#!/usr/bin/env python # -*- coding: utf-8 -*- import rospy, sys import moveit_commander from moveit_msgs.msg import RobotTrajectory from trajectory_msgs.msg import JointTrajectoryPoint from geometry_msgs.msg import PoseStamped, Pose from tf.transformations import euler_from_quaternion, quaternion_from_euler class MoveItIkDemo: def __init__(self): # 初始化move_group的API moveit_commander.roscpp_initialize(sys.argv) # 初始化ROS节点 rospy.init_node("moveit_ik_demo") # 初始化需要使用move group控制的机械臂中的arm group arm = moveit_commander.MoveGroupCommander("mycobot_arm") # 获取终端link的名称 end_effector_link = arm.get_end_effector_link() # 设置目标位置所使用的参考坐标系 reference_frame = "joint1" arm.set_pose_reference_frame(reference_frame) # 当运动规划失败后,允许重新规划 arm.allow_replanning(True) # 设置位置(单位:米)和姿态(单位:弧度)的允许误差 arm.set_goal_position_tolerance(0.01) arm.set_goal_orientation_tolerance(0.05) # # 控制机械臂先回到初始化位置 arm.set_named_target("init_pose") arm.go() rospy.sleep(2) # 设置机械臂工作空间中的目标位姿,位置使用x、y、z坐标描述, # 姿态使用四元数描述,基于base_link坐标系 target_pose = PoseStamped() target_pose.header.frame_id = reference_frame target_pose.header.stamp = rospy.Time.now() target_pose.pose.position.x = 0.14996 target_pose.pose.position.y = 0.12317 target_pose.pose.position.z = 0.21203 target_pose.pose.orientation.x = -0.59375 target_pose.pose.orientation.y = -0.60903 target_pose.pose.orientation.z = -0.13927 target_pose.pose.orientation.w = 0.5071 # 设置机器臂当前的状态作为运动初始状态 arm.set_start_state_to_current_state() # 设置机械臂终端运动的目标位姿 arm.set_pose_target(target_pose, end_effector_link) # 规划运动路径 traj = arm.plan() # 按照规划的运动路径控制机械臂运动 arm.execute(traj) rospy.sleep(1) # 控制机械臂终端向右移动5cm 參數1是代表y, 0,1,2,3,4,5 代表xyzrpy arm.shift_pose_target(1, -0.05, end_effector_link) arm.go() rospy.sleep(1) # 控制机械臂终端反向旋转90度 0,1,2,3,4,5 代表xyzrpy arm.shift_pose_target(3, -1.57, end_effector_link) arm.go() rospy.sleep(1) # 控制机械臂回到初始化位置 # arm.set_named_target("home") # arm.go() # 关闭并退出moveit moveit_commander.roscpp_shutdown() moveit_commander.os._exit(0) if __name__ == "__main__": MoveItIkDemo()