目錄

Gazebo安裝配置

創(chuàng)建仿真環(huán)境?

仿真使用

Rviz查看攝像頭采集的信息

Kinect仿真

問(wèn)題解決：

1.gazebo--SpawnModel: Failure - model name mrobot already exists.

Gazebo安裝配置

1.設(shè)置你的電腦來(lái)接收軟件

sudo sh -c 'echo "deb http://packages.osrfoundation.org/gazebo/ubuntu-stable `lsb_release -cs` main" > /etc/apt/sources.list.d/gazebo-stable.list'

2.設(shè)置秘鑰

wget https://packages.osrfoundation.org/gazebo.key -O - | sudo apt-key add -

3.安裝Gazebo

sudo apt-get update
sudo apt-get install gazebo11
sudo apt-get install libgazebo11-dev

4.檢查你的安裝是否有效果=

gazebo

5.打開(kāi) /.gazebo文件夾 下載模型

cd ~/.gazebo
git clone https://github.com/osrf/gazebo_models

如果出現(xiàn)fatal連接GitHub失敗請(qǐng)使用以下代碼

git clone https://gitclone.com/github.com/osrf/gazebo_models

下載時(shí)間可能偏久，讀者可以選擇和我一樣另起終端進(jìn)行其他操作，等到需要使用場(chǎng)景模型的時(shí)候大概也已經(jīng)下載完成。?

6.其他關(guān)聯(lián)安裝包（不定時(shí)更新）

sudo apt-get install ros-noetic-rviz

sudo apt-get install ros-noetic-robot-state-publisher

sudo apt-get install ros-noetic-gazebo-ros-pkgs ros-noetic-gazebo-ros-control

sudo apt install ros-noetic-moveit

然后運(yùn)行安裝包索引

sudo apt-get update

接下來(lái)進(jìn)行機(jī)器人模型的搭建

機(jī)器人模型配置

首先進(jìn)入到mbot_description/urdf/xacro下

cd ~/catkin_ws/src/mbot_description/urdf/xacro
mkdir gazebo 
cd gazebo
sudo gedit mbot_base_gazebo.xacro

編輯模型文件

<?xml version="1.0"?>
<robot name="mbot" xmlns:xacro="http://www.ros.org/wiki/xacro">
<!--存放下面相關(guān)定義內(nèi)容-->
</robot>
    <!-- PROPERTY LIST -->
    <xacro:property name="M_PI" value="3.1415926"/>
    <xacro:property name="base_mass"   value="20" /> 
    <xacro:property name="base_radius" value="0.20"/>
    <xacro:property name="base_length" value="0.16"/>

    <xacro:property name="wheel_mass"   value="2" />
    <xacro:property name="wheel_radius" value="0.06"/>
    <xacro:property name="wheel_length" value="0.025"/>
    <xacro:property name="wheel_joint_y" value="0.19"/>
    <xacro:property name="wheel_joint_z" value="0.05"/>

    <xacro:property name="caster_mass"    value="0.5" /> 
    <xacro:property name="caster_radius"  value="0.015"/> <!-- wheel_radius - ( base_length/2 - wheel_joint_z) -->
    <xacro:property name="caster_joint_x" value="0.18"/>
    <!-- Defining the colors used in this robot -->
    <material name="yellow">
        <color rgba="1 0.4 0 1"/>
    </material>
    <material name="black">
        <color rgba="0 0 0 0.95"/>
    </material>
    <material name="gray">
        <color rgba="0.75 0.75 0.75 1"/>
    </material>
<!-- Macro for inertia matrix -->
    <xacro:macro name="sphere_inertial_matrix" params="m r">
        <inertial>
            <mass value="${m}" />
            <inertia ixx="${2*m*r*r/5}" ixy="0" ixz="0"
                iyy="${2*m*r*r/5}" iyz="0" 
                izz="${2*m*r*r/5}" />
        </inertial>
    </xacro:macro>
    <xacro:macro name="cylinder_inertial_matrix" params="m r h">
        <inertial>
            <mass value="${m}" />
            <inertia ixx="${m*(3*r*r+h*h)/12}" ixy = "0" ixz = "0"
                iyy="${m*(3*r*r+h*h)/12}" iyz = "0"
                izz="${m*r*r/2}" /> 
        </inertial>
    </xacro:macro>
 <!-- Macro for robot wheel -->
    <xacro:macro name="wheel" params="prefix reflect">
        <joint name="${prefix}_wheel_joint" type="continuous">
            <origin xyz="0 ${reflect*wheel_joint_y} ${-wheel_joint_z}" rpy="0 0 0"/>
            <parent link="base_link"/>
            <child link="${prefix}_wheel_link"/>
            <axis xyz="0 1 0"/>
        </joint>

        <link name="${prefix}_wheel_link">
            <visual>
                <origin xyz="0 0 0" rpy="${M_PI/2} 0 0" />
                <geometry>
                    <cylinder radius="${wheel_radius}" length = "${wheel_length}"/>
                </geometry>
                <material name="gray" />
            </visual>
              <!-- collision -->
              <!-- the same with visual -->
              <!--增加慣性屬性和碰撞屬性-->
            <collision>
                <origin xyz="0 0 0" rpy="${M_PI/2} 0 0" />  
                <geometry>
                    <cylinder radius="${wheel_radius}" length = "${wheel_length}"/>
                </geometry>
            </collision>
              <!-- inertial -->
            <cylinder_inertial_matrix  m="${wheel_mass}" r="${wheel_radius}" h="${wheel_length}" />             
        </link>
        <!--添加gazebo標(biāo)簽為各link配顏色 ，gazebo與rivz顏色設(shè)置不兼容-->
                     <!-- Add gazebo tag to link -->
        <gazebo reference="${prefix}_wheel_link">
            <material>Gazebo/Gray</material>          
        </gazebo>
        <!--joint添加傳動(dòng)裝置,用得 transmission 標(biāo)簽,小車輪子用速度控制接口-->
                <!-- Transmission is important to link the joints and the controller -->
        <transmission name="${prefix}_wheel_joint_trans">
            <type>transmission_interface/SimpleTransmission</type>
            <joint name="${prefix}_wheel_joint" >
                <hardwareInterface>hardware_interface/VelocityJointInterface</hardwareInterface>
            </joint>
            <actuator name="${prefix}_wheel_joint_motor">
                <hardwareInterface>hardware_interface/VelocityJointInterface</hardwareInterface>
                <mechanicalReduction>1</mechanicalReduction>
            </actuator>
        </transmission>
    </xacro:macro>
  <!-- Macro for robot caster -->
    <xacro:macro name="caster" params="prefix reflect">
        <joint name="${prefix}_caster_joint" type="continuous">
            <origin xyz="${reflect*caster_joint_x} 0 ${-(base_length/2 + caster_radius)}" rpy="0 0 0"/>
            <parent link="base_link"/>
            <child link="${prefix}_caster_link"/>
            <axis xyz="0 1 0"/>
        </joint>

        <link name="${prefix}_caster_link">
            <visual>
                <origin xyz="0 0 0" rpy="0 0 0"/>
                <geometry>
                    <sphere radius="${caster_radius}" />
                </geometry>
                <material name="black" />
            </visual>
                 <!-- 碰撞屬性 -->
            <collision>
                <origin xyz="0 0 0" rpy="0 0 0"/>
                <geometry>
                    <sphere radius="${caster_radius}" />
                </geometry>
            </collision>  
                 <!-- 慣性屬性 -->
            <sphere_inertial_matrix  m="${caster_mass}" r="${caster_radius}" />
        </link>
        <!--添加gazebo標(biāo)簽,為各link配顏色-->
        <gazebo reference="${prefix}_caster_link">
            <material>Gazebo/Black</material>
        </gazebo>
    </xacro:macro>
    <xacro:macro name="mbot_base_gazebo">
        <link name="base_footprint">
            <visual>
                <origin xyz="0 0 0" rpy="0 0 0" />
                <geometry>
                    <box size="0.001 0.001 0.001" />
                </geometry>
            </visual>
        </link>
           <!-- 給 base_footprint 添加標(biāo)簽 -->
        <gazebo reference="base_footprint">
            <turnGravityOff>false</turnGravityOff>
        </gazebo>

        <joint name="base_footprint_joint" type="fixed">
            <origin xyz="0 0 ${base_length/2 + caster_radius*2}" rpy="0 0 0" />        
            <parent link="base_footprint"/>
            <child link="base_link" />
        </joint>
        <!--base_link添加碰撞屬性和慣性屬性-->
                <link name="base_link">
            <visual>
                <origin xyz=" 0 0 0" rpy="0 0 0" />
                <geometry>
                    <cylinder length="${base_length}" radius="${base_radius}"/>
                </geometry>
                <material name="yellow" />
            </visual>
            <collision>
                <origin xyz=" 0 0 0" rpy="0 0 0" />
                <geometry>
                    <cylinder length="${base_length}" radius="${base_radius}"/>
                </geometry>
            </collision>   
            <cylinder_inertial_matrix  m="${base_mass}" r="${base_radius}" h="${base_length}" />
        </link>
        <!--base_link添加gazebo標(biāo)簽-->
        <gazebo reference="base_link">
            <material>Gazebo/Blue</material>
        </gazebo>
        <wheel prefix="left" reflect="-1"/> <!-- 調(diào)用驅(qū)動(dòng)輪子宏定義 -->
        <wheel prefix="right" reflect="1"/> <!-- 調(diào)用驅(qū)動(dòng)輪子宏定義 -->
        <caster prefix="front" reflect="-1"/> <!--調(diào)用支撐輪子宏定義-->
        <caster prefix="back" reflect="1"/> <!-- 調(diào)用支撐輪子宏定義 -->
    </xacro:macro>
        <!-- controller -->
        <gazebo>
            <plugin name="differential_drive_controller" 
                    filename="libgazebo_ros_diff_drive.so"> <!-- gazebo提供得差速控制器插件 -->
                    <!-- 控制器所需參數(shù) -->
                <rosDebugLevel>Debug</rosDebugLevel>
                <publishWheelTF>true</publishWheelTF>
                <robotNamespace>/</robotNamespace><!-- 機(jī)器人命名空間 訂閱和發(fā)布得話題 前面 會(huì)加上命名空間 /說(shuō)明沒(méi)有添加-->
                <publishTf>1</publishTf>
                <publishWheelJointState>true</publishWheelJointState>
                <alwaysOn>true</alwaysOn>
                <updateRate>100.0</updateRate>
                <legacyMode>true</legacyMode>
                <leftJoint>left_wheel_joint</leftJoint> <!-- 控制得joint在哪里，必須和上面得joint名稱一致 -->
                <rightJoint>right_wheel_joint</rightJoint><!-- 控制得joint在哪里，必須和上面得joint名稱一致 -->
                <wheelSeparation>${wheel_joint_y*2}</wheelSeparation><!-- 兩個(gè)輪子得間距 -->
                <wheelDiameter>${2*wheel_radius}</wheelDiameter>
                <broadcastTF>1</broadcastTF>
                <wheelTorque>30</wheelTorque>
                <wheelAcceleration>1.8</wheelAcceleration>
                <commandTopic>cmd_vel</commandTopic> <!-- 訂閱得話題：速度控制指令 -->
                <odometryFrame>odom</odometryFrame> 
                <odometryTopic>odom</odometryTopic> <!-- 發(fā)布里程計(jì)信息 -->
                <robotBaseFrame>base_footprint</robotBaseFrame><!-- 設(shè)置controler所控制的機(jī)器人的坐標(biāo)系是哪個(gè)坐標(biāo)系 -->
            </plugin>
        </gazebo> 

再編輯mbot_gazebo.xacro

<?xml version="1.0"?>
<robot name="arm" xmlns:xacro="http://www.ros.org/wiki/xacro">
    <xacro:include filename="$(find mbot_description)/urdf/xacro/gazebo/mbot_base_gazebo.xacro" /> <!-- 包含文件 -->
    <mbot_base_gazebo/>    <!-- 調(diào)用宏定義 -->
</robot>

編輯launch文件

cd ~/catkin_ws/src/mbot_description/launch/xacro
mkdir gazebo
cd gazebo
sudo gedit mbot_base_gazebo.launch

<launch>

    <!-- 設(shè)置launch文件的參數(shù) -->
    <arg name="paused" default="false"/>
    <arg name="use_sim_time" default="true"/>
    <arg name="gui" default="true"/>
    <arg name="headless" default="false"/>
    <arg name="debug" default="false"/>

    <!-- 運(yùn)行g(shù)azebo仿真環(huán)境 -->
    <include file="$(find gazebo_ros)/launch/empty_world.launch">
        <arg name="debug" value="$(arg debug)" />
        <arg name="gui" value="$(arg gui)" />
        <arg name="paused" value="$(arg paused)"/>
        <arg name="use_sim_time" value="$(arg use_sim_time)"/>
        <arg name="headless" value="$(arg headless)"/>
    </include>

    <!-- 加載機(jī)器人模型描述參數(shù) -->
    <param name="robot_description" command="$(find xacro)/xacro --inorder '$(find mbot_description)/urdf/xacro/gazebo/mbot_gazebo.xacro'" /> 

    <!-- 運(yùn)行joint_state_publisher節(jié)點(diǎn)，發(fā)布機(jī)器人的關(guān)節(jié)狀態(tài)  -->
    <node name="joint_state_publisher" pkg="joint_state_publisher" type="joint_state_publisher" ></node> 

    <!-- 運(yùn)行robot_state_publisher節(jié)點(diǎn)，發(fā)布tf  -->
    <node name="robot_state_publisher" pkg="robot_state_publisher" type="robot_state_publisher"  output="screen" >
        <param name="publish_frequency" type="double" value="50.0" />
    </node>

    <!-- 在gazebo中加載機(jī)器人模型-->
    <node name="urdf_spawner" pkg="gazebo_ros" type="spawn_model" respawn="false" output="screen"
          args="-urdf -model mrobot -param robot_description"/> 
</launch>

配置完成后運(yùn)行顯示模型

roslaunch mbot_description mbot_base_gazebo.launch

注意

由于Ubuntu20.04對(duì)應(yīng)的ros版本為noetic，所以xacro模型文件的宏定義和宏調(diào)用方式都需要更改

Ubuntu20.04的mbot_base_gazebo.xacro文件對(duì)應(yīng)的內(nèi)容如下

<?xml version="1.0"?>
<robot name="mbot" xmlns:xacro="http://www.ros.org/wiki/xacro">

    <!-- PROPERTY LIST -->
    <xacro:property name="M_PI" value="3.1415926"/>
    <xacro:property name="base_mass"   value="20" /> 
    <xacro:property name="base_radius" value="0.20"/>
    <xacro:property name="base_length" value="0.16"/>

    <xacro:property name="wheel_mass"   value="2" />
    <xacro:property name="wheel_radius" value="0.06"/>
    <xacro:property name="wheel_length" value="0.025"/>
    <xacro:property name="wheel_joint_y" value="0.19"/>
    <xacro:property name="wheel_joint_z" value="0.05"/>

    <xacro:property name="caster_mass"    value="0.5" /> 
    <xacro:property name="caster_radius"  value="0.015"/> <!-- wheel_radius - ( base_length/2 - wheel_joint_z) -->
    <xacro:property name="caster_joint_x" value="0.18"/>

    <!-- Defining the colors used in this robot -->
    <material name="yellow">
        <color rgba="1 0.4 0 1"/>
    </material>
    <material name="black">
        <color rgba="0 0 0 0.95"/>
    </material>
    <material name="gray">
        <color rgba="0.75 0.75 0.75 1"/>
    </material>
    
    <!-- Macro for inertia matrix -->
    <xacro:macro name="sphere_inertial_matrix" params="m r">
        <inertial>
            <mass value="${m}" />
            <inertia ixx="${2*m*r*r/5}" ixy="0" ixz="0"
                iyy="${2*m*r*r/5}" iyz="0" 
                izz="${2*m*r*r/5}" />
        </inertial>
    </xacro:macro>

    <xacro:macro name="cylinder_inertial_matrix" params="m r h">
        <inertial>
            <mass value="${m}" />
            <inertia ixx="${m*(3*r*r+h*h)/12}" ixy = "0" ixz = "0"
                iyy="${m*(3*r*r+h*h)/12}" iyz = "0"
                izz="${m*r*r/2}" /> 
        </inertial>
    </xacro:macro>

    <!-- Macro for robot wheel -->
    <xacro:macro name="wheel" params="prefix reflect">
        <joint name="${prefix}_wheel_joint" type="continuous">
            <origin xyz="0 ${reflect*wheel_joint_y} ${-wheel_joint_z}" rpy="0 0 0"/>
            <parent link="base_link"/>
            <child link="${prefix}_wheel_link"/>
            <axis xyz="0 1 0"/>
        </joint>

        <link name="${prefix}_wheel_link">
            <visual>
                <origin xyz="0 0 0" rpy="${M_PI/2} 0 0" />
                <geometry>
                    <cylinder radius="${wheel_radius}" length = "${wheel_length}"/>
                </geometry>
                <material name="gray" />
            </visual>
            <collision>
                <origin xyz="0 0 0" rpy="${M_PI/2} 0 0" />
                <geometry>
                    <cylinder radius="${wheel_radius}" length = "${wheel_length}"/>
                </geometry>
            </collision>
            <xacro:cylinder_inertial_matrix  m="${wheel_mass}" r="${wheel_radius}" h="${wheel_length}" />
        </link>

        <gazebo reference="${prefix}_wheel_link">
            <material>Gazebo/Gray</material>
        </gazebo>

        <!-- Transmission is important to link the joints and the controller -->
        <transmission name="${prefix}_wheel_joint_trans">
            <type>transmission_interface/SimpleTransmission</type>
            <joint name="${prefix}_wheel_joint" >
                <hardwareInterface>hardware_interface/VelocityJointInterface</hardwareInterface>
            </joint>
            <actuator name="${prefix}_wheel_joint_motor">
                <hardwareInterface>hardware_interface/VelocityJointInterface</hardwareInterface>
                <mechanicalReduction>1</mechanicalReduction>
            </actuator>
        </transmission>
    </xacro:macro>

    <!-- Macro for robot caster -->
    <xacro:macro name="caster" params="prefix reflect">
        <joint name="${prefix}_caster_joint" type="continuous">
            <origin xyz="${reflect*caster_joint_x} 0 ${-(base_length/2 + caster_radius)}" rpy="0 0 0"/>
            <parent link="base_link"/>
            <child link="${prefix}_caster_link"/>
            <axis xyz="0 1 0"/>
        </joint>

        <link name="${prefix}_caster_link">
            <visual>
                <origin xyz="0 0 0" rpy="0 0 0"/>
                <geometry>
                    <sphere radius="${caster_radius}" />
                </geometry>
                <material name="black" />
            </visual>
            <collision>
                <origin xyz="0 0 0" rpy="0 0 0"/>
                <geometry>
                    <sphere radius="${caster_radius}" />
                </geometry>
            </collision>      
            <xacro:sphere_inertial_matrix  m="${caster_mass}" r="${caster_radius}" />
        </link>

        <gazebo reference="${prefix}_caster_link">
            <material>Gazebo/Black</material>
        </gazebo>
    </xacro:macro>

    <xacro:macro name="mbot_base_gazebo">
        <link name="base_footprint">
            <visual>
                <origin xyz="0 0 0" rpy="0 0 0" />
                <geometry>
                    <box size="0.001 0.001 0.001" />
                </geometry>
            </visual>
        </link>
        <gazebo reference="base_footprint">
            <turnGravityOff>false</turnGravityOff>
        </gazebo>

        <joint name="base_footprint_joint" type="fixed">
            <origin xyz="0 0 ${base_length/2 + caster_radius*2}" rpy="0 0 0" />        
            <parent link="base_footprint"/>
            <child link="base_link" />
        </joint>

        <link name="base_link">
            <visual>
                <origin xyz=" 0 0 0" rpy="0 0 0" />
                <geometry>
                    <cylinder length="${base_length}" radius="${base_radius}"/>
                </geometry>
                <material name="yellow" />
            </visual>
            <collision>
                <origin xyz=" 0 0 0" rpy="0 0 0" />
                <geometry>
                    <cylinder length="${base_length}" radius="${base_radius}"/>
                </geometry>
            </collision>   
            <xacro:cylinder_inertial_matrix  m="${base_mass}" r="${base_radius}" h="${base_length}" />
        </link>

        <gazebo reference="base_link">
            <material>Gazebo/Blue</material>
        </gazebo>

        <xacro:wheel prefix="left"  reflect="-1"/>
        <xacro:wheel prefix="right" reflect="1"/>

        <xacro:caster prefix="front" reflect="-1"/>
        <xacro:caster prefix="back"  reflect="1"/>

        <!-- controller -->
        <gazebo>
            <plugin name="differential_drive_controller" 
                    filename="libgazebo_ros_diff_drive.so">
                <rosDebugLevel>Debug</rosDebugLevel>
                <publishWheelTF>true</publishWheelTF>
                <robotNamespace>/</robotNamespace>
                <publishTf>1</publishTf>
                <publishWheelJointState>true</publishWheelJointState>
                <alwaysOn>true</alwaysOn>
                <updateRate>100.0</updateRate>
                <legacyMode>true</legacyMode>
                <leftJoint>left_wheel_joint</leftJoint>
                <rightJoint>right_wheel_joint</rightJoint>
                <wheelSeparation>${wheel_joint_y*2}</wheelSeparation>
                <wheelDiameter>${2*wheel_radius}</wheelDiameter>
                <broadcastTF>1</broadcastTF>
                <wheelTorque>30</wheelTorque>
                <wheelAcceleration>1.8</wheelAcceleration>
                <commandTopic>cmd_vel</commandTopic>
                <odometryFrame>odom</odometryFrame> 
                <odometryTopic>odom</odometryTopic> 
                <robotBaseFrame>base_footprint</robotBaseFrame>
            </plugin>
        </gazebo> 
    </xacro:macro>

</robot>

需要更改的地方為

?在輪子的宏定義語(yǔ)法以及支撐輪的宏定義語(yǔ)法前添加xacro引用

cylinder_inertial_matrix,

sphere_inertial_matrix

兩個(gè)個(gè)標(biāo)簽引用的時(shí)候也需要加上xacro引用

?

?

以及mbot_gazebo.xacro文件也需要更改宏定義?

<?xml version="1.0"?>
<robot name="arm" xmlns:xacro="http://www.ros.org/wiki/xacro">
    <xacro:include filename="$(find mbot_description)/urdf/xacro/gazebo/mbot_base_gazebo.xacro" /> <!-- 包含文件 -->
    <xacro:mbot_base_gazebo/>    <!-- 調(diào)用宏定義 -->
</robot>

launch文件同樣需要更改，這里有三個(gè)更改方法，一般情況下將

?<!-- 加載機(jī)器人模型描述參數(shù) -->
? ? <param name="robot_description" command="$(find xacro)/xacro --inorder '$(find mbot_description)/urdf/xacro/gazebo/mbot_gazebo.xacro'" />?

改為xacro 即可

也有其他的解決方法例如將其改為

xacro --i

還有

xacro.py

<launch>

    <!-- 設(shè)置launch文件的參數(shù) -->
    <arg name="paused" default="false"/>
    <arg name="use_sim_time" default="true"/>
    <arg name="gui" default="true"/>
    <arg name="headless" default="false"/>
    <arg name="debug" default="false"/>

    <!-- 運(yùn)行g(shù)azebo仿真環(huán)境 -->
    <include file="$(find gazebo_ros)/launch/empty_world.launch">
        <arg name="debug" value="$(arg debug)" />
        <arg name="gui" value="$(arg gui)" />
        <arg name="paused" value="$(arg paused)"/>
        <arg name="use_sim_time" value="$(arg use_sim_time)"/>
        <arg name="headless" value="$(arg headless)"/>
    </include>

    <!-- 加載機(jī)器人模型描述參數(shù) -->
    <param name="robot_description" command="$(find xacro)/xacro '$(find mbot_description)/urdf/xacro/gazebo/mbot_gazebo.xacro'" /> 

    <!-- 運(yùn)行joint_state_publisher節(jié)點(diǎn)，發(fā)布機(jī)器人的關(guān)節(jié)狀態(tài)  -->
    <node name="joint_state_publisher" pkg="joint_state_publisher" type="joint_state_publisher" ></node> 

    <!-- 運(yùn)行robot_state_publisher節(jié)點(diǎn)，發(fā)布tf  -->
    <node name="robot_state_publisher" pkg="robot_state_publisher" type="robot_state_publisher"  output="screen" >
        <param name="publish_frequency" type="double" value="50.0" />
    </node>

    <!-- 在gazebo中加載機(jī)器人模型-->
    <node name="urdf_spawner" pkg="gazebo_ros" type="spawn_model" respawn="false" output="screen"
          args="-urdf -model mrobot -param robot_description"/> 
</launch>

正常啟動(dòng)后如下所示

創(chuàng)建仿真環(huán)境?

這里有兩種方法添加場(chǎng)景模型

第一：直接添加

將模型放置到~/.gazebo/models 文件夾下——在gazebo的左側(cè)列表點(diǎn)擊“insert”（可以看到里面有很多的模型，我們只需要從列表中拖出我們需要的模型放置到仿真環(huán)境中就可以）

https://bitbucket.org/osrf/gazebo_models/downloads/

這里本文開(kāi)始時(shí)的下載如果已經(jīng)下載完成可以跳過(guò)，如果還未下載完成請(qǐng)等待下載完成再進(jìn)行后續(xù)操作。?

?

?選擇需要的模型直接拖動(dòng)到場(chǎng)景中搭建即可

?注意這一步需要將原本的機(jī)器人模型進(jìn)行刪除然后保存。

?這里如果顯示conectting----說(shuō)明還未連接完成，等待出現(xiàn)http-----連接完成后即可正常顯示模型，再選擇需要的模型添加即可。

?

?自定義文件名稱和位置即可

建議存放在catkin_ws/src/mbot_descritpion/worlds下

?第二：使用Building editor

模型創(chuàng)建：

Edit——Building editor——繪制環(huán)境模型——File——Save保存我們的模型文件（自己設(shè)置模型文件名字）——Exit Building Editor（退出編輯界面），可以看到我們的仿真環(huán)境已經(jīng)在gazebo中顯示；

保存環(huán)境模型同第一種方法一致，然后關(guān)閉gazebo界面即可。

仿真使用

    <!-- 設(shè)置launch文件的參數(shù) -->
    <arg name="world_name" value="$(find mbot_description)/worlds/Ambulance.world"/><!-- 要加入的部分 -->
    <arg name="paused" default="false"/>
    <arg name="use_sim_time" default="true"/>
    <arg name="gui" default="true"/>
    <arg name="headless" default="false"/>
    <arg name="debug" default="false"/>

傳感器仿真?

cd ~/catkin_ws/src/mbot_description/urdf/xacro
mkdir sensors
cd sensors
sudo gedit camera_gazebo.xacro

<?xml version="1.0"?>
<robot xmlns:xacro="http://www.ros.org/wiki/xacro" name="camera">
	<xacro:macro name="usb_camera" params="prefix:=camera">
    	<link name="${prefix}_link">
            <inertial>
                <mass value="0.1" />
                <origin xyz="0 0 0" />
                <inertia ixx="0.01" ixy="0.0" ixz="0.0"
                         iyy="0.01" iyz="0.0"
                         izz="0.01" />
            </inertial>

            <visual>
                <origin xyz=" 0 0 0 " rpy="0 0 0" />
                <geometry>
                    <box size="0.01 0.04 0.04" />
                </geometry>
                <material name="black"/>
            </visual>

            <collision>
                <origin xyz="0.0 0.0 0.0" rpy="0 0 0" />
                <geometry>
                    <box size="0.01 0.04 0.04" />
                </geometry>
            </collision>
        </link>
        <gazebo reference="${prefix}_link">
            <material>Gazebo/Black</material>
        </gazebo>
	     <gazebo reference="${prefix}_link"> <!-- 這個(gè)sensor代表的link -->
            <sensor type="camera" name="camera_node">
                <update_rate>30.0</update_rate><!-- 攝像頭發(fā)布頻率 -->
                <camera name="head">
                    <horizontal_fov>1.3962634</horizontal_fov><!-- 攝像頭可視范圍 -->
                    <image>
                        <width>1280</width><!-- 攝像頭分辨率 -->
                        <height>720</height><!-- 攝像頭分辨率 -->
                        <format>R8G8B8</format><!-- 攝像頭數(shù)據(jù)格式 -->
                    </image>
                    <clip>
                        <near>0.02</near><!-- 最近距離 -->
                        <far>300</far><!-- 最遠(yuǎn)距離 -->
                    </clip>
                    <noise>
                        <type>gaussian</type><!-- 攝像頭高斯噪聲 -->
                        <mean>0.0</mean>
                        <stddev>0.007</stddev>
                    </noise>
                </camera>
                <plugin name="gazebo_camera" filename="libgazebo_ros_camera.so"><!-- 加載插件，實(shí)現(xiàn)攝像頭功能 -->
                    <alwaysOn>true</alwaysOn>
                    <updateRate>0.0</updateRate>
                    <cameraName>/camera</cameraName><!-- 命名空間 -->
                    <imageTopicName>image_raw</imageTopicName><!-- 發(fā)布圖片信息話題名稱 -->
                    <cameraInfoTopicName>camera_info</cameraInfoTopicName><!-- 發(fā)布攝像頭信息話題名稱 -->
                    <frameName>camera_link</frameName><!-- 數(shù)據(jù)的坐標(biāo)系統(tǒng) -->
                    <hackBaseline>0.07</hackBaseline>
                    <distortionK1>0.0</distortionK1>
                    <distortionK2>0.0</distortionK2>
                    <distortionK3>0.0</distortionK3>
                    <distortionT1>0.0</distortionT1>
                    <distortionT2>0.0</distortionT2>
                </plugin>
            </sensor>
        </gazebo>
    </xacro:macro>
</robot>

cd ~/catkin_ws/src/mbot_description/urdf/xacro/gazebo
sudo gedit mbot_with_camera_gazebo.xacro

在文件中寫入以下內(nèi)容即可

<?xml version="1.0"?>
<robot name="arm" xmlns:xacro="http://www.ros.org/wiki/xacro">

    <xacro:include filename="$(find mbot_description)/urdf/xacro/gazebo/mbot_base_gazebo.xacro" />
    <xacro:include filename="$(find mbot_description)/urdf/xacro/sensors/camera_gazebo.xacro" />

    <xacro:property name="camera_offset_x" value="0.17" />
    <xacro:property name="camera_offset_y" value="0" />
    <xacro:property name="camera_offset_z" value="0.10" />

    <mbot_base/>

    <!-- Camera -->
    <joint name="camera_joint" type="fixed">
        <origin xyz="${camera_offset_x} ${camera_offset_y} ${camera_offset_z}" rpy="0 0 0" />
        <parent link="base_link"/>
        <child link="camera_link"/>
    </joint>

    <xacro:usb_camera prefix="camera"/>

    <xacro:mbot_base_gazebo/>

</robot>

帶攝像頭的機(jī)器人launch啟動(dòng)文件的編寫

cd ~/catkin_ws/src/mbot_description/launch/xacro/gazebo
sudo gedit view_mbot_with_camera_gazebo.launch

<launch>
    <arg name="world_name" value="$(find mbot_description)/worlds/Ambulance.world"/>
    <arg name="paused" default="false"/>
    <arg name="use_sim_time" default="true"/>
    <arg name="gui" default="true"/>
    <arg name="headless" default="false"/>
    <arg name="debug" default="false"/>
  
    <include file="$(find gazebo_ros)/launch/empty_world.launch">
        <arg name="world_name" value="$(arg world_name)" />
        <arg name="debug" value="$(arg debug)" />
        <arg name="gui" value="$(arg gui)" />
        <arg name="paused" value="$(arg paused)"/>
        <arg name="use_sim_time" value="$(arg use_sim_time)"/>
        <arg name="headless" value="$(arg headless)"/>
    </include>

    <param name="robot_description" command="$(find xacro)/xacro '$(find mbot_description)/urdf/xacro/gazebo/mbot_with_camera_gazebo.xacro'" /> 

    
    <node name="joint_state_publisher" pkg="joint_state_publisher" type="joint_state_publisher" ></node> 

    <node name="robot_state_publisher" pkg="robot_state_publisher" type="robot_state_publisher"  output="screen" >
        <param name="publish_frequency" type="double" value="50.0" />
    </node>

    <node name="urdf_spawner" pkg="gazebo_ros" type="spawn_model" respawn="false" output="screen"
          args="-urdf -model mrobot -param robot_description"/> 

</launch>

?然后運(yùn)行顯示模型

roslaunch mbot_description view_mbot_with_camera_gazebo.launch 

?

注意如果說(shuō)出現(xiàn)

[ERROR] [1666006852.591762, 106.467000]: Spawn service failed. Exiting.
[urdf_spawner-6] process has died [pid 35261, exit code 1, cmd /opt/ros/noetic/lib/gazebo_ros/spawn_model -urdf -model mrobot -param robot_description __name:=urdf_spawner __log:=/home/q/.ros/log/89f24a6e-4e10-11ed-b861-1f202bd9bc85/urdf_spawner-6.log].
log file: /home/q/.ros/log/89f24a6e-4e10-11ed-b861-1f202bd9bc85/urdf_spawner-6*.log
?則說(shuō)明gazebo進(jìn)程關(guān)閉不完全，需要將所有g(shù)azebo進(jìn)程關(guān)閉

killall gzserver

然后發(fā)現(xiàn)可以正常啟動(dòng)??

使用qt可視化工具查看攝像頭畫面顯示

另起終端

rqt_image_view

注意攝像頭參數(shù)選定?

?

?啟用鍵盤控制

roslaunch mbot_teleop mbot_teleop.launch

?

注意鍵盤控制按鍵

這里如果報(bào)錯(cuò)無(wú)法定位python 軟件包

需要進(jìn)行下載配置python插件

sudo ln -s /usr/bin/python3 /usr/bin/python

然后再允許鍵盤控制節(jié)點(diǎn)即可

如果讀者功能包的src目錄下沒(méi)有mbot_teleop功能包，也可下載另鍵盤控制功能包

cd ~/carkin_ws/src
git clone https://github.com/ros-teleop/teleop_twist_keyboard.git
//然后啟用即可
rosrun teleop_twist_keyboard teleop_twist_keyboard.py

?注意該teleop_twist_keyboard.py需要更改為可執(zhí)行的文件

如果不想使用該功能包，想知道如何自主創(chuàng)建mbot_teleop功能包可參考Arbotix+rviz那篇文章mbot_teleop 功能包創(chuàng)建方法

Rviz查看攝像頭采集的信息

rosrun rviz rviz

?

?首先固定框架（fixed frame)選擇base_footprint

然后Add——robotmodel——ok

然后Add——image——ok

然后image——image topic——/camera/image_raw

?激光雷達(dá)仿真

cd ~/catkin_ws/src/mbot_description/urdf/xacro/sensors
sudo gedit lidar_gazebo.xacro

<?xml version="1.0"?>
<robot xmlns:xacro="http://www.ros.org/wiki/xacro" name="laser">

    <xacro:macro name="rplidar" params="prefix">
        <!-- Create laser reference frame -->
        <link name="${prefix}_link">
            <inertial>
                <mass value="0.1" />
                <origin xyz="0 0 0" />
                <inertia ixx="0.01" ixy="0.0" ixz="0.0"
                         iyy="0.01" iyz="0.0"
                         izz="0.01" />
            </inertial>

            <visual>
                <origin xyz=" 0 0 0 " rpy="0 0 0" />
                <geometry>
                    <cylinder length="0.05" radius="0.05"/>
                </geometry>
                <material name="black"/>
            </visual>

            <collision>
                <origin xyz="0.0 0.0 0.0" rpy="0 0 0" />
                <geometry>
                    <cylinder length="0.06" radius="0.05"/>
                </geometry>
            </collision>
        </link>
        <gazebo reference="${prefix}_link">
            <material>Gazebo/Black</material>
        </gazebo>

        <gazebo reference="${prefix}_link">
            <sensor type="ray" name="rplidar">
                <pose>0 0 0 0 0 0</pose>
                <visualize>false</visualize>
                <update_rate>5.5</update_rate>
                <ray>
                    <scan>
                      <horizontal>
                        <samples>360</samples>
                        <resolution>1</resolution>
                        <min_angle>-3</min_angle>
                        <max_angle>3</max_angle>
                      </horizontal>
                    </scan>
                    <range>
                      <min>0.10</min>
                      <max>6.0</max>
                      <resolution>0.01</resolution>
                    </range>
                    <noise>
                      <type>gaussian</type>
                      <mean>0.0</mean>
                      <stddev>0.01</stddev>
                    </noise>
                </ray>
                <plugin name="gazebo_rplidar" filename="libgazebo_ros_laser.so">
                    <topicName>/scan</topicName>
                    <frameName>laser_link</frameName>
                </plugin>
            </sensor>
        </gazebo>

    </xacro:macro>
</robot>

然后編寫主體xacro文件

cd ~/catkin_ws/src/mbot_description/urdf/xacro/gazebo
sudo gedit mbot_with_laser_gazebo.xacro

?內(nèi)容如下所示

<?xml version="1.0"?>
<robot name="arm" xmlns:xacro="http://www.ros.org/wiki/xacro">

    <xacro:include filename="$(find mbot_description)/urdf/xacro/gazebo/mbot_base_gazebo.xacro" />
    <xacro:include filename="$(find mbot_description)/urdf/xacro/sensors/lidar_gazebo.xacro" />

    <xacro:property name="lidar_offset_x" value="0" />
    <xacro:property name="lidar_offset_y" value="0" />
    <xacro:property name="lidar_offset_z" value="0.105" />

    <!-- lidar -->
    <joint name="lidar_joint" type="fixed">
        <origin xyz="${lidar_offset_x} ${lidar_offset_y} ${lidar_offset_z}" rpy="0 0 0" />
        <parent link="base_link"/>
        <child link="laser_link"/>
    </joint>
    <xacro:rplidar prefix="laser"/>
    <xacro:mbot_base_gazebo/>
</robot>

然后編寫launch 啟動(dòng)文件

cd ~/catkin_ws/src/mbot_description/launch/xacro/gazebo
sudo gedit view_mbot_with_laser_gazebo.launch

<launch>


    <arg name="world_name" value="$(find mbot_description)/worlds/Ambulance.world"/>
    <arg name="paused" default="false"/>
    <arg name="use_sim_time" default="true"/>
    <arg name="gui" default="true"/>
    <arg name="headless" default="false"/>
    <arg name="debug" default="false"/>


    <include file="$(find gazebo_ros)/launch/empty_world.launch">
        <arg name="world_name" value="$(arg world_name)" />
        <arg name="debug" value="$(arg debug)" />
        <arg name="gui" value="$(arg gui)" />
        <arg name="paused" value="$(arg paused)"/>
        <arg name="use_sim_time" value="$(arg use_sim_time)"/>
        <arg name="headless" value="$(arg headless)"/>
    </include>

 
    <param name="robot_description" command="$(find xacro)/xacro '$(find mbot_description)/urdf/xacro/gazebo/mbot_with_laser_gazebo.xacro'" />

   
    <node name="joint_state_publisher" pkg="joint_state_publisher" type="joint_state_publisher" ></node> 

   
    <node name="robot_state_publisher" pkg="robot_state_publisher" type="robot_state_publisher"  output="screen" >
        <param name="publish_frequency" type="double" value="50.0" />
    </node>

    
    <node name="urdf_spawner" pkg="gazebo_ros" type="spawn_model" respawn="false" output="screen"
          args="-urdf -model mrobot -param robot_description"/> 
</launch>

?激光雷達(dá)正常顯示

?然后啟用鍵盤控制

roslaunch mbot_teleop mbot_teleop.launch

?

rviz查看雷達(dá)采集信息

rosrun rviz rviz

?需要注意的地方與剛才類似

首先固定框架（fixed frame)選擇base_footprint

然后Add——robotmodel——ok

然后Add——laserscan——ok

然后laserscan——topic——scan

在圖中的紅色線條即為雷達(dá)檢測(cè)到的障礙物，由于我的小車卡在消防車和救護(hù)車之間懶得動(dòng)了，就不附圖說(shuō)明了，紅色線條很淡，建議將小車周圍拿障礙物包滿。

Kinect仿真

方法跟上面攝像頭和激光雷達(dá)實(shí)現(xiàn)的方法類似，這里就不多加說(shuō)明了，直接給出結(jié)果顯示了。
gazebo顯示

cd ~/catkin_ws/src/mbot_description/urdf/xacro/sensors
sudo gedit kinect_gazebo.xacro

<?xml version="1.0"?>
<robot xmlns:xacro="http://www.ros.org/wiki/xacro" name="kinect_camera">

    <xacro:macro name="kinect_camera" params="prefix:=camera">
        <!-- Create kinect reference frame -->
        <!-- Add mesh for kinect -->
        <link name="${prefix}_link">
            <origin xyz="0 0 0" rpy="0 0 0"/>
            <visual>
                <origin xyz="0 0 0" rpy="0 0 ${M_PI/2}"/>
                <geometry>
                    <mesh filename="package://mbot_description/meshes/kinect.dae" />
                </geometry>
            </visual>
            <collision>
                <geometry>
                    <box size="0.07 0.3 0.09"/>
                </geometry>
            </collision>
        </link>

        <joint name="${prefix}_optical_joint" type="fixed">
            <origin xyz="0 0 0" rpy="-1.5708 0 -1.5708"/>
            <parent link="${prefix}_link"/>
            <child link="${prefix}_frame_optical"/>
        </joint>

        <link name="${prefix}_frame_optical"/>

        <gazebo reference="${prefix}_link">
            <sensor type="depth" name="${prefix}">
                <always_on>true</always_on>
                <update_rate>20.0</update_rate>
                <camera>
                    <horizontal_fov>${60.0*M_PI/180.0}</horizontal_fov>
                    <image>
                        <format>R8G8B8</format>
                        <width>640</width>
                        <height>480</height>
                    </image>
                    <clip>
                        <near>0.05</near>
                        <far>8.0</far>
                    </clip>
                </camera>
                <plugin name="kinect_${prefix}_controller" filename="libgazebo_ros_openni_kinect.so">
                    <cameraName>${prefix}</cameraName>
                    <alwaysOn>true</alwaysOn>
                    <updateRate>10</updateRate>
                    <imageTopicName>rgb/image_raw</imageTopicName>
                    <depthImageTopicName>depth/image_raw</depthImageTopicName>
                    <pointCloudTopicName>depth/points</pointCloudTopicName>
                    <cameraInfoTopicName>rgb/camera_info</cameraInfoTopicName>
                    <depthImageCameraInfoTopicName>depth/camera_info</depthImageCameraInfoTopicName>
                    <frameName>${prefix}_frame_optical</frameName>
                    <baseline>0.1</baseline>
                    <distortion_k1>0.0</distortion_k1>
                    <distortion_k2>0.0</distortion_k2>
                    <distortion_k3>0.0</distortion_k3>
                    <distortion_t1>0.0</distortion_t1>
                    <distortion_t2>0.0</distortion_t2>
                    <pointCloudCutoff>0.4</pointCloudCutoff>
                </plugin>
            </sensor>
        </gazebo>

    </xacro:macro>
</robot>

?然后編寫主體xacro文件

cd ~/catkin_ws/src/mbot_desctiption/urdf/xacro/gazebo
sudo gedit mbot_with_kinect_gazebo.xacro

<?xml version="1.0"?>
<robot name="arm" xmlns:xacro="http://www.ros.org/wiki/xacro">

    <xacro:include filename="$(find mbot_description)/urdf/xacro/gazebo/mbot_base_gazebo.xacro" />
    <xacro:include filename="$(find mbot_description)/urdf/xacro/sensors/kinect_gazebo.xacro" />

    <xacro:property name="kinect_offset_x" value="0.15" />
    <xacro:property name="kinect_offset_y" value="0" />
    <xacro:property name="kinect_offset_z" value="0.11" />

    <mbot_base/>

    <!-- kinect -->
    <joint name="kinect_joint" type="fixed">
        <origin xyz="${kinect_offset_x} ${kinect_offset_y} ${kinect_offset_z}" rpy="0 0 0" />
        <parent link="base_link"/>
        <child link="kinect_link"/>
    </joint>

    <xacro:kinect_camera prefix="kinect"/>

    <xacro:mbot_base_gazebo/>

</robot>

然后編寫launch 啟動(dòng)文件

cd ~/catkin_ws/src/mbot_description/launch/xacro/gazebo
sudo gedit view_mbot_with_kinect_gazebo.launch

<launch>

    <!-- 設(shè)置launch文件的參數(shù) -->
    <arg name="world_name" value="$(find mbot_description)/worlds/Ambulance.world"/><!-- 設(shè)置仿真環(huán)境文件路徑 -->
    <arg name="paused" default="false"/>
    <arg name="use_sim_time" default="true"/>
    <arg name="gui" default="true"/>
    <arg name="headless" default="false"/>
    <arg name="debug" default="false"/>

    <!-- 運(yùn)行g(shù)azebo仿真環(huán)境 -->
    <include file="$(find gazebo_ros)/launch/empty_world.launch">
        <arg name="world_name" value="$(arg world_name)" />
        <arg name="debug" value="$(arg debug)" />
        <arg name="gui" value="$(arg gui)" />
        <arg name="paused" value="$(arg paused)"/>
        <arg name="use_sim_time" value="$(arg use_sim_time)"/>
        <arg name="headless" value="$(arg headless)"/>
    </include>

    <!-- 加載機(jī)器人模型描述參數(shù) -->
    <param name="robot_description" command="$(find xacro)/xacro '$(find mbot_description)/urdf/xacro/gazebo/mbot_with_kinect_gazebo.xacro'" /> <!-- 設(shè)置機(jī)器人模型文件路徑 -->

    <!-- 運(yùn)行joint_state_publisher節(jié)點(diǎn)，發(fā)布機(jī)器人的關(guān)節(jié)狀態(tài)  -->
    <node name="joint_state_publisher" pkg="joint_state_publisher" type="joint_state_publisher" ></node> 

    <!-- 運(yùn)行robot_state_publisher節(jié)點(diǎn)，發(fā)布tf  -->
    <node name="robot_state_publisher" pkg="robot_state_publisher" type="robot_state_publisher"  output="screen" >
        <param name="publish_frequency" type="double" value="50.0" />
    </node>

    <!-- 在gazebo中加載機(jī)器人模型-->
    <node name="urdf_spawner" pkg="gazebo_ros" type="spawn_model" respawn="false" output="screen"
          args="-urdf -model mrobot -param robot_description"/> 
</launch>

?運(yùn)行后如下所示

查看kinect采集到的信息

rosrun rviz rviz

?

?注意：

首先固定框架（fixed frame)選擇base_footprint

然后Add——robotmodel——ok

然后Add——pointcloud2——ok

然后pointcloud2——topic——/kinect/depth/points

?以上就是本節(jié)內(nèi)容，關(guān)于Gazebo物理仿真平臺(tái)搭建已經(jīng)全部完成。

問(wèn)題解決：

1.gazebo--SpawnModel: Failure - model name mrobot already exists.

roslaunch gazebo_ros empty_world.launch

在開(kāi)啟后的gazebo界面中選中mrobot模型delete刪除即可

然后退出。

在上述模型創(chuàng)建且.world 保存前需要把機(jī)器人模型刪除再保存，不然會(huì)出現(xiàn)模型重名報(bào)錯(cuò)。

2.?[ERROR] [1666006852.591762, 106.467000]: Spawn service failed. Exiting.
[urdf_spawner-6] process has died [pid 35261, exit code 1, cmd /opt/ros/noetic/lib/gazebo_ros/spawn_model -urdf -model mrobot -param robot_description __name:=urdf_spawner __log:=/home/q/.ros/log/89f24a6e-4e10-11ed-b861-1f202bd9bc85/urdf_spawner-6.log].
log file: /home/q/.ros/log/89f24a6e-4e10-11ed-b861-1f202bd9bc85/urdf_spawner-6*.log

?將所有g(shù)azebo進(jìn)程關(guān)閉再重啟即可文章來(lái)源地址http://www.zghlxwxcb.cn/news/detail-418429.html

killall gzserver

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