分析
我启动定位导航的launch文件在here有说明:
- 打开rplidar驱动
- map_server发布map
- 设置一开始的初始位置xya,然后rplidar_amcl.launch.xml
$(find turtlebot_navigation)/launch/includes/amcl/$(arg laser_type)_amcl.launch.xml
- 启动move_base.launch.xml的launch
由于现在movebase出现貌似localplanner没有进行planner,经过测试发现local的costmap数据并不是全0的情况(有可能是因为碰撞发生recovery 行为的时候才不为0,其他仍然0)
设置地点导航之后直接按照global planner的路线一直往前走,没有进行局部的避障。
PS:在此篇文章中,貌似launch文件有加一个发布odom和map之间tf关系的node
<node pkg="tf" type="static_transform_publisher" name="map_odom_broadcaster" args="0 0 0 0 0 0 /map /odom 100" />
move_base.launch.xml
<!--
ROS navigation stack with velocity smoother and safety (reactive) controller
-->
<launch>
<include file="$(find turtlebot_navigation)/launch/includes/velocity_smoother.launch.xml"/>
<include file="$(find turtlebot_navigation)/launch/includes/safety_controller.launch.xml"/>
<arg name="odom_frame_id" default="odom"/>
<arg name="base_frame_id" default="base_footprint"/>
<arg name="global_frame_id" default="map"/>
<arg name="odom_topic" default="odom" />
<arg name="laser_topic" default="scan" />
<arg name="custom_param_file" default="$(find turtlebot_navigation)/param/dummy.yaml"/>
<node pkg="move_base" type="move_base" respawn="false" name="move_base" output="screen">
<rosparam file="$(find turtlebot_navigation)/param/costmap_common_params.yaml" command="load" ns="global_costmap" />
<rosparam file="$(find turtlebot_navigation)/param/costmap_common_params.yaml" command="load" ns="local_costmap" />
<rosparam file="$(find turtlebot_navigation)/param/local_costmap_params.yaml" command="load" />
<rosparam file="$(find turtlebot_navigation)/param/global_costmap_params.yaml" command="load" />
<rosparam file="$(find turtlebot_navigation)/param/dwa_local_planner_params.yaml" command="load" />
<rosparam file="$(find turtlebot_navigation)/param/move_base_params.yaml" command="load" />
<rosparam file="$(find turtlebot_navigation)/param/global_planner_params.yaml" command="load" />
<rosparam file="$(find turtlebot_navigation)/param/navfn_global_planner_params.yaml" command="load" />
<!-- external params file that could be loaded into the move_base namespace -->
<rosparam file="$(arg custom_param_file)" command="load" />
<!-- reset frame_id parameters using user input data -->
<param name="global_costmap/global_frame" value="$(arg global_frame_id)"/>
<param name="global_costmap/robot_base_frame" value="$(arg base_frame_id)"/>
<param name="local_costmap/global_frame" value="$(arg odom_frame_id)"/>
<param name="local_costmap/robot_base_frame" value="$(arg base_frame_id)"/>
<param name="DWAPlannerROS/global_frame_id" value="$(arg odom_frame_id)"/>
<remap from="cmd_vel" to="navigation_velocity_smoother/raw_cmd_vel"/>
<remap from="odom" to="$(arg odom_topic)"/>
<remap from="scan" to="$(arg laser_topic)"/>
</node>
</launch>
所以说还是主要要去 param下面调整参数
rplidar_amcl.launch.xml
<launch>
<arg name="use_map_topic" default="false"/>
<arg name="scan_topic" default="scan"/>
<arg name="initial_pose_x" default="0.0"/>
<arg name="initial_pose_y" default="0.0"/>
<arg name="initial_pose_a" default="0.0"/>
<arg name="odom_frame_id" default="odom"/>
<arg name="base_frame_id" default="base_footprint"/>
<arg name="global_frame_id" default="map"/>
<node pkg="amcl" type="amcl" name="amcl">
<param name="use_map_topic" value="$(arg use_map_topic)"/>
<!-- Publish scans from best pose at a max of 10 Hz -->
<param name="odom_model_type" value="diff"/>
<param name="odom_alpha5" value="0.1"/>
<param name="gui_publish_rate" value="10.0"/>
<param name="laser_max_beams" value="60"/>
<param name="laser_max_range" value="12.0"/>
<param name="min_particles" value="500"/>
<param name="max_particles" value="2000"/>
<param name="kld_err" value="0.05"/>
<param name="kld_z" value="0.99"/>
<param name="odom_alpha1" value="0.2"/>
<param name="odom_alpha2" value="0.2"/>
<!-- translation std dev, m -->
<param name="odom_alpha3" value="0.2"/>
<param name="odom_alpha4" value="0.2"/>
<param name="laser_z_hit" value="0.5"/>
<param name="laser_z_short" value="0.05"/>
<param name="laser_z_max" value="0.05"/>
<param name="laser_z_rand" value="0.5"/>
<param name="laser_sigma_hit" value="0.2"/>
<param name="laser_lambda_short" value="0.1"/>
<param name="laser_model_type" value="likelihood_field"/>
<!-- <param name="laser_model_type" value="beam"/> -->
<param name="laser_likelihood_max_dist" value="2.0"/>
<param name="update_min_d" value="0.25"/>
<param name="update_min_a" value="0.2"/>
<param name="odom_frame_id" value="$(arg odom_frame_id)"/>
<param name="base_frame_id" value="$(arg base_frame_id)"/>
<param name="global_frame_id" value="$(arg global_frame_id)"/>
<param name="resample_interval" value="1"/>
<!-- Increase tolerance because the computer can get quite busy -->
<param name="transform_tolerance" value="1.0"/>
<param name="recovery_alpha_slow" value="0.0"/>
<param name="recovery_alpha_fast" value="0.0"/>
<param name="initial_pose_x" value="$(arg initial_pose_x)"/>
<param name="initial_pose_y" value="$(arg initial_pose_y)"/>
<param name="initial_pose_a" value="$(arg initial_pose_a)"/>
<remap from="scan" to="$(arg scan_topic)"/>
</node>
</launch>
AMCL参数调整
As currently implemented, this node works only with laser scans and laser maps. It could be extended to work with other sensor data.
amcl takes in a laser-based map, laser scans, and transform messages, and outputs pose estimates.On startup, amcl initializes its particle filter according to the parameters provided. Note that, because of the defaults, if no parameters are set, the initial filter state will be a moderately sized particle cloud centered about (0,0,0).
中文csdn解释参数
https://wenda.ncnynl.com/question/116456
movebase参数调整
来源:CSDN
作者:专业渡劫修仙
链接:https://blog.csdn.net/kuizhao8951/article/details/103911570