Esempio n. 1
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def main():
    nav = navigation.GPSComputing()
    with adapters.GPSUbloxAdapter(config.GPS_PORT, config.GPS_BAUDRATE,
                                  config.GPS_POSITIONS_TO_KEEP) as gps:
        with adapters.VescAdapter(RPM, MOVING_TIME, config.VESC_ALIVE_FREQ,
                                  config.VESC_CHECK_FREQ, config.VESC_PORT,
                                  config.VESC_BAUDRATE) as vesc_engine:
            print("Getting a starting point...")
            starting_point = gps.get_last_position()

            print("Moving forward...")
            vesc_engine.start_moving()
            vesc_engine.wait_for_stop()

            print("Getting point A...")
            time.sleep(1)
            A = gps.get_last_position()

            print("Computing rest points...")
            B = nav.get_coordinate(A, starting_point, 180, FIELD_SIZE)
            C = nav.get_coordinate(B, A, 90, FIELD_SIZE)
            D = nav.get_coordinate(C, B, 90, FIELD_SIZE)

            print("Saving field.txt file...")
            save_gps_coordinates([A, B, C, D], "field.txt")

            print("Done.")
Esempio n. 2
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def __th_gps():
    print("Loading gps...")
    with adapters.GPSUbloxAdapter(config.GPS_PORT, config.GPS_BAUDRATE,
                                  config.GPS_POSITIONS_TO_KEEP) as gps:
        print("Starting reading from gps...")
        show_ok_msg = True
        while KEEP_WORKING:
            cur_pos = gps.get_last_position()
            if show_ok_msg:
                print(
                    "Point from GPS is received, seems like GPS is ok, keep reading."
                )
                show_ok_msg = False
    print("Gps is stopped correctly.")
Esempio n. 3
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def main():
    with adapters.GPSUbloxAdapter(config.GPS_PORT, config.GPS_BAUDRATE,
                                  config.GPS_POSITIONS_TO_KEEP) as gps:
        i = 1
        points = []

        while True:
            cmd = input("Press enter to get point " + str(i) +
                        ", type anything to exit.")
            if cmd != "":
                break
            point = gps.get_fresh_position()
            points.append(point)
            print(point)
            #print("Point", i, "saved.\n")

        #save_gps_coordinates(points, config.INPUT_GPS_FIELD_FILE)
        print("Exit !")
Esempio n. 4
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    def __init__(self, socketio: SocketIO, logger: utility.Logger):
        self.socketio = socketio
        self.logger = logger
        self.socketio.emit('field', {"status": "pushed"}, namespace='/button', broadcast=True)
        try:
            msg = f"[{self.__class__.__name__}] -> initSmoothie"
            self.logger.write_and_flush(msg+"\n")
            print(msg)
            self.smoothie = initSmoothie(self.logger)

            msg = f"[{self.__class__.__name__}] -> initGPS"
            self.logger.write_and_flush(msg+"\n")
            print(msg)
            self.gps = adapters.GPSUbloxAdapter(config.GPS_PORT, config.GPS_BAUDRATE, config.GPS_POSITIONS_TO_KEEP)

            msg = f"[{self.__class__.__name__}] -> initGPSComputing"
            self.logger.write_and_flush(msg+"\n")
            print(msg)
            self.nav = navigation.GPSComputing()
        except:
            self.on_event(Events.ERROR)

        self.statusOfUIObject = {
            "joystick": True, #True or False
            "fieldButton": "charging", #True or False or charging or validate or None
            "startButton": False, #True or False or charging or None
            "continueButton": False, #True or False or charging or None
            "stopButton": True, #True or charging or None
            "wheelButton": False, #True or False
            "audit": 'disable', #True or False or use or not-use or disable
            "slider": 25, #Int for slider value
            "removeFieldButton": False #True or False  
        }

        self.fieldCreator = FieldCreator(self.logger, self.gps, self.nav, self.smoothie, self.socketio)

        self.field = None
        self.manoeuvre = False

        try:
            self.notificationQueue = posix_ipc.MessageQueue(config.QUEUE_NAME_UI_NOTIFICATION)
        except:
            self.notificationQueue = None
Esempio n. 5
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    def __init__(self):
        self.all_tests = 14
        self.pass_tests = 0
        self.smoothie = adapters.SmoothieAdapter(config.SMOOTHIE_HOST)
        self.vesc = adapters.VescAdapter(-2800, 10, config.VESC_ALIVE_FREQ,
                                         config.VESC_CHECK_FREQ,
                                         config.VESC_PORT,
                                         config.VESC_BAUDRATE)
        self.gps = adapters.GPSUbloxAdapter(config.GPS_PORT,
                                            config.GPS_BAUDRATE,
                                            config.GPS_POSITIONS_TO_KEEP)
        self.camera = adapters.CameraAdapterIMX219_170(
            config.CROP_W_FROM, config.CROP_W_TO, config.CROP_H_FROM,
            config.CROP_H_TO, config.CV_ROTATE_CODE,
            config.ISP_DIGITAL_GAIN_RANGE_FROM,
            config.ISP_DIGITAL_GAIN_RANGE_TO, config.GAIN_RANGE_FROM,
            config.GAIN_RANGE_TO, config.EXPOSURE_TIME_RANGE_FROM,
            config.EXPOSURE_TIME_RANGE_TO, config.AE_LOCK, config.CAMERA_W,
            config.CAMERA_H, config.CAMERA_W, config.CAMERA_H,
            config.CAMERA_FRAMERATE, config.CAMERA_FLIP_METHOD)

        self.name = datetime.datetime.now().strftime("%d-%m-%Y %H:%M")
        self.logger = utility.Logger(self.name + '.txt')
Esempio n. 6
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def main():
    points_history = []
    prev_point = None
    try:
        nav = navigation.GPSComputing()

        print("Initializing...", end=" ")
        with adapters.SmoothieAdapter(config.SMOOTHIE_HOST) as smoothie:
            with adapters.VescAdapter(config.VESC_RPM, config.VESC_MOVING_TIME,
                                      config.VESC_ALIVE_FREQ,
                                      config.VESC_CHECK_FREQ, config.VESC_PORT,
                                      config.VESC_BAUDRATE) as vesc_engine:
                with adapters.GPSUbloxAdapter(
                        config.GPS_PORT, config.GPS_BAUDRATE,
                        config.GPS_POSITIONS_TO_KEEP) as gps:
                    print("done.")
                    field_gps_coords = ask_for_ab_points(gps)
                    save_gps_coordinates(
                        field_gps_coords,
                        "field " + get_current_time() + ".txt")
                    input("Press enter to start moving")
                    # start moving forward
                    vesc_engine.start_moving()

                    # main navigation control loop
                    # TO DO: this loop is working much faster than gps, need to evaluate sleep time or waiting for new P
                    while True:
                        time.sleep(0.5)
                        cur_pos = gps.get_last_position()
                        # if str(cur_pos) == prev_point:
                        #    continue
                        # prev_point = str(cur_pos)
                        points_history.append(cur_pos.copy())
                        # check if arrived
                        # TO DO: it won't work if deviation > course destination diff, as robot will be far away on some
                        # side and will never get too close to the path ending point
                        distance = nav.get_distance(cur_pos,
                                                    field_gps_coords[1])

                        print("Distance to B:", distance)

                        if distance <= config.COURSE_DESTINATION_DIFF:
                            vesc_engine.stop_moving()
                            print(
                                "Arrived (allowed destination distance difference",
                                config.COURSE_DESTINATION_DIFF, "mm)")
                            break

                        # check for course deviation. if deviation is bigger than a threshold
                        deviation, side = nav.get_deviation(
                            field_gps_coords[0], field_gps_coords[1], cur_pos)
                        nav_wheels_position = smoothie.get_adapter_current_coordinates(
                        )["A"]

                        side_text = "(left)" if side == -1 else "(right)" if side == 1 else "(center)"
                        print("A:", field_gps_coords[0], "B:",
                              field_gps_coords[1], "Cur:", cur_pos)
                        print("Deviation:", deviation, "Max dev.:",
                              config.COURSE_SIDE_DEVIATION_MAX, "side flag:",
                              side, side_text)

                        if deviation > config.COURSE_SIDE_DEVIATION_MAX:
                            # deviation to the left side
                            if side == -1:
                                # if not turned wheels yet
                                # TO DO: try to make different wheels turning values for different deviation
                                if not (-config.COURSE_ADJ_SMC_VAL - 0.001 <
                                        nav_wheels_position <
                                        -config.COURSE_ADJ_SMC_VAL + 0.001):
                                    # TO DO: check abs(COURSE_ADJ_SMC_VAL - nav_wheels_position) and set bigger or
                                    # lesser turning value
                                    print("Turning wheels left",
                                          -config.COURSE_ADJ_SMC_VAL)
                                    smoothie.nav_turn_wheels_to(
                                        -config.COURSE_ADJ_SMC_VAL,
                                        config.A_F_MAX)
                                else:
                                    print("Wheels already at left side:",
                                          nav_wheels_position)
                            # deviation to the right side
                            elif side == 1:
                                # if not turned wheels yet
                                # TO DO: try to make different wheels turning values for different deviation
                                if not (config.COURSE_ADJ_SMC_VAL - 0.001 <
                                        nav_wheels_position <
                                        config.COURSE_ADJ_SMC_VAL + 0.001):
                                    # TO DO: check abs(COURSE_ADJ_SMC_VAL - nav_wheels_position) and set bigger or
                                    # lesser turning value
                                    print("Turning wheels right:",
                                          config.COURSE_ADJ_SMC_VAL)
                                    smoothie.nav_turn_wheels_to(
                                        config.COURSE_ADJ_SMC_VAL,
                                        config.A_F_MAX)
                                else:
                                    print("Wheels already at right side:",
                                          nav_wheels_position)
                            # it's an error if deviation is big but side flag is telling us that we're on moving vector
                            else:
                                print("Abnormal state: deviation =", deviation,
                                      "at", side,
                                      "side. Emergency stop applied.")
                                exit(1)
                        # if deviation is ok (0 or less than an adj. threshold)
                        else:
                            # if not turned wheels yet
                            # TO DO: try to make different wheels turning values for different deviation
                            if not (-0.001 < nav_wheels_position < 0.001):
                                # TO DO: check abs(COURSE_ADJ_SMC_VAL - nav_wheels_position) and set bigger or
                                # lesser turning value
                                print("Turning wheels to center")
                                smoothie.nav_align_wheels_center(
                                    config.A_F_MAX)
                            else:
                                print("Wheels already at center:",
                                      nav_wheels_position)
                        print()
        print("Done!")
    except KeyboardInterrupt:
        print("Stopped by a keyboard interrupt (Ctrl + C)")
    finally:
        save_gps_coordinates(points_history,
                             "gps_history " + get_current_time() + ".txt")
Esempio n. 7
0
            print("\n", end="")


if __name__ == '__main__':

    ntripArgs = {}

    if utility.get_ublox_address() is not None:
        ntripArgs['output'] = utility.get_ublox_address()
    else:
        ntripArgs['output'] = config.NTRIP_OUTPUT_PORT

    ntripArgs['baudrate'] = config.NTRIP_OUTPUT_BAUDRATE

    with adapters.GPSUbloxAdapter(ntripArgs['output'], ntripArgs['baudrate'],
                                  config.GPS_POSITIONS_TO_KEEP) as gps:
        try:
            pos = gps.get_fresh_position()
            ntripArgs['lat'] = pos[0]
            ntripArgs['long'] = pos[1]
            print(
                f"Current latitude : {pos[0]}, longitude : {pos[1]} for send to ntrip."
            )
        except:
            pass

    time.sleep(5)

    ntripArgs['user'] = config.NTRIP_USER
    ntripArgs['password'] = config.NTRIP_PASSWORD
    ntripArgs['caster'] = config.NTRIP_CASTER
Esempio n. 8
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def main():
    create_directories(config.DEBUG_IMAGES_PATH)

    working_zone_polygon = Polygon(config.WORKING_ZONE_POLY_POINTS)
    working_zone_points_cv = np.array(config.WORKING_ZONE_POLY_POINTS,
                                      np.int32).reshape((-1, 1, 2))
    view_zone_polygon = Polygon(config.VIEW_ZONE_POLY_POINTS)
    view_zone_points_cv = np.array(config.VIEW_ZONE_POLY_POINTS,
                                   np.int32).reshape((-1, 1, 2))
    nav = navigation.GPSComputing()
    used_points_history = []
    logger_full = utility.Logger("full log " + get_current_time() + ".txt")
    logger_table = utility.Logger("table log " + get_current_time() + ".csv")

    # sensors picking
    report_field_names = [
        'temp_fet_filtered', 'temp_motor_filtered', 'avg_motor_current',
        'avg_input_current', 'rpm', 'input_voltage'
    ]

    # QGIS and sensor data transmitting
    path = os.path.abspath(os.getcwd())
    sensor_processor = SensorProcessing.SensorProcessing(path, 0)
    sensor_processor.startServer()
    client = socketForRTK.Client.Client(4000)
    time.sleep(1)
    if not client.connectionToServer():
        msg = "Connection refused for Server RTK."
        print(msg)
        logger_full.write(msg + "\n")
    sensor_processor.startSession()

    try:
        msg = "Initializing..."
        print(msg)
        logger_full.write(msg + "\n")

        # load field coordinates
        if config.RECEIVE_FIELD_FROM_RTK:
            msg = "Loading field coordinates from RTK"
            logger_full.write(msg + "\n")

            try:
                field_gps_coords = load_coordinates(rtk.CURRENT_FIELD_PATH)
            except AttributeError:
                msg = "Couldn't get field file name from RTK script as it is wasn't assigned there."
                print(msg)
                logger_full.write(msg + "\n")
                exit(1)
            except FileNotFoundError:
                msg = "Couldn't not find " + rtk.CURRENT_FIELD_PATH + " file."
                print(msg)
                logger_full.write(msg + "\n")
                exit(1)
            if len(field_gps_coords) < 5:
                msg = "Expected at least 4 gps points in " + rtk.CURRENT_FIELD_PATH + ", got " + \
                      str(len(field_gps_coords))
                print(msg)
                logger_full.write(msg + "\n")
                exit(1)
            field_gps_coords = nav.corner_points(field_gps_coords,
                                                 config.FILTER_MAX_DIST,
                                                 config.FILTER_MIN_DIST)
        else:
            msg = "Loading " + config.INPUT_GPS_FIELD_FILE
            logger_full.write(msg + "\n")

            field_gps_coords = load_coordinates(
                config.INPUT_GPS_FIELD_FILE)  # [A, B, C, D]

        # check field corner points count
        if len(field_gps_coords) != 4:
            msg = "Expected 4 gps corner points, got " + str(
                len(field_gps_coords)) + "\nField:\n" + str(field_gps_coords)
            print(msg)
            logger_full.write(msg + "\n")
            exit(1)

        field_gps_coords = reduce_field_size(field_gps_coords,
                                             config.FIELD_REDUCE_SIZE, nav)

        # generate path points
        path_points = build_path(field_gps_coords, nav, logger_full)
        if len(path_points) > 0:
            save_gps_coordinates(
                path_points, "generated_path " + get_current_time() + ".txt")
        else:
            msg = "List of path points is empty, saving canceled."
            print(msg)
            logger_full.write(msg + "\n")
        if len(path_points) < 2:
            msg = "Expected at least 2 points in path, got " + str(len(path_points)) + \
                  " instead (1st point is starting point)."
            print(msg)
            logger_full.write(msg + "\n")
            exit(1)

        # load and connect to everything
        print("Loading periphery detector...")
        periphery_detector = detection.YoloOpenCVDetection(
            config.PERIPHERY_CLASSES_FILE, config.PERIPHERY_CONFIG_FILE,
            config.PERIPHERY_WEIGHTS_FILE, config.PERIPHERY_INPUT_SIZE,
            config.PERIPHERY_CONFIDENCE_THRESHOLD,
            config.PERIPHERY_NMS_THRESHOLD, config.PERIPHERY_DNN_BACKEND,
            config.PERIPHERY_DNN_TARGET)
        print("Loading precise detector...")
        precise_detector = detection.YoloOpenCVDetection(
            config.PRECISE_CLASSES_FILE, config.PRECISE_CONFIG_FILE,
            config.PRECISE_WEIGHTS_FILE, config.PRECISE_INPUT_SIZE,
            config.PRECISE_CONFIDENCE_THRESHOLD, config.PRECISE_NMS_THRESHOLD,
            config.PRECISE_DNN_BACKEND, config.PRECISE_DNN_TARGET)
        print("Loading smoothie...")
        smoothie = adapters.SmoothieAdapter(config.SMOOTHIE_HOST)
        print("Loading vesc...")
        vesc_engine = adapters.VescAdapter(config.VESC_RPM_SLOW,
                                           config.VESC_MOVING_TIME,
                                           config.VESC_ALIVE_FREQ,
                                           config.VESC_CHECK_FREQ,
                                           config.VESC_PORT,
                                           config.VESC_BAUDRATE)
        print("Loading gps...")
        gps = adapters.GPSUbloxAdapter(config.GPS_PORT, config.GPS_BAUDRATE,
                                       config.GPS_POSITIONS_TO_KEEP)
        # gps = stubs.GPSStub(config.GPS_PORT, config.GPS_BAUDRATE, config.GPS_POSITIONS_TO_KEEP)
        print("Loading camera...")
        camera = adapters.CameraAdapterIMX219_170(
            config.CROP_W_FROM, config.CROP_W_TO, config.CROP_H_FROM,
            config.CROP_H_TO, config.CV_ROTATE_CODE,
            config.ISP_DIGITAL_GAIN_RANGE_FROM,
            config.ISP_DIGITAL_GAIN_RANGE_TO, config.GAIN_RANGE_FROM,
            config.GAIN_RANGE_TO, config.EXPOSURE_TIME_RANGE_FROM,
            config.EXPOSURE_TIME_RANGE_TO, config.AE_LOCK, config.CAMERA_W,
            config.CAMERA_H, config.CAMERA_W, config.CAMERA_H,
            config.CAMERA_FRAMERATE, config.CAMERA_FLIP_METHOD)

        # set smoothie's A axis to 0 (nav turn wheels)
        response = smoothie.set_current_coordinates(A=0)
        if response != smoothie.RESPONSE_OK:
            msg = "Failed to set A=0 on smoothie (turning wheels init position), response message:\n" + response
            print(msg)
            logger_full.write(msg + "\n")

        # ask permission to start moving
        msg = "Initializing done. Press enter to start moving."
        input(msg)
        logger_full.write(msg + "\n")

        msg = 'GpsQ|Raw ang|Res ang|Ord ang|Sum ang|Distance    |Adapter|Smoothie|'
        print(msg)
        logger_full.write(msg + "\n")
        msg = 'GpsQ,Raw ang,Res ang,Ord ang,Sum ang,Distance,Adapter,Smoothie,'
        for field_name in report_field_names:
            msg += field_name + ","
        msg = msg[:-1]
        logger_table.write(msg + "\n")

        # path points visiting loop
        msg = "Generated " + str(len(path_points)) + " points."
        logger_full.write(msg + "\n")
        for i in range(1, len(path_points)):
            from_to = [path_points[i - 1], path_points[i]]
            from_to_dist = nav.get_distance(from_to[0], from_to[1])

            msg = "Current movement vector: " + str(
                from_to) + " Vector size: " + str(from_to_dist)
            # print(msg)
            logger_full.write(msg + "\n\n")

            move_to_point_and_extract(
                from_to, gps, vesc_engine, smoothie, camera,
                periphery_detector, precise_detector, client, logger_full,
                logger_table, report_field_names, used_points_history,
                config.UNDISTORTED_ZONE_RADIUS, working_zone_polygon,
                working_zone_points_cv, view_zone_polygon, view_zone_points_cv,
                config.DEBUG_IMAGES_PATH, nav)

        msg = "Work is done."
        print(msg)
        logger_full.write(msg + "\n")
    except KeyboardInterrupt:
        msg = "Stopped by a keyboard interrupt (Ctrl + C)\n" + traceback.format_exc(
        )
        print(msg)
        logger_full.write(msg + "\n")
    except:
        msg = "Exception occurred:\n" + traceback.format_exc()
        print(msg)
        logger_full.write(msg + "\n")
    finally:
        # try emergency stop
        try:
            vesc_engine.stop_moving()
        except:
            pass

        print("Releasing camera...")
        camera.release()

        # save log data
        print("Saving positions histories...")
        if len(used_points_history) > 0:
            save_gps_coordinates(
                used_points_history,
                "used_gps_history " + get_current_time() + ".txt"
            )  # TODO: don't accumulate a lot of points - write each of them to file as soon as they come
        else:
            msg = "used_gps_history list has 0 elements!"
            print(msg)
            logger_full.write(msg + "\n")

        adapter_points_history = gps.get_last_positions_list(
        )  # TODO: reduce history positions to 1 to save RAM
        if len(adapter_points_history) > 0:
            save_gps_coordinates(
                adapter_points_history,
                "adapter_gps_history " + get_current_time() + ".txt")
        else:
            msg = "adapter_gps_history list has 0 elements!"
            print(msg)
            logger_full.write(msg + "\n")

        # close log and hardware connections
        print("Closing loggers...")
        logger_full.close()
        logger_table.close()

        print("Disconnecting hardware...")
        smoothie.disconnect()
        vesc_engine.disconnect()
        gps.disconnect()

        # close transmitting connections
        print("Closing transmitters...")
        sensor_processor.endSession()
        client.closeConnection()
        sensor_processor.stopServer()

        print("Safe disable is done.")
Esempio n. 9
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def main():
    nav = navigation.GPSComputing()
    used_points_history = []
    raw_angles_history = []
    logger = utility.Logger("console " + get_current_time() + ".txt")

    # QGIS and sensor data transmitting
    path = os.path.abspath(os.getcwd())
    sensor_processor = SensorProcessing.SensorProcessing(path, 0)
    sensor_processor.startServer()
    client = socketForRTK.Client.Client(4000)
    time.sleep(1)
    if not client.connectionToServer():
        msg = "Connection refused for Server RTK."
        print(msg)
        logger.write(msg + "\n")
    sensor_processor.startSession()

    try:
        msg = "Initializing..."
        print(msg)
        logger.write(msg + "\n")

        smoothie = adapters.SmoothieAdapter(config.SMOOTHIE_HOST)
        vesc_engine = adapters.VescAdapter(int(config.VESC_RPM / 2),
                                           config.VESC_MOVING_TIME,
                                           config.VESC_ALIVE_FREQ,
                                           config.VESC_CHECK_FREQ,
                                           config.VESC_PORT,
                                           config.VESC_BAUDRATE)
        gps = adapters.GPSUbloxAdapter(config.GPS_PORT, config.GPS_BAUDRATE,
                                       config.GPS_POSITIONS_TO_KEEP)

        # set smoothie's A axis to 0 (nav turn wheels)
        response = smoothie.set_current_coordinates(A=0)
        if response != smoothie.RESPONSE_OK:
            msg = "Failed to set A=0 on smoothie (turning wheels init position), response message:\n" + response
            print(msg)
            logger.write(msg + "\n")
        msg = "Initializing done."
        print(msg)
        logger.write(msg + "\n")

        # pick from gps
        field_gps_coords = load_coordinates(
            config.INPUT_GPS_FIELD_FILE)  # [A, B, C, D]
        if len(field_gps_coords) != 4:
            msg = "Expected 4 gps points in " + config.INPUT_GPS_FIELD_FILE + ", got " + str(
                len(field_gps_coords))
            print(msg)
            logger.write(msg)
        field_gps_coords.append(field_gps_coords[0].copy(
        ))  # this makes robot move back to starting point (point A)
        field_gps_coords.append(field_gps_coords[1].copy())

        # start moving forward
        msg = "Press enter to start moving"
        input(msg)
        logger.write(msg + "\n")

        # perimeter bypass loop
        for i in range(1, len(field_gps_coords) - 1):
            # current vector is marked as XY where X2 and Y1 is corner maneuver points
            # example: current side is AB which marked as XY, then point X2 is on AB, Y1 is on BC and
            # X2 and Y1 near ^ABC angle (XYZ). ABCD are "global" points which corresponding field.txt file
            # while XYZ displays currently processed points

            # XY vector
            current_vector = [field_gps_coords[i - 1], field_gps_coords[i]]
            cur_vec_dist = nav.get_distance(current_vector[0],
                                            current_vector[1])

            msg = "Current movement vector: " + str(
                current_vector) + " Vector size: " + str(cur_vec_dist)
            print(msg)
            logger.write(msg)

            # check if moving vector is too small for maneuvers
            if config.MANEUVER_START_DISTANCE >= cur_vec_dist:
                msg = "No place for maneuvers; config distance before maneuver is " + \
                      str(config.MANEUVER_START_DISTANCE) + " current moving vector distance is " + str(cur_vec_dist)
                print(msg)
                logger.write(msg + "\n")
                break
            # compute X2 point
            else:
                dist_to_x2 = cur_vec_dist - config.MANEUVER_START_DISTANCE
                point_x2 = nav.get_point_on_vector(current_vector[0],
                                                   current_vector[1],
                                                   dist_to_x2)

                msg = "Point X2: " + str(point_x2) + "[X X2] size: " + str(
                    dist_to_x2)
                print(msg)
                logger.write(msg)

            # move to X2
            from_to = [current_vector[0], point_x2]
            move_to_point(from_to, used_points_history, gps, vesc_engine,
                          smoothie, logger, client, nav, raw_angles_history)

            # TO DO: BUG - we checking YZ to be less than maneuver dist but robot will be in Y1, not in Y, so it's not
            # correct. Maybe config.MANEUVER_START_DISTANCE should be multiplied by 2 when checking that vector size is
            # big enough

            # go from X2 to Y1 point (see description in comments above)
            # YZ vector
            current_vector = [field_gps_coords[i], field_gps_coords[i + 1]]
            cur_vec_dist = nav.get_distance(current_vector[0],
                                            current_vector[1])

            msg = "Next movement vector: " + str(
                current_vector) + " Vector size: " + str(cur_vec_dist)
            print(msg)
            logger.write(msg)

            # check if moving vector is too small for maneuvers
            if config.MANEUVER_START_DISTANCE >= cur_vec_dist:
                msg = "No place for maneuvers; config distance before maneuver is " + \
                      str(config.MANEUVER_START_DISTANCE) + " next moving vector distance is " + str(cur_vec_dist)
                print(msg)
                logger.write(msg + "\n")
                break
            # compute Y1 point to move (current vector is marked as XY where X2 and Y1 is corner maneuver points)
            # example: next side is BC which marked as XY, then point Y1 is on BC (YZ)
            else:
                dist_to_y1 = config.MANEUVER_START_DISTANCE
                point_y1 = nav.get_point_on_vector(current_vector[0],
                                                   current_vector[1],
                                                   dist_to_y1)

                msg = "Point Y1: " + str(point_y1) + "[Y Y1] size: " + str(
                    dist_to_y1)
                print(msg)
                logger.write(msg)

            # move to Y1
            from_to = [current_vector[0], point_y1]
            move_to_point(from_to, used_points_history, gps, vesc_engine,
                          smoothie, logger, client, nav, raw_angles_history)

        msg = "Done!"
        print(msg)
        logger.write(msg + "\n")
    except KeyboardInterrupt:
        msg = "Stopped by a keyboard interrupt (Ctrl + C)"
        print(msg)
        logger.write(msg + "\n")
    except Exception:
        msg = "Exception occurred:\n" + traceback.format_exc()
        print(msg)
        logger.write(msg)
    finally:
        # save log data
        if len(used_points_history) > 0:
            save_gps_coordinates(
                used_points_history,
                "used_gps_history " + get_current_time() + ".txt")
        else:
            msg = "used_gps_history list has 0 elements!"
            print(msg)
            logger.write(msg)

        adapter_points_history = gps.get_last_positions_list()
        if len(adapter_points_history) > 0:
            save_gps_coordinates(
                adapter_points_history,
                "adapter_gps_history " + get_current_time() + ".txt")
        else:
            msg = "adapter_gps_history list has 0 elements!"
            print(msg)
            logger.write(msg)

        # close log and hardware connections
        logger.close()
        smoothie.disconnect()
        vesc_engine.disconnect()
        gps.disconnect()

        # close transmitting connections
        sensor_processor.endSession()
        client.closeConnection()
        sensor_processor.stopServer()
Esempio n. 10
0
def main():
    create_directories(config.DEBUG_IMAGES_PATH)

    working_zone_polygon = Polygon(config.WORKING_ZONE_POLY_POINTS)
    working_zone_points_cv = np.array(config.WORKING_ZONE_POLY_POINTS,
                                      np.int32).reshape((-1, 1, 2))
    view_zone_polygon = Polygon(config.VIEW_ZONE_POLY_POINTS)
    view_zone_points_cv = np.array(config.VIEW_ZONE_POLY_POINTS,
                                   np.int32).reshape((-1, 1, 2))

    nav = navigation.GPSComputing()
    used_points_history = []
    raw_angles_history = []
    logger_full = utility.Logger("full log " + get_current_time() + ".txt")
    logger_table = utility.Logger("table log " + get_current_time() + ".csv")

    # sensors picking
    report_field_names = [
        'temp_fet_filtered', 'temp_motor_filtered', 'avg_motor_current',
        'avg_input_current', 'rpm', 'input_voltage'
    ]
    report_file = open('report.csv', 'w', newline='')
    report_writer = csv.DictWriter(report_file, fieldnames=report_field_names)
    report_writer.writeheader()

    # QGIS and sensor data transmitting
    path = os.path.abspath(os.getcwd())
    sensor_processor = SensorProcessing.SensorProcessing(path, 0)
    sensor_processor.startServer()
    client = socketForRTK.Client.Client(4000)
    time.sleep(1)
    if not client.connectionToServer():
        msg = "Connection refused for Server RTK."
        print(msg)
        logger_full.write(msg + "\n")
    sensor_processor.startSession()

    try:
        msg = "Initializing..."
        print(msg)
        logger_full.write(msg + "\n")

        print("Loading periphery detector...")
        periphery_detector = detection.YoloOpenCVDetection(
            config.PERIPHERY_CLASSES_FILE, config.PERIPHERY_CONFIG_FILE,
            config.PERIPHERY_WEIGHTS_FILE, config.PERIPHERY_INPUT_SIZE,
            config.PERIPHERY_CONFIDENCE_THRESHOLD,
            config.PERIPHERY_NMS_THRESHOLD, config.PERIPHERY_DNN_BACKEND,
            config.PERIPHERY_DNN_TARGET)
        print("Loading smoothie...")
        smoothie = adapters.SmoothieAdapter(config.SMOOTHIE_HOST)
        print("Loading vesc...")
        vesc_engine = adapters.VescAdapter(config.VESC_RPM_SLOW,
                                           config.VESC_MOVING_TIME,
                                           config.VESC_ALIVE_FREQ,
                                           config.VESC_CHECK_FREQ,
                                           config.VESC_PORT,
                                           config.VESC_BAUDRATE)
        print("Loading GPS...")
        gps = adapters.GPSUbloxAdapter(config.GPS_PORT, config.GPS_BAUDRATE,
                                       config.GPS_POSITIONS_TO_KEEP)
        print("Loading camera...")
        camera = adapters.CameraAdapterIMX219_170(
            config.CROP_W_FROM, config.CROP_W_TO, config.CROP_H_FROM,
            config.CROP_H_TO, config.CV_ROTATE_CODE,
            config.ISP_DIGITAL_GAIN_RANGE_FROM,
            config.ISP_DIGITAL_GAIN_RANGE_TO, config.GAIN_RANGE_FROM,
            config.GAIN_RANGE_TO, config.EXPOSURE_TIME_RANGE_FROM,
            config.EXPOSURE_TIME_RANGE_TO, config.AE_LOCK, config.CAMERA_W,
            config.CAMERA_H, config.CAMERA_W, config.CAMERA_H,
            config.CAMERA_FRAMERATE, config.CAMERA_FLIP_METHOD)

        # set smoothie's A axis to 0 (nav turn wheels)
        response = smoothie.set_current_coordinates(A=0)
        if response != smoothie.RESPONSE_OK:
            msg = "Failed to set A=0 on smoothie (turning wheels init position), response message:\n" + response
            print(msg)
            logger_full.write(msg + "\n")

        # load field coordinates
        field_gps_coords = load_coordinates(
            config.INPUT_GPS_FIELD_FILE)  # [A, B, C, D]
        if len(field_gps_coords) != 4:
            msg = "Expected 4 gps points in " + config.INPUT_GPS_FIELD_FILE + ", got " + str(
                len(field_gps_coords))
            print(msg)
            logger_full.write(msg + "\n")
            exit(1)

        # generate path points
        path_points = build_path(field_gps_coords, nav, logger_full)
        if len(path_points) > 0:
            save_gps_coordinates(
                path_points, "generated_path " + get_current_time() + ".txt")
        else:
            msg = "List of path points is empty, saving canceled."
            print(msg)
            logger_full.write(msg + "\n")
        if len(path_points) < 2:
            msg = "Expected at least 2 points in path, got " + str(len(path_points)) + \
                  " instead (1st point is starting point)."
            print(msg)
            logger_full.write(msg + "\n")
            exit(1)

        # ask permission to start moving
        msg = "Initializing done. Press enter to start moving."
        input(msg)
        logger_full.write(msg + "\n")

        msg = 'GpsQ|Raw ang|Res ang|Ord ang|Sum ang|Distance    |Adapter|Smoothie|'
        print(msg)
        logger_full.write(msg + "\n")
        msg = 'GpsQ,Raw ang,Res ang,Ord ang,Sum ang,Distance,Adapter,Smoothie,'
        for field_name in report_field_names:
            msg += field_name + ","
        msg = msg[:-1]
        logger_table.write(msg + "\n")

        # path points visiting loop
        for i in range(1, len(path_points)):
            from_to = [path_points[i - 1], path_points[i]]
            from_to_dist = nav.get_distance(from_to[0], from_to[1])

            msg = "Current movement vector: " + str(
                from_to) + " Vector size: " + str(from_to_dist)
            # print(msg)
            logger_full.write(msg + "\n")

            move_to_point(from_to, used_points_history, gps, vesc_engine,
                          smoothie, logger_full, client, nav,
                          raw_angles_history, report_writer,
                          report_field_names, logger_table, periphery_detector,
                          camera, working_zone_points_cv)

        msg = "Done!"
        print(msg)
        logger_full.write(msg + "\n")
    except KeyboardInterrupt:
        msg = "Stopped by a keyboard interrupt (Ctrl + C)"
        print(msg)
        logger_full.write(msg + "\n")
    except Exception:
        msg = "Exception occurred:\n" + traceback.format_exc()
        print(msg)
        logger_full.write(msg + "\n")
    finally:
        try:
            print("Stopping movement...")
            vesc_engine.stop_moving()
        except:
            pass

        try:
            print("Releasing camera...")
            camera.release()
        except:
            pass

        # save log data
        if len(used_points_history) > 0:
            save_gps_coordinates(
                used_points_history,
                "used_gps_history " + get_current_time() + ".txt")
        else:
            msg = "used_gps_history list has 0 elements!"
            print(msg)
            logger_full.write(msg + "\n")

        adapter_points_history = gps.get_last_positions_list()
        if len(adapter_points_history) > 0:
            save_gps_coordinates(
                adapter_points_history,
                "adapter_gps_history " + get_current_time() + ".txt")
        else:
            msg = "adapter_gps_history list has 0 elements!"
            print(msg)
            logger_full.write(msg + "\n")

        # close log and hardware connections
        logger_full.close()
        logger_table.close()
        report_file.close()
        smoothie.disconnect()
        vesc_engine.disconnect()
        gps.disconnect()

        # close transmitting connections
        sensor_processor.endSession()
        client.closeConnection()
        sensor_processor.stopServer()
Esempio n. 11
0
def main():
    used_points_history = []
    adapter_points_history = []
    raw_angles_history = []
    logger = utility.Logger("console " + get_current_time() + ".txt")

    # """
    path = os.path.abspath(os.getcwd())
    sP = SensorProcessing(path, 0)
    sP.startServer()

    client = Client(4000)
    time.sleep(1)
    if not client.connectionToServer():
        msg = "Connection refused for Server RTK."
        print(msg)
        logger.write(msg + "\n")

    sP.startSession()
    # """

    try:
        nav = navigation.GPSComputing()

        msg = "Initializing..."
        print(msg)
        logger.write(msg + "\n")

        with adapters.SmoothieAdapter(config.SMOOTHIE_HOST) as smoothie:
            with adapters.VescAdapter(config.VESC_RPM, config.VESC_MOVING_TIME, config.VESC_ALIVE_FREQ,
                                      config.VESC_CHECK_FREQ, config.VESC_PORT, config.VESC_BAUDRATE) as vesc_engine:
                with adapters.GPSUbloxAdapter(config.GPS_PORT, config.GPS_BAUDRATE,
                                              config.GPS_POSITIONS_TO_KEEP) as gps:

                    # set smoothie's A axis to 0 (nav turn wheels)
                    response = smoothie.set_current_coordinates(A=0)
                    if response != smoothie.RESPONSE_OK:
                        msg = "Failed to set A=0 on smoothie (turning wheels init position), response message:\n" + response
                        print(msg)
                        logger.write(msg + "\n")
                    msg = "Initializing done."
                    print(msg)
                    logger.write(msg + "\n")

                    # get route (field) and save it
                    msg = "Enter 1 to create and save field.txt points file, 2 to load existing file: "
                    command = input(msg)
                    msg += command
                    logger.write(msg + "\n")

                    # pick from gps
                    if command == "1":
                        msg = "Press enter to save point B"
                        input(msg)
                        logger.write(msg)
                        point_b = gps.get_fresh_position()
                        msg = "Point B saved."
                        print(msg)
                        logger.write(msg)

                        # ask info for moving to next point and move there
                        rpm = 11000
                        msg = "RPM = " + str(rpm) + "; set moving time (seconds; will start moving immediately): "
                        moving_time = input(msg)
                        msg += moving_time
                        moving_time = float(moving_time)

                        vesc_engine.set_rpm(11000)
                        vesc_engine.set_moving_time(moving_time)
                        vesc_engine.start_moving()
                        vesc_engine.wait_for_stop()
                        vesc_engine.set_moving_time(config.VESC_MOVING_TIME)
                        vesc_engine.set_rpm(config.VESC_RPM)

                        msg = "Press enter to save point A"
                        input(msg)
                        logger.write(msg)
                        point_a = gps.get_fresh_position()
                        msg = "Point A saved."
                        print(msg)
                        logger.write(msg)

                        field_gps_coords = [point_a, point_b]
                        save_gps_coordinates(field_gps_coords, "field " + get_current_time() + ".txt")
                    # load from file
                    elif command == "2":
                        field_gps_coords = load_coordinates(config.INPUT_GPS_FIELD_FILE)
                    else:
                        msg = "Wrong command, exiting."
                        print(msg)
                        logger.write(msg + "\n")
                        exit(1)

                    # start moving forward
                    msg = "Press enter to start moving"
                    input(msg)
                    logger.write(msg + "\n")
                    prev_maneuver_time = time.time()
                    prev_point = gps.get_fresh_position()
                    vesc_engine.start_moving()

                    # main navigation control loop
                    while True:
                        cur_pos = gps.get_fresh_position()
                        used_points_history.append(cur_pos.copy())

                        # """
                        if not client.sendData("{};{}".format(cur_pos.copy()[0], cur_pos.copy()[1])):
                            msg = "[Client] Connection closed !"
                            print(msg)
                            logger.write(msg + "\n")
                        # """

                        if str(cur_pos) == str(prev_point):
                            msg = "Got the same position, added to history, calculations skipped"
                            print(msg)
                            logger.write(msg + "\n")
                            continue

                        # check if arrived
                        # TO DO: it won't work if deviation > course destination diff, as robot will be far away on some
                        # side and will never get too close to the path ending point
                        distance = nav.get_distance(cur_pos, field_gps_coords[1])

                        # reduce speed if near the target point
                        if USE_SPEED_LIMIT:
                            if distance <= DECREASE_SPEED_TRESHOLD:
                                vesc_engine.apply_rpm(int(config.VESC_RPM / 2))
                            else:
                                vesc_engine.apply_rpm(config.VESC_RPM)

                        msg = "Distance to B: " + str(distance)
                        print(msg)
                        logger.write(msg + "\n")

                        if distance <= config.COURSE_DESTINATION_DIFF:
                            vesc_engine.stop_moving()
                            msg = "Arrived (allowed destination distance difference " + \
                                  str(config.COURSE_DESTINATION_DIFF) + " mm)"
                            print(msg)
                            logger.write(msg + "\n")
                            break

                        # do maneuvers not more often than specified value
                        cur_time = time.time()
                        if cur_time - prev_maneuver_time < config.MANEUVERS_FREQUENCY:
                            continue
                        prev_maneuver_time = cur_time

                        msg = "Timestamp: " + str(cur_time)
                        print(msg)
                        logger.write(msg + "\n")

                        msg = "Prev: " + str(prev_point) + " Cur: " + str(cur_pos) + " A: " + str(field_gps_coords[0]) \
                              + " B: " + str(field_gps_coords[1])
                        print(msg)
                        logger.write(msg + "\n")

                        raw_angle = nav.get_angle(prev_point, cur_pos, cur_pos, field_gps_coords[1])
                        if len(raw_angles_history) >= config.WINDOW:
                            raw_angles_history.pop(0)
                        raw_angles_history.append(raw_angle)

                        # angle_kp = raw_angle * config.KP
                        sum_angles = sum(raw_angles_history)
                        angle_kp = raw_angle * config.KP + sum_angles * config.KI

                        target_angle_sm = angle_kp * -config.A_ONE_DEGREE_IN_SMOOTHIE  # smoothie -Value == left, Value == right
                        ad_wheels_pos = smoothie.get_adapter_current_coordinates()["A"]
                        sm_wheels_pos = smoothie.get_smoothie_current_coordinates()["A"]

                        # compute order angle (smoothie can't turn for huge values immediately also as cancel movement,
                        # so we need to do nav. actions in steps)
                        order_angle_sm = target_angle_sm - ad_wheels_pos

                        # check for out of update frequency and smoothie execution speed (for nav wheels)
                        if order_angle_sm > config.MANEUVERS_FREQUENCY * config.A_DEGREES_PER_SECOND * \
                                config.A_ONE_DEGREE_IN_SMOOTHIE:
                            msg = "Order angle changed from " + str(order_angle_sm) + " to " + str(
                                config.MANEUVERS_FREQUENCY * config.A_DEGREES_PER_SECOND +
                                config.A_ONE_DEGREE_IN_SMOOTHIE) + " due to exceeding degrees per tick allowed range."
                            print(msg)
                            logger.write(msg + "\n")
                            order_angle_sm = config.MANEUVERS_FREQUENCY * config.A_DEGREES_PER_SECOND * \
                                          config.A_ONE_DEGREE_IN_SMOOTHIE
                        elif order_angle_sm < -(config.MANEUVERS_FREQUENCY * config.A_DEGREES_PER_SECOND *
                                             config.A_ONE_DEGREE_IN_SMOOTHIE):
                            msg = "Order angle changed from " + str(order_angle_sm) + " to " + str(-(
                                    config.MANEUVERS_FREQUENCY * config.A_DEGREES_PER_SECOND *
                                    config.A_ONE_DEGREE_IN_SMOOTHIE)) + " due to exceeding degrees per tick allowed range."
                            print(msg)
                            logger.write(msg + "\n")
                            order_angle_sm = -(config.MANEUVERS_FREQUENCY * config.A_DEGREES_PER_SECOND *
                                            config.A_ONE_DEGREE_IN_SMOOTHIE)

                        # convert to global coordinates
                        order_angle_sm += ad_wheels_pos

                        # checking for out of smoothie supported range
                        if order_angle_sm > config.A_MAX:
                            msg = "Global order angle changed from " + str(order_angle_sm) + " to config.A_MAX = " + \
                                  str(config.A_MAX) + " due to exceeding smoothie allowed values range."
                            print(msg)
                            logger.write(msg + "\n")
                            order_angle_sm = config.A_MAX
                        elif order_angle_sm < config.A_MIN:
                            msg = "Global order angle changed from " + str(order_angle_sm) + " to config.A_MIN = " + \
                                  str(config.A_MIN) + " due to exceeding smoothie allowed values range."
                            print(msg)
                            logger.write(msg + "\n")
                            order_angle_sm = config.A_MIN

                        msg = "Adapter wheels pos (target): " + str(ad_wheels_pos) + " Smoothie wheels pos (current): "\
                              + str(sm_wheels_pos)
                        print(msg)
                        logger.write(msg + "\n")
                        msg = "KI: " + str(config.KI) + " Sum angles: " + str(sum_angles) + " Sum angles history: " + \
                              str(raw_angles_history)
                        print(msg)
                        logger.write(msg + "\n")
                        msg = "KP: " + str(config.KP) + " Raw angle: " + str(raw_angle) + " Angle * KP: " + \
                              str(angle_kp) + " Smoothie target angle: " + str(target_angle_sm) + \
                              " Smoothie absolute order angle: " + str(order_angle_sm)
                        print(msg)
                        logger.write(msg + "\n")

                        prev_point = cur_pos
                        response = smoothie.nav_turn_wheels_to(order_angle_sm, config.A_F_MAX)

                        msg = "Smoothie response: " + response
                        print(msg)
                        logger.write(msg)

                        # next tick indent
                        print()
                        logger.write("\n")
                    adapter_points_history = gps.get_last_positions_list()
        msg = "Done!"
        print(msg)
        logger.write(msg + "\n")
    except KeyboardInterrupt:
        msg = "Stopped by a keyboard interrupt (Ctrl + C)"
        print(msg)
        logger.write(msg + "\n")
    except Exception:
        msg = "Exception occurred:\n" + traceback.format_exc()
        print(msg)
        logger.write(msg)
    finally:
        if len(used_points_history) > 0:
            save_gps_coordinates(used_points_history, "used_gps_history " + get_current_time() + ".txt")
        else:
            msg = "used_gps_history list has 0 elements!"
            print(msg)
            logger.write(msg)
        if len(adapter_points_history) > 0:
            save_gps_coordinates(adapter_points_history, "adapter_gps_history " + get_current_time() + ".txt")
        else:
            msg = "adapter_gps_history list has 0 elements!"
            print(msg)
            logger.write(msg)
        logger.close()
        # """
        sP.endSession()
        client.closeConnection()
        sP.stopServer()