Ejemplo n.º 1
0
def lift_right_foot():
    global rf_start_position
    global rf_start_orientation

    wholemsg = WholeBodyTrajectoryRosMessage()
    wholemsg.unique_id = uid()

    wholemsg.left_hand_trajectory_message.robot_side = 0
    wholemsg.right_hand_trajectory_message.robot_side = 1
    wholemsg.left_arm_trajectory_message.robot_side = 0
    wholemsg.right_arm_trajectory_message.robot_side = 1
    wholemsg.left_foot_trajectory_message.robot_side = 0
    wholemsg.right_foot_trajectory_message.robot_side = 1

    wholemsg.right_foot_trajectory_message.unique_id = wholemsg.unique_id
    wholemsg.right_foot_trajectory_message.execution_mode = wholemsg.right_foot_trajectory_message.OVERRIDE

    zero = Vector3(0.0, 0.0, 0.0)

    p1 = SE3TrajectoryPointRosMessage()
    p1.time = .25
    p1.position = deepcopy(rf_start_position)
    p1.position.z += 0.05
    p1.position.x += 0.2
    p1.orientation = deepcopy(rf_start_orientation)
    #p1.orientation.z += 0.2
    p1.linear_velocity = zero
    p1.angular_velocity = zero

    p2 = SE3TrajectoryPointRosMessage()
    p2.time = .5
    p2.position = deepcopy(rf_start_position)
    p2.position.z -= 0.01
    p2.position.x += 0.4
    p2.orientation = deepcopy(rf_start_orientation)
    #p2.orientation.z += 0.2
    p2.linear_velocity = zero
    p2.angular_velocity = zero

    wholemsg.right_foot_trajectory_message.taskspace_trajectory_points = [ p1, p2 ]

    rospy.loginfo('JPW lifting right foot: uid' + str(wholemsg.unique_id))

    BodyPublisher.publish(wholemsg)
Ejemplo n.º 2
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def mashButton():
    # Button pressed position gathered from Gazebo analysis
    #buttonPosition = Vector3(3.35, -0.73, 1.25)
    # we can subtract the length of the fingers... about 9 cm
    buttonPosition = Vector3(3.16, -0.73, 1.25)

    zarj_tf.transform_from_world(buttonPosition)
    handWorld = zarj_tf.lookup_frame_in_world('rightPalm', rospy.Time())

    hp1 = SE3TrajectoryPointRosMessage()
    hp1.time = 0.2
    hp1.position = deepcopy(handWorld.transform.translation)
    hp1.position.y = buttonPosition.y
    hp1.position.z = buttonPosition.z
    hp1.orientation = handWorld.transform.rotation

    hp2 = SE3TrajectoryPointRosMessage()
    hp2.time = 0.3
    hp2.position.x = buttonPosition.x
    hp2.position.y = buttonPosition.y
    hp2.position.z = buttonPosition.z
    hp2.orientation = handWorld.transform.rotation

    hp3 = SE3TrajectoryPointRosMessage()
    hp3.time = 0.6
    hp3.position = deepcopy(handWorld.transform.translation)
    hp3.position.y = buttonPosition.y
    hp3.position.z = buttonPosition.z
    hp3.orientation = handWorld.transform.rotation

    hp4 = SE3TrajectoryPointRosMessage()
    hp4.time = 0.8
    hp4.position = deepcopy(handWorld.transform.translation)
    hp4.orientation = handWorld.transform.rotation

    msg = HandTrajectoryRosMessage()
    msg.robot_side = msg.RIGHT
    msg.base_for_control = msg.WORLD
    msg.execution_mode = msg.OVERRIDE
    msg.taskspace_trajectory_points = [ hp1, hp2, hp3, hp4 ]
    msg.unique_id = uid()

    rospy.loginfo('AS Mash Button: uid' + str(msg.unique_id))
    handTrajectoryPublisher.publish(msg)
def getCurrentPosition(stepSide):
    handstep = SE3TrajectoryPointRosMessage()

    if stepSide == HandTrajectoryRosMessage.LEFT:
        hand_frame = LEFT_HAND_FRAME_NAME
    else:
        hand_frame = RIGHT_HAND_FRAME_NAME

    handWorld = tfBuffer.lookup_transform('world', hand_frame, rospy.Time())
    handstep.orientation = handWorld.transform.rotation
    handstep.position = handWorld.transform.translation

    rospy.loginfo('current world position: {0}'.format(handstep.position))

    return handstep
Ejemplo n.º 4
0
def sendTaskSpaceTrajectory():
    msg = HandTrajectoryRosMessage()

    msg.robot_side = HandTrajectoryRosMessage.RIGHT
    msg.base_for_control = HandTrajectoryRosMessage.CHEST

    pt = SE3TrajectoryPointRosMessage()
    pt.time = 2.0

    pt.position.x = 0.28
    pt.position.y = -0.7
    pt.position.z = 1.0

    pt.orientation.w = 1.0

    pt.unique_id = 255

    msg.taskspace_trajectory_points.append(pt)

    msg.execution_mode = HandTrajectoryRosMessage.OVERRIDE
    msg.unique_id = 212
    rospy.loginfo('Moving Hand in task space')
    taskSpaceTrajectoryPublisher.publish(msg)
Ejemplo n.º 5
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def HandMsgMaker(time, side, POSITION_COORD, ORIENTATION_COORD):

    testHand = HandTrajectoryRosMessage()
    testHand.robot_side = side
    testHand.unique_id = -1
    testHand.previous_message_id = 0
    testHand.execution_mode = 0
    testHand.base_for_control = HandTrajectoryRosMessage.WORLD  #Control with respect to world
    testHand.taskspace_trajectory_points = [
        copy.deepcopy(SE3TrajectoryPointRosMessage()) for i in range(1)
    ]
    testHand.taskspace_trajectory_points[i].time = time
    testHand.taskspace_trajectory_points[i].position.x = POSITION_COORD[0]
    testHand.taskspace_trajectory_points[i].position.y = POSITION_COORD[1]
    testHand.taskspace_trajectory_points[i].position.z = POSITION_COORD[2]
    testHand.taskspace_trajectory_points[i].orientation.x = ORIENTATION_COORD[
        0]
    testHand.taskspace_trajectory_points[i].orientation.y = ORIENTATION_COORD[
        1]
    testHand.taskspace_trajectory_points[i].orientation.z = ORIENTATION_COORD[
        2]
    testHand.taskspace_trajectory_points[i].orientation.w = ORIENTATION_COORD[
        3]
    hand_publisher.publish(testHand)
Ejemplo n.º 6
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    def publish_once_and_kill(self):
        msg = HandTrajectoryRosMessage()
        msg.robot_side = DESIRED_HAND  #msg.RIGHT
        msg.execution_mode = msg.OVERRIDE
        msg.unique_id = 2

        if ON_REAL_ROBOT:
            # REAL ROBOT ONLY
            print 'On real Robot'
            msg.frame_information.trajectory_reference_frame_id = WORLD_FRAME_HASH
            msg.frame_information.data_reference_frame_id = WORLD_FRAME_HASH
            msg.use_custom_control_frame = False
            # END REAL_ROBOT_ONLY
        else:
            base_for_control = msg.WORLD

        se3_final = SE3TrajectoryPointRosMessage()

        # Set Zero Velocity for Linear and Angular components
        zero_vel = Vector3()
        zero_vel.x = 0.0
        zero_vel.y = 0.0
        zero_vel.z = 0.0

        print 'Initial Hand Pose:'
        # Get Current Hand Position and Orientation
        current_hand_pos, current_hand_ori = self.get_current_hand_se3(
            DESIRED_HAND)

        se3_final.time = 3.0  # Trajectory Time
        se3_final.position.x = DESIRED_HAND_POS.x
        se3_final.position.y = DESIRED_HAND_POS.y
        se3_final.position.z = DESIRED_HAND_POS.z

        se3_final.orientation.x = DESIRED_HAND_ORI.x
        se3_final.orientation.y = DESIRED_HAND_ORI.y
        se3_final.orientation.z = DESIRED_HAND_ORI.z
        se3_final.orientation.w = DESIRED_HAND_ORI.w
        se3_final.unique_id = msg.unique_id

        se3_final.linear_velocity = zero_vel
        se3_final.angular_velocity = zero_vel

        #msg.taskspace_trajectory_points.append(se3_init)
        msg.taskspace_trajectory_points.append(se3_final)

        print 'Sending Hand Command in World Frame...'
        hand_name = "Right"
        if DESIRED_HAND == 0:  # LEFT
            hand_name = "Left"
        print "     ", hand_name, "Des Hand Pos (x,y,z)", (DESIRED_HAND_POS.x,
                                                           DESIRED_HAND_POS.y,
                                                           DESIRED_HAND_POS.z)
        print "     ", hand_name, "Des Ori (x,y,z,w)", (DESIRED_HAND_ORI.x,
                                                        DESIRED_HAND_ORI.y,
                                                        DESIRED_HAND_ORI.z,
                                                        DESIRED_HAND_ORI.w)

        print "......Sending message......"
        self.hand_traj_pub.publish(msg)
        rospy.sleep(4)

        print 'Resulting Hand Pose:'
        # Get Resulting Hand Position and Orientation
        current_hand_pos, current_hand_ori = self.get_current_hand_se3(
            DESIRED_HAND)

        print " Position (x,y,z) error: ", (DESIRED_HAND_POS.x -
                                            current_hand_pos.x,
                                            DESIRED_HAND_POS.y -
                                            current_hand_pos.y,
                                            DESIRED_HAND_POS.z -
                                            current_hand_pos.z)

        sys.exit()
Ejemplo n.º 7
0
def do_a_little_dance():
    wholemsg = WholeBodyTrajectoryRosMessage()
    wholemsg.unique_id = uid()

    rhandWorld = tfBuffer.lookup_transform('world', 'rightPalm', rospy.Time())
    lhandWorld = tfBuffer.lookup_transform('world', 'leftPalm', rospy.Time())

    hand_pt1 = SE3TrajectoryPointRosMessage()
    hand_pt1.time = 1.0
    hand_pt1.position = deepcopy(rhandWorld.transform.translation)
    hand_pt1.orientation = rhandWorld.transform.rotation
    hand_pt1.position.x += 0.5
    hand_pt1.position.y -= 0.25
    hand_pt1.position.z += 0.5
    hand_pt2 = SE3TrajectoryPointRosMessage()
    hand_pt2.time = 2.0  # How long to take to move the arm
    hand_pt2.position = deepcopy(rhandWorld.transform.translation)
    hand_pt2.orientation = rhandWorld.transform.rotation
    hand_pt2.position.x -= 0.5
    hand_pt2.position.y -= 0.25
    hand_pt2.position.z -= 0.5
    hand_pt3 = SE3TrajectoryPointRosMessage()
    hand_pt3.time = 3.0  # How long to take to move the arm
    hand_pt3.position = deepcopy(rhandWorld.transform.translation)
    hand_pt3.orientation = rhandWorld.transform.rotation
    hand_pt3.position.x += 0.25
    hand_pt3.position.y += 0.25
    hand_pt3b = SE3TrajectoryPointRosMessage()
    hand_pt3b.time = 4.0  # How long to take to move the arm
    hand_pt3b.position = deepcopy(rhandWorld.transform.translation)
    hand_pt3b.orientation = rhandWorld.transform.rotation
    hand_pt3b.position.x -= 0.25
    hand_pt3b.position.y += 0.25
    hand_pt3b.position.z += 1
    wholemsg.right_hand_trajectory_message.taskspace_trajectory_points = [hand_pt1, hand_pt2, hand_pt3, hand_pt3b]


    hand_pt4 = SE3TrajectoryPointRosMessage()
    hand_pt4.time = 1.0  # How long to take to move the arm
    hand_pt4.position = deepcopy(lhandWorld.transform.translation)
    hand_pt4.orientation = lhandWorld.transform.rotation
    hand_pt4.position.x -= 0.5
    hand_pt4.position.y += 0.25
    hand_pt4.position.z -= 0.5
    hand_pt5 = SE3TrajectoryPointRosMessage()
    hand_pt5.time = 2.0  # How long to take to move the arm
    hand_pt5.position = deepcopy(lhandWorld.transform.translation)
    hand_pt5.orientation = lhandWorld.transform.rotation
    hand_pt5.position.x += 0.5
    hand_pt5.position.y += 0.25
    hand_pt5.position.z += 0.5
    hand_pt6 = SE3TrajectoryPointRosMessage()
    hand_pt6.time = 3.0  # How long to take to move the arm
    hand_pt6.position = deepcopy(lhandWorld.transform.translation)
    hand_pt6.orientation = lhandWorld.transform.rotation
    hand_pt6.position.x += 0.25
    hand_pt6.position.y -= 0.25
    hand_pt7 = SE3TrajectoryPointRosMessage()
    hand_pt7.time = 4.0  # How long to take to move the arm
    hand_pt7.position = deepcopy(lhandWorld.transform.translation)
    hand_pt7.orientation = lhandWorld.transform.rotation
    hand_pt7.position.x -= 0.25
    hand_pt7.position.y += 0.25
    hand_pt7.position.z += 1
    wholemsg.left_hand_trajectory_message.taskspace_trajectory_points = [hand_pt4, hand_pt5, hand_pt6, hand_pt7]

    wholemsg.right_hand_trajectory_message.base_for_control = wholemsg.right_hand_trajectory_message.WORLD
    wholemsg.right_hand_trajectory_message.execution_mode = wholemsg.right_hand_trajectory_message.OVERRIDE
    wholemsg.right_hand_trajectory_message.unique_id = wholemsg.unique_id

    wholemsg.left_hand_trajectory_message.base_for_control = wholemsg.left_hand_trajectory_message.WORLD
    wholemsg.left_hand_trajectory_message.execution_mode = wholemsg.left_hand_trajectory_message.OVERRIDE
    wholemsg.left_hand_trajectory_message.unique_id = wholemsg.unique_id

    wholemsg.left_hand_trajectory_message.robot_side = 0
    wholemsg.right_hand_trajectory_message.robot_side = 1
    wholemsg.left_arm_trajectory_message.robot_side = 0
    wholemsg.right_arm_trajectory_message.robot_side = 1
    wholemsg.left_foot_trajectory_message.robot_side = 0
    wholemsg.right_foot_trajectory_message.robot_side = 1

    #wholemsg.chest_trajectory_message
    #wholemsg.pelvis_trajectory_message

    rospy.loginfo('Positioning Body: uid' + str(wholemsg.unique_id))
    BodyPublisher.publish(wholemsg)
Ejemplo n.º 8
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    def pushButton(self, in_msg):
        rospy.loginfo("Button press starting.")

        # This message commands the controller to move in taskspace a hand to the desired pose (position &
        # orientation) while going through the specified trajectory points. A third order polynomial function
        # is used to interpolate positions and a hermite based curve (third order) is used to interpolate the
        # orientations. To excute a single straight line trajectory to reach a desired hand pose, set only one
        # trajectory point with zero velocity and its time to be equal to the desired trajectory time.
        msg = HandTrajectoryRosMessage()

        hand_side = in_msg.side
        if hand_side == self.LEFT:
            msg.robot_side = HandTrajectoryRosMessage.LEFT
            hand_frame = self.LEFT_HAND_FRAME_NAME
            rospy.loginfo("Using left hand to press button.")
        else:
            msg.robot_side = HandTrajectoryRosMessage.RIGHT
            hand_frame = self.RIGHT_HAND_FRAME_NAME
            rospy.loginfo("Using right hand to press button.")

        msg.base_for_control = HandTrajectoryRosMessage.WORLD
        msg.execution_mode = HandTrajectoryRosMessage.OVERRIDE
        msg.unique_id = rospy.Time.now().nsecs

        trajectory = SE3TrajectoryPointRosMessage()
        trajectory.position = in_msg.button_position
        # do not delete these next two or rotation fails
        trajectory.linear_velocity = Vector3(0, 0, 0)
        trajectory.angular_velocity = Vector3(0, 0, 0)
        '''
        Set palm parallel to y-z world plane, with fingers going right (or left)
        By default, hand in world frame has palm up (z), fingers forward (x)

        To get right hand fingers oriented properly, rotate 90 degrees about z
        (for left it would be -90)
        
        Then, we rotate 90 degrees about y so palm faces wall
        '''
        y_axis_unit = (0, 1, 0)
        z_axis_unit = (0, 0, 1)

        if hand_side == self.LEFT:
            q1 = tf.transformations.quaternion_about_axis(
                -numpy.pi / 2, z_axis_unit)
        else:
            q1 = tf.transformations.quaternion_about_axis(
                numpy.pi / 2, z_axis_unit)

        q2 = tf.transformations.quaternion_about_axis(numpy.pi / 2,
                                                      y_axis_unit)

        q = tf.transformations.quaternion_multiply(q1, q2)

        # TESTING ONLY set to identity quaternion
        # q = [0, 0, 0, 1]

        # this orientation IS a quaternion, in message definition
        trajectory.orientation.x = q[0]
        trajectory.orientation.y = q[1]
        trajectory.orientation.z = q[2]
        trajectory.orientation.w = q[3]

        rospy.loginfo(trajectory.orientation)

        motion_time = in_msg.motion_time
        if motion_time == None or motion_time <= 0:
            trajectory.time = 1
        else:
            trajectory.time = float(motion_time)
        msg.taskspace_trajectory_points.append(trajectory)

        rospy.loginfo('publishing button push trajectory')
        self.trajectoryPublisher.publish(msg)
Ejemplo n.º 9
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def lift_left_foot(): 
    global lf_start_position
    global lf_start_orientation

    wholemsg = WholeBodyTrajectoryRosMessage()
    wholemsg.unique_id = uid()

    wholemsg.left_hand_trajectory_message.robot_side = 0
    wholemsg.right_hand_trajectory_message.robot_side = 1
    wholemsg.left_arm_trajectory_message.robot_side = 0
    wholemsg.right_arm_trajectory_message.robot_side = 1
    wholemsg.left_foot_trajectory_message.robot_side = 0
    wholemsg.right_foot_trajectory_message.robot_side = 1

    wholemsg.left_foot_trajectory_message.unique_id = wholemsg.unique_id
    wholemsg.left_foot_trajectory_message.execution_mode = 0

    zero = Vector3(0.0, 0.0, 0.0)

    p3 = SE3TrajectoryPointRosMessage()
    p3.time = 0.25
    p3.position = deepcopy(lf_start_position)
    p3.position.z += 0.05
    p3.position.x += 0
    p3.orientation = deepcopy(lf_start_orientation)
    p3.linear_velocity = zero
    p3.angular_velocity = zero

    p3a = SE3TrajectoryPointRosMessage()
    p3a.time = 0.45
    p3a.position = deepcopy(lf_start_position)
    p3a.position.z += 0.05
    p3a.position.x += 0.3
    p3a.orientation = deepcopy(lf_start_orientation)
    p3a.linear_velocity = zero
    p3a.angular_velocity = zero


    p4 = SE3TrajectoryPointRosMessage()
    p4.time = 0.65
    p4.position = deepcopy(lf_start_position)
    p4.position.z -= 0.01
    p4.position.x += 0.3
    p4.orientation = deepcopy(lf_start_orientation)
    p4.linear_velocity = zero
    p4.angular_velocity = zero

    wholemsg.left_foot_trajectory_message.taskspace_trajectory_points = [ p3, p3a, p4 ]

    rjoints = make_forward_arm(2.00, 1)

    wholemsg.right_arm_trajectory_message.joint_trajectory_messages = rjoints
    wholemsg.right_arm_trajectory_message.execution_mode = 0
    wholemsg.right_arm_trajectory_message.unique_id = wholemsg.unique_id

    ljoints = make_backward_arm(2.00, 0)

    wholemsg.left_arm_trajectory_message.joint_trajectory_messages = ljoints
    wholemsg.left_arm_trajectory_message.execution_mode = 0
    wholemsg.left_arm_trajectory_message.unique_id = wholemsg.unique_id


    rospy.loginfo('JPW lifting left foot: uid' + str(wholemsg.unique_id))

    BodyPublisher.publish(wholemsg)
Ejemplo n.º 10
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def lift_right_foot():
    global rf_start_position
    global rf_start_orientation

    wholemsg = WholeBodyTrajectoryRosMessage()
    wholemsg.unique_id = uid()

    wholemsg.left_hand_trajectory_message.robot_side = 0
    wholemsg.right_hand_trajectory_message.robot_side = 1
    wholemsg.left_arm_trajectory_message.robot_side = 0
    wholemsg.right_arm_trajectory_message.robot_side = 1
    wholemsg.left_foot_trajectory_message.robot_side = 0
    wholemsg.right_foot_trajectory_message.robot_side = 1

    wholemsg.right_foot_trajectory_message.unique_id = wholemsg.unique_id
    wholemsg.right_foot_trajectory_message.previous_message_id = wholemsg.unique_id -1
    wholemsg.left_foot_trajectory_message.previous_message_id = wholemsg.unique_id -1
    wholemsg.right_foot_trajectory_message.execution_mode = 0
    wholemsg.left_foot_trajectory_message.execution_mode = 0

    zero = Vector3(0.0, 0.0, 0.0)

    p1 = SE3TrajectoryPointRosMessage()
    p1.time = .45
    p1.position = deepcopy(rf_start_position)
    p1.position.z += 0.05
    p1.position.x += 0
    p1.orientation = deepcopy(rf_start_orientation)
    p1.linear_velocity = zero
    p1.angular_velocity = zero

    p1a = SE3TrajectoryPointRosMessage()
    p1a.time = .85
    p1a.position = deepcopy(rf_start_position)
    p1a.position.z += 0.05
    p1a.position.x += 0.6
    p1a.orientation = deepcopy(rf_start_orientation)
    p1a.linear_velocity = zero
    p1a.angular_velocity = zero


    p2 = SE3TrajectoryPointRosMessage()
    p2.time = .95
    p2.position = deepcopy(rf_start_position)
    p2.position.z -= 0.01
    p2.position.x += 0.6
    p2.orientation = deepcopy(rf_start_orientation)
    p2.linear_velocity = zero
    p2.angular_velocity = zero

    wholemsg.right_foot_trajectory_message.taskspace_trajectory_points = [ p1, p1a, p2 ]

    rjoints = make_backward_arm(2.0, 1)

    wholemsg.right_arm_trajectory_message.joint_trajectory_messages = rjoints
    wholemsg.right_arm_trajectory_message.execution_mode = 0
    wholemsg.right_arm_trajectory_message.unique_id = wholemsg.unique_id
    wholemsg.right_arm_trajectory_message.previous_message_id = wholemsg.unique_id-1

    ljoints = make_forward_arm(2.0, 0)

    wholemsg.left_arm_trajectory_message.joint_trajectory_messages = ljoints
    wholemsg.left_arm_trajectory_message.execution_mode = 0
    wholemsg.left_arm_trajectory_message.unique_id = wholemsg.unique_id
    wholemsg.left_arm_trajectory_message.previous_message_id = wholemsg.unique_id-1

    rospy.loginfo('JPW lifting right foot: uid' + str(wholemsg.unique_id))

    BodyPublisher.publish(wholemsg)