def main(): # Bozo filter for input args if len(argv) < 4: print('Usage: %s <dataset> <use_odometry> [random_seed]' % argv[0]) print('Example: %s exp2 1 9999' % argv[0]) exit(1) # Grab input args dataset = argv[1] use_odometry = True if int(argv[2]) else False seed = int(argv[3]) if len(argv) > 3 else 0 # Allocate byte array to receive map updates mapbytes = bytearray(MAP_SIZE_PIXELS * MAP_SIZE_PIXELS) # Load the data from the file timestamps, lidars, odometries = load_data('.', dataset) # Build a robot model if we want odometry robot = Rover() if use_odometry else None # Create a CoreSLAM object with laser params and optional robot object slam = RMHC_SLAM(MinesLaser(), MAP_SIZE_PIXELS, MAP_SIZE_METERS, random_seed=seed) \ if seed \ else Deterministic_SLAM(MinesLaser(), MAP_SIZE_PIXELS, MAP_SIZE_METERS) # Set up a SLAM display, named by dataset display = SlamShow(MAP_SIZE_PIXELS, MAP_SIZE_METERS * 1000 / MAP_SIZE_PIXELS, dataset) # Pose will be modified in our threaded code pose = [0, 0, 0] # Launch the data-collection / update thread thread = Thread(target=threadfunc, args=(robot, slam, timestamps, lidars, odometries if use_odometry else None, mapbytes, pose)) thread.daemon = True thread.start() # Loop forever,displaying current map and pose while True: # Display map and robot pose display.displayMap(mapbytes) display.setPose(*pose) # Refresh the display, exiting gracefully if user closes it if not display.refresh(): exit(0)
# Create an RMHC SLAM object with a laser model and optional robot model slam = RMHC_SLAM(LaserModel(), MAP_SIZE_PIXELS, MAP_SIZE_METERS) # Set up a SLAM display display = SlamShow(MAP_SIZE_PIXELS, MAP_SIZE_METERS * 1000 / MAP_SIZE_PIXELS, 'SLAM') # Initialize empty map mapbytes = bytearray(MAP_SIZE_PIXELS * MAP_SIZE_PIXELS) while True: # Update SLAM with current Lidar scan slam.update(lidar.getScan()) # Get current robot position x, y, theta = slam.getpos() # Get current map bytes as grayscale slam.getmap(mapbytes) display.displayMap(mapbytes) display.setPose(x, y, theta) # Exit on ESCape key = display.refresh() if key != None and (key & 0x1A): exit(0)
async def main(): #--------------------------------------- # Setup Lidar unit and SLAM #--------------------------------------- # Connect to Lidar unit lidar = nanoLidar.nanoLidar(host) # get firmware info print("Lidar Version:") print(lidar.getInfo()) # Create an RMHC SLAM object with a laser model and optional robot model slam = RMHC_SLAM(LaserModel(), MAP_SIZE_PIXELS, MAP_SIZE_METERS) # Set up a SLAM display display = SlamShow(MAP_SIZE_PIXELS, MAP_SIZE_METERS * 1000 / MAP_SIZE_PIXELS, 'SLAM') # Initialize an empty trajectory trajectory = [] # Initialize empty map mapbytes = bytearray(MAP_SIZE_PIXELS * MAP_SIZE_PIXELS) #--------------------------------------- # Setup Robot unit #--------------------------------------- # Connect to robot unit robot = robotPosition.robotPosition(host) robot.powerOn() # get firmware info print("Chassis Version:") print(robot.getInfo()) #--------------------------------------- # main loop #--------------------------------------- run = True while run: # Update SLAM with current Lidar scan, using first element of (scan, quality) pairs slam.update([pair[0] for pair in lidar.getScan()]) # Get current robot position x, y, theta = slam.getpos() # Get current map bytes as grayscale slam.getmap(mapbytes) display.displayMap(mapbytes) display.setPose(x, y, theta) # Exit on ESCape key = display.refresh() if key != None and (key & 0x1A): run = False # Movement control distance = int(input("Distance [mm]: ")) angle = int(input("Turn angle [degrees]: ")) (xp, yp, theta_deg, theta_rad) = robot.setPosition(distance, angle) if int(input("Carry on (1/0): ")) == 0: run = False # power off stepper motors robot.powerOff()
self.distance_no_detection_mm = 10000 #10m self.detection_margin = 0 self.offset_mm = offset_mm WINDOW_SIZE = 1200 MAP_SIZE_METERS = 10 lidar = DIYLidar(log = False) lidar_properties = DIYLidar_Properties(lidar.getPointsPerLap()) mapbytes = bytearray(WINDOW_SIZE * WINDOW_SIZE) slam = RMHC_SLAM(lidar_properties, WINDOW_SIZE, 35) window = SlamShow(WINDOW_SIZE, MAP_SIZE_METERS*1000/WINDOW_SIZE, "scan") pose = [0,0,0] while True: scan = lidar.waitForNextScan() if scan != False: slam.update(scan.getPointsDistances_mm()) x, y, theta = slam.getpos() pose = [x /10.0, y / 10.0, theta] slam.getmap(mapbytes) window.displayMap(mapbytes) window.setPose(*pose) if not window.refresh(): lidar.Quit() exit(0)