1 rviz 教程
1.1 2D Nav Goal
2D Nav Goal (Keyboard shortcut: g)
This tool lets you set a goal sent on the "goal" ROS topic. Click on a location on the ground plane and drag to select the orientation:
二维导航目标(快捷键:g)
此工具允许您设置在“goal”ROS主题上发送的目标。单击地平面上的某个位置并拖动以选择方向:
即设置二维导航目标,并使用“goal”这个话题进行通讯(结合rviz的其他教程,话题名也可能是“/move_base_simple/goal”)
其消息类型为:geometry_msgs/PoseStamped
meng@meng:~/ideas/ros_ws$ rosmsg info geometry_msgs/PoseStamped
std_msgs/Header header
uint32 seq
time stamp
string frame_id
geometry_msgs/Pose pose
geometry_msgs/Point position
float64 x
float64 y
float64 z
geometry_msgs/Quaternion orientation
float64 x
float64 y
float64 z
float64 w
1.2 2D Pose Estimate
2D Pose Estimate (Keyboard shortcut: p)
This tool lets you set an initial pose to seed the localization system (sent on the "initialpose" ROS topic). Click on a location on the ground plane and drag to select the orientation:
二维姿势估计(键盘快捷键:p)
此工具允许您设置初始姿势以播种定位系统(发送至“initialpose”ROS主题)。单击地平面上的某个位置并拖动以选择方向:
即设置二维初始位姿并使用“initialpose”进行通讯
其消息类型为:geometry_msgs/PoseWithCovarianceStamped
meng@meng:~/ideas/ros_ws$ rosmsg info geometry_msgs/PoseWithCovarianceStamped
std_msgs/Header header
uint32 seq
time stamp
string frame_id
geometry_msgs/PoseWithCovariance pose
geometry_msgs/Pose pose
geometry_msgs/Point position
float64 x
float64 y
float64 z
geometry_msgs/Quaternion orientation
float64 x
float64 y
float64 z
float64 w
float64[36] covariance
1.3 打开rviz查看
Panels--Tool Properties(勾选)
2 订阅话题
订阅起点位姿和终点话题并打印输出的c++文件:receive_2d_nav_goal.cpp
#include "ros/ros.h"
#include "std_msgs/String.h"
#include <geometry_msgs/PoseWithCovarianceStamped.h>
#include <iostream>
#include <geometry_msgs/PoseStamped.h>
void chatterCallback(const geometry_msgs::PoseWithCovarianceStamped::ConstPtr& msg)
{
double x=msg->pose.pose.position.x;
double y=msg->pose.pose.position.y;
std::cout<<x<<y<<std::endl;
}
void chatterCallback1(const geometry_msgs::PoseStamped::ConstPtr& msg)
{
std::cout<<"1111"<<std::endl;
double x=msg->pose.position.x;
double y=msg->pose.position.y;
std::cout<<x<<y<<std::endl;
}
int main(int argc, char **argv)
{
ros::init(argc, argv, "reveive_rviz");
ros::NodeHandle nh;
ros::Subscriber sub = nh.subscribe("/initialpose", 1, chatterCallback);//队列长度:1000或1或其他
ros::Subscriber sub1 = nh.subscribe("/move_base_simple/goal", 1, chatterCallback1);//队列长度:1000或1或其他
while(ros::ok())
{
ros::spinOnce();
}
return 0;
}
启动rviz和节点程序,用 2D Nav Goal、2D Pose Estimate 在rviz中做标记,即可打印输出:
订阅起点位姿和终点,并保持发布:
#include "ros/ros.h"
#include "std_msgs/String.h"
#include <geometry_msgs/PoseWithCovarianceStamped.h>
#include <iostream>
#include <geometry_msgs/PoseStamped.h>
ros::Publisher initialpose_pub,goal_pub;
geometry_msgs::PoseWithCovarianceStamped initialpose_tmp;//设置为全局变量,可以一直被发布出来
geometry_msgs::PoseStamped goal_tmp;
void initialpose_handler(const geometry_msgs::PoseWithCovarianceStamped::ConstPtr& msg)
{
double x=msg->pose.pose.position.x;
double y=msg->pose.pose.position.y;
std::cout<<"起点坐标:("<<x<<", "<<y<<")"<<std::endl;
initialpose_tmp=*msg;
// initialpose_tmp.header=msg->header;
// initialpose_tmp.header=msg->header;
initialpose_pub.publish(initialpose_tmp);
}
void goal_handler(const geometry_msgs::PoseStamped::ConstPtr& msg)
{
double x=msg->pose.position.x;
double y=msg->pose.position.y;
std::cout<<"终点坐标:("<<x<<", "<<y<<")"<<std::endl;
goal_tmp=*msg;
goal_pub.publish(*msg);
}
int main(int argc, char **argv)
{
ros::init(argc, argv, "reveive_rviz");
ros::NodeHandle nh;
ros::Subscriber sub = nh.subscribe("/initialpose", 1, initialpose_handler);//1000改为1
ros::Subscriber sub1 = nh.subscribe("/move_base_simple/goal", 1, goal_handler);//1000改为1
initialpose_pub = nh.advertise<geometry_msgs::PoseWithCovarianceStamped>("initialpose_my", 1);
goal_pub = nh.advertise<geometry_msgs::PoseStamped>("goal_my", 1);
while(ros::ok())
{
ros::spinOnce();
}
return 0;
}
参考链接:
2D Nav Goal和2D Pose Estimate功能介绍:rviz/UserGuide - ROS Wiki
2D Nav Goal和2D Pose Estimate的消息类型:navigation/Tutorials/Using rviz with the Navigation Stack - ROS Wiki
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