コード例 #1
0
	def linear_movement(self,position, linear_speed = 0.2, linear_accel = 0.2, rotational_speed = 0.1, rotational_accel = 0.1):
	   	try:
			traj_options = TrajectoryOptions()
			traj_options.interpolation_type = TrajectoryOptions.CARTESIAN
			traj = MotionTrajectory(trajectory_options = traj_options, limb = self._limb)

			wpt_opts = MotionWaypointOptions(max_linear_speed=linear_speed,
			                                 max_linear_accel=linear_accel,
			                                 max_rotational_speed=rotational_speed,
			                                 max_rotational_accel=rotational_accel,
			                                 max_joint_speed_ratio=0.2)
			waypoint = MotionWaypoint(options = wpt_opts.to_msg(), limb = self._limb)
			poseStamped = PoseStamped()
			poseStamped.pose = position
			waypoint.set_cartesian_pose(poseStamped, self._tip_name)

			rospy.loginfo('Sending waypoint: \n%s', waypoint.to_string())

			traj.append_waypoint(waypoint.to_msg())

			result = traj.send_trajectory(timeout=5.0)
			if result is None:
			    rospy.logerr('Trajectory FAILED to send')
			    return

			if result.result:
			    rospy.loginfo('Motion controller successfully finished the trajectory!')
			else:
			    rospy.logerr('Motion controller failed to complete the trajectory with error %s',
			                 result.errorId)
		except rospy.ROSInterruptException:
			rospy.logerr('Keyboard interrupt detected from the user. Exiting before trajectory completion.')
コード例 #2
0
def moveRoboticArm(position, orientation, linear_speed, linear_accel):
    """
    Move the robot arm to the specified configuration given a positionX, positionY, positionZ, quaternion array and max linear speed.

    """
    try:
        limb = Limb()

        traj_options = TrajectoryOptions()
        traj_options.interpolation_type = TrajectoryOptions.CARTESIAN
        traj = MotionTrajectory(trajectory_options=traj_options, limb=limb)

        wpt_opts = MotionWaypointOptions(max_linear_speed=linear_speed,
                                         max_linear_accel=linear_accel)
        waypoint = MotionWaypoint(options=wpt_opts.to_msg(), limb=limb)
        joint_names = limb.joint_names()
        endpoint_state = limb.tip_state('right_hand')
        pose = endpoint_state.pose
        if position is not None and len(position) == 3:
            pose.position.x = position[0]
            pose.position.y = position[1]
            pose.position.z = position[2]
        if orientation is not None and len(orientation) == 4:
            pose.orientation.x = orientation[0]
            pose.orientation.y = orientation[1]
            pose.orientation.z = orientation[2]
            pose.orientation.w = orientation[3]
        poseStamped = PoseStamped()
        poseStamped.pose = pose
        joint_angles = limb.joint_ordered_angles()
        waypoint.set_cartesian_pose(poseStamped, 'right_hand', joint_angles)
        rospy.loginfo('Sending waypoint: \n%s', waypoint.to_string())
        traj.append_waypoint(waypoint.to_msg())
        result = traj.send_trajectory()

        if result is None:
            rospy.logerr('Trajectory FAILED to send')
            return
        if result.result:
            rospy.loginfo(
                'Motion controller successfully finished the trajectory!')
        else:
            rospy.logerr(
                'Motion controller failed to complete the trajectory with error %s',
                result.errorId)
    except rospy.ROSInterruptException:
        print("Something went wrong")
        rospy.logerr(
            'Keyboard interrupt detected from the user. Exiting before trajectory completion.'
        )
コード例 #3
0
    def go_to_pose(self, position, orientation):
        try:
            traj_options = TrajectoryOptions()
            traj_options.interpolation_type = TrajectoryOptions.CARTESIAN
            traj = MotionTrajectory(trajectory_options=traj_options,
                                    limb=self._right_arm)

            wpt_opts = MotionWaypointOptions(max_linear_speed=0.6,
                                             max_linear_accel=0.6,
                                             max_rotational_speed=1.57,
                                             max_rotational_accel=1.57,
                                             max_joint_speed_ratio=1.0)
            waypoint = MotionWaypoint(options=wpt_opts.to_msg(),
                                      limb=self._right_arm)

            pose = Pose()
            pose.position.x = position[0]
            pose.position.y = position[1]
            pose.position.z = position[2]
            pose.orientation.x = orientation[0]
            pose.orientation.y = orientation[1]
            pose.orientation.z = orientation[2]
            pose.orientation.w = orientation[0]
            poseStamped = PoseStamped()
            poseStamped.pose = pose
            joint_angles = self._right_arm.joint_ordered_angles()
            waypoint.set_cartesian_pose(poseStamped, "right_hand",
                                        joint_angles)

            rospy.loginfo('Sending waypoint: \n%s', waypoint.to_string())

            traj.append_waypoint(waypoint.to_msg())

            result = traj.send_trajectory(timeout=10)
            if result is None:
                rospy.logerr('Trajectory FAILED to send')
                return

            if result.result:
                rospy.loginfo(
                    'Motion controller successfully finished the trajectory!')
            else:
                rospy.logerr(
                    'Motion controller failed to complete the trajectory with error %s',
                    result.errorId)

        except rospy.ROSInterruptException:
            rospy.logerr(
                'Keyboard interrupt detected from the user. Exiting before trajectory completion.'
            )
コード例 #4
0
def cartesian_pose(args):
    """
    Move the robot arm to the specified configuration.
    Call using:
    $ rosrun intera_examples go_to_cartesian_pose.py  [arguments: see below]

    -p 0.4 -0.3 0.18 -o 0.0 1.0 0.0 0.0 -t right_hand
    --> Go to position: x=0.4, y=-0.3, z=0.18 meters
    --> with quaternion orientation (0, 1, 0, 0) and tip name right_hand
    --> The current position or orientation will be used if only one is provided.

    -q 0.0 -0.9 0.0 1.8 0.0 -0.9 0.0
    --> Go to joint angles: 0.0 -0.9 0.0 1.8 0.0 -0.9 0.0 using default settings
    --> If a Cartesian pose is not provided, Forward kinematics will be used
    --> If a Cartesian pose is provided, the joint angles will be used to bias the nullspace

    -R 0.01 0.02 0.03 0.1 0.2 0.3 -T
    -> Jog arm with Relative Pose (in tip frame)
    -> x=0.01, y=0.02, z=0.03 meters, roll=0.1, pitch=0.2, yaw=0.3 radians
    -> The fixed position and orientation paramters will be ignored if provided

    
    arg_fmt = argparse.RawDescriptionHelpFormatter
    parser = argparse.ArgumentParser(formatter_class=arg_fmt,
                                     description="cartesian_pose.__doc__")
    parser.add_argument(
        "-p", "--position", type=float,
        nargs='+',
        help="Desired end position: X, Y, Z")
    parser.add_argument(
        "-o", "--orientation", type=float,
        nargs='+',
        help="Orientation as a quaternion (x, y, z, w)")
    parser.add_argument(
        "-R", "--relative_pose", type=float,
        nargs='+',
        help="Jog pose by a relative amount in the base frame: X, Y, Z, roll, pitch, yaw")
    parser.add_argument(
        "-T", "--in_tip_frame", action='store_true',
        help="For relative jogs, job in tip frame (default is base frame)")
    parser.add_argument(
        "-q", "--joint_angles", type=float,
        nargs='+', default=[],
        help="A list of joint angles, one for each of the 7 joints, J0...J6")
    parser.add_argument(
        "-t",  "--tip_name", default='right_hand',
        help="The tip name used by the Cartesian pose")
    parser.add_argument(
        "--linear_speed", type=float, default=0.6,
        help="The max linear speed of the endpoint (m/s)")
    parser.add_argument(
        "--linear_accel", type=float, default=0.6,
        help="The max linear acceleration of the endpoint (m/s/s)")
    parser.add_argument(
        "--rotational_speed", type=float, default=1.57,
        help="The max rotational speed of the endpoint (rad/s)")
    parser.add_argument(
        "--rotational_accel", type=float, default=1.57,
        help="The max rotational acceleration of the endpoint (rad/s/s)")
    parser.add_argument(
        "--timeout", type=float, default=None,
        help="Max time in seconds to complete motion goal before returning. None is interpreted as an infinite timeout.")
    """

    try:
        #rospy.init_node('go_to_cartesian_pose_py')
        limb = Limb()

        traj_options = TrajectoryOptions()
        traj_options.interpolation_type = TrajectoryOptions.CARTESIAN
        traj = MotionTrajectory(trajectory_options=traj_options, limb=limb)

        wpt_opts = MotionWaypointOptions(
            max_linear_speed=args.linear_speed,
            max_linear_accel=args.linear_accel,
            max_rotational_speed=args.rotational_speed,
            max_rotational_accel=args.rotational_accel,
            max_joint_speed_ratio=1.0)
        waypoint = MotionWaypoint(options=wpt_opts.to_msg(), limb=limb)

        joint_names = limb.joint_names()

        if args.joint_angles and len(args.joint_angles) != len(joint_names):
            rospy.logerr('len(joint_angles) does not match len(joint_names!)')
            return None

        if (args.position is None and args.orientation is None
                and args.relative_pose is None):
            if args.joint_angles:
                # does Forward Kinematics
                waypoint.set_joint_angles(args.joint_angles, args.tip_name,
                                          joint_names)
            else:
                rospy.loginfo(
                    "No Cartesian pose or joint angles given. Using default")
                waypoint.set_joint_angles(joint_angles=None,
                                          active_endpoint=args.tip_name)
        else:
            endpoint_state = limb.tip_state(args.tip_name)
            if endpoint_state is None:
                rospy.logerr('Endpoint state not found with tip name %s',
                             args.tip_name)
                return None
            pose = endpoint_state.pose

            if args.relative_pose is not None:
                if len(args.relative_pose) != 6:
                    rospy.logerr(
                        'Relative pose needs to have 6 elements (x,y,z,roll,pitch,yaw)'
                    )
                    return None
                # create kdl frame from relative pose
                rot = PyKDL.Rotation.RPY(args.relative_pose[3],
                                         args.relative_pose[4],
                                         args.relative_pose[5])
                trans = PyKDL.Vector(args.relative_pose[0],
                                     args.relative_pose[1],
                                     args.relative_pose[2])
                f2 = PyKDL.Frame(rot, trans)
                # and convert the result back to a pose message
                if args.in_tip_frame:
                    # end effector frame
                    pose = posemath.toMsg(posemath.fromMsg(pose) * f2)
                else:
                    # base frame
                    pose = posemath.toMsg(f2 * posemath.fromMsg(pose))
            else:
                if args.position is not None and len(args.position) == 3:
                    pose.position.x = args.position[0]
                    pose.position.y = args.position[1]
                    pose.position.z = args.position[2]
                if args.orientation is not None and len(args.orientation) == 4:
                    pose.orientation.x = args.orientation[0]
                    pose.orientation.y = args.orientation[1]
                    pose.orientation.z = args.orientation[2]
                    pose.orientation.w = args.orientation[3]
            poseStamped = PoseStamped()
            poseStamped.pose = pose
            waypoint.set_cartesian_pose(poseStamped, args.tip_name,
                                        args.joint_angles)

        rospy.loginfo('Sending waypoint: \n%s', waypoint.to_string())

        traj.append_waypoint(waypoint.to_msg())

        result = traj.send_trajectory(timeout=args.timeout)
        if result is None:
            rospy.logerr('Trajectory FAILED to send')
            return

        if result.result:
            rospy.loginfo(
                'Motion controller successfully finished the trajectory!')
        else:
            rospy.logerr(
                'Motion controller failed to complete the trajectory with error %s',
                result.errorId)
    except rospy.ROSInterruptException:
        rospy.logerr(
            'Keyboard interrupt detected from the user. Exiting before trajectory completion.'
        )
コード例 #5
0
def move2cartesian(position=None, orientation=None, relative_pose=None, in_tip_frame=False, joint_angles=[],
         tip_name='right_hand', linear_speed=0.6, linear_accel=0.6, rotational_speed=1.57,
         rotational_accel=1.57, timeout=None, neutral=False):
    """
    Move the robot arm to the specified configuration.
    Call using:
    $ rosrun intera_examples go_to_cartesian_pose.py  [arguments: see below]
    -p 0.4 -0.3 0.18 -o 0.0 1.0 0.0 0.0 -t right_hand
    --> Go to position: x=0.4, y=-0.3, z=0.18 meters
    --> with quaternion orientation (0, 1, 0, 0) and tip name right_hand
    --> The current position or orientation will be used if only one is provided.
    -q 0.0 -0.9 0.0 1.8 0.0 -0.9 0.0
    --> Go to joint angles: 0.0 -0.9 0.0 1.8 0.0 -0.9 0.0 using default settings
    --> If a Cartesian pose is not provided, Forward kinematics will be used
    --> If a Cartesian pose is provided, the joint angles will be used to bias the nullspace
    -R 0.01 0.02 0.03 0.1 0.2 0.3 -T
    -> Jog arm with Relative Pose (in tip frame)
    -> x=0.01, y=0.02, z=0.03 meters, roll=0.1, pitch=0.2, yaw=0.3 radians
    -> The fixed position and orientation paramters will be ignored if provided
    """

    try:
        #rospy.init_node('go_to_cartesian_pose_py')
        limb = Limb()

        traj_options = TrajectoryOptions()
        traj_options.interpolation_type = TrajectoryOptions.CARTESIAN
        traj = MotionTrajectory(trajectory_options = traj_options, limb = limb)

        wpt_opts = MotionWaypointOptions(max_linear_speed=linear_speed,
                                         max_linear_accel=linear_accel,
                                         max_rotational_speed=rotational_speed,
                                         max_rotational_accel=rotational_accel,
                                         max_joint_speed_ratio=1.0)
        waypoint = MotionWaypoint(options = wpt_opts.to_msg(), limb = limb)

        joint_names = limb.joint_names()

        if joint_angles and len(joint_angles) != len(joint_names):
            rospy.logerr('len(joint_angles) does not match len(joint_names!)')
            return None

        if neutral == True:
            limb.move_to_neutral()
        else:
            if (position is None and orientation is None and relative_pose is None):
                if joint_angles:
                    # does Forward Kinematics
                    waypoint.set_joint_angles(joint_angles, tip_name, joint_names)
                else:
                    rospy.loginfo("No Cartesian pose or joint angles given. Using default")
                    waypoint.set_joint_angles(joint_angles=None, active_endpoint=tip_name)
            else:
                endpoint_state = limb.tip_state(tip_name)
                if endpoint_state is None:
                    rospy.logerr('Endpoint state not found with tip name %s', tip_name)
                    return None
                pose = endpoint_state.pose

                if relative_pose is not None:
                    if len(relative_pose) != 6:
                        rospy.logerr('Relative pose needs to have 6 elements (x,y,z,roll,pitch,yaw)')
                        return None
                    # create kdl frame from relative pose
                    rot = PyKDL.Rotation.RPY(relative_pose[3],
                                             relative_pose[4],
                                             relative_pose[5])
                    trans = PyKDL.Vector(relative_pose[0],
                                         relative_pose[1],
                                         relative_pose[2])
                    f2 = PyKDL.Frame(rot, trans)
                    # and convert the result back to a pose message
                    if in_tip_frame:
                      # end effector frame
                      pose = posemath.toMsg(posemath.fromMsg(pose) * f2)
                    else:
                      # base frame
                      pose = posemath.toMsg(f2 * posemath.fromMsg(pose))
                else:
                    if position is not None and len(position) == 3:
                        pose.position.x = position[0]
                        pose.position.y = position[1]
                        pose.position.z = position[2]
                    if orientation is not None and len(orientation) == 4:
                        pose.orientation.x = orientation[0]
                        pose.orientation.y = orientation[1]
                        pose.orientation.z = orientation[2]
                        pose.orientation.w = orientation[3]
                poseStamped = PoseStamped()
                poseStamped.pose = pose

                if not joint_angles:
                    # using current joint angles for nullspace bais if not provided
                    joint_angles = limb.joint_ordered_angles()
                    waypoint.set_cartesian_pose(poseStamped, tip_name, joint_angles)
                else:
                    waypoint.set_cartesian_pose(poseStamped, tip_name, joint_angles)

            rospy.loginfo('Sending waypoint: \n%s', waypoint.to_string())

            traj.append_waypoint(waypoint.to_msg())

            result = traj.send_trajectory(timeout=timeout)
            if result is None:
                rospy.logerr('Trajectory FAILED to send')
                return

            if result.result:
                rospy.loginfo('Motion controller successfully finished the trajectory!')
            else:
                rospy.logerr('Motion controller failed to complete the trajectory with error %s',
                             result.errorId)
                             
    except rospy.ROSInterruptException:
        rospy.logerr('Keyboard interrupt detected from the user. Exiting before trajectory completion.')
コード例 #6
0
def moveTo(myArgs):
    arg_fmt = argparse.RawDescriptionHelpFormatter
    parser = argparse.ArgumentParser(formatter_class=arg_fmt,
                                     description=main_server.__doc__)
    parser.add_argument(
        "-p", "--position", type=float,
        nargs='+',
        help="Desired end position: X, Y, Z")
    parser.add_argument(
        "-o", "--orientation", type=float,
        nargs='+',
        help="Orientation as a quaternion (x, y, z, w)")
    parser.add_argument(
        "-R", "--relative_pose", type=float,
        nargs='+',
        help="Jog pose by a relative amount in the base frame: X, Y, Z, roll, pitch, yaw")
    parser.add_argument(
        "-T", "--in_tip_frame", action='store_true',
        help="For relative jogs, job in tip frame (default is base frame)")
    parser.add_argument(
        "-q", "--joint_angles", type=float,
        nargs='+', default=[],
        help="A list of joint angles, one for each of the 7 joints, J0...J6")
    parser.add_argument(
        "--timeout", type=float, default=None,
        help="Max time in seconds to complete motion goal before returning. None is interpreted as an infinite timeout.")
    args = parser.parse_args(myArgs.call.split(" "))
    print(args.position)
    #test_string = ['-p','0.5', '0.3', '0.5']
    #args = parser.parse_args(test_string)

    try:
        limb = Limb()

        traj_options = TrajectoryOptions()
        traj_options.interpolation_type = TrajectoryOptions.CARTESIAN
        traj = MotionTrajectory(trajectory_options = traj_options, limb = limb)

        wpt_opts = MotionWaypointOptions(max_linear_speed=0.4,
                                         max_linear_accel=0.4,
                                         max_rotational_speed=1.57,
                                         max_rotational_accel=1.5,
                                         max_joint_speed_ratio=1.0)
        waypoint = MotionWaypoint(options = wpt_opts.to_msg(), limb = limb)

        joint_names = limb.joint_names()

        if args.joint_angles and len(args.joint_angles) != len(joint_names):
            rospy.logerr('len(joint_angles) does not match len(joint_names!)')
            return "failed"

        if (args.position is None and args.orientation is None
            and args.relative_pose is None):
            if args.joint_angles:
                # does Forward Kinematics
                waypoint.set_joint_angles(args.joint_angles,'right_hand', joint_names)
            else:
                rospy.loginfo("No Cartesian pose or joint angles given. Using default")
                waypoint.set_joint_angles(joint_angles=None, active_endpoint='right_hand')
        else:
            endpoint_state = limb.tip_state('right_hand')
            if endpoint_state is None:
                rospy.logerr('Endpoint state not found with tip name %s', 'right_hand')
                return "failed"
            pose = endpoint_state.pose

            if args.relative_pose is not None:
                if len(args.relative_pose) != 6:
                    rospy.logerr('Relative pose needs to have 6 elements (x,y,z,roll,pitch,yaw)')
                    return "failed"
                # create kdl frame from relative pose
                rot = PyKDL.Rotation.RPY(args.relative_pose[3],
                                         args.relative_pose[4],
                                         args.relative_pose[5])
                trans = PyKDL.Vector(args.relative_pose[0],
                                     args.relative_pose[1],
                                     args.relative_pose[2])
                f2 = PyKDL.Frame(rot, trans)
                # and convert the result back to a pose message
                if args.in_tip_frame:
                  # end effector frame
                  pose = posemath.toMsg(posemath.fromMsg(pose) * f2)
                else:
                  # base frame
                  pose = posemath.toMsg(f2 * posemath.fromMsg(pose))
            else:
                if args.position is not None and len(args.position) == 3:
                    pose.position.x = args.position[0]
                    pose.position.y = args.position[1]
                    pose.position.z = args.position[2]
                if args.orientation is not None and len(args.orientation) == 4:
                    pose.orientation.x = args.orientation[0]
                    pose.orientation.y = args.orientation[1]
                    pose.orientation.z = args.orientation[2]
                    pose.orientation.w = args.orientation[3]
            poseStamped = PoseStamped()
            poseStamped.pose = pose
            waypoint.set_cartesian_pose(poseStamped, 'right_hand', args.joint_angles)

        rospy.loginfo('Sending waypoint: \n%s', waypoint.to_string())

        traj.append_waypoint(waypoint.to_msg())

        result = traj.send_trajectory(timeout=args.timeout)
        if result is None:
            rospy.logerr('Trajectory FAILED to send')
            return 'Trajectory FAILED to send'

        if result.result:
            rospy.loginfo('Motion controller successfully finished the trajectory!')
            return 'Motion Success'
        else:
            rospy.logerr('Motion controller failed to complete the trajectory with error %s',
                         result.errorId)
            return result.errorId

    except rospy.ROSInterruptException:
        rospy.logerr('Keyboard interrupt detected from the user. Exiting before trajectory completion.')
    return "failed"