def main(): print("Starting all interfaces") car = Car_Interface(loc="/dev/ttyUSB2") imu = IMU_Interface(loc="/dev/ttyUSB0") gps = GPS_Interface(loc="/dev/ttyACM0") sf = Sensor_Fusion(IMU=imu, GPS=gps) imu.start() gps.start() car.start() sf.start() fk_lat = 43.180208 fk_long = -79.790125 time.sleep(5) # allow everything to start lat = float(input("Destination lat")) long = float(input("Destination long")) #pp = Path_Planning(long, lat, sf) while True: #dist = GPS_Interface.haversin(sf.gps_vector, [lat, long]) #angle = GPS_Interface.bearing_to(sf.gps_vector, [lat, long]) dist = GPS_Interface.haversin([fk_lat, fk_long], [lat, long]) angle = GPS_Interface.bearing_to([fk_lat, fk_long], [lat, long]) # convert and compare the correction vector to the car direction # turn until theta = 0, then drive towards the point dif_angle = angle - sf.orientation print("Distance:", dist, "angle:", angle, "error:", dif_angle) if dist > 3: # 3m is the tolerance of the gps if abs(dif_angle) > 1: # 1 degree of tolerance (car can't steer to that accuracy anyways) car.steering_angle = dif_angle car.motor_speed = 50 car.left_led = True car.right_led = False else: # drive straight car.steering_angle = 0 car.motor_speed = 100 car.left_led = False car.right_led = True else: print("Done") car.motor_speed = 0 car.stop_thread() sf.stop_thread() return
from Autonomous.Sensors.Car.Car_Interface import Car_Interface import time if __name__ == "__main__": car = Car_Interface(loc='/dev/ttyUSB1') car.start() print("interface status", car.running) print("Starting Car") time.sleep(5) print("Indicating left led") car.left_led = True time.sleep(2.5) car.left_led = False time.sleep(1) print("Indicating right led") car.right_led = True time.sleep(2.5) car.right_led = False time.sleep(1) print("Flashing both lights") car.flash_led() time.sleep(3)