class IPozyx(object): """Continuously calls the Pozyx positioning function and prints its position.""" def __init__(self, anchors): self.serial_port = get_first_pozyx_serial_port() print(self.serial_port) if self.serial_port is None: print("No Pozyx connected. Check your USB cable or your driver!") self.pozyx = PozyxSerial(self.serial_port) #print(self.serial_port) if (anchors.get('count') == 4): self.anchors = [ DeviceCoordinates( 0x6110, 1, Coordinates( anchors.get('0x6110')[0], anchors.get('0x6110')[1], anchors.get('0x6110')[2])), DeviceCoordinates( 0x6115, 1, Coordinates( anchors.get('0x6115')[0], anchors.get('0x6115')[1], anchors.get('0x6115')[2])), DeviceCoordinates( 0x6117, 1, Coordinates( anchors.get('0x6117')[0], anchors.get('0x6117')[1], anchors.get('0x6117')[2])), DeviceCoordinates( 0x611e, 1, Coordinates( anchors.get('0x611e')[0], anchors.get('0x611e')[1], anchors.get('0x611e')[2])) ] self.algorithm = PozyxConstants.POSITIONING_ALGORITHM_UWB_ONLY self.dimension = PozyxConstants.DIMENSION_3D self.height = 1000 #self.pub = rospy.Publisher('/mavros/mocap/pose', PoseStamped, queue_size=10) self.pub = rospy.Publisher('/pose', PoseStamped, queue_size=10) self.pose = PoseStamped() self.subZ = rospy.Subscriber('range', Int16, self.rangeCallback) def setup(self): self.setAnchorsManual() #self.printPublishConfigurationResult() def rangeCallback(self, msg): if (msg.data == 500): self.height = 0 elif (msg.data == 30): self.height = 0 else: self.height = msg.data #sleep(0.025) def run(self, height): """Performs positioning and displays/exports the results.""" success = False while (success != True): position = Coordinates() status = self.pozyx.doPositioning(position, self.dimension, height, self.algorithm) #position, self.dimension, self.height, self.algorithm) #position, self.dimension, self.height, self.algorithm, remote_id=self.remote_id) if status == POZYX_SUCCESS: success = True return position else: pass #sleep(0.025) def pubPozyx(self): #success=False #while(success!=True): position = Coordinates() status = self.pozyx.doPositioning( #position, self.dimension, height, self.algorithm) position, self.dimension, self.height, self.algorithm) #position, self.dimension, self.height, self.algorithm, remote_id=self.remote_id) if status == POZYX_SUCCESS: success = True #self.pose.timestamp = datetime.datetime.now() self.pose.header.stamp = rospy.Time.now() self.pose.header.frame_id = 'map' self.pose.pose.position.x = position.x self.pose.pose.position.y = position.y #self.pose.pose.position.x = 1.5 #self.pose.pose.position.y = 1.5 self.pose.pose.position.z = self.height self.pose.pose.orientation.w = 1.0 self.pub.publish(self.pose) else: pass #rospy.spin() def setAnchorsManual(self): """Adds the manually measured anchors to the Pozyx's device list one for one.""" #status = self.pozyx.clearDevices(remote_id=self.remote_id) status = self.pozyx.clearDevices() for anchor in self.anchors: #status &= self.pozyx.addDevice(anchor, remote_id=self.remote_id) status &= self.pozyx.addDevice(anchor) if len(self.anchors) > 4: #status &= self.pozyx.setSelectionOfAnchors(PozyxConstants.ANCHOR_SELECT_AUTO, len(self.anchors), remote_id=self.remote_id) status &= self.pozyx.setSelectionOfAnchors( PozyxConstants.ANCHOR_SELECT_AUTO, len(self.anchors)) return status
anchor4Y = int(cParser.get('default', 'anchor4_Y')) anchor4Z = int(cParser.get('default', 'anchor4_Z')) #Check if connected serial_port = get_first_pozyx_serial_port() if serial_port is not None: pozyx = PozyxSerial(serial_port) print("Connection success!") else: print("No Pozyx port was found") exit() try: ##Setup anchors #Clear previous setup pozyx.clearDevices(remote_id=r_id) print("List cleared.") #Anchor variables anchor1 = DeviceCoordinates(anchor1, 1, Coordinates(anchor1X, anchor1Y, anchor1Z)) anchor2 = DeviceCoordinates(anchor2, 1, Coordinates(anchor2X, anchor2Y, anchor2Z)) anchor3 = DeviceCoordinates(anchor3, 1, Coordinates(anchor3X, anchor3Y, anchor3Z)) anchor4 = DeviceCoordinates(anchor4, 1, Coordinates(anchor4X, anchor4Y, anchor4Z)) print("Coordinates set.") #Add Anchors to the device list pozyx.addDevice(anchor1, remote_id=r_id)
DeviceCoordinates(0x6e59, 2, Coordinates(5340, 0, 2000)), DeviceCoordinates(0x695d, 3, Coordinates(6812, -8923, 2500)), DeviceCoordinates(0x690b, 4, Coordinates(-541, -10979, 3000)), DeviceCoordinates(0x6748, 5, Coordinates(6812, -4581, 200)) ] POZYX_CONNECTED_TO_BASE = True serial_port = get_pozyx_serial_port() if serial_port is None: POZYX_CONNECTED_TO_BASE = False else: try: pozyx = PozyxSerial(serial_port) status = pozyx.clearDevices() for anchor in anchors: status &= pozyx.addDevice(anchor) remote_check = SingleRegister() pozyx.getWhoAmI(remote_check, remote_id=remote_id) if remote_check.data == [0]: remote_id = None MAX_TRIES = 1000 except PozyxConnectionError: BUSY_SERIAL = True def check_connection(func):
class Tag: def __init__(self, anchors): self.serial = PozyxSerial(self.getSerialport) self.anchors = anchors # position calculation algorithm and tracking dimension self.algorithm = PozyxConstants.POSITIONING_ALGORITHM_UWB_ONLY self.dimension = PozyxConstants.DIMENSION_3D def setup(self): # sets up the Pozyx for positioning by calibrating its anchor list print("") print("POZYX POSITIONING Version {}".format(version)) print("-------------------------------------------------------") print("") print("- System will manually configure tag") print("") print("- System will auto start positioning") print("") print("-------------------------------------------------------") print("") self.setAnchors() self.printConfig() print("") print("-------------------------------------------------------") print("") def setAnchors(self): # adds the manually measured anchors to the Pozyx's device list one for one status = self.serial.clearDevices(remote_id=None) for anchor in self.anchors: status &= self.serial.addDevice(anchor, remote_id=None) if len(self.anchors) > 4: status &= self.serial.setSelectionOfAnchors(PozyxConstants.ANCHOR_SELECT_AUTO, len(self.anchors), remote_id=None) @property def getSerialport(self): # serialport connection test serial_port = get_first_pozyx_serial_port() if serial_port is None: print("No Pozyx connected. Check your USB cable or your driver!") return None else: return serial_port def getPosition(self): # performs positioning and exports the results position = Coordinates() try: status = self.serial.doPositioning(position, self.dimension, self.algorithm, remote_id=None) if status == POZYX_SUCCESS: # print("POZYX data:", position) return position else: self.printError("positioning") except: self.printError("positioning") return None def getOrientation(self): # reads euler angles (yaw, roll, pitch) and exports the results orientation = EulerAngles() status = self.serial.getEulerAngles_deg(orientation) if status == POZYX_SUCCESS: # print("POZYX data:", orientation) return orientation else: print("Sensor data not found") return None @classmethod def mockedPosition(cls): # return Coordinates(random.randint(0, 1000), random.randint(0, 1000), random.randint(0, 1000)) return Coordinates(random.randint(0, 2000), random.randint(0, 2000), random.randint(0, 2000)) @classmethod def mockedOrientation(cls): return EulerAngles(random.randint(0, 30), random.randint(0, 30), random.randint(0, 30)) def printConfig(self): # prints the anchor configuration result list_size = SingleRegister() # prints the anchors list size self.serial.getDeviceListSize(list_size, None) if list_size[0] != len(self.anchors): self.printError("configuration") return # prints the anchors list device_list = DeviceList(list_size=list_size[0]) self.serial.getDeviceIds(device_list, None) print("Calibration result:") print("Anchors found: {0}".format(list_size[0])) print("Anchor IDs: ", device_list) for i in range(list_size[0]): anchor_coordinates = Coordinates() self.serial.getDeviceCoordinates(device_list[i], anchor_coordinates, None) print("ANCHOR: 0x%0.4x, %s" % (device_list[i], str(anchor_coordinates))) sleep(0.025) def printError(self, operation): # Prints Pozyx's errors error_code = SingleRegister() if None is None: self.serial.getErrorCode(error_code) print("LOCAL ERROR %s, %s" % (operation, self.serial.getErrorMessage(error_code))) return status = self.serial.getErrorCode(error_code, None) if status == POZYX_SUCCESS: print("ERROR %s on ID %s, %s" % (operation, "0x%0.4x" % None, self.serial.getErrorMessage(error_code))) else: self.serial.getErrorCode(error_code) print("ERROR %s, couldn't retrieve remote error code, LOCAL ERROR %s" % (operation, self.serial.getErrorMessage(error_code)))
class RangeDebugger(Node): def __init__(self): super().__init__("range_debugger") self.range_pub = self.create_publisher(String, "range", 10) self.position_pub = self.create_publisher(Odometry, "odometry/pozyx", 1000) self.markers_pub = self.create_publisher(MarkerArray, "odometry/pozyx/markers", 10) # serial port setting serial_port = "/dev/ttyACM0" seiral_port = get_first_pozyx_serial_port() if serial_port is None: print("No Pozyx connected. CHeck your USB cable or your driver!") quit() self.pozyx = PozyxSerial(serial_port) # remote and destination # But sorry, just 1 tag is useable. # "None" is setting for use USB-connected tag, "0xXX"(tag id) is to use remote tag. self.tag_ids = [None] # TODO: To use multiple tags self.ranging_protocol = PozyxConstants.RANGE_PROTOCOL_PRECISION self.range_timer_ = self.create_timer(0.02, self.range_callback) self.anchors = [ # DeviceCoordinates(0x605b, 1, Coordinates( 0, 0, 0)), # test # DeviceCoordinates(0x603b, 1, Coordinates( 800, 0, 0)), # test DeviceCoordinates(0x6023, 1, Coordinates(-13563, -8838, 475)), # ROOM DeviceCoordinates(0x6e23, 1, Coordinates(-3327, -8849, 475)), # ROOM DeviceCoordinates(0x6e49, 1, Coordinates(-3077, -2959, 475)), # ROOM # DeviceCoordinates(0x6e58, 1, Coordinates( -7238, -3510, 475)), # ROOM DeviceCoordinates(0x6050, 1, Coordinates(-9214, -9102, 475)), # ROOM ] self.algorithm = PozyxConstants.POSITIONING_ALGORITHM_UWB_ONLY self.dimension = PozyxConstants.DIMENSION_2D self.height = 475 self.setup() def setup(self): self.setAnchorsManual() for anchor in self.anchors: self.get_logger().info("ANCHOR,0x%0.4x,%s" % (anchor.network_id, str(anchor.pos))) def setAnchorsManual(self): """Adds the manually measured anchors to the Pozyx's device list one for one.""" for tag_id in self.tag_ids: status = self.pozyx.clearDevices(tag_id) for anchor in self.anchors: status &= self.pozyx.addDevice(anchor, tag_id) if len(self.anchors) > 4: status &= self.pozyx.setSelectionOfAnchors( PozyxConstants.ANCHOR_SELECT_MANUAL, len(self.anchors), remote_id=tag_id) self.printPublishConfigurationResult(status, tag_id) def printPublishConfigurationResult(self, status, tag_id): """Prints the configuration explicit result, prints and publishes error if one occurs""" if tag_id is None: tag_id = 0 if status == POZYX_SUCCESS: self.get_logger().info("Configuration of tag %s: success" % tag_id) else: self.printPublishErrorCode("configuration", tag_id) def printPublishErrorCode(self, operation, network_id): """Prints the Pozyx's error and possibly sends it as a OSC packet""" error_code = SingleRegister() status = self.pozyx.getErrorCode(error_code, network_id) if network_id is None: network_id = 0 if status == POZYX_SUCCESS: self.get_logger().error("Error %s on ID %s, %s" % (operation, "0x%0.4x" % network_id, self.pozyx.getErrorMessage(error_code))) else: # should only happen when not being able to communicate with a remote Pozyx. self.pozyx.getErrorCode(error_code) self.get_logger().error("Error % s, local error code %s" % (operation, str(error_code))) def range_callback(self): """Do ranging periodically, and publish visualizasion_msg MarkerArray""" for tag_id in self.tag_ids: for anchor in self.anchors: device_range = DeviceRange() status = self.pozyx.doRanging(anchor.network_id, device_range, tag_id) if status == POZYX_SUCCESS: self.publishMarkerArray(device_range.distance, anchor) # self.get_logger().info(f"{device_range.distance}") else: error_code = SingleRegister() status = self.pozyx.getErrorCode(error_code) if status == POZYX_SUCCESS: self.get_logger().error( "ERROR Ranging, local %s" % self.pozyx.getErrorMessage(error_code)) else: self.get_logger().error( "ERROR Ranging, couldn't retrieve local error") self.doPositioning() def doPositioning(self): for tag_id in self.tag_ids: position = Coordinates() status = self.pozyx.doPositioning(position, self.dimension, self.height, self.algorithm, remote_id=tag_id) quat = Quaternion() status &= self.pozyx.getNormalizedQuaternion(quat, tag_id) if status == POZYX_SUCCESS: self.printPublishPosition(position, tag_id, quat) else: self.printPublishErrorCode("positioning", tag_id) def printPublishPosition(self, position, network_id, quat): if network_id is None: network_id = 0 odom = Odometry() odom.header.stamp = self.get_clock().now().to_msg() odom.header.frame_id = "pozyx" odom.pose.pose.position.x = position.x * 0.001 odom.pose.pose.position.y = position.y * 0.001 if self.dimension == PozyxConstants.DIMENSION_3D: odom.pose.pose.position.z = position.z * 0.001 else: odom.pose.pose.position.z = float(self.height) / 1000 odom.pose.pose.orientation.x = quat.x odom.pose.pose.orientation.y = quat.y odom.pose.pose.orientation.z = quat.z odom.pose.pose.orientation.w = quat.w odom.pose.covariance = [ 1.0, 0.0, 0.0, 0.0, 0.0, 0.0,\ 0.0, 1.0, 0.0, 0.0, 0.0, 0.0,\ 0.0, 0.0, 0.0, 0.0, 0.0, 0.0,\ 0.0, 0.0, 0.0, 0.0, 0.0, 0.0,\ 0.0, 0.0, 0.0, 0.0, 0.0, 0.0,\ 0.0, 0.0, 0.0, 0.0, 0.0, 0.03, ] self.position_pub.publish(odom) def publishMarkerArray(self, distance, anchor): """ Visualization pozyx anchors for Rviz2 Parameters ---------- distance : float """ is_3D_estimation = (self.dimension == PozyxConstants.DIMENSION_3D) pos_x = anchor.pos.x pos_y = anchor.pos.y pos_z = anchor.pos.z markerArray = MarkerArray() m_id = anchor.network_id # marker of pozyx pos marker_pos = Marker() marker_pos.header.frame_id = "/pozyx" marker_pos.header.stamp = self.get_clock().now().to_msg() marker_pos.ns = "pozyx_pos" # namespace marker_pos.id = m_id m_id += 1 marker_pos.type = Marker.CUBE marker_pos.action = Marker.ADD marker_pos.lifetime.sec = 1 marker_pos.scale.x = 0.07 marker_pos.scale.y = 0.07 marker_pos.scale.z = 0.02 marker_pos.pose.position.x = pos_x / 1000 marker_pos.pose.position.y = pos_y / 1000 marker_pos.pose.position.z = pos_z / 1000 marker_pos.pose.orientation.x = 0.0 marker_pos.pose.orientation.y = 0.0 marker_pos.pose.orientation.z = 0.0 marker_pos.pose.orientation.w = 1.0 marker_pos.color.r = 0.0 marker_pos.color.g = 1.0 marker_pos.color.b = 0.0 marker_pos.color.a = 1.0 markerArray.markers.append(marker_pos) # marker of pozyx distance marker_pos = Marker() marker_pos.header.frame_id = "/pozyx" marker_pos.header.stamp = self.get_clock().now().to_msg() marker_pos.ns = "pozyx_distance" # namespace marker_pos.id = m_id m_id += 1 if is_3D_estimation: marker_pos.type = Marker.SPHERE marker_pos.scale.z = float(distance) * 2 / 1000 else: marker_pos.type = Marker.CYLINDER marker_pos.scale.z = 0.001 marker_pos.action = Marker.ADD marker_pos.lifetime.sec = 1 marker_pos.scale.x = float(distance) * 2 / 1000 marker_pos.scale.y = float(distance) * 2 / 1000 marker_pos.pose.position.x = pos_x / 1000 marker_pos.pose.position.y = pos_y / 1000 marker_pos.pose.position.z = pos_z / 1000 marker_pos.pose.orientation.x = 0.0 marker_pos.pose.orientation.y = 0.0 marker_pos.pose.orientation.z = 0.0 marker_pos.pose.orientation.w = 1.0 marker_pos.color.r = 0.0 marker_pos.color.g = 0.5 marker_pos.color.b = 0.5 marker_pos.color.a = 0.1 markerArray.markers.append(marker_pos) # marker of pozyx label marker_pos = Marker() marker_pos.header.frame_id = "/pozyx" marker_pos.header.stamp = self.get_clock().now().to_msg() marker_pos.ns = "pozyx_distance_label" # namespace marker_pos.id = m_id m_id += 1 marker_pos.type = Marker.TEXT_VIEW_FACING marker_pos.action = Marker.ADD marker_pos.lifetime.sec = 1 marker_pos.scale.x = 1.0 marker_pos.scale.y = 1.0 marker_pos.scale.z = 0.2 marker_pos.pose.position.x = pos_x / 1000 marker_pos.pose.position.y = pos_y / 1000 marker_pos.pose.position.z = pos_z / 1000 + 0.5 marker_pos.pose.orientation.x = 0.0 marker_pos.pose.orientation.y = 0.0 marker_pos.pose.orientation.z = 0.0 marker_pos.pose.orientation.w = 1.0 marker_pos.color.r = 1.0 marker_pos.color.g = 1.0 marker_pos.color.b = 1.0 marker_pos.color.a = 1.0 marker_pos.text = f"{float(distance / 1000):.2f}\n{hex(anchor.network_id)}" markerArray.markers.append(marker_pos) # Publish markers! self.markers_pub.publish(markerArray)
class BeaconToGPS(mp_module.MPModule): IGNORE_FLAG_ALL = (mavutil.mavlink.GPS_INPUT_IGNORE_FLAG_ALT | mavutil.mavlink.GPS_INPUT_IGNORE_FLAG_VDOP | mavutil.mavlink.GPS_INPUT_IGNORE_FLAG_VEL_VERT | mavutil.mavlink.GPS_INPUT_IGNORE_FLAG_VERTICAL_ACCURACY) def __init__(self, mpstate): """Initialise module""" super(BeaconToGPS, self).__init__(mpstate, "BeaconToGPS", "") self.anchor_config = None self.config_file_parser = ConfigParser.ConfigParser() self.config_file_parser.read(os.getcwd() + '/config/uwb_config.conf') self.anchor_config = self.config_file_parser.get( "Anchor", "anchor_coordinates") if self.anchor_config is None: print("Need set the anchor coordinate!") return self.yaw_deg = self.config_file_parser.getfloat( "NED", "yaw_form_ned_to_uwb") if self.yaw_deg is None: print("Need set the yaw from ned to uwb!") return else: print("NED to UWB yaw:" + str(self.yaw_deg) + " deg") self.debug = 0 self.debug = self.config_file_parser.getint("SYS", "debug") if self.debug is None: self.debug = 0 serial_port_dev = get_first_pozyx_serial_port() if serial_port_dev is None: print("No Pozyx connected. Check your USB cable or your driver!") return self.pozyx = PozyxSerial(serial_port_dev) self.anchors = self.anchor_config[1:len(self.anchor_config) - 1].split(";") self.anchor_list = [] self.position = Coordinates() self.velocity = Coordinates() self.pos_last = Coordinates() self.pos_last_time = 0 self.setup_pozyx() self.CONSTANTS_RADIUS_OF_EARTH = 6378100.0 self.DEG_TO_RAD = 0.01745329251994329576 self.RAD_TO_DEG = 57.29577951308232087679 self.reference_lat = 36.26586666666667 self.reference_lon = 120.27563333333333 self.reference_lat_rad = self.reference_lat * self.DEG_TO_RAD self.reference_lon_rad = self.reference_lon * self.DEG_TO_RAD self.cos_lat = math.cos(self.reference_lat_rad) self.target_lon_param = self.CONSTANTS_RADIUS_OF_EARTH * self.cos_lat self.current_lat = 0 self.current_lon = 0 self.tag_pos_ned = Coordinates() self.tag_velocity_ned = Coordinates() self.yaw = math.radians(self.yaw_deg) self.cos_yaw = math.cos(self.yaw) self.sin_yaw = math.sin(self.yaw) self.location_update = False self.location_update_time = 0 self.pos_update_time = 0 self.location_update_freq = 8 self.data = { 'time_usec': 0, # (uint64_t) Timestamp (micros since boot or Unix epoch) 'gps_id': 0, # (uint8_t) ID of the GPS for multiple GPS inputs 'ignore_flags': self. IGNORE_FLAG_ALL, # (uint16_t) Flags indicating which fields to ignore (see GPS_INPUT_IGNORE_FLAGS enum). All other fields must be provided. 'time_week_ms': 0, # (uint32_t) GPS time (milliseconds from start of GPS week) 'time_week': 0, # (uint16_t) GPS week number 'fix_type': 0, # (uint8_t) 0-1: no fix, 2: 2D fix, 3: 3D fix. 4: 3D with DGPS. 5: 3D with RTK 'lat': 0, # (int32_t) Latitude (WGS84), in degrees * 1E7 'lon': 0, # (int32_t) Longitude (WGS84), in degrees * 1E7 'alt': 0, # (float) Altitude (AMSL, not WGS84), in m (positive for up) 'hdop': 0, # (float) GPS HDOP horizontal dilution of position in m 'vdop': 0, # (float) GPS VDOP vertical dilution of position in m 'vn': 0, # (float) GPS velocity in m/s in NORTH direction in earth-fixed NED frame 've': 0, # (float) GPS velocity in m/s in EAST direction in earth-fixed NED frame 'vd': 0, # (float) GPS velocity in m/s in DOWN direction in earth-fixed NED frame 'speed_accuracy': 0, # (float) GPS speed accuracy in m/s 'horiz_accuracy': 0, # (float) GPS horizontal accuracy in m 'vert_accuracy': 0, # (float) GPS vertical accuracy in m 'satellites_visible': 0 # (uint8_t) Number of satellites visible. } def setAnchorsManual(self): ''' config anchor''' status = self.pozyx.clearDevices() for temp_anchor in self.anchors: anchor = temp_anchor[1:len(temp_anchor) - 1].split(",") pozyx_anchor = DeviceCoordinates( int(anchor[0], 16), 1, Coordinates(int(anchor[1]), int(anchor[2]), int(anchor[3]))) status &= self.pozyx.addDevice(pozyx_anchor) self.anchor_list.append(pozyx_anchor) if len(self.anchors) > 4: status &= self.pozyx.setSelectionOfAnchors(POZYX_ANCHOR_SEL_AUTO, len(self.anchors)) def print_anchor_config(self): print("Anchor coordinate config:") anchor_coordinate = Coordinates() uwb_setting = UWBSettings() for i in range(len(self.anchor_list)): status = self.pozyx.getDeviceCoordinates( self.anchor_list[i].network_id, anchor_coordinate) if status == POZYX_SUCCESS: print("anchor " + hex(self.anchor_list[i].network_id) + " coordinate is X: " + str(anchor_coordinate.x) + " mm; Y: " + str(anchor_coordinate.y) + " mm; Z: " + str(anchor_coordinate.z) + " mm;") else: print("get anchor" + hex(self.anchor_list[i].network_id) + " coordinate config err") status = self.pozyx.getUWBSettings(uwb_setting, self.anchor_list[i].network_id) if status == POZYX_SUCCESS: print("UWB Setting, channel: " + str(uwb_setting.channel) + " Bitrate: " + str(uwb_setting.bitrate) + " Prf: " + str(uwb_setting.prf) + " Plen: " + str(uwb_setting.plen) + " Gain: " + str(uwb_setting.gain_db) + " DB") else: print("get UWB Setting err") def setup_pozyx(self): self.setAnchorsManual() if self.debug > 0: self.print_anchor_config() self.pozyx.doPositioning(self.pos_last, POZYX_3D, 1000, POZYX_POS_ALG_TRACKING) self.pos_last_time = time.time() def get_location(self): """Performs positioning and displays/exports the results.""" pos_mm = Coordinates() status = self.pozyx.doPositioning(pos_mm, POZYX_3D, 1000, POZYX_POS_ALG_TRACKING) now = time.time() if status == POZYX_SUCCESS: pos_err = PositionError() self.pozyx.getPositionError(pos_err) self.position.x = pos_mm.x * 0.001 #mm-->m self.position.y = pos_mm.y * 0.001 self.position.z = pos_mm.z * 0.001 self.get_tag_velocity(pos_mm, now) self.location_update = True if self.debug == 2: print(" Postion is X: " + str(self.position.x) + " m; Y: " + str(self.position.y) + " m; Z: " + str(self.position.z) + " m;" + " err: " + str(pos_err.xy)) else: if self.debug == 2: print("Do not get tag position") def get_tag_velocity(self, position_now, time_now): delt_pos = Coordinates() #unit: mm delt_pos.x = position_now.x - self.pos_last.x delt_pos.y = position_now.y - self.pos_last.y delt_pos.z = position_now.z - self.pos_last.z delt_time = (time_now - self.pos_last_time) * 1000.0 #s-->ms self.pos_last = position_now self.pos_last_time = time_now self.velocity.x = delt_pos.x / delt_time #m/s self.velocity.y = delt_pos.y / delt_time self.velocity.z = delt_pos.z / delt_time if self.debug == 2: print("Tag velocity is X=" + str(self.velocity.x) + "m/s; Y=" + str(self.velocity.y) + "m/s Z=" + str(self.velocity.z) + "m/s") def mavlink_packet(self, m): '''handle mavlink packets''' pass def send_gps_message(self): '''send gps message to fc ''' self.data['lat'] = self.current_lat * 1e7 self.data['lon'] = self.current_lon * 1e7 self.data['alt'] = self.tag_pos_ned.z self.data['vn'] = self.tag_velocity_ned.x self.data['ve'] = self.tag_velocity_ned.y self.data['vd'] = self.tag_velocity_ned.z self.data['speed_accuracy'] = 0.05 self.data['horiz_accuracy'] = 0.1 self.data['vert_accuracy'] = 0.1 self.data['satellites_visible'] = 20 self.data['time_week_ms'] = 0 self.data['time_usec'] = time.time() * 1e6 self.data['gps_id'] = 0 self.data['time_week'] = 0 self.data['fix_type'] = 5 self.master.mav.gps_input_send( self.data['time_usec'], self.data['gps_id'], self.data['ignore_flags'], self.data['time_week_ms'], self.data['time_week'], self.data['fix_type'], self.data['lat'], self.data['lon'], self.data['alt'], self.data['hdop'], self.data['vdop'], self.data['vn'], self.data['ve'], self.data['vd'], self.data['speed_accuracy'], self.data['horiz_accuracy'], self.data['vert_accuracy'], self.data['satellites_visible']) def global_point_from_vector(self): self.current_lat = (self.reference_lat_rad + self.tag_pos_ned.x / self.CONSTANTS_RADIUS_OF_EARTH) * self.RAD_TO_DEG self.current_lon = (self.reference_lon_rad + self.tag_pos_ned.y / self.target_lon_param) * self.RAD_TO_DEG if self.debug == 2: print("Current lat:" + str(self.current_lat) + "; lon:" + str(self.current_lon)) def convert_to_ned(self, vector): ned_vector = Coordinates() ned_vector.x = vector.x * self.cos_yaw - vector.y * self.sin_yaw ned_vector.y = vector.x * self.sin_yaw + vector.y * self.cos_yaw ned_vector.z = vector.z return ned_vector def idle_task(self): '''get location by uwb''' if self.pozyx == None: print("pozyx dev is none") return now = time.time() if (now - self.pos_update_time) > 1 / self.location_update_freq: self.get_location() if self.location_update: self.pos_update_time = now # just location update done,then update time self.tag_pos_ned = self.convert_to_ned(self.position) #m self.tag_velocity_ned = self.convert_to_ned( self.velocity) #m/s self.tag_velocity_ned.z = -self.tag_velocity_ned.z #ned self.global_point_from_vector() self.send_gps_message() self.location_update = False if self.debug == 1: print("update hz:" + str(1 / (now - self.location_update_time))) self.location_update_time = now