Esempio n. 1
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    def get_latest_image(self):
        print("Called get latest image.")
        # Note: it is necessary to create new objects in this method instead of creating instance variables
        # in the constructor because of weird video threading issues.
        mambo_vision = DroneVision(self.mambo, is_bebop=False, buffer_size=30)
        user_vision = UserVision(mambo_vision)
        success = mambo_vision.open_video()  # Open the video stream using ffmpeg for capturing and processing
        print("Success in opening vision is %s" % success)

        print("Vision successfully started!")
        # FIXME: investigate if these sleeps are needed.
        self.mambo.smart_sleep(5)
        frame = mambo_vision.get_latest_valid_picture()

        print("in save pictures on image %d " % self.index)

        if frame is not None:
            filename = "test_image_%06d.png" % self.index
            cv2.imwrite('./images/' + filename, frame)
            self.index += 1
            # Save another copy of the same image to a hardcoded filename, which
            # we'll use as the latest image
            magic_filename = "latest_image.png"
            cv2.imwrite('./images/' + magic_filename, frame)
            #print(self.index)


        self.mambo.smart_sleep(5)

        print("Ending the sleep and vision")
        mambo_vision.close_video()

        return frame
Esempio n. 2
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        print("Anafi connected")

        # State information
        print("Updating state information")
        anafi.smart_sleep(1)
        anafi.ask_for_state_update()
        anafi.smart_sleep(1)

        # Vision
        print("Starting vision")
        anafi_vision = DroneVision(anafi, Model.ANAFI)
        user_vision = UserVision(anafi_vision)
        anafi_vision.set_user_callback_function(user_vision.save_pictures,
                                                user_callback_args=None)

        # Video feed
        if anafi_vision.open_video():
            print("Opened video feed")
            print("Sleeping for 15 seconds - move Anafi around to test feed")
            anafi.smart_sleep(15)
            print("Closing video feed")
            anafi_vision.close_video()
            anafi.smart_sleep(5)
        else:
            print("Could not open video feed")

        print("Anafi disconnected")
        anafi.disconnect()
    else:
        print("Could not connect to Anafi")
Esempio n. 3
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# make my bebop object
bebop = Bebop()

# connect to the bebop
success = bebop.connect(5)

if (success):
    # start up the video
    bebop.set_video_framerate("24_FPS")
    bebop.set_video_resolutions("rec720_stream720")
    bebopVision = DroneVision(bebop, is_bebop=True)
    bebopVision.cleanup_old_images = True
    userVision = UserVision(bebopVision)
    bebopVision.set_user_callback_function(userVision.save_pictures, user_callback_args=None)
    success = bebopVision.open_video()

    # if (success):
    #     print("Vision successfully started!")
    #     print("Fly me around by hand!")
    #     bebop.smart_sleep(1)
    #     print("Moving the camera using velocity")
    #     bebop.pan_tilt_camera_velocity(pan_velocity=0, tilt_velocity=-2, duration=4)
    #     bebop.smart_sleep(1)
    #     print("Finishing demo and stopping vision")
    #     bebopVision.close_video()

    # disconnect nicely so we don't need a reboot
    bebopVision.close_video() # à enlever
    bebop.disconnect()
else:
Esempio n. 4
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success = mambo.connect(num_retries=3)
print("connected: %s" % success)

if success:
    # get the state information
    print("sleeping")
    mambo.smart_sleep(1)
    mambo.ask_for_state_update()
    mambo.smart_sleep(1)

    print("Preparing to open vision")
    mamboVision = DroneVision(mambo, is_bebop=False, buffer_size=30)
    userVision = UserVision(mamboVision)
    # mamboVision.set_user_callback_function(userVision.follow_aruco, user_callback_args=None)

    success = mamboVision.open_video()
    print("Success in opening vision is %s" % success)



    if success:
        print("Vision successfully started!")
        # removed the user call to this function (it now happens in open_video())
        # mamboVision.start_video_buffering()

        userVision.main()
        print("out of main")
        if testFlying:
            print("taking off!")
            mambo.safe_takeoff(5)
Esempio n. 5
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    print("trying to connect to mambo now")
    success = mambo.connect(num_retries=3)
    print("connected: %s" % success)

    while (success):
        # get the state information
        print("sleeping")
        mambo.smart_sleep(1)
        mambo.ask_for_state_update()
        mambo.smart_sleep(1)

        print("Preparing to open vision")
        mamboVision = DroneVision(mambo, is_bebop=False, buffer_size=30)
        userVision = UserVision(mamboVision)
        mamboVision.set_user_callback_function(userVision.save_pictures, user_callback_args=None)
        success = mamboVision.open_video() #Open the video stream using ffmpeg for capturing and processing
        print("Success in opening vision is %s" % success)

        print("Vision successfully started!")

        frame = mamboVision.get_latest_valid_picture()
    
        #here should be input to detect.py
    
        # run inference
        res = run_inference_for_single_image(frame, sess, tensor_dict, image_tensor)
        print("frame")
        # view the bounding boxes:
        cv2_visualize_results(frame, res, labels)
        cv2.imshow('frame', frame)
Esempio n. 6
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    def perform_landing(self):
        self.drone.safe_land(5)
        self.vision.close_video()
        self.drone.disconnect()


if __name__ == '__main__':

    INSTRUCTIONS = file_manager.get_navigation_instructions_from_json()
    print("[INSTRUCTION] Dictionary created")
    MAMBO_ADDRESS = "d0:3a:4d:78:e6:36"

    mambo = Mambo(MAMBO_ADDRESS, use_wifi=True)
    mambo_connected = mambo.connect(num_retries=20)
    print("[MAMBO]connected: %s" % mambo_connected)
    mambo.smart_sleep(1)

    if mambo_connected:
        vision = DroneVision(mambo, is_bebop=False, buffer_size=30)
        userVision = UserVision(vision, INSTRUCTIONS, mambo)

        vision.set_user_callback_function(
            userVision.user_code_after_vision_opened, user_callback_args=None)
        success = vision.open_video()
        print("[VISION] Success in opening vision is %s" % success)
        mambo.smart_sleep(3)

    else:
        print("[VISION]Error connecting to bebop.  Retry")
Esempio n. 7
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def main():
    tc = tracker.createTrackerByName("KCF")
    # 일반모드에서 블루투스를 사용하여 드론을 찾는다, 드론의 연결 주소와 이름이 반환된다
    # addr,name = findMinidrone.getMamboAddr()
    addr = None
    # 드론 객체 생성 FPV의 경우는 WIFI를 사용하며, use_wifi = True가 된다
    mambo = Mambo(addr, use_wifi=True)
    # 드론을 연결한다
    success = mambo.connect(3)
    print("Connect: %s" % success)
    mambo.smart_sleep(0.01)
    # 드론의 상태를 업데이트 한다
    mambo.ask_for_state_update()
    # 드론의 움직임 기울기를 1로 설정한다
    mambo.set_max_tilt(1)
    # 드론의 배터리를 확인 할 수 있다
    battery = mambo.sensors.battery

    # FPV 연결
    mamboVision = DroneVision(mambo, is_bebop=False, buffer_size=30)
    userVision = UserVision(mamboVision)
    mamboVision.set_user_callback_function(userVision.get_image,
                                           user_callback_args=None)
    cv2.namedWindow('Vision')
    cv2.setMouseCallback('Vision', draw_bbox)
    success = mamboVision.open_video()
    img = cv2.imread(mamboVision.filename, cv2.IMREAD_COLOR)
    mask = np.ones_like(img, dtype=np.uint8)

    tc = tracker.createTrackerByName("KCF")
    # Tracking Mode
    mode = False
    bbox = []
    angleStack, yawTime = 0, 0

    mov = drawMov()
    mov.mambo = mambo
    while (True):
        # OpenCV를 바탕으로 드론을 제어 하기위해 마스킹이미지를 생성한다
        # mask = np.ones((480,600,3),dtype=np.uint8)
        img = cv2.imread(mamboVision.filename, cv2.IMREAD_COLOR)
        print(img.shape)
        # 드론과 연결이 끊기지 않기 위해 매 프레임마다 상태 확인 신호를 보낸다
        mambo.smart_sleep(0.01)
        # 드론의 배터리를 확인 할 수 있다
        battery = mambo.sensors.battery
        print("Battery: %s" % battery)
        #img=cv2.add(img,mask)
        #if mode==True:
        #	bbox=tracker.updateTracker(img,tc)
        #	angleStack,yawTime=mov.adjPos(mask,bbox,angleStack,yawTime)
        cv2.imshow("Vision", mask)
        key = cv2.waitKey(10)
        # 'q' 키를 누르면 드론을 착륙하고 프로세스를 종료한다
        if ord('q') == key:
            mambo.safe_land(5)
            mamboVision.close_video()
            exit(0)
        # 'p' 키를 누르면 드론이 이륙한다
        elif ord('p') == key:
            mambo.safe_takeoff(5)
        # 'w' 키를 누르면 드론에 앞으로 100 만큼 움직이라는 신호를 0.1초간 보낸다
        elif ord('w') == key:
            mambo.fly_direct(roll=0,
                             pitch=100,
                             yaw=0,
                             vertical_movement=0,
                             duration=0.1)
        # 's' 키를 누르면 드론에 뒤로 100 만큼 움직이라는 신호를 0.1초간 보낸다
        elif ord('s') == key:
            mambo.fly_direct(roll=0,
                             pitch=-100,
                             yaw=0,
                             vertical_movement=0,
                             duration=0.1)
        # 'a' 키를 누르면 드론에 왼쪽으로 50 만큼 움직이라는 신호를 0.1초간 보낸다
        elif ord('a') == key:
            mambo.fly_direct(roll=-50,
                             pitch=0,
                             yaw=0,
                             vertical_movement=0,
                             duration=0.1)
        # 'd' 키를 누르면 드론에 오른쪽으로 50 만큼 움직이라는 신호를 0.1초간 보낸다
        elif ord('d') == key:
            mambo.fly_direct(roll=50,
                             pitch=0,
                             yaw=0,
                             vertical_movement=0,
                             duration=0.1)
        elif ord('i') == key:
            mambo.fly_direct(roll=0,
                             pitch=0,
                             yaw=0,
                             vertical_movement=50,
                             duration=0.1)
        elif ord('k') == key:
            mambo.fly_direct(roll=0,
                             pitch=0,
                             yaw=0,
                             vertical_movement=-50,
                             duration=0.1)
        elif ord('j') == key:
            mambo.fly_direct(roll=0,
                             pitch=0,
                             yaw=-50,
                             vertical_movement=0,
                             duration=0.1)
        elif ord('l') == key:
            mambo.fly_direct(roll=0,
                             pitch=0,
                             yaw=50,
                             vertical_movement=0,
                             duration=0.1)
        elif ord('c') == key:
            mask = np.ones((480, 600, 3), dtype=np.uint8)
        elif ord('v') == key:
            print("tracker start")
            bbox = [tx, ty, bx - tx, by - ty]
            mode = True
            ok = tc.init(img, bbox)
            mov.setBox([tx, ty, bx, by])