在WSL下安装的Ubuntu 22.04，然后执行的一键安装指令，之后一路畅通，选择桌面版后安装过程中就突然蓝屏了。13a3acc9-7dbd-4b5e-8b3e-98359bab6bf3-image.png

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本文介绍轻擎2机械臂中实现控制末端刚度+阻尼的方法。
项目地址： https://gitee.com/qingqing-gaq/light_lift_arm_3dof.git
演示视频：【【开源】轻擎2；仿真不了一点，真男人就得上实物！！！】 https://www.bilibili.com/video/BV1RVPveRE1d/?share_source=copy_web&vd_source=54c454ce8d52dd206aad5a0bba0e3c2c

c++上位机中的模式的配置代码：

// AutoServo, //电机内部mit // ManualServo, //手动通过纯力矩控制电机 // Impdence, //阻抗 // Admittance, //导纳 // Gravity, //重力补偿 // JointAutoServo, //关节自动控制,注意要初始化关节位置 // Zero //设置零点 // Teach //示教 control_mode.modeTransition(State::Impdence); 首先说明我们要实现什么效果

刚度：物体的的软硬程度，弹簧就是这个词的最好例子。
阻尼：就是“丝滑”的程度，速度越大阻力越大，生活中有些门就有这个效果，为了防止“摔门”的情况，就加了个阻尼器。
惯性：这个好理解，大家也经常能体会到，她和加速度有关。但是在机械臂里（仅针对轻擎哈）就不太好实现，无论是加速度还是惯量都不太好获取。

所以源代码中所谓的“阻抗”仅仅是刚度阻尼控制，且是静态的。
最终效果就是让机械臂交互起来有“弹簧”和“阻尼器”的效果。还要注意的一点，这个方法不考虑环境的刚度，可以说是一个“开环”的力控制。

思路

1、有一个末端期望轨迹（或者一个点，这样效果更好些），和轨迹的速度。期望的刚度和阻尼。
2、正运动学实时计算末端的位置（三轴机械臂，只有位置），通过雅可比矩阵计算末端速度。
3、通过“期望-实际”的方法，计算实际的末端位置和期望的末端位置误差，以及速度误差。
4、有了误差就可以通过

力 = 刚度*位置误差 + 阻尼*速度误差

计算末端在有交互的情况下应该向外界产生多少力。
5、通过雅可比矩阵的把末端力映射到关节上，然后输入电机。

具体实现

1、
代码中的期望轨迹

arm_3dof.desir_end_efect_pos[0] = 0.21 + amplitude * sin(rate * realtime); arm_3dof.desir_end_efect_pos[1] = 0.0 + amplitude * cos(rate * realtime); arm_3dof.desir_end_efect_pos[2] = 0.0 + amplitude * cos(rate * realtime); arm_3dof.desir_end_efect_vel[0] = amplitude * rate * cos(rate * realtime); arm_3dof.desir_end_efect_vel[1] = -amplitude * rate * sin(rate * realtime); arm_3dof.desir_end_efect_vel[2] = -amplitude * rate * sin(rate * realtime); arm_3dof.desir_end_efect_acc[0] = -amplitude * rate * rate * sin(rate * realtime); arm_3dof.desir_end_efect_acc[1] = -amplitude * rate * rate * cos(rate * realtime); arm_3dof.desir_end_efect_acc[2] = -amplitude * rate * rate * cos(rate * realtime);

刚度40,阻尼8

arm.end_impedance_control(arm.desir_end_efect_pos, arm.desir_end_efect_vel, arm.current_joint_pos, arm.current_joint_vel, arm.joint_impedance_tau, 8.0, 40, end_force);

阻抗函数中的内容：
先计算雅可比矩阵：

//计算雅可比矩阵，q123都是关节的时是位置 J11 = -sin(q1) * (a2 * cos(q2) + a3 * cos(q2 + q3)); J21 = cos(q1) * (a2 * cos(q2) + a3 * cos(q2 + q3)); J31 = 0; J12 = -cos(q1) * (a2 * sin(q2) + a3 * sin(q2 + q3)); J22 = -sin(q1) * (a2 * sin(q2) + a3 * sin(q2 + q3)); J32 = a2 * cos(q2) + a3 * cos(q2 + q3); J13 = -a3 * cos(q1) * sin(q3 + q2); J23 = -a3 * sin(q1) * sin(q3 + q2); J33 = a3 * cos(q3 + q2);

2、
正运动学实时计算末端的位置和速度：

//当前的末端位置 X[0] = cos(q1) * (a2 * cos(q2) + a3 * cos(q2 + q3)); X[1] = sin(q1) * (a2 * cos(q2) + a3 * cos(q2 + q3)); X[2] = a2 * sin(q2) + a3 * sin(q2 + q3); // 当前的末端速度 dX[0] = current_joint_vel[0] * J11 + current_joint_vel[1] * J12 + current_joint_vel[2] * J13; dX[1] = current_joint_vel[0] * J21 + current_joint_vel[1] * J22 + current_joint_vel[2] * J23; dX[2] = current_joint_vel[0] * J31 + current_joint_vel[1] * J32 + current_joint_vel[2] * J33;

3、
末端位置误差，以及速度误差

// 末端误差 e[0] = X_desired[0] - X[0]; e[1] = X_desired[1] - X[1]; e[2] = X_desired[2] - X[2]; de[0] = desir_end_vel[0] - dX[0]; de[1] = desir_end_vel[1] - dX[1]; de[2] = desir_end_vel[2] - dX[2];

4、
计算末端在有交互的情况下应该向外界产生多少力

Fx = 2*c * de[0] + 9*k * e[0]; //x轴 Fy = 2*c * de[1] + 9*k * e[1]; //y轴 Fz = 2*c * de[2] + 9*k * e[2]; //z轴

5、
通过雅可比矩阵的把末端力映射到关节上

//映射到关节 joint_tor[0] = J11 * Fx + J21 * Fy + J31 * Fz; joint_tor[1] = J12 * Fx + J22 * Fy + J32 * Fz; joint_tor[2] = J13 * Fx + J23 * Fy + J33 * Fz;

因为是mit模式，所以如果想要只输入力矩，就需要把kpkd设置为0；

motor.kp[0] = 0; motor.kd[0] = 0.0; motor.kp[1] = 0; motor.kd[1] = 0.0; motor.kp[2] = 0; motor.kd[2] = 0.0; motor.ControlMotors_g(port, motor.desir_motor_pos, motor.desir_motor_vel, motor.kp, motor.kd, motor.motor_control_tau,//前面计算的各个关节的力矩 arm.desir_grp); 还有一些小细节

因为机械臂有重量，所以输入各个关节的力矩如果单纯是阻抗力的话，效果可能不太好，所以还需要加上重力补偿的力：

// 关节的控制力矩 = 重力补偿力矩 + 阻尼力矩 arm.joint_control_tau[0] = arm.joint_gravity_tau[0] + 1.0 * arm.joint_impedance_tau[0]; arm.joint_control_tau[1] = arm.joint_gravity_tau[1] + 1.0 * arm.joint_impedance_tau[1]; arm.joint_control_tau[2] = arm.joint_gravity_tau[2] + 1.0 * arm.joint_impedance_tau[2];

通过手动修改各个轴上的力可以实现不同轴的力效果，比如一个常值，或者0：

Fx = 2*c * de[0] + 9*k * e[0]; //x轴 Fy = 2*c * de[1] + 9*k * e[1]; //y轴 Fz = 1; //z轴 实话实说

算法很简单，效果也挺好（个人感觉）。
但是毕竟是电流环，也没力矩传感器，这个输出的力精度是没保证的，程序上输出1n，实际可能大点或小点。
当然也可以做电机的标定，机械臂的摩擦辨识。我嫌麻烦就没深入搞。
不同的轴向力的输出效果也略不同，这个可能跟摩擦和重力有关。

一键安装ROS1，始终换源失败 问题描述

我想在虚拟机Ubuntu18.04上安装ROS1，使用小鱼一键安装指令
wget http://fishros.com/install -O fishros && . fishros后，依次输入[1](一键安装ROS）、[1]（更换系统源再继续安装）、[2]（更换系统远并清理第三方源），随后一直换源失败。

具体日志 wget http://fishros.com/install -O fishros && . fishros --2025-02-26 19:35:16-- http://fishros.com/install Resolving fishros.com (fishros.com)... 47.119.165.169 Connecting to fishros.com (fishros.com)|47.119.165.169|:80... connected. HTTP request sent, awaiting response... 301 Moved Permanently Location: http://fishros.com/install/ [following] --2025-02-26 19:35:16-- http://fishros.com/install/ Reusing existing connection to fishros.com:80. HTTP request sent, awaiting response... 200 OK Length: 957 [application/octet-stream] Saving to: ‘fishros’ fishros 100%[===================>] 957 --.-KB/s in 0s 2025-02-26 19:35:16 (260 MB/s) - ‘fishros’ saved [957/957] [sudo] password for lu: Reading package lists... Done Building dependency tree Reading state information... Done python3-yaml is already the newest version (3.12-1build2). python3-distro is already the newest version (1.0.1-2). The following packages were automatically installed and are no longer required: gir1.2-goa-1.0 gir1.2-snapd-1 Use 'sudo apt autoremove' to remove them. 0 upgraded, 0 newly installed, 0 to remove and 1 not upgraded. --2025-02-26 19:35:20-- http://mirror.fishros.com/install/tools/base.py Resolving mirror.fishros.com (mirror.fishros.com)... 47.119.165.169 Connecting to mirror.fishros.com (mirror.fishros.com)|47.119.165.169|:80... connected. HTTP request sent, awaiting response... 200 OK Length: 51464 (50K) [application/octet-stream] Saving to: ‘/tmp/fishinstall//tools/base.py’ /tmp/fishinstall//t 100%[===================>] 50.26K 85.2KB/s in 0.6s 2025-02-26 19:35:21 (85.2 KB/s) - ‘/tmp/fishinstall//tools/base.py’ saved [51464/51464] Run CMD Task:[dpkg --print-architecture] [-][0.00s] CMD Result:success Run CMD Task:[wget http://mirror.fishros.com/install/tools/translation/translator.py -O /tmp/fishinstall//tools/translation/translator.py --no-check-certificate] [/][0.00s] --2025-02-26 19:35:22-- http://mirror.fishros.com/install/tools/tran[|][0.09s] Connecting to mirror.fishros.com (mirror.fishros.com)|47.119.165.169|[-][0.09s] CMD Result:success Run CMD Task:[wget http://mirror.fishros.com/install/tools/translation/assets/zh_CN.py -O /tmp/fishinstall//tools/translation/assets/zh_CN.py --no-check-certificate] [-][0.08s] CMD Result:success 169|:80... connected._CN.py Run CMD Task:[wget http://mirror.fishros.com/install/tools/translation/assets/en_US.py -O /tmp/fishinstall//tools/translation/assets/en_US.py --no-check-certificate] [-][0.08s] CMD Result:success 169|:80... connected._US.py Run CMD Task:[wget https://fishros.org.cn/forum/topic/1733 -O /tmp/t1733 -q --timeout 10 && rm -rf /tmp/t1733] [-][0.00s] CMD Result:success 已为您切换语言至当前所在国家语言:zh_CN 基础检查通过... =============================================================================== ======欢迎使用一键安装工具，人生苦短，三省吾身，省时省力省心!======= ======一键安装已开源，请放心使用：https://github.com/fishros/install ======= =============================================================================== .-~~~~~~~~~-._ _.-~~~~~~~~~-. __.' ~. .~ `.__ .'// 开卷有益 \./ 书山有路 \ `. .'// 可以多看看小鱼的文章 | 关注B站鱼香ROS机器人 \ `. .'// .-~~~~~~~~~~~~~~-._ | _,-~~~~~~~~~~~. \`. .'//.-" `-. | .-' "-.\`. .'//______.============-.. \ | / ..-============.______\`. .'______________________________\|/______________________________` ---------------------------------------------------------------------- RUN Choose Task:[请输入括号内的数字] ---众多工具，等君来用--- ROS相关: [1]:一键安装(推荐):ROS(支持ROS/ROS2,树莓派Jetson) [3]:一键安装:rosdep(小鱼的rosdepc,又快又好用) [4]:一键配置:ROS环境(快速更新ROS环境设置,自动生成环境选择) [9]:一键安装:Cartographer(18 20测试通过,16未测. updateTime 20240125) [11]:一键安装:ROS Docker版(支持所有版本ROS/ROS2) [16]:一键安装：系统自带ROS (！！警告！！仅供特殊情况下使用) 常用软件: [2]:一键安装:github桌面版(小鱼常用的github客户端) [6]:一键安装:NodeJS环境 [7]:一键安装:VsCode开发工具 [8]:一键安装:Docker [10]:一键安装:微信(可以在Linux上使用的微信) [12]:一键安装:PlateformIO MicroROS开发环境(支持Fishbot) [15]:一键安装：QQ for Linux 配置工具: [5]:一键配置:系统源(更换系统源,支持全版本Ubuntu系统) [13]:一键配置:python国内源 [17]:一键配置: Docker代理(支持VPN+代理服务两种模式) [0]:quit 请输入[]内的数字以选择:1 Run CMD Task:[wget http://mirror.fishros.com/install/tools/tool_install_ros.py -O /tmp/fishinstall/tools/tool_install_ros.py --no-check-certificate] [-][0.12s] CMD Result:success 169|:80... connected. Run CMD Task:[wget http://mirror.fishros.com/install/tools/tool_config_rosenv.py -O /tmp/fishinstall/tools/tool_config_rosenv.py --no-check-certificate] [-][0.07s] CMD Result:success 169|:80... connected. Run CMD Task:[wget http://mirror.fishros.com/install/tools/tool_config_system_source.py -O /tmp/fishinstall/tools/tool_config_system_source.py --no-check-certificate] [-][0.08s] CMD Result:success 169|:80... connected.urce.py 欢迎使用一键安装ROS和ROS2,支持树莓派Jetson,本工具由作者小鱼提供 欢迎使用ROS开箱子工具，本工具由[鱼香ROS]小鱼贡献.. 小鱼:检测当前系统ubuntu18.04:bionic 支持一键安装ROS =========接下来这一步很很很很重要，如果不知道怎么选请选择1======== RUN Choose Task:[请输入括号内的数字] 新手或首次安装一定要一定要一定要换源并清理三方源，换源!!!系统默认国外源容易失败!! [1]:更换系统源再继续安装 [2]:不更换继续安装 [0]:quit 请输入[]内的数字以选择:1 RUN Choose Task:[请输入括号内的数字] 请选择换源方式,如果不知道选什么请选2 [1]:仅更换系统源 [2]:更换系统源并清理第三方源 [0]:quit 请输入[]内的数字以选择:2 Run CMD Task:[sudo rm -rf /etc/apt/sources.list] [-][0.00s] CMD Result:success 删除一个资源文件 Run CMD Task:[sudo rm -rf /etc/apt/sources.list.d] [-][0.00s] CMD Result:success Run CMD Task:[sudo mkdir -p /etc/apt/sources.list.d] [-][0.00s] CMD Result:success Run CMD Task:[dpkg --print-architecture] [-][0.00s] CMD Result:success 检测到当前系统:ubuntu 架构:amd64 代号:bionic,正在为你搜索适合的源... 搜索到可用源:['https://mirrors.tuna.tsinghua.edu.cn/ubuntu', 'https://mirrors.ustc.edu.cn/ubuntu', 'https://archive.ubuntu.com/ubuntu', 'https://mirrors.kernel.org/ubuntu', 'http://mirrors.tuna.tsinghua.edu.cn/ubuntu', 'http://mirrors.ustc.edu.cn/ubuntu', 'http://archive.ubuntu.com/ubuntu', 'http://mirrors.kernel.org/ubuntu'] 接下来将进行自动测速以为您选择最快的源: - https://mirrors.tuna.tsinghua.edu.cn/ubuntu 延时:0.19s - https://mirrors.ustc.edu.cn/ubuntu 延时:0.73s - https://archive.ubuntu.com/ubuntu 超时 - https://mirrors.kernel.org/ubuntu 延时:0.72s - http://mirrors.tuna.tsinghua.edu.cn/ubuntu 延时:0.28s - http://mirrors.ustc.edu.cn/ubuntu 延时:0.09s - http://archive.ubuntu.com/ubuntu 超时 - http://mirrors.kernel.org/ubuntu 延时:0.71s 为您选择最快镜像源:http://mirrors.ustc.edu.cn/ubuntu 创建文件:/etc/apt/sources.list 替换镜像源完成，尝试进行更新.... Run CMD Task:[sudo apt update] [-][17.87s] CMD Result:code:100 se DEP-11 64x64 Icons [2,638 B] B] 更新失败，尝试更换其他源 Run CMD Task:[dpkg --print-architecture] [-][0.00s] CMD Result:success 检测到当前系统:ubuntu 架构:amd64 代号:bionic,正在为你搜索适合的源... 搜索到可用源:['https://mirrors.tuna.tsinghua.edu.cn/ubuntu', 'https://mirrors.ustc.edu.cn/ubuntu', 'https://archive.ubuntu.com/ubuntu', 'https://mirrors.kernel.org/ubuntu', 'http://mirrors.tuna.tsinghua.edu.cn/ubuntu', 'http://mirrors.ustc.edu.cn/ubuntu', 'http://archive.ubuntu.com/ubuntu', 'http://mirrors.kernel.org/ubuntu'] 接下来将进行自动测速以为您选择最快的源: - https://mirrors.tuna.tsinghua.edu.cn/ubuntu 延时:0.19s - https://mirrors.ustc.edu.cn/ubuntu 延时:0.06s - https://archive.ubuntu.com/ubuntu 超时 - https://mirrors.kernel.org/ubuntu 超时 - http://mirrors.tuna.tsinghua.edu.cn/ubuntu 延时:0.17s - http://mirrors.ustc.edu.cn/ubuntu 延时:0.06s - http://archive.ubuntu.com/ubuntu 超时 - http://mirrors.kernel.org/ubuntu 延时:0.68s 接下来为您排除已经失败的源 http://mirrors.ustc.edu.cn/ubuntu 已经测试失败，跳过! 为您选择最快镜像源:https://mirrors.ustc.edu.cn/ubuntu 创建文件:/etc/apt/sources.list Run CMD Task:[sudo apt update] [-][1.95s] CMD Result:code:100 ee 更新失败，尝试更换其他源 Run CMD Task:[dpkg --print-architecture] [-][0.00s] CMD Result:success 检测到当前系统:ubuntu 架构:amd64 代号:bionic,正在为你搜索适合的源... 搜索到可用源:['https://mirrors.tuna.tsinghua.edu.cn/ubuntu', 'https://mirrors.ustc.edu.cn/ubuntu', 'https://archive.ubuntu.com/ubuntu', 'https://mirrors.kernel.org/ubuntu', 'http://mirrors.tuna.tsinghua.edu.cn/ubuntu', 'http://mirrors.ustc.edu.cn/ubuntu', 'http://archive.ubuntu.com/ubuntu', 'http://mirrors.kernel.org/ubuntu'] 接下来将进行自动测速以为您选择最快的源: - https://mirrors.tuna.tsinghua.edu.cn/ubuntu 延时:0.19s - https://mirrors.ustc.edu.cn/ubuntu 延时:0.09s - https://archive.ubuntu.com/ubuntu 延时:2.16s - https://mirrors.kernel.org/ubuntu 延时:0.61s - http://mirrors.tuna.tsinghua.edu.cn/ubuntu 延时:0.25s - http://mirrors.ustc.edu.cn/ubuntu 延时:0.08s - http://archive.ubuntu.com/ubuntu 延时:1.71s - http://mirrors.kernel.org/ubuntu 延时:1.07s 接下来为您排除已经失败的源 http://mirrors.ustc.edu.cn/ubuntu 已经测试失败，跳过! https://mirrors.ustc.edu.cn/ubuntu 已经测试失败，跳过! 为您选择最快镜像源:https://mirrors.tuna.tsinghua.edu.cn/ubuntu 创建文件:/etc/apt/sources.list Run CMD Task:[sudo apt update] [-][20.50s] CMD Result:code:100 y/multiverse DEP-11 64x64 Icons [2,638 B] B] 更新失败，尝试更换其他源 Run CMD Task:[dpkg --print-architecture] [-][0.00s] CMD Result:success 检测到当前系统:ubuntu 架构:amd64 代号:bionic,正在为你搜索适合的源... 搜索到可用源:['https://mirrors.tuna.tsinghua.edu.cn/ubuntu', 'https://mirrors.ustc.edu.cn/ubuntu', 'https://archive.ubuntu.com/ubuntu', 'https://mirrors.kernel.org/ubuntu', 'http://mirrors.tuna.tsinghua.edu.cn/ubuntu', 'http://mirrors.ustc.edu.cn/ubuntu', 'http://archive.ubuntu.com/ubuntu', 'http://mirrors.kernel.org/ubuntu'] 接下来将进行自动测速以为您选择最快的源: - https://mirrors.tuna.tsinghua.edu.cn/ubuntu 延时:0.21s - https://mirrors.ustc.edu.cn/ubuntu 延时:0.06s - https://archive.ubuntu.com/ubuntu 延时:1.63s - https://mirrors.kernel.org/ubuntu 延时:0.99s - http://mirrors.tuna.tsinghua.edu.cn/ubuntu 延时:0.22s - http://mirrors.ustc.edu.cn/ubuntu 延时:0.71s - http://archive.ubuntu.com/ubuntu 延时:0.93s - http://mirrors.kernel.org/ubuntu 延时:0.63s 接下来为您排除已经失败的源 https://mirrors.ustc.edu.cn/ubuntu 已经测试失败，跳过! https://mirrors.tuna.tsinghua.edu.cn/ubuntu 已经测试失败，跳过! 为您选择最快镜像源:http://mirrors.tuna.tsinghua.edu.cn/ubuntu 创建文件:/etc/apt/sources.list Run CMD Task:[sudo apt update] [-][2.12s] CMD Result:code:100 InReleasee 更新失败，尝试更换其他源 Run CMD Task:[dpkg --print-architecture] [-][0.00s] CMD Result:success 检测到当前系统:ubuntu 架构:amd64 代号:bionic,正在为你搜索适合的源... 搜索到可用源:['https://mirrors.tuna.tsinghua.edu.cn/ubuntu', 'https://mirrors.ustc.edu.cn/ubuntu', 'https://archive.ubuntu.com/ubuntu', 'https://mirrors.kernel.org/ubuntu', 'http://mirrors.tuna.tsinghua.edu.cn/ubuntu', 'http://mirrors.ustc.edu.cn/ubuntu', 'http://archive.ubuntu.com/ubuntu', 'http://mirrors.kernel.org/ubuntu'] 接下来将进行自动测速以为您选择最快的源: - https://mirrors.tuna.tsinghua.edu.cn/ubuntu 延时:0.17s - https://mirrors.ustc.edu.cn/ubuntu 延时:0.07s - https://archive.ubuntu.com/ubuntu 延时:1.37s - https://mirrors.kernel.org/ubuntu 延时:0.66s - http://mirrors.tuna.tsinghua.edu.cn/ubuntu 延时:0.20s - http://mirrors.ustc.edu.cn/ubuntu 延时:0.06s - http://archive.ubuntu.com/ubuntu 超时 - http://mirrors.kernel.org/ubuntu 延时:0.59s 接下来为您排除已经失败的源 http://mirrors.ustc.edu.cn/ubuntu 已经测试失败，跳过! https://mirrors.ustc.edu.cn/ubuntu 已经测试失败，跳过! https://mirrors.tuna.tsinghua.edu.cn/ubuntu 已经测试失败，跳过! http://mirrors.tuna.tsinghua.edu.cn/ubuntu 已经测试失败，跳过! 为您选择最快镜像源:http://mirrors.kernel.org/ubuntu

后续该换源过程一直反复。请问各位应该怎么解决，非常感谢！

灵巧手的被动关节在仿真和控制过程中怎么配置，被动关节的角度和某一个主动关节的角度呈一定关系，可以通过公式推出

fca86c0363662a7541fef51e3d30219c.png

在b站跟随视频教程学习自定义通讯接口（【《ROS 2机器人开发从入门到实践》3.4.2自定义通信接口】 https://www.bilibili.com/video/BV1dTHgeeEPm/?share_source=copy_web&vd_source=1c2eea6feeef8f20a13d97bff76c2fa6）
遇到构建失败问题（报错如下），提示未找到依赖资源，但经查证依赖包已下载且无拼写错误（第二段）。网上并未找到类似情况，求大神指点

lens@lens-virtual-machine:~/work/capt3/topic_practice_ws$ colcon build
[0.235s] WARNING:colcon.colcon_core.package_identification:Failed to parse ROS package manifest in 'src/status_interfaces': Error(s) in package 'src/status_interfaces/package.xml':
Error(s):

The manifest of package "status_interfaces" (with format version 3) must not contain the following tags: menber_of_group
Starting >>> status_interfaces
--- stderr: status_interfaces
CMake Error at CMakeLists.txt:11 (find_package):
By not providing "Findrosidl_default_genterators.cmake" in
CMAKE_MODULE_PATH this project has asked CMake to find a package
configuration file provided by "rosidl_default_genterators", but CMake did
not find one.

Could not find a package configuration file provided by
"rosidl_default_genterators" with any of the following names:

rosidl_default_genteratorsConfig.cmake
rosidl_default_genterators-config.cmake

Add the installation prefix of "rosidl_default_genterators" to
CMAKE_PREFIX_PATH or set "rosidl_default_genterators_DIR" to a directory
containing one of the above files. If "rosidl_default_genterators"
provides a separate development package or SDK, be sure it has been
installed.

——————————————————————————————
查找依赖

lens@lens-virtual-machine:~/work/capt3/topic_practice_ws$ find /opt/ros -name "rosidl_default_generatorsConfig.cmake"
/opt/ros/humble/share/rosidl_default_generators/cmake/rosidl_default_generatorsConfig.cmake
——————————————————————————————

CMakeLists.txt文件内容

cmake_minimum_required(VERSION 3.8)
project(status_interfaces)

if(CMAKE_COMPILER_IS_GNUCXX OR CMAKE_CXX_COMPILER_ID MATCHES "Clang")
add_compile_options(-Wall -Wextra -Wpedantic)
endif()

find dependencies

find_package(ament_cmake REQUIRED)
find_package(builtin_interfaces REQUIRED)
find_package(rosidl_default_genterators REQUIRED)

rosidl_genterate_interfaces(${PROJECT_NAME}
"msg/SystemStatus.msg"
DEPENDENCIES builtin_interfaces
)

if(BUILD_TESTING)
find_package(ament_lint_auto REQUIRED)

the following line skips the linter which checks for copyrights comment the line when a copyright and license is added to all source files

set(ament_cmake_copyright_FOUND TRUE)

the following line skips cpplint (only works in a git repo) comment the line when this package is in a git repo and when a copyright and license is added to all source files

set(ament_cmake_cpplint_FOUND TRUE)
ament_lint_auto_find_test_dependencies()
endif()

ament_package()
——————————————————————————————

文件结构
93782442-3416-4453-a45b-3b68e848feab-图片.png

雷达节点正常启动，但是启动之后便会出现雷达超时的情况，不知道为什么？

f0078409-8463-44b5-b512-8e6b079fb69d-image.png

[Err] [RTShaderSystem.cc:480] Unable to find shader lib. Shader generating will fail. Your GAZEBO_RESOURCE_PATH is probably improperly set. Have you sourced <prefix>/share/gazebo/setup.bash?
[spawn_entity.py-4] [INFO] [1740479071.797195348] [spawn_entity]: Calling service /spawn_entity
[gzserver-2] [Msg] Loading world file [/home/jzx/chapt6/chapt6_ws/install/fishbot_description/share/fishbot_description/world/custom_room.world]
[gzserver-2] [Err] [RenderEngine.cc:197] Failed to initialize scene
[gzserver-2] gzserver: /usr/include/boost/smart_ptr/shared_ptr.hpp:728: typename boost::detail::sp_member_access<T>::type boost::shared_ptr<T>::operator->() const [with T = gazebo::rendering::Scene; typename boost::detail::sp_member_access<T>::type = gazebo::rendering::Scene*]: Assertion `px != 0' failed.
[gzclient-3] [Msg] Waiting for master.
[gzclient-3] [Msg] Connected to gazebo master @ http://127.0.0.1:11345
[gzclient-3] [Msg] Publicized address: 172.17.131.16
[gzclient-3] [Err] [RTShaderSystem.cc:480] Unable to find shader lib. Shader generating will fail. Your GAZEBO_RESOURCE_PATH is probably improperly set. Have you sourced <prefix>/share/gazebo/setup.bash?
[ERROR] [gzserver-2]: process has died [pid 6037, exit code -6, cmd 'gzserver /home/jzx/chapt6/chapt6_ws/install/fishbot_description/share/fishbot_description/world/custom_room.world --verbose -slibgazebo_ros_init.so -slibgazebo_ros_factory.so -slibgazebo_ros_force_system.so'].
[gzserver-2]
[gzclient-3] [Err] [Scene.cc:227] Service call[/shadow_caster_material_name] timed out
[gzclient-3] [Err] [Scene.cc:249] Service call[/shadow_caster_render_back_faces] timed out
[gzclient-3] [Err] [RenderEngine.cc:197] Failed to initialize scene
[gzclient-3] [Err] [GLWidget.cc:177] GLWidget could not create a scene. This will likely result in a blank screen.
[gzclient-3] gzclient: /usr/include/boost/smart_ptr/shared_ptr.hpp:728: typename boost::detail::sp_member_access<T>::type boost::shared_ptr<T>::operator->() const [with T = gazebo::rendering::Camera; typename boost::detail::sp_member_access<T>::type = gazebo::rendering::Camera*]: 断言 "px != 0" 失败。
[ERROR] [gzclient-3]: process has died [pid 6039, exit code -6, cmd 'gzclient --gui-client-plugin=libgazebo_ros_eol_gui.so --verbose'].
[gzclient-3]```
code_text

766a84a6-4962-4eb9-994d-3137d69c329a-image.png

41b705e1-936a-4ad6-83fd-23bbaf1c43a7-image.png

使用Cartographer建图后得到了一个pgm地图和yaml文件，其中origin为[-44.4, -50, 0],resolution为0.05，已经根据数据在地图中用红点标注出了坐标8b441b14-5819-47ae-b5ab-9bc9fc11435f-image.png
问题是，导航的时候Nav2将地图加载后，计算起始点和目标点之间坐标时，是基于哪个坐标系进行路径规划的，是origin，还是map原点还是别的？求解答

可以把我的模型简单地理解为一个风车。

我在旋转轴上加了一个 JointController 插件，通过 ros topic 发布速度以控制它的旋转。

但是现在这个 joint 并不旋转，而是连接的 child link 在旋转。

这导致了我无法通过 /tf 获取风车扇叶上某点的实时位置，我通过 /tf 或者 /static_tf 获取的都是静止的，没有旋转的扇叶点的三维坐标。

我在 Rviz2 里面观察我的风车也能看到，它没有在旋转。但是在 Gazebo 中能观察到旋转。

以下是我的 xacro 文件。我通过

robot_description = ParameterValue(Command(['xacro ', buff_model_path]), value_type=str) robot_state_publisher_node = Node( package='robot_state_publisher', executable='robot_state_publisher', parameters=[{'robot_description': robot_description}] ) joint_state_publisher_node = Node( package='joint_state_publisher', executable='joint_state_publisher', name='joint_state_publisher', parameters=[{'robot_description': robot_description}] ) spawn_entity_cmd = Node( package='ros_gz_sim', executable='create', arguments=['-name', 'buff', '-topic', 'robot_description', '-x', '0.0', '-y', '0.0', '-z', '0.0'], output='screen' )

将其发布到我的世界里。

<?xml version="1.0"?> <robot name="buff" xmlns:xacro="http://www.ros.org/wiki/xacro"> <xacro:property name="M_PI" value="3.1415926535"/> <xacro:property name="fan_arm_length" value="0.7"/> <gazebo> <plugin filename="gz-sim-joint-controller-system" name="gz::sim::systems::JointController"> <joint_name>base_horizon_base_axle</joint_name> <initial_velocity>1.0471975512</initial_velocity> <topic>/changeBuffSpeed</topic> </plugin> </gazebo> <xacro:macro name="base_cube" params="name a b c mass"> <link name="${name}"> <visual name="visual"> <geometry> <box size="${a} ${b} ${c}"/> </geometry> </visual> <collision name="collision"> <geometry> <box size="${a} ${b} ${c}"/> </geometry> </collision> <inertial> <mass value="${mass}"/> <origin rpy="0 0 0" xyz="0 0 0"/> <inertia ixx="${mass*(b*b + c*c)/12}" ixy="0" ixz="0" iyy="${mass*(a*a + c*c)/12}" iyz="0" izz="${mass*(a*a + b*b)/12}"/> </inertial> </link> <gazebo reference="${name}"> <material>Gazebo/Red</material> <!-- 修正重力标签语法 --> <gravity>true</gravity> </gazebo> </xacro:macro> <xacro:macro name="joint" params="parent child type xyz rpy"> <joint name="${parent}_${child}" type="${type}"> <parent link="${parent}"/> <child link="${child}"/> <origin xyz="${xyz}" rpy="${rpy}"/> <axis xyz="0 0 1"></axis> </joint> </xacro:macro> <xacro:macro name="base_cylinder" params="name radius length"> <link name="${name}"> <visual name="visual"> <geometry> <cylinder radius="${radius}" length="${length}"/> </geometry> </visual> <collision name="collision"> <geometry> <cylinder radius="${radius}" length="${length}"/> </geometry> </collision> <inertial> <mass value="1"/> <origin rpy="0 0 0" xyz="0 0 0"/> <inertia ixx="1e-6" ixy="0" ixz="0" iyy="1e-6" iyz="0" izz="1e-6"/> </inertial> </link> </xacro:macro> <xacro:macro name="withPNG_cylinder" params="name radius length mesh"> <link name="${name}"> <visual name="visual"> <geometry> <mesh filename="$(find sim)/model/${mesh}"/> </geometry> </visual> <collision name="collision_${name}"> <geometry> <cylinder radius="${radius}" length="${length}"/> </geometry> </collision> <inertial> <mass value="1"/> <origin rpy="0 0 0" xyz="0 0 0"/> <inertia ixx="1e-6" ixy="0" ixz="0" iyy="1e-6" iyz="0" izz="1e-6"/> </inertial> </link> </xacro:macro> <xacro:macro name="buff_fan" params="prefix reflect fan_id special"> <xacro:base_cube name="${prefix}_fan_arm_${fan_id}" a="${fan_arm_length}" b="0.050" c="0.04" mass="1.0"/> <xacro:base_cube name="${prefix}_fan_${fan_id}" a="0.372" b="0.372" c="0.05" mass="1.0"/> <xacro:withPNG_cylinder name="${prefix}_fan_hitArea_${fan_id}" radius="0.15" length="0.05" mesh="targets.dae"/> <xacro:joint parent="R_logo_${prefix}" child="${prefix}_fan_arm_${fan_id}" type="fixed" xyz="${-cos((fan_id-1)*72/180*M_PI)*fan_arm_length/2} ${-sin((fan_id-1)*72/180*M_PI)*fan_arm_length/2} ${special}" rpy="0 0 ${72*(fan_id-1)/180*M_PI}" /> <xacro:joint parent="${prefix}_fan_arm_${fan_id}" child="${prefix}_fan_${fan_id}" type="fixed" xyz="${-fan_arm_length/2} 0 0" rpy="0 0 0" /> <xacro:joint parent="${prefix}_fan_${fan_id}" child="${prefix}_fan_hitArea_${fan_id}" type="fixed" xyz="0 0 ${0.00001*reflect}" rpy="0 0 0"/> </xacro:macro> <xacro:base_cylinder name="base_axle" radius="0.008" length="0.2"/> <xacro:macro name="buff" params="prefix reflect"> <xacro:withPNG_cylinder name="R_logo_${prefix}" radius="0.106" length="0.05" mesh="R_logo.dae"/> <xacro:joint parent="base_axle" child="R_logo_${prefix}" type="fixed" xyz="0 0 ${reflect*0.1}" rpy="0 0 0"/> <xacro:buff_fan reflect="${reflect}" prefix="${prefix}" fan_id="1" special="0"/> <xacro:buff_fan reflect="${reflect}" prefix="${prefix}" fan_id="2" special="0"/> <xacro:buff_fan reflect="${reflect}" prefix="${prefix}" fan_id="3" special="0"/> <xacro:buff_fan reflect="${reflect}" prefix="${prefix}" fan_id="4" special="0"/> <xacro:buff_fan reflect="${reflect}" prefix="${prefix}" fan_id="5" special="0"/> </xacro:macro> <xacro:base_cube name="base" a="3.00" b="3.00" c="0.10" mass="9.0"/> <xacro:base_cube name="base_left" a="0.15" b="0.15" c="2.60" mass="1.0"/> <xacro:base_cube name="base_right" a="0.15" b="0.15" c="2.60" mass="1.0"/> <xacro:base_cube name="base_horizon" a="0.15" b="1.80" c="0.15" mass="1.0"/> <link name="world"/> <joint name="fixed" type="fixed"> <parent link="world"/> <child link="base"/> </joint> <xacro:joint parent="base" child="base_horizon" type="fixed" xyz="0 0.0 2.6" rpy="0 0 0"/> <xacro:joint parent="base_horizon" child="base_left" type="fixed" xyz="0 -0.9 -1.3" rpy="0 0 0"/> <xacro:joint parent="base_horizon" child="base_right" type="fixed" xyz="0 0.9 -1.3" rpy="0 0 0"/> <xacro:joint parent="base_horizon" child="base_axle" type="continuous" xyz="0 0.0 0.0" rpy="0 ${M_PI/2} 0"/> <xacro:buff prefix="front" reflect=" 1"/> <xacro:buff prefix="back" reflect="-1"/> </robot>

或者有什么别的插件可以获取扇叶点的实时位置吗？

CMake Error at CMakeLists.txt:15 (find_package):
By not providing "Findserial.cmake" in CMAKE_MODULE_PATH this project has
asked CMake to find a package configuration file provided by "serial", but
CMake did not find one.

Could not find a package configuration file provided by "serial" with any
of the following names:

serialConfig.cmake serial-config.cmake

Add the installation prefix of "serial" to CMAKE_PREFIX_PATH or set
"serial_DIR" to a directory containing one of the above files. If "serial"
provides a separate development package or SDK, be sure it has been
installed.

vmware那个版本下载不了了吗

我的配置助手里找不到端口怎么办 是需要在virtualbox设置什么吗

home/zztg/桌面/zztg_robot_node/src/Robot_SeeWorld.cpp: In member function ‘void CameraPublisherNode::timerCallback()’:
/home/zztg/桌面/zztg_robot_node/src/Robot_SeeWorld.cpp:47:28: error: no matching function for call to ‘rclcpp::Publisher<sensor_msgs::msg::Image_<std::allocator<void> > >::publish(sensor_msgs::msg::Image_<std::allocator<void> >::SharedPtr&)’
47 | image_pub_->publish(msg);
| ~~~~~~~~~~~~~~~^
In file included from /opt/ros/humble/include/rclcpp/rclcpp/topic_statistics/subscription_topic_statistics.hpp:31,
from /opt/ros/humble/include/rclcpp/rclcpp/subscription.hpp:50,
from /opt/ros/humble/include/rclcpp/rclcpp/any_executable.hpp:25,

感觉像是docker出错了，没能拉到合适的下载源
Unable to find image 'fishros2/ros:noetic-desktop-full' locally
docker: Error response from daemon: Get "https://registry-1.docker.io/v2/": net/http: request canceled while waiting for connection (Client.Timeout exceeded while awaiting headers)

Run 'docker run --help' for more information
Run CMD Task:[docker exec -it noetic1 /bin/bash -c "echo -e '
source /opt/ros/noetic/setup.bash' >> ~/.bashrc" ]
Error response from daemon: No such container: noetic1
Run CMD Task:[xhost +local:]
non-network local connections being added to access control list

0ca60c4698972232a8b3eb1a04321da.jpg
*

代码直接从gitee上拷贝的。

请基于ros的humble和opencv4.5.5版本写一份摄像头调用代码，并发布图像（C语言编写）

车子直线行驶 两个轮子转动圈数不同 并且有蜂鸣声响

https://fishros.com/d2lros2/#/humble/chapt16/10.控制速度-PID控制器实现
c8d4524a-f1e8-470d-847e-755bfcccda16-image.png
c63e26b4-a255-4e24-a53e-c6fa4a295703-image.png

https://gitee.com/qq724789975/rostest.git
car_platformio

教程中源码 打印
f2a54523-3fa7-4f8c-98f1-6778004a5e9c-image.png