] [1752071040.539492469] [robot_state_publisher]: got segment base_link [robot_state_publisher-1] [INFO] [1752071040.539638296] [robot_state_publisher]: got segment dummy [robot_state_publisher-1] [INFO] [1752071040.539650469] [robot_state_publisher]: got segment link1 [robot_state_publisher-1] [INFO] [1752071040.539655158] [robot_state_publisher]: got segment link2 [robot_state_publisher-1] [INFO] [1752071040.539659015] [robot_state_publisher]: got segment link3 [robot_state_publisher-1] [INFO] [1752071040.539662822] [robot_state_publisher]: got segment link4 [robot_state_publisher-1] [INFO] [1752071040.539666589] [robot_state_publisher]: got segment link5 [robot_state_publisher-1] [INFO] [1752071040.539670186] [robot_state_publisher]: got segment link6 [robot_state_publisher-1] [INFO] [1752071040.539673713] [robot_state_publisher]: got segment link7_1 [robot_state_publisher-1] [INFO] [1752071040.539677460] [robot_state_publisher]: got segment link7_2 [robot_state_publisher-1] [INFO] [1752071040.539681137] [robot_state_publisher]: got segment link_hand [rviz2-2] QStandardPaths: wrong permissions on runtime directory /run/user/1000/, 0755 instead of 0700 [ros2_control_node-3] [WARN] [1752071040.549684168] [controller_manager]: [Deprecated] Passing the robot description parameter directly to the control_manager node is deprecated. Use '~/robot_description' topic from 'robot_state_publisher' instead. [ros2_control_node-3] [INFO] [1752071040.550035775] [resource_manager]: Loading hardware 'DmArmHardware' [ros2_control_node-3] [INFO] [1752071040.550712710] [resource_manager]: Initialize hardware 'DmArmHardware' [ros2_control_node-3] [INFO] [1752071040.550881711] [DmArmHardware]: 对了,对了!!!关节数为:7 [ros2_control_node-3] [INFO] [1752071040.553177870] [DmArmHardware]: hardware initialize successfully [ros2_control_node-3] [INFO] [1752071040.553246200] [resource_manager]: Successful initialization of hardware 'DmArmHardware' [ros2_control_node-3] [INFO] [1752071040.553414089] [resource_manager]: 'configure' hardware 'DmArmHardware' [ros2_control_node-3] [INFO] [1752071040.553424699] [resource_manager]: Successful 'configure' of hardware 'DmArmHardware' [ros2_control_node-3] [INFO] [1752071040.553430690] [resource_manager]: 'activate' hardware 'DmArmHardware' [ros2_control_node-3] [INFO] [1752071041.254576291] [DmArmHardware]: all motors enable successfully [ros2_control_node-3] [INFO] [1752071041.254646475] [resource_manager]: Successful 'activate' of hardware 'DmArmHardware' [ros2_control_node-3] [INFO] [1752071041.261977552] [controller_manager]: update rate is 100 Hz [ros2_control_node-3] [INFO] [1752071041.262037335] [controller_manager]: Spawning controller_manager RT thread with scheduler priority: 50 [ros2_control_node-3] [WARN] [1752071041.262176690] [controller_manager]: No real-time kernel detected on this system. See [https://control.ros.org/master/doc/ros2_control/controller_manager/doc/userdoc.html] for details on how to enable realtime scheduling. [rviz2-2] [INFO] [1752071043.449363084] [rviz2]: Stereo is NOT SUPPORTED [rviz2-2] [INFO] [1752071043.449661230] [rviz2]: OpenGl version: 4.2 (GLSL 4.2) [rviz2-2] [INFO] [1752071043.506870636] [rviz2]: Stereo is NOT SUPPORTED [INFO] [spawner-4]: process started with pid [82676] [ros2_control_node-3] [INFO] [1752071044.152492026] [controller_manager]: Loading controller 'dm_joint_state_broadcaster' [ros2_control_node-3] [WARN] [1752071044.157073422] [rcl.logging_rosout]: Publisher already registered for provided node name. If this is due to multiple nodes with the same name then all logs for that logger name will go out over the existing publisher. As soon as any node with that name is destructed it will unregister the publisher, preventing any further logs for that name from being published on the rosout topic. [spawner-4] [INFO] [1752071044.202711759] [spawner_dm_joint_state_broadcaster]: Loaded dm_joint_state_broadcaster [ros2_control_node-3] [INFO] [1752071044.206101538] [controller_manager]: Configuring controller 'dm_joint_state_broadcaster' [ros2_control_node-3] [INFO] [1752071044.206280608] [controller_manager]: 'joints' or 'interfaces' parameter is empty. All available state interfaces will be published [spawner-4] [INFO] [1752071044.244925844] [spawner_dm_joint_state_broadcaster]: Configured and activated dm_joint_state_broadcaster [INFO] [spawner-4]: process has finished cleanly [pid 82676] [INFO] [spawner-5]: process started with pid [82708] [ros2_control_node-3] [INFO] [1752071046.141788692] [controller_manager]: Loading controller 'dm_arm_controller' [ros2_control_node-3] [WARN] [1752071046.148223692] [rcl.logging_rosout]: Publisher already registered for provided node name. If this is due to multiple nodes with the same name then all logs for that logger name will go out over the existing publisher. As soon as any node with that name is destructed it will unregister the publisher, preventing any further logs for that name from being published on the rosout topic. [ros2_control_node-3] [WARN] [1752071046.163136248] [controller_manager]: [Deprecated]: "allow_nonzero_velocity_at_trajectory_end" is set to true. The default behavior will change to false. [spawner-5] [INFO] [1752071046.188710095] [spawner_dm_arm_controller]: Loaded dm_arm_controller [ros2_control_node-3] [INFO] [1752071046.190602551] [controller_manager]: Configuring controller 'dm_arm_controller' [ros2_control_node-3] [WARN] [1752071046.190727137] [controller_manager]: 'joints' parameter is empty. [ros2_control_node-3] [INFO] [1752071046.190740211] [controller_manager]: No specific joint names are used for command interfaces. Using 'joints' parameter. [ros2_control_node-3] [ERROR] [1752071046.190745992] [controller_manager]: 'command_interfaces' parameter is empty. [ros2_control_node-3] [ERROR] [1752071046.190754288] [controller_manager]: After configuring, controller 'dm_arm_controller' is in state 'unconfigured' , expected inactive. [spawner-5] [ERROR] [1752071046.191433815] [spawner_dm_arm_controller]: Failed to configure controller [ERROR] [spawner-5]: process has died [pid 82708, exit code 1, cmd '/opt/ros/humble/lib/controller_manager/spawner dm_arm_controller --controller-manager controller_manager --ros-args']. [INFO] [spawner-6]: process started with pid [82725] [ros2_control_node-3] [INFO] [1752071047.126284023] [controller_manager]: Loading controller 'dm_hand_controller' [ros2_control_node-3] [WARN] [1752071047.126583410] [rcl.logging_rosout]: Publisher already registered for provided node name. If this is due to multiple nodes with the same name then all logs for that logger name will go out over the existing publisher. As soon as any node with that name is destructed it will unregister the publisher, preventing any further logs for that name from being published on the rosout topic. [ros2_control_node-3] [WARN] [1752071047.140239527] [controller_manager]: [Deprecated]: "allow_nonzero_velocity_at_trajectory_end" is set to true. The default behavior will change to false. [spawner-6] [INFO] [1752071047.157263783] [spawner_dm_hand_controller]: Loaded dm_hand_controller [ros2_control_node-3] [INFO] [1752071047.159341579] [controller_manager]: Configuring controller 'dm_hand_controller' [ros2_control_node-3] [WARN] [1752071047.159564711] [controller_manager]: 'joints' parameter is empty. [ros2_control_node-3] [INFO] [1752071047.159711239] [controller_manager]: No specific joint names are used for command interfaces. Using 'joints' parameter. [ros2_control_node-3] [ERROR] [1752071047.159722059] [controller_manager]: 'command_interfaces' parameter is empty. [ros2_control_node-3] [ERROR] [1752071047.159741316] [controller_manager]: After configuring, controller 'dm_hand_controller' is in state 'unconfigured' , expected inactive. [spawner-6] [ERROR] [1752071047.160704752] [spawner_dm_hand_controller]: Failed to configure controller [ERROR] [spawner-6]: process has died [pid 82725, exit code 1, cmd '/opt/ros/humble/lib/controller_manager/spawner dm_hand_controller --controller-manager controller_manager --ros-args']. ^C[WARNING] [launch]: user interrupted with ctrl-c (SIGINT) [rviz2-2] [INFO] [1752071595.186616144] [rclcpp]: signal_handler(signum=2) [robot_state_publisher-1] [INFO] [1752071595.186621174] [rclcpp]: signal_handler(signum=2) [ros2_control_node-3] [INFO] [1752071595.186613069] [rclcpp]: signal_handler(signum=2) [ros2_control_node-3] [INFO] [1752071595.186994806] [controller_manager]: Shutdown request received.... [ros2_control_node-3] [INFO] [1752071595.187377965] [controller_manager]: Shutting down all controllers in the controller manager. [ros2_control_node-3] [INFO] [1752071595.187514445] [controller_manager]: Deactivating controller 'controller_manager' [ros2_control_node-3] [INFO] [1752071595.187616679] [controller_manager]: Shutting down controller 'controller_manager' [ros2_control_node-3] [INFO] [1752071595.187846415] [controller_manager]: Shutting down controller 'controller_manager' [ros2_control_node-3] [INFO] [1752071595.187911499] [controller_manager]: Shutting down controller 'controller_manager' [ros2_control_node-3] [INFO] [1752071595.188175932] [resource_manager]: 'deactivate' hardware 'DmArmHardware' [INFO] [robot_state_publisher-1]: process has finished cleanly [pid 82563] [INFO] [rviz2-2]: process has finished cleanly [pid 82565] [ros2_control_node-3] [INFO] [1752071595.889474691] [DmArmHardware]: all motors disable successfully [ros2_control_node-3] [INFO] [1752071595.889542410] [resource_manager]: Successful 'deactivate' of hardware 'DmArmHardware' [ros2_control_node-3] [INFO] [1752071595.889551787] [resource_manager]: 'shutdown' hardware 'DmArmHardware' [ros2_control_node-3] [INFO] [1752071595.889557699] [resource_manager]: Successful 'shutdown' of hardware 'DmArmHardware' [ros2_control_node-3] [INFO] [1752071595.889590281] [controller_manager]: Shutting down the controller manager. [INFO] [ros2_control_node-3]: process has finished cleanly [pid 82567]``` code_text
综合问题
J

通过电脑PC端和MobaXterm工具ssh连接Ubuntu22.04下的ROS2系统会导致运行的机器人的导航崩溃。
以下是报错打印信息:
r dropping message: frame 'camera_depth_frame' at time 1752048089.514 for reason 'the timestamp on the message is earlier than all the data in the transform cache'
Jul 09 00:01:30 localhost.localdomain bash[846]: [map.py-2] [controller_server-1] [INFO] [1752048090.733266201] [local_costmap.local_costmap]: Message Filter dropping message: frame 'camera_depth_frame' at time 1752048089.619 for reason 'the timestamp on the message is earlier than all the data in the transform cache'
Jul 09 00:01:30 localhost.localdomain bash[846]: [map.py-2] [controller_server-1] [INFO] [1752048090.833015331] [local_costmap.local_costmap]: Message Filter dropping message: frame 'camera_depth_frame' at time 1752048089.716 for reason 'the timestamp on the message is earlier than all the data in the transform cache'
Jul 09 00:01:30 localhost.localdomain bash[846]: [map.py-2] [controller_server-1] [INFO] [1752048090.878677101] [local_costmap.local_costmap]: Message Filter dropping message: frame 'camera_depth_frame' at time 1752048089.818 for reason 'the timestamp on the message is earlier than all the data in the transform cache'
Jul 09 00:01:31 localhost.localdomain bash[846]: [charging_manager.py-4] [INFO] [1752048091.431151796] [charging_manager]: 电池电量: 67.0%
Jul 09 00:01:31 localhost.localdomain bash[846]: [charging_manager.py-4] [INFO] [1752048091.433845382] [charging_manager]: 当前机器人状态: IDLE
Jul 09 00:01:31 localhost.localdomain bash[846]: [charging_manager.py-4] [INFO] [1752048091.438878256] [charging_manager]: 电池电量: 67.0%
Jul 09 00:01:31 localhost.localdomain bash[846]: [charging_manager.py-4] [INFO] [1752048091.440975554] [charging_manager]: 充电请求标志: False
Jul 09 00:01:31 localhost.localdomain bash[846]: [charging_manager.py-4] [INFO] [1752048091.443213488] [charging_manager]: 恢复请求标志: False
Jul 09 00:01:32 localhost.localdomain bash[846]: [localization_manager.py-3] [amcl-2] [INFO] [1752048092.257164954] [amcl]: Message Filter dropping message: frame 'laser_link' at time 1752048091.180 for reason 'the timestamp on the message is earlier than all the data in the transform cache'
Jul 09 00:01:32 localhost.localdomain bash[846]: [localization_manager.py-3] [lifecycle_manager-3] [INFO] [1752048092.278662931] [lifecycle_manager_localization]: Have not received a heartbeat from amcl.
Jul 09 00:01:32 localhost.localdomain bash[846]: [localization_manager.py-3] [lifecycle_manager-3] [ERROR] [1752048092.278842934] [lifecycle_manager_localization]: CRITICAL FAILURE: SERVER amcl IS DOWN after not receiving a heartbeat for 4000 ms. Shutting down related nodes.
Jul 09 00:01:32 localhost.localdomain bash[846]: [localization_manager.py-3] [lifecycle_manager-3] [INFO] [1752048092.278918293] [lifecycle_manager_localization]: Terminating bond timer...
Jul 09 00:01:32 localhost.localdomain bash[846]: [localization_manager.py-3] [lifecycle_manager-3] [INFO] [1752048092.278970490] [lifecycle_manager_localization]: Resetting managed nodes...
Jul 09 00:01:32 localhost.localdomain bash[846]: [localization_manager.py-3] [lifecycle_manager-3] [INFO] [1752048092.279018979] [lifecycle_manager_localization]: Deactivating amcl
Jul 09 00:01:32 localhost.localdomain bash[846]: [make_robot_pose.py-6] [INFO] [1752048092.409753588] [make_robot_pose]: TF Status:
Jul 09 00:01:32 localhost.localdomain bash[846]: [make_robot_pose.py-6] map -> odom: OK
Jul 09 00:01:32 localhost.localdomain bash[846]: [make_robot_pose.py-6] odom -> base_footprint: OK
Jul 09 00:01:32 localhost.localdomain bash[846]: [make_robot_pose.py-6] Last successful pose: 6.2s ago
Jul 09 00:01:32 localhost.localdomain bash[846]: [make_robot_pose.py-6] Consecutive timeouts: 0
Jul 09 00:01:33 localhost.localdomain bash[846]: [map.py-2] [lifecycle_manager-8] [INFO] [1752048093.083513167] [lifecycle_manager_navigation]: Have not received a heartbeat from controller_server.
Jul 09 00:01:33 localhost.localdomain bash[846]: [map.py-2] [lifecycle_manager-8] [ERROR] [1752048093.083654637] [lifecycle_manager_navigation]: CRITICAL FAILURE: SERVER controller_server IS DOWN after not receiving a heartbeat for 4000 ms. Shutting down related nodes.
Jul 09 00:01:33 localhost.localdomain bash[846]: [map.py-2] [lifecycle_manager-8] [INFO] [1752048093.083700544] [lifecycle_manager_navigation]: Terminating bond timer...
Jul 09 00:01:33 localhost.localdomain bash[846]: [map.py-2] [lifecycle_manager-8] [INFO] [1752048093.083733537] [lifecycle_manager_navigation]: Resetting managed nodes...
Jul 09 00:01:33 localhost.localdomain bash[846]: [map.py-2] [lifecycle_manager-8] [INFO] [1752048093.083766405] [lifecycle_manager_navigation]: Deactivating velocity_smoother
Jul 09 00:01:37 localhost.localdomain bash[846]: [map.py-2] [behavior_server-4] [WARN] [1752048097.340890566] [behavior_server]: Exceeded time allowance before reaching the DriveOnHeading goal - Exiting DriveOnHeading
Jul 09 00:01:37 localhost.localdomain bash[846]: [map.py-2] [behavior_server-4] [WARN] [1752048097.341021872] [behavior_server]: backup failed
Jul 09 00:01:37 localhost.localdomain bash[846]: [map.py-2] [behavior_server-4] [WARN] [1752048097.341065612] [behavior_server]: [backup] [ActionServer] Aborting handle.
Jul 09 00:01:37 localhost.localdomain bash[846]: [make_robot_pose.py-6] [INFO] [1752048097.410241699] [make_robot_pose]: TF Status:
Jul 09 00:01:37 localhost.localdomain bash[846]: [make_robot_pose.py-6] map -> odom: OK
Jul 09 00:01:37 localhost.localdomain bash[846]: [make_robot_pose.py-6] odom -> base_footprint: OK
Jul 09 00:01:37 localhost.localdomain bash[846]: [make_robot_pose.py-6] Last successful pose: 11.2s ago
Jul 09 00:01:37 localhost.localdomain bash[846]: [make_robot_pose.py-6] Consecutive timeouts: 0
Jul 09 00:01:42 localhost.localdomain bash[846]: [make_robot_pose.py-6] [INFO] [1752048102.411102926] [make_robot_pose]: TF Status:
Jul 09 00:01:42 localhost.localdomain bash[846]: [make_robot_pose.py-6] map -> odom: OK
Jul 09 00:01:42 localhost.localdomain bash[846]: [make_robot_pose.py-6] odom -> base_footprint: OK
Jul 09 00:01:42 localhost.localdomain bash[846]: [make_robot_pose.py-6] Last successful pose: 16.2s ago

ROS2机器人开发:从入门到实践
2

队列满(Queue is full):激光雷达消息产生速度超过 RViz 消息队列处理速度,导致队列溢出丢消息。
时间戳过期(Timestamp earlier):激光雷达消息时间戳早于 TF 变换缓存中的数据,无法找到对应坐标变换,所以丢弃。
use_sim_time看了下都是True
9251321e-c810-48f7-a391-3781cc9bacec-image.png
2c56dcc2-3fdf-4d47-8a4f-5cfb7fb84c46-image.png

学习资源
1

config的demo.launch后plan总是failed。编译都成功了,不知道为什么这个总是失败

综合问题
2

b96b6680-40e9-425c-ad94-826be8d0c082-8fcac261f63f6f452d8639840c18b0a.jpg
小鱼,请问一下最新的v1.8的板子排针按上后没有电信号也没有电流需要怎么激活呀

FishBot二驱机器人
3

Traceback (most recent call last):
File "/home/ebox12/connect_ws/install/time_communication/lib/time_communication/time_publisher", line 11, in <module>
load_entry_point('time-communication', 'console_scripts', 'time_publisher')()
File "/usr/lib/python3/dist-packages/pkg_resources/init.py", line 490, in load_entry_point
return get_distribution(dist).load_entry_point(group, name)
File "/usr/lib/python3/dist-packages/pkg_resources/init.py", line 2854, in load_entry_point
return ep.load()
File "/usr/lib/python3/dist-packages/pkg_resources/init.py", line 2445, in load
return self.resolve()
File "/usr/lib/python3/dist-packages/pkg_resources/init.py", line 2451, in resolve
module = import(self.module_name, fromlist=['name'], level=0)
File "/home/ebox12/connect_ws/build/time_communication/time_communication/time_publisher.py", line 4, in <module>
from time_communication.msg import TimeData
ModuleNotFoundError: No module named 'time_communication.msg'
daff6682-a791-405f-b75d-24080aa3f823-image.png
setup.py
a3c31ccf-6d6b-4dce-8e9f-5c010ede17d6-image.png
package.xml
74254411-83df-4f39-97da-03d00d3aae30-image.png
TimeData.msg
561a58d7-7430-4889-aa1a-eef0e00e28a4-image.png

ROS 2相关问题
T

现在我们的unitree g1机器人的ip为192.168.123.4,我么的自己的主机ip为192.168.123.123,二者通过网线连接,且可以相互ping通,两个主机都已经关闭了防火墙。
我们需要让192.168.123.4接收到来自192.168.123.123的topic,但是经过尝试,在192.168.123.123运行ros2 run demo_nodes_cpp talker; 在192.168.123.4运行ros2 run demo_nodes_cpp listener ,但是没有正常输出。关于二者的有关ROS的环境变量:

(g1) unitree@ubuntu:</del>/g1_deploy/g1$ printenv | grep ROS
ROS_VERSION=2
ROS_PYTHON_VERSION=3
ROS_DOMAIN_ID=42
ROS_LOCALHOST_ONLY=0
ROS_DISTRO=foxy
(base) franka@franka-HP-Z2-Tower-G9-Workstation-Desktop-PC:<del>/zjm/Livox-SDK2$ printenv | grep ROS
ROS_VERSION=2
ROS_PYTHON_VERSION=3
ROS_DOMAIN_ID=42
ROS_LOCALHOST_ONLY=0
ROS_DISTRO=foxy
想问问可能是什么原因导致192.168.123.123的topic无法正常被192.168.123.4订阅?

ROS 2相关问题
3

bf1756a2-d40f-4b21-a569-ee6c57dcdae4-image.png
69a479b5-ad4a-4ce2-aeaa-903134d37400-image.png
1ed41aac-79a1-43ad-94fa-1cd629c4a743-image.png
944d2d0f-0237-4ced-b347-489e5dc90f21-image.png

ROS 2相关问题
X

大佬们,请教一个问题,我的环境是ros1 noetic。我利用moveit进行运动规划;启动以后,在rviz中的motionplanning中的scene objects添加物体,publish出去以后。我进行运动规划的时候感觉并没有识别到我发布的这个物体。不知道是什么原因;是没有成功发布?还是发布的物体没有看来障碍物?还是需要什么其他的设置呢。

5c3c591c-a5c7-4745-b751-0f3ddd78725d-image.png

工具软件
5

《ROS 2机器人开发》书中114页通过节点修改参数,书里面讲述的例子是修改的模型这个参数,如果想修改检测次数upsample_times这个参数应该怎么做,我模仿书中修改模型model参数的例子写了但是不行,请教一下应该怎么办?
是不是SetParameters里面的integer_value不是检测次数
new_model_value.integer_value=int(detect_times)这一行应该是有问题,请教应该怎么修改。

import rclpy from rclpy.node import Node from chapt4_interfaces.srv import FaceDetector from sensor_msgs.msg import Image import cv2 from cv_bridge import CvBridge from rcl_interfaces.srv import SetParameters from rcl_interfaces.msg import Parameter,ParameterValue,ParameterType import time class FaceDetectorClient(Node): def __init__(self,node_name,image_path): super().__init__(node_name) self.client =self.create_client(FaceDetector,'face_detect') self.bridge=CvBridge() self.image_path=image_path self.image =cv2.imread(self.image_path) def send_request(self): while self.client.wait_for_service(timeout_sec=1) is False: self.get_logger().info('服务端未上线...') request=FaceDetector.Request() request.image=self.bridge.cv2_to_imgmsg(self.image) future=self.client.call_async(request) rclpy.spin_until_future_complete(self,future) response=future.result() self.get_logger().info(f'收到响应:图像共有:{response.number}张脸,耗时{response.use_time}') # self.show_face_location(response) def show_face_location(self,response): for i in range(response.number): top =response.top[i] right=response.right[i] bottom=response.bottom[i] left=response.left[i] cv2.rectangle(self.image,(left,top),(right,bottom),(0,0,255),2) cv2.imshow('人脸检测结果',self.image) cv2.waitKey(0) def call_set_parameter(self,parameters): update_param_client=self.create_client(SetParameters,'/face_detect_node/set_parameters') while update_param_client.wait_for_service(timeout_sec=1) is False: self.get_logger().info('等待参数更新服务端上线...') time.sleep(1.0) request=SetParameters.Request() request.parameters=parameters future=update_param_client.call_async(request) rclpy.spin_until_future_complete(self,future) response=future.result() return response def update_detect_model(self,model_name): param=Parameter() param.name='set_model' new_model_value=ParameterValue() new_model_value.type=ParameterType.PARAMETER_STRING new_model_value.string_value=model_name param.value=new_model_value response=self.call_set_parameter([param]) for result in response.results: if result.successful: self.get_logger().info(f'参数{param.name}设置为{model_name}') else: self.get_logger().info(f'参数设置失败,原因为{result.reason}') def update_detect_times(self,detect_times): param=Parameter() param.name='upsample_times' new_model_value=ParameterValue() new_model_value.type=ParameterType.PARAMETER_STRING new_model_value.integer_value=int(detect_times) param.value=new_model_value response=self.call_set_parameter([param]) for result in response.results: if result.successful: self.get_logger().info(f'参数{param.name}设置为{detect_times}') else: self.get_logger().info(f'参数设置失败,原因为{result.reason}') def main(args=None): rclpy.init(args=args) node=FaceDetectorClient('face_detect_client',image_path='/home/bonoit/Desktop/1.jpg') node.update_detect_model('cnn') node.send_request() node.update_detect_model('hog') node.send_request() detect_times=2 node.update_detect_times(detect_times) node.send_request() rclpy.spin(node) node.destroy_node() rclpy.shutdown()
ROS2机器人开发:从入门到实践
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    1

    主机无法接收到机器人的发送,通过tcpdump抓包,在主机向机器人发送数据时,两端都能够抓取到数据包,而机器人向主机发送时,仅在机器人端能够抓取到数据包。
    想要完成在主机接受机身摄像头发布的图像数据,但是主机无法发现机器人发布的主题

  • 446
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    L

    通过网盘分享的文件:FishBot_VMware
    链接: https://pan.baidu.com/s/1tVDm_pWtZ0m1XENqSAKLUg?pwd=fish 提取码: fish
    --来自百度网盘超级会员v2的分享

    1、下载网盘里的文件
    a7bb14e0-6876-44a9-8f4c-85dbf659b4ad-image.png

    2、打开VMware-workstation-full-17.5.2-23775571.exe,一直点击下一步,安装VMware。在最后一步完成时输入密钥,密钥为VM全版本许可证密钥里的VMware-workstation 17的密钥。
    安装完成之后桌面上会有如下图标
    14992647-5f13-4378-9109-77fc5f6bdfbe-image.png

    3、解压网盘里的镜像文件压缩包
    095bca56-ce46-486a-9391-011741d79a3e-image.png

    4、双击点开VMware,在文件里面打开解压得到的Ubuntu22_FishBot
    0b899981-1ccb-407c-a92d-408630e63035-image.png
    e3abc024-40da-49e5-808a-eff512aeda56-image.png

    5、打开之后会弹出导入虚拟机的弹窗,给虚拟机起一个名字,安排合适的路径
    5fa6ea21-667e-4f4d-b2ff-39312bace706-image.png

    设置完之后点击导入

    6、导入之后,在编辑虚拟机设置里面可以修改内存大小,直接点击“开启此虚拟机”进入fishros的虚拟机,密码ros
    59a3a74d-ec21-460c-a176-21b54bb289d6-image.png

  • 针对社区VIP用户问答专区

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    e1d744a8-c2f1-4092-a3c9-63c5000e7532-ccadef6b-38e3-4d46-a578-a643ddc21c77.png

    下面是我的代码
    import launch
    import launch_ros
    from ament_index_python.packages import get_package_share_directory
    import os
    import launch_ros.parameter_descriptions

    def generate_launch_description():
    urdf_package_path=get_package_share_directory('fishbot_description')
    default_urdf_path=os.path.join(urdf_package_path,'urdf','first_robot.urdf')

    action_declare_arg_mode_path=launch.actions.DeclareLaunchArgument( name='model',default_value=str(default_urdf_path),description='加载的模型文件路径' ) substitutions_result=launch.substitutions.Command(['cat ',launch.substitutions.launch_configuration('model')]) robot_description_value=launch_ros.parameter_descriptions.ParameterValue(substitutions_result,value_type=str) action_robot_state_publisher=launch_ros.actions.Node( package='robot_state_publisher', executable='robot_state_publisher', parameters=[{'robot_description':robot_description_value}] ) action_joint_state_publisher=launch_ros.actions.Node( package='joint_state_publisher', executable='joint_state_publisher', ) action_rviz_node=launch_ros.actions.Node( package='rviz2', executable='rviz2', ) return launch.launch_description([ action_declare_arg_mode_path, action_robot_state_publisher, action_joint_state_publisher, action_rviz_node, ])

  • 《ROS2机器人开发:从入门到实践》书籍配套资料答疑专区

    ROS 2相关问题
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    安装mirco-ROS-Agent,colcon build时,出现如下错误

    7fcd7191-e5ec-49f7-ad18-e878624fcd45-image.png

  • 综合问题讨论版块 | 版主 @吴凯荣 @小鱼

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    我的系统是ubuntu20.04,用的ros是galactic,我在同步之前录制了一个bag包,包含6个相机和一个激光雷达的信息系,下面是bag包的相关信息:

    c606@ubuntu:~/fyx/data_bag$ ros2 bag info rosbag2_2025_07_10-03_25_26 Files: rosbag2_2025_07_10-03_25_26_0.db3 Bag size: 2.4 GiB Storage id: sqlite3 Duration: 17.252s Start: Jul 10 2025 03:25:28.197 (1752143128.197) End: Jul 10 2025 03:25:45.450 (1752143145.450) Messages: 999 Topic information: Topic: /rslidar_points | Type: sensor_msgs/msg/PointCloud2 | Count: 173 | Serialization Format: cdr Topic: /camera1/pylon_ros2_camera_node/image_raw | Type: sensor_msgs/msg/Image | Count: 135 | Serialization Format: cdr Topic: /camera3/pylon_ros2_camera_node/image_raw | Type: sensor_msgs/msg/Image | Count: 137 | Serialization Format: cdr Topic: /camera2/pylon_ros2_camera_node/image_raw | Type: sensor_msgs/msg/Image | Count: 123 | Serialization Format: cdr Topic: /camera4/pylon_ros2_camera_node/image_raw | Type: sensor_msgs/msg/Image | Count: 144 | Serialization Format: cdr Topic: /camera5/pylon_ros2_camera_node/image_raw | Type: sensor_msgs/msg/Image | Count: 146 | Serialization Format: cdr Topic: /camera6/pylon_ros2_camera_node/image_raw | Type: sensor_msgs/msg/Image | Count: 141 | Serialization Format: cdr

    接着我写了一个功能包,作用是接受相机和雷达的话题,将话题内容同步后再以话题的形式发送出去,在写好节点代码后,我先通过命令ros2 run sys_time sys_time_node开启节点,再通过ros2 bag record -o synced_bag /clock $(ros2 topic list | grep "synced")命令开启录制,最后通过ros2 bag play rosbag2_2025_07_10-03_25_26 --loop --clock --read-ahead-queue-size 10000命令播放原始bag包。

    在播放bag包后我发现同步节点的回调函数没有被调用,结束录制命令后我通过rqt_bag synced_bag命令查看时间戳,发现没有时间戳,这证明同步未进行或者同步失败了。

    下面是我同步节点的运行日志:
    c606@ubuntu:~/fyx/e2e_ws$ ros2 run sys_time sys_time_node
    [INFO] [1752477350.845923197] [multi_sensor_sync]: 🚀 多传感器同步节点已启动 (ApproximateTime策略)
    [WARN] [1752477359.044116748] []: Messages of type 6 arrived out of order (will print only once)
    [WARN] [1752477376.810937820] []: Messages of type 3 arrived out of order (will print only once)
    [WARN] [1752477376.825926258] []: Messages of type 0 arrived out of order (will print only once)
    [WARN] [1752477376.831166002] []: Messages of type 2 arrived out of order (will print only once)
    [WARN] [1752477376.840478915] []: Messages of type 5 arrived out of order (will print only once)
    [WARN] [1752477376.891147241] []: Messages of type 1 arrived out of order (will print only once)
    [WARN] [1752477377.102514764] []: Messages of type 4 arrived out of order (will print only once)

    下面是我的同步节点代码:

    #include <rclcpp/rclcpp.hpp> #include <sensor_msgs/msg/image.hpp> #include <sensor_msgs/msg/point_cloud2.hpp> #include <message_filters/subscriber.h> #include <message_filters/synchronizer.h> #include <message_filters/sync_policies/approximate_time.h> using ImageMsg = sensor_msgs::msg::Image; using PointCloud2Msg = sensor_msgs::msg::PointCloud2; class MultiSensorSync : public rclcpp::Node { public: MultiSensorSync() : Node("multi_sensor_sync") { // 增强QoS配置 auto qos = rclcpp::SensorDataQoS() .keep_last(20) // 增大缓存队列 .reliable() // 可靠传输模式 .durability_volatile(); // 允许历史数据 initPublishers(qos); initSubscribersAndSync(qos); RCLCPP_INFO(this->get_logger(), "🚀 多传感器同步节点已启动 (ApproximateTime策略)"); } private: void initPublishers(const rclcpp::QoS& qos) { for (int i = 0; i < 6; ++i) { cam_pubs_.push_back( this->create_publisher<ImageMsg>("/camera" + std::to_string(i+1) + "/synced/image_raw", qos) ); } lidar_pub_ = this->create_publisher<PointCloud2Msg>("/rslidar_points/synced", qos); } void initSubscribersAndSync(const rclcpp::QoS& qos) { // 创建相机订阅器 for (int i = 0; i < 6; ++i) { cam_subs_.push_back( std::make_shared<message_filters::Subscriber<ImageMsg>>( this, "/camera" + std::to_string(i+1) + "/pylon_ros2_camera_node/image_raw", qos.get_rmw_qos_profile() ) ); } // 创建雷达订阅器 lidar_sub_ = std::make_shared<message_filters::Subscriber<PointCloud2Msg>>( this, "/rslidar_points", qos.get_rmw_qos_profile() ); // 配置ApproximateTime策略 using SyncPolicy = message_filters::sync_policies::ApproximateTime< ImageMsg, ImageMsg, ImageMsg, ImageMsg, ImageMsg, ImageMsg, PointCloud2Msg>; // 创建同步器(增大时间窗口) sync_ = std::make_shared<message_filters::Synchronizer<SyncPolicy>>( SyncPolicy(50), // 队列大小增至50 *cam_subs_[0], *cam_subs_[1], *cam_subs_[2], *cam_subs_[3], *cam_subs_[4], *cam_subs_[5], *lidar_sub_ ); // 注册回调并绑定生命周期 sync_->registerCallback( std::bind(&MultiSensorSync::syncCallback, this, std::placeholders::_1, std::placeholders::_2, std::placeholders::_3, std::placeholders::_4, std::placeholders::_5, std::placeholders::_6, std::placeholders::_7 ) ); } void syncCallback( const ImageMsg::ConstSharedPtr& cam1, const ImageMsg::ConstSharedPtr& cam2, const ImageMsg::ConstSharedPtr& cam3, const ImageMsg::ConstSharedPtr& cam4, const ImageMsg::ConstSharedPtr& cam5, const ImageMsg::ConstSharedPtr& cam6, const PointCloud2Msg::ConstSharedPtr& lidar) { // 使用第一个相机的时间戳作为基准 //const auto& base_stamp = cam1->header.stamp; const auto& base_stamp = lidar->header.stamp; // 发布所有相机数据(统一时间戳) publishWithStamp(cam_pubs_[0], cam1, base_stamp); publishWithStamp(cam_pubs_[1], cam2, base_stamp); publishWithStamp(cam_pubs_[2], cam3, base_stamp); publishWithStamp(cam_pubs_[3], cam4, base_stamp); publishWithStamp(cam_pubs_[4], cam5, base_stamp); publishWithStamp(cam_pubs_[5], cam6, base_stamp); // 发布雷达数据(统一时间戳) auto new_lidar = std::make_shared<PointCloud2Msg>(*lidar); new_lidar->header.stamp = base_stamp; lidar_pub_->publish(*new_lidar); // 修复时间戳访问方式 RCLCPP_INFO(this->get_logger(), "🔥 同步发布 @ %d.%09d", base_stamp.sec, base_stamp.nanosec); } void publishWithStamp(rclcpp::Publisher<ImageMsg>::SharedPtr pub, const ImageMsg::ConstSharedPtr& msg, const builtin_interfaces::msg::Time& stamp) { auto new_msg = std::make_shared<ImageMsg>(*msg); new_msg->header.stamp = stamp; pub->publish(*new_msg); } // 成员变量 std::vector<rclcpp::Publisher<ImageMsg>::SharedPtr> cam_pubs_; std::vector<std::shared_ptr<message_filters::Subscriber<ImageMsg>>> cam_subs_; rclcpp::Publisher<PointCloud2Msg>::SharedPtr lidar_pub_; std::shared_ptr<message_filters::Subscriber<PointCloud2Msg>> lidar_sub_; using SyncPolicy = message_filters::sync_policies::ApproximateTime< ImageMsg, ImageMsg, ImageMsg, ImageMsg, ImageMsg, ImageMsg, PointCloud2Msg>; std::shared_ptr<message_filters::Synchronizer<SyncPolicy>> sync_; }; int main(int argc, char** argv) { rclcpp::init(argc, argv); rclcpp::executors::MultiThreadedExecutor executor; auto node = std::make_shared<MultiSensorSync>(); executor.add_node(node); executor.spin(); rclcpp::shutdown(); return 0; }

    最后还有一点,我录制的原始bag中相机和雷达的频率在10hz左右,下面是原始bag中的时间戳截图:
    Screenshot from 2025-07-14 00-46-07.png

  • 机械臂力控板块 | 版主: @陆门马

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    24310882892

    400f79ff-8a2f-4584-b099-ffe7dbc31462.jpeg

    机械臂,遥操作+加力反馈,如何实现?

    遥操作:通过手柄,手机,或者任何形式的“遥控器”遥控机械臂的运动。最简单的形式就是以一个机械臂(主臂)遥控另一个机械臂(从臂)。

    力反馈:当从臂碰到障碍物时,主臂可以以力的形式感受到这个障碍物,所谓“感受”就是操作者感受到主臂的力。

    代码:https://gitee.com/qingqing-gaq/feel_force.git

    视频:https://www.bilibili.com/video/BV1KoEqzyEFR/?vd_source=36451ca805358187c4a0efa1c5694b35

    我的实现思路:
    软件:rso2
    硬件:双通道usb转can模块,六个达妙4310电机。

    六个电机,组成两个三自由度机械臂。一个can通道控制一个机械臂。

    大体逻辑:
    主臂时重力补偿模式,因为只有重力补偿才能任意拖动。主臂把实时的关节位置,发送给从臂,因此从臂必然是位置控制模式,这样才能跟踪主臂的位置。
    那么主臂如何感受从臂的力呢?这里就需要电机有力矩接口了(达妙电机的mit模式),当从臂电机受到阻力时,pid控制力就会变大,电机反馈会的力也会变大,这个变大的值就是阻力了。把这个力反馈给主臂即可。
    程序运行逻辑:
    23467808-ec76-44af-b4b5-f339ae8f85d4.png
    操作逻辑的代码:

    std::cout << "JointPositionControl::execute..............." << std::endl; //从对应的can接收线程中读取电机状态,并更新到机械臂类储存关节状态的变量(下面会用到)中 arm->update_current_joint_states();//一定要在get_current_joint_states()之前执行 arm2->update_current_joint_states();//一定要在get_current_joint_states()之前执行 //从机械臂类里返回储存关节状态的变量 const auto &curret_joint_states = arm->get_current_joint_states(); const auto &curret_joint_states2 = arm2->get_current_joint_states(); //根据当前的关节状态,计算逆动力学,进行重力补偿。 arm->computeInverseDynamics(arm->current_joint_positions, arm->current_joint_velocities, arm->current_joint_acceleration, arm->gravity_joint_tauqes); arm2->computeInverseDynamics(arm2->current_joint_positions, arm2->current_joint_velocities, arm2->current_joint_acceleration, arm2->gravity_joint_tauqes); std::vector<float> pos1(arm->getDof(), 0.0f); std::vector<float> pos2(arm->getDof(), 0.0f); std::vector<float> vel(arm->getDof(), 0.0f); std::vector<float> vel2(arm->getDof(), 0.0f); std::vector<float> tor(arm->getDof(), 0.0f); std::vector<float> tor2(arm2->getDof(), 0.0f); for (size_t i = 0; i < arm->getDof(); i++) { if(i==2) {//三号电机转向和模型相反,所以要单独加一个负号 tor[i] = -arm->gravity_joint_tauqes(i);//发送给主臂的重力补偿力矩 tor2[i] = -arm2->gravity_joint_tauqes(i);//发送给从臂的重力补偿力矩 } else { tor[i] = arm->gravity_joint_tauqes(i);//发送给主臂的重力补偿力矩 tor2[i] = arm2->gravity_joint_tauqes(i);//发送给主臂的重力补偿力矩 } //主臂的关节速度,发送给从臂 vel2[i] = 0.10 * curret_joint_states.at(i).velocity; // 系数越大手感越硬。 //主臂的关节位置,发送给从臂 pos2[i] = curret_joint_states.at(i).position; } float torque_threshold = 0.04f; // 设置阈值 //从臂受到的阻力,返回给主臂 for (size_t i = 0; i < arm->getDof(); i++) { if (std::abs(curret_joint_states2.at(i).torque) > torque_threshold) { tor[i] += -0.5 * (curret_joint_states2.at(i).torque - tor2[i]); // 如果超过阈值,按原逻辑计算 } else { tor[i] += 0.0f; // 否则赋值为 0 } } // pos2[0] = 0; tor2[0] = 0; arm->send_joint_states(pos1, vel, tor);//向主臂发送关节的状态 arm2->send_joint_states(pos2, vel2, tor2);//向从臂发送关节的状态

    其中:主臂位置发送给从臂的逻辑好理解。

    pos2[i] = curret_joint_states.at(i).position; //curret_joint_states.at(i).position:主臂的实时关节位置 //pos2[i]:发送给从臂的关节位置

    这一句是从臂的力矩反馈给主臂。有一步操作是从臂反馈的力矩减去了重力补偿力矩,这是因为,反馈的电机力矩是pid产生的。这个pid产生的控制力矩就包含重力力矩,如果把这个力也算上发送给主臂,那主臂就会变的很称,因为从臂把重力也传过来了。

    tor[i] += -0.5 * (curret_joint_states2.at(i).torque - tor2[i]); //tor[i]: 发送给主臂的关节力矩 //curret_joint_states2.at(i).torque:从臂电机反馈会来的力矩 //tor2[i]:发送给从臂的重力补偿力矩。 //-0.5:缩放系数

    这个if判断的作用是,避免从臂传来的力一直在小幅度波动,只有从臂反馈的力大于一个值,这个力才会被加载到主臂上。

    float torque_threshold = 0.04f; // 设置阈值 //从臂受到的阻力,返回给主臂 for (size_t i = 0; i < arm->getDof(); i++) { if (std::abs(curret_joint_states2.at(i).torque) > torque_threshold) { tor[i] += -0.5 * (curret_joint_states2.at(i).torque - tor2[i]); // 如果超过阈值,按原逻辑计算 } else { tor[i] += 0.0f; // 否则赋值为 0 } }

    这又是一个神奇的操作。就是让从臂有期望速度。作用就是会影响操作手感。

    vel2[i] = 0.10 * curret_joint_states.at(i).velocity; // 系数越大手感越硬。

    ok这就是整个的实现逻辑,非常简陋。

    程序框架简介:https://zwf9l1z0bm3.feishu.cn/docx/Ee3EdW8meoy79uxzBQVcXe11nfh?from=from_copylink
    qq交流群:523255719

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    @B21022328 解决了吗

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