Exemple #1
0
    def update(self, event):
        try:
            if self.enable_position:
                position, error = self.update_position()
            else:
                position = [0, 0, 0]
        except (PozyxExceptionCommQueueFull, PozyxExceptionOperationQueueFull,
                PozyxExceptionTimeout) as e:
            rospy.logwarn('%s: will sleep for 5 s', e.message)
            rospy.sleep(5)
            return
        except PozyxException as e:
            rospy.logerr('%s', e.message)
            return
        try:
            if self.enable_orientation:
                # !! pozyx orientation is not absolute but relative to the orientation at start
                q = self.update_orientation()
                self.orientation = self.quaternion_in_map_frame(q)
            else:
                self.orientation = [0, 0, 0, 1]
        except Exception as e:
            rospy.logerr(e.__class__)
            return
        if position is not None:
            self.publish_pose(position, self.orientation)

        if self.enable_raw_sensors:
            sensor_data = px.SensorData()
            try:
                self.pozyx.getAllSensorData(sensor_data, self.remote_id)
            except Exception as e:
                rospy.logerr(e)
                return
            self.publish_sensor_data(sensor_data)
Exemple #2
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    def update(self, event):
        if not self.ready:
            return
        try:
            if self.enable_position:
                position, error = self.update_position()
            else:
                position = [0, 0, 0]
                error = None
        # except (PozyxExceptionTimeout) as e:
        #     # PozyxExceptionCommQueueFull, PozyxExceptionOperationQueueFull
        #     rospy.logwarn('%s: %s. Will sleep for 1 s', e.__class__.__name__, e.message)
        #     rospy.sleep(1)
        #     self.ps.append(0)
        #     return
        except PozyxException as e:
            log_pozyx_exception(e)
            self.ps.append(0)
            self.reset_or_exit()
            return
        if position is not None:
            self.publish_pose(position, error=error)

        if self.enable_raw_sensors:
            sensor_data = px.SensorData()
            try:
                self.pozyx.getAllSensorData(sensor_data, self.remote_id)
            except PozyxException as e:
                log_pozyx_exception(e)
                self.reset_or_exit()
                return
            self.publish_sensor_data(sensor_data)
Exemple #3
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 def run(self):
     position = px.Coordinates()
     error = px.PositionError()
     sensor_data = px.SensorData()
     pozyx = self.driver.pozyx
     interrupt = px.SingleRegister()
     while not rospy.is_shutdown():
         try:
             if pozyx.checkForFlag(self.flag, self.DELAY, interrupt):
                 if self.driver.enable_position and interrupt.data[
                         0] & bm.POZYX_INT_STATUS_POS:
                     pozyx.getCoordinates(position)
                     pozyx.getPositionError(error)
                     if self.driver.accept_position(position, error):
                         x = np.array([position.x, position.y, position.z
                                       ]) / 1000.0
                         self.driver.publish_pose(x)
                 if (self.driver.enable_raw_sensors
                         and interrupt.data[0] & bm.POZYX_INT_STATUS_IMU):
                     pozyx.getAllSensorData(sensor_data)
                     self.driver.publish_sensor_data(sensor_data)
             rospy.sleep(self.period)
         except PozyxExceptionTimeout:
             pass
         except PozyxException as e:
             rospy.logerr(e.message)
             pozyx.ser.reset_output_buffer()
             pozyx.ser.reset_input_buffer()
             rospy.sleep(1)
Exemple #4
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 def run(self):
     position = px.Coordinates()
     error = px.PositionError()
     sensor_data = px.SensorData()
     pozyx = self.driver.pozyx
     interrupt = px.SingleRegister()
     while not rospy.is_shutdown():
         try:
             if pozyx.checkForFlag(self.flag, self.period, interrupt):
                 if self.driver.enable_position and interrupt.data[0] & bm.POZYX_INT_STATUS_POS:
                     pozyx.getCoordinates(position)
                     pozyx.getPositionError(error)
                     if self.driver.accept_position(position, error):
                         x = np.array([position.x, position.y, position.z]) / 1000.0
                         self.driver.publish_pose(x, error=error)
                 if (self.driver.enable_raw_sensors and
                    interrupt.data[0] & bm.POZYX_INT_STATUS_IMU):
                     pozyx.getAllSensorData(sensor_data)
                     self.driver.publish_sensor_data(sensor_data)
         # except PozyxExceptionTimeout as e:
         #     rospy.logwarn('%s: %s', e.__class__.__name__, e.message)
         except PozyxException as e:
             log_pozyx_exception(e)
             # pozyx.ser.reset_output_buffer()
             # pozyx.ser.reset_input_buffer()
             # rospy.sleep(1)
             self.driver.reset()
         finally:
             rospy.sleep(self.period * 0.5)
Exemple #5
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def init():
    global pozyx_coords, pozyx_coords_err, pozyx_sensors
    global ros_pose, ros_mag, ros_imu, local_device, lock
    global height, algorithm, remote, serial_port, posehz, imuhz

    rospy.init_node('pozyx_pose_node')
    rospy.Subscriber("pozyx/height", Int16, height_cb)

    serial_port = rospy.get_param("port", pypozyx.get_serial_ports()[0].device)
    local_device = pypozyx.PozyxSerial(serial_port)

    # 0 is raw, 1 is fused but not yet implemented, 2 is filtered
    algorithm = rospy.get_param("algorithm", 2)
    remote = rospy.get_param("remote", None)
    height = rospy.get_param("height", 100)
    posehz = rospy.Rate(rospy.get_param("posehz", 2))
    imuhz = rospy.Rate(rospy.get_param("imuhz", 100))

    ros_pose = PoseWithCovarianceStamped()
    ros_mag = MagneticField()
    ros_imu = Imu()
    ros_pose.header.frame_id = "pozyx"
    ros_mag.header.frame_id = "pozyx"
    ros_imu.header.frame_id = "pozyx"

    pozyx_coords = pypozyx.Coordinates()
    pozyx_coords_err = pypozyx.PositionError()
    pozyx_sensors = pypozyx.SensorData()

    imu_thread = Thread(target=imu_publisher)
    coord_thread = Thread(target=coordinate_publisher)

    lock = Lock()

    imu_thread.start()
    coord_thread.start()

    rospy.spin()