示例#1
0
def place(
        robot: Robot,
        gripper: Gripper,
        current_episode: Episode,
        current_bin: Bin,
        action: Action,
        action_frame: Affine,
        grasp_action: Action,
        image_frame: Affine,
        camera: Camera,
        saver: Saver,
        md: MotionData
    ) -> None:

    move_to_safety(robot, md)

    md_approach_down = MotionData().with_dynamics(0.3).with_z_force_condition(7.0)
    md_approach_up = MotionData().with_dynamics(1.0).with_z_force_condition(20.0)

    action_approch_affine = Affine(z=Config.approach_distance_from_pose)
    action_approach_frame = action_frame * action_approch_affine

    robot.move_cartesian(Frames.gripper, action_approach_frame, md)
    robot.move_relative_cartesian(Frames.gripper, action_approch_affine.inverse(), md_approach_down)

    if md_approach_down.did_break:
        robot.recover_from_errors()
        action.collision = True
        robot.move_relative_cartesian(Frames.gripper, Affine(z=0.001), md_approach_up)

    action.final_pose = RobotPose(affine=(image_frame.inverse() * robot.current_pose(Frames.gripper)))

    gripper.release(grasp_action.final_pose.d + 0.006)  # [m]

    if Config.mode is not Mode.Perform:
        move_to_safety(robot, md_approach_up)

    if Config.mode is Mode.Measure and Config.take_after_images and Config.release_in_other_bin:
        robot.move_cartesian(Frames.camera, image_frame, md)
        saver.save_image(take_images(current_bin, camera, robot), current_episode.id, 'after', action=action)
示例#2
0
def shift(
        robot: Robot,
        gripper: Gripper,
        current_episode: Episode,
        current_bin: Bin,
        action: Action,
        action_frame: Affine,
        image_frame: Affine,
        camera: Camera,
        saver: Saver,
        md: MotionData
    ) -> None:
    md_approach_down = MotionData().with_dynamics(0.15).with_z_force_condition(6.0)
    md_approach_up = MotionData().with_dynamics(0.6).with_z_force_condition(20.0)
    md_shift = MotionData().with_dynamics(0.1).with_xy_force_condition(10.0)

    action_approch_affine = Affine(z=Config.approach_distance_from_pose)
    action_approach_frame = action_approch_affine * action_frame

    try:
        process_gripper = Process(target=gripper.move, args=(action.pose.d, ))
        process_gripper.start()

        robot.move_cartesian(Frames.gripper, action_approach_frame, md)

        process_gripper.join()
    except OSError:
        gripper.move(0.08)
        robot.move_cartesian(Frames.gripper, action_approach_frame, md)

    robot.move_relative_cartesian(Frames.gripper, action_approch_affine.inverse(), md_approach_down)

    if md_approach_down.did_break:
        robot.recover_from_errors()
        action.collision = True
        robot.move_relative_cartesian(Frames.gripper, Affine(z=0.001), md_approach_up)

    robot.move_relative_cartesian(Frames.gripper, Affine(x=action.shift_motion[0], y=action.shift_motion[1]), md_shift)
    robot.move_relative_cartesian(Frames.gripper, action_approch_affine, md_approach_up)
示例#3
0
import numpy as np

from argparse import ArgumentParser

from cfrankr import Robot, Affine, MotionData

if __name__ == '__main__':
    parser = ArgumentParser()
    parser.add_argument('--host',
                        default='panda_arm',
                        help='name of the robot')
    args = parser.parse_args()

    # Setup Robot
    general_dynamics_rel = 0.32
    robot = Robot(args.host, general_dynamics_rel)
    #robot.recover_from_errors()

    # Move down
    md_approach_down = MotionData().with_dynamics(0.3).with_z_force_condition(
        7.0)  # dynamtics is both velocity and acceleration of robot (= 0.3)
    tcp = Affine(0.0, 0.0, 0.18, -np.pi / 4, 0.0, -np.pi)
    approach_distance_from_pose = 0.120
    action_approch_affine = Affine(z=approach_distance_from_pose)
    robot.move_relative_cartesian(tcp, action_approch_affine.inverse(),
                                  md_approach_down)
示例#4
0
def grasp(
        robot: Robot,
        gripper: Gripper,
        current_episode: Episode,
        current_bin: Bin,
        action: Action,
        action_frame: Affine,
        image_frame: Affine,
        camera: Camera,
        saver: Saver,
        md: MotionData
    ) -> None:
    # md_approach_down = MotionData().with_dynamics(0.12).with_z_force_condition(7.0)
    # md_approach_up = MotionData().with_dynamics(0.6).with_z_force_condition(20.0)

    md_approach_down = MotionData().with_dynamics(0.3).with_z_force_condition(7.0)
    md_approach_up = MotionData().with_dynamics(1.0).with_z_force_condition(20.0)

    action_approch_affine = Affine(z=Config.approach_distance_from_pose)
    action_approach_frame = action_frame * action_approch_affine

    try:
        process_gripper = Process(target=gripper.move, args=(action.pose.d, ))
        process_gripper.start()

        robot.move_cartesian(Frames.gripper, action_approach_frame, md)

        process_gripper.join()
    except OSError:
        gripper.move(0.08)
        robot.move_cartesian(Frames.gripper, action_approach_frame, md)

    robot.move_relative_cartesian(Frames.gripper, action_approch_affine.inverse(), md_approach_down)

    if md_approach_down.did_break:
        robot.recover_from_errors()
        action.collision = True
        robot.move_relative_cartesian(Frames.gripper, Affine(z=0.001), md_approach_up)

    action.final_pose = RobotPose(affine=(image_frame.inverse() * robot.current_pose(Frames.gripper)))

    first_grasp_successful = gripper.clamp()
    if first_grasp_successful:
        logger.info('Grasp successful at first.')
        robot.recover_from_errors()

        # Change here
        action_approch_affine = Affine(z=1.5*Config.approach_distance_from_pose)

        move_up_success = robot.move_relative_cartesian(Frames.gripper, action_approch_affine, md_approach_up)
        if move_up_success and not md_approach_up.did_break:
            if Config.mode is Mode.Measure and Config.take_after_images and not Config.release_in_other_bin:
                robot.move_cartesian(Frames.camera, image_frame, md)
                saver.save_image(take_images(current_bin, camera, robot), current_episode.id, 'after', action=action)

            if Config.file_objects:
                raise Exception('File objects not implemented!')

            if Config.release_during_grasp_action:
                move_to_release_success = move_to_release(robot, current_bin, md)
                if move_to_release_success:
                    if gripper.is_grasping():
                        action.reward = 1.0
                        action.final_pose.d = gripper.width()

                    if Config.mode is Mode.Perform:
                        gripper.release(action.final_pose.d + 0.002)  # [m]
                    else:
                        gripper.release(action.pose.d + 0.002)  # [m]
                        move_to_safety(robot, md_approach_up)

                    if Config.mode is Mode.Measure and Config.take_after_images and Config.release_in_other_bin:
                        robot.move_cartesian(Frames.camera, image_frame, md)
                        saver.save_image(take_images(current_bin, camera, robot), current_episode.id, 'after', action=action)
            else:
                if Config.mode is not Mode.Perform:
                    move_to_safety(robot, md_approach_up)

                if Config.mode is Mode.Measure and Config.take_after_images and Config.release_in_other_bin:
                    robot.move_cartesian(Frames.camera, image_frame, md)
                    saver.save_image(take_images(current_bin, camera, robot), current_episode.id, 'after', action=action)

        else:
            gripper.release(action.pose.d + 0.002)  # [m]

            robot.recover_from_errors()
            robot.move_relative_cartesian(Frames.gripper, action_approch_affine, md_approach_up)
            move_to_safety_success = move_to_safety(robot, md_approach_up)
            if not move_to_safety_success:
                robot.recover_from_errors()
                robot.recover_from_errors()
                move_to_safety(robot, md_approach_up)

            gripper.move(gripper.max_width)

            move_to_safety(robot, md_approach_up)
            if Config.mode is Mode.Measure and Config.take_after_images:
                robot.move_cartesian(Frames.camera, image_frame, md)
                saver.save_image(take_images(current_bin, camera, robot), current_episode.id, 'after', action=action)

    else:
        logger.info('Grasp not successful.')
        gripper.release(gripper.width() + 0.002)  # [m]

        robot.recover_from_errors()
        move_up_successful = robot.move_relative_cartesian(Frames.gripper, action_approch_affine, md_approach_up)

        if md_approach_up.did_break or not move_up_successful:
            gripper.release(action.pose.d)  # [m]

            robot.recover_from_errors()
            robot.move_relative_cartesian(Frames.gripper, action_approch_affine, md_approach_up)
            move_to_safety(robot, md_approach_up)

        if Config.mode is Mode.Measure and Config.take_after_images:
            robot.move_cartesian(Frames.camera, image_frame, md)
            saver.save_image(take_images(current_bin, camera, robot), current_episode.id, 'after', action=action)
示例#5
0
def move_to_safety(robot: Robot, md: MotionData) -> bool:
    move_up = max(0.0, 0.16 - robot.current_pose(Frames.gripper).z)
    return robot.move_relative_cartesian(Frames.gripper, Affine(z=move_up), md)
示例#6
0
class Experiment:
    def __init__(self):
        self.camera = Camera(camera_suffixes=Config.camera_suffixes)
        self.history = EpisodeHistory()
        self.gripper = Gripper('172.16.0.2', Config.gripper_speed,
                               Config.gripper_force)
        self.robot = Robot('panda_arm', Config.general_dynamics_rel)
        self.saver = Saver(Config.database_url, Config.collection)

        self.current_bin = Config.start_bin

        self.md = MotionData().with_dynamics(1.0)

        self.overall_start = 0

        self.last_after_images: Optional[List[OrthographicImage]] = None

    def move_to_release(self,
                        md: MotionData,
                        direct=False,
                        target=None) -> bool:
        possible_random_affine = Affine()
        if Config.random_pose_before_release:
            possible_random_affine = Config.max_random_affine_before_release.get_inner_random(
            )

        target = target if target else Frames.get_release_frame(
            Frames.get_next_bin(self.current_bin)) * possible_random_affine

        self.robot.recover_from_errors()

        if Config.mode is Mode.Measure:
            self.move_to_safety(md)

        if Config.release_in_other_bin:
            if Config.release_as_fast_as_possible:
                waypoints = [
                    Waypoint(Frames.release_fastest,
                             Waypoint.ReferenceType.ABSOLUTE)
                ]
            else:
                waypoints = [Waypoint(target, Waypoint.ReferenceType.ABSOLUTE)]

                if not direct:
                    waypoints.insert(
                        0,
                        Waypoint(Frames.release_midway,
                                 Waypoint.ReferenceType.ABSOLUTE))

            return self.robot.move_waypoints_cartesian(Frames.gripper,
                                                       waypoints, MotionData())

        return self.robot.move_cartesian(
            Frames.gripper,
            Frames.get_release_frame(self.current_bin) *
            possible_random_affine, MotionData())

    def move_to_safety(self, md: MotionData) -> bool:
        move_up = max(0.0, 0.16 - self.robot.current_pose(Frames.gripper).z)
        return self.robot.move_relative_cartesian(Frames.gripper,
                                                  Affine(z=move_up), md)

    def take_images(self,
                    image_frame: Affine = None,
                    current_bin=None) -> List[OrthographicImage]:
        current_bin = current_bin if current_bin else self.current_bin

        images = self.camera.take_images()
        if not image_frame:
            image_frame = self.robot.current_pose(Frames.camera)
        pose = RobotPose(affine=(image_frame.inverse() *
                                 Frames.get_frame(current_bin)))

        for image in images:
            image.pose = pose.to_array()

        return images

    def grasp(self, current_episode: Episode, action_id: int, action: Action,
              action_frame: Affine, image_frame: Affine):
        md_approach_down = MotionData().with_dynamics(
            0.3).with_z_force_condition(7.0)
        md_approach_up = MotionData().with_dynamics(
            1.0).with_z_force_condition(20.0)

        action_approch_affine = Affine(z=Config.approach_distance_from_pose)
        action_approach_frame = action_frame * action_approch_affine

        try:
            process_gripper = Process(target=self.gripper.move,
                                      args=(action.pose.d, ))
            process_gripper.start()

            self.robot.move_cartesian(Frames.gripper, action_approach_frame,
                                      self.md)

            process_gripper.join()
        except OSError:
            self.gripper.move(0.08)
            self.robot.move_cartesian(Frames.gripper, action_approach_frame,
                                      self.md)

        self.robot.move_relative_cartesian(Frames.gripper,
                                           action_approch_affine.inverse(),
                                           md_approach_down)

        if md_approach_down.did_break:
            self.robot.recover_from_errors()
            action.collision = True
            self.robot.move_relative_cartesian(Frames.gripper, Affine(z=0.001),
                                               md_approach_up)

        action.final_pose = RobotPose(
            affine=(image_frame.inverse() *
                    self.robot.current_pose(Frames.gripper)))

        first_grasp_successful = self.gripper.clamp()
        if first_grasp_successful:
            logger.info('Grasp successful at first.')
            self.robot.recover_from_errors()

            action_approch_affine = Affine(
                z=Config.approach_distance_from_pose)

            move_up_success = self.robot.move_relative_cartesian(
                Frames.gripper, action_approch_affine, md_approach_up)
            if move_up_success and not md_approach_up.did_break:
                if Config.mode is Mode.Measure and Config.take_after_images and not Config.release_in_other_bin:
                    self.robot.move_cartesian(Frames.camera, image_frame,
                                              self.md)
                    self.last_after_images = self.take_images()
                    self.saver.save_image(self.last_after_images,
                                          current_episode.id,
                                          action_id,
                                          'after',
                                          action=action)

                if Config.release_during_grasp_action:
                    move_to_release_success = self.move_to_release(self.md)
                    if move_to_release_success:
                        if self.gripper.is_grasping():
                            action.reward = 1.0
                            action.final_pose.d = self.gripper.width()

                        if Config.mode is Mode.Perform:
                            self.gripper.release(action.final_pose.d +
                                                 0.005)  # [m]
                        else:
                            self.gripper.release(action.pose.d + 0.005)  # [m]
                            self.move_to_safety(md_approach_up)

                        if Config.mode is Mode.Measure and Config.take_after_images and Config.release_in_other_bin:
                            self.robot.move_cartesian(Frames.camera,
                                                      image_frame, self.md)
                            self.last_after_images = self.take_images()
                            self.saver.save_image(self.last_after_images,
                                                  current_episode.id,
                                                  action_id,
                                                  'after',
                                                  action=action)
                else:
                    if Config.mode is not Mode.Perform:
                        self.move_to_safety(md_approach_up)

                    if self.gripper.is_grasping():
                        action.reward = 1.0
                        action.final_pose.d = self.gripper.width()

                    if Config.mode is Mode.Measure and Config.take_after_images:
                        self.robot.move_cartesian(Frames.camera, image_frame,
                                                  self.md)
                        self.last_after_images = self.take_images()
                        self.saver.save_image(self.last_after_images,
                                              current_episode.id,
                                              action_id,
                                              'after',
                                              action=action)

            else:
                self.gripper.release(action.pose.d + 0.002)  # [m]

                self.robot.recover_from_errors()
                self.robot.move_relative_cartesian(Frames.gripper,
                                                   action_approch_affine,
                                                   md_approach_up)
                move_to_safety_success = self.move_to_safety(md_approach_up)
                if not move_to_safety_success:
                    self.robot.recover_from_errors()
                    self.robot.recover_from_errors()
                    self.move_to_safety(md_approach_up)

                self.gripper.move(self.gripper.max_width)

                self.move_to_safety(md_approach_up)
                if Config.mode is Mode.Measure and Config.take_after_images:
                    self.robot.move_cartesian(Frames.camera, image_frame,
                                              self.md)
                    self.last_after_images = self.take_images()
                    self.saver.save_image(self.last_after_images,
                                          current_episode.id,
                                          action_id,
                                          'after',
                                          action=action)

        else:
            logger.info('Grasp not successful.')
            self.gripper.release(self.gripper.width() + 0.002)  # [m]

            self.robot.recover_from_errors()
            move_up_successful = self.robot.move_relative_cartesian(
                Frames.gripper, action_approch_affine, md_approach_up)

            if md_approach_up.did_break or not move_up_successful:
                self.gripper.release(action.pose.d)  # [m]

                self.robot.recover_from_errors()
                self.robot.move_relative_cartesian(Frames.gripper,
                                                   action_approch_affine,
                                                   md_approach_up)
                self.move_to_safety(md_approach_up)

            if Config.mode is Mode.Measure and Config.take_after_images:
                self.robot.move_cartesian(Frames.camera, image_frame, self.md)
                self.last_after_images = self.take_images()
                self.saver.save_image(self.last_after_images,
                                      current_episode.id,
                                      action_id,
                                      'after',
                                      action=action)

    def shift(self, current_episode: Episode, action_id: int, action: Action,
              action_frame: Affine, image_frame: Affine):
        md_approach_down = MotionData().with_dynamics(
            0.15).with_z_force_condition(6.0)
        md_approach_up = MotionData().with_dynamics(
            0.6).with_z_force_condition(20.0)
        md_shift = MotionData().with_dynamics(0.1).with_xy_force_condition(
            10.0)

        action_approch_affine = Affine(z=Config.approach_distance_from_pose)
        action_approach_frame = action_approch_affine * action_frame

        try:
            process_gripper = Process(target=self.gripper.move,
                                      args=(action.pose.d, ))
            process_gripper.start()

            self.robot.move_cartesian(Frames.gripper, action_approach_frame,
                                      self.md)

            process_gripper.join()
        except OSError:
            self.gripper.move(0.08)
            self.robot.move_cartesian(Frames.gripper, action_approach_frame,
                                      self.md)

        self.robot.move_relative_cartesian(Frames.gripper,
                                           action_approch_affine.inverse(),
                                           md_approach_down)

        if md_approach_down.did_break:
            self.robot.recover_from_errors()
            action.collision = True
            self.robot.move_relative_cartesian(Frames.gripper, Affine(z=0.001),
                                               md_approach_up)

        self.robot.move_relative_cartesian(
            Frames.gripper,
            Affine(x=action.shift_motion[0], y=action.shift_motion[1]),
            md_shift)
        self.robot.move_relative_cartesian(Frames.gripper,
                                           action_approch_affine,
                                           md_approach_up)

        # Reward is set outside of this function, due to dependency on agent

    def place(self,
              current_episode: Episode,
              action_id: int,
              action: Action,
              action_frame: Affine,
              image_frame: Affine,
              place_bin=None):
        place_bin = place_bin if place_bin else self.current_bin

        self.move_to_safety(self.md)

        md_approach_down = MotionData().with_dynamics(
            0.22).with_z_force_condition(7.0)
        md_approach_up = MotionData().with_dynamics(
            1.0).with_z_force_condition(20.0)

        action_approch_affine = Affine(z=Config.approach_distance_from_pose)
        action_approach_frame = action_frame * action_approch_affine

        if Config.release_in_other_bin:
            self.move_to_release(self.md, target=action_approach_frame)
        else:
            self.robot.move_cartesian(Frames.gripper, action_approach_frame,
                                      self.md)

        self.robot.move_relative_cartesian(Frames.gripper,
                                           action_approch_affine.inverse(),
                                           md_approach_down)

        if md_approach_down.did_break:
            self.robot.recover_from_errors()
            action.collision = True
            self.robot.move_relative_cartesian(Frames.gripper, Affine(z=0.001),
                                               md_approach_up)

        action.final_pose = RobotPose(
            affine=(image_frame.inverse() *
                    self.robot.current_pose(Frames.gripper)))

        action.pose.d = self.gripper.width()
        self.gripper.release(action.pose.d + 0.01)  # [m]

        if Config.mode is not Mode.Perform:
            self.move_to_safety(md_approach_up)

        if Config.mode is Mode.Measure and Config.take_after_images:
            self.robot.move_cartesian(Frames.camera, image_frame, self.md)
            self.last_after_images = self.take_images(current_bin=place_bin)
            self.saver.save_image(self.last_after_images,
                                  current_episode.id,
                                  action_id,
                                  'after',
                                  action=action)

    def init(self) -> None:
        self.gripper.stop()

        self.robot.recover_from_errors()
        self.move_to_safety(self.md)
        move_joints_successful = self.robot.move_joints(
            Frames.bin_joint_values[self.current_bin], self.md)

        if not move_joints_successful:
            self.gripper.move(0.07)

            self.robot.recover_from_errors()
            self.move_to_safety(self.md)
            move_joints_successful = self.robot.move_joints(
                Frames.bin_joint_values[self.current_bin], self.md)

        if Config.mode is Mode.Measure and not Config.home_gripper:
            logger.warning('Want to measure without homing gripper?')
        elif Config.home_gripper:
            self.gripper.homing()

        self.move_to_safety(self.md)
        self.overall_start = time.time()

    def retrain_model(self) -> None:
        with open('/tmp/training.txt', 'wb') as out:
            p = Popen([sys.executable, str(Config.train_script)], stdout=out)
            if not Config.train_async:
                p.communicate()

    def get_current_selection_method(self, epoch) -> SelectionMethod:
        if Config.mode in [Mode.Evaluate, Mode.Perform]:
            return epoch.get_selection_method_perform(
                self.history.failed_grasps_since_last_success_in_bin(
                    self.current_bin))
        return epoch.get_selection_method()

    def get_input_images(self, images):
        return list(
            filter(lambda i: i.camera in Config.model_input_suffixes, images))