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A Python-based DJI Tello interface which utilizes parallel processing.

Project description

SAC-Tello

A simple library for controlling a DJI Tello Drone. Built for educational use.

Dependencies

numpy>=1.23.4

opencv-python>=4.6.0.66

face_recognition>=1.3.0

pygame>=2.5.0

Install

SAC-Tello can be installed by running the following command:

python3 -m pip install SAC-Tello

for MacOS/Linux

Or

python -m pip install SAC-Tello

for Windows

Note: Some users may have problems installing dependencies such as opencv-python or face_recognition or dependencies of SAC-Tello dependencies. We find that often this due to external non-python build tools being needed, for example opency-python needs C++ build tools from Visual Studio to properly install on Windows.

How To Use

Since this package spawns multiple child processes any use of the package must originate from a protected starting point (i.e. if __name__ == __main__:) or else a Runtime Error will occur.

Tello Drone

The primary interface for the drone is the TelloDrone class.

Creating a TelloDrone object is a simple as the following:

from SAC_Tello import TelloDrone
if __name__ == '__main__':
    drone = TelloDrone()

A created drone object does not connect to the tello drone. This merely sets up everything that needs to be in place before a connection is made.

To connect to the Tello, the TelloDrone class has a method called start() once the Tello is connected remember to call the close() method when done. The start() method returns True if the connection worked and False if not.

For example a simple takeoff and land program looks like this:

from SAC_Tello import TelloDrone
if __name__ == '__main__':
    drone = TelloDrone()
    drone.start()
    drone.takeoff()
    drone.land()
    drone.complete()
    drone.close()

The following are all commands that can be sent to the Tello:

Command Method Arguments
takeoff takeoff None
land land None
up up distance: int
down down distance: int
left left distance: int
right right distance: int
forward forward distance: int
backward backward distance: int
rotate cw rotate_cw degrees: int
rotate ccw rotate_ccw degrees: int
flip left flip_left None
flip right flip_right None
flip forward flip_forward None
flip backward flip_backward None
move move x: int, y: int, z: int, spd: int
emergency emergency None

Commands are run in parallel and put into a queue for execution. In order to complete the remaining commands in the queue, simply call the complete() method of the TelloDrone object.

Tello Heads-up Display

As an additional feature SAC-Tello gives access to a near-real time video stream while the Tello is connected. To make this stream more useful a HUD was added. This HUD shows the following:

  • Current Battery life
  • Current Time-of-Flight sensor reading
  • Artificial Horizon indicating changes in pitch and roll

To use the HUD simply import and create a TelloDrone object and link it with a TelloHud object:

from SAC_Tello import TelloDrone, TelloHud
if __name__ == '__main__':
    drone = TelloDrone()
    hud = TelloHud(drone)
    drone.start()
    hud.activate_hud()
    hud.deactivate_hud()
    drone.close()

The HUD will launch a separate window when activated. This window can be closed at anytime by pressing the X in the upper right-hand corner.

Pressing the P key while the hud is active and streaming from the Tello will save the current frame from the Tello (this will remove all HUD elements.) The file will be saved, as a jpeg, in the current working directory using a UUID as its name.

Note: Before the HUD is activated nothing will happen. Once the HUD is active you will need to deactivate before your program ends.

Tello Face Detection

Another feature provided by SAC-Tello is access to face recognition via the tello's camera. In order to access the face recognition we must first make a FaceEncoder object. FaceEncoder objects take images and names and log a person's facial characteristics for later comparison. To register a face with the encoder we need to call the encode_face method and give it a name and the filename of a image containing that person's face. For example:

from SAC_Tello import FaceEncoder
if __name__ == '__main__':
    face_encoder = FaceEncoder()
    face_encoder.encode_face("Jim", "jim_selfie.jpg")

Once we have given all the faces we want to recognize to the FaceEncoder object we can pass in the current camera frame from the tello drone. The example below simply lists out the names of all people detected by the drone.

from SAC_Tello import FaceEncoder
from SAC_Tello import TelloDrone
if __name__ == '__main__':
    face_encoder = FaceEncoder()
    face_encoder.encode_face("Jim", "jim_selfie.jpg")
    drone = TelloDrone()
    drone.start()
    while drone.get_frame() is None:
        pass
    faces = face_encoder.detect_faces(drone.get_frame())
    for name, frame_location in faces:
        print(name, "is in the frame.")
    drone.close()

Of course this only looks at the first frame from the camera. To make it easier to see the face recognition in action SAC-Tello provides a face recognition version of the heads-up display. This is contained in the TelloFaceHud class and works similarly to the TelloHud class. For example the following code will allow for commands based control of the Tello while streaming video that recognizes faces and displays names:

from SAC_Tello import FaceEncoder
from SAC_Tello import TelloDrone
from SAC_Tello import TelloFaceHud
if __name__ == '__main__':
    face_encoder = FaceEncoder()
    face_encoder.encode_face("Jim", "jim_selfie.jpg")
    drone = TelloDrone()
    hud = TelloFaceHud(drone, face_encoder)
    hud.activate_hud()
    drone.takeoff()
    # insert drone flight commands here
    drone.land()
    hud.deactivate_hud()
    drone.close()

Since encoding faces can take a long time the FaceEncoder class gives the ability to save and load a set of encodings. Consider the following block of code:

from SAC_Tello import FaceEncoder
if __name__ == '__main__':
    face_encoder = FaceEncoder()
    face_encoder.encode_face("Jim", "jim_selfie.jpg")
    # Saves the encodings.
    face_encoder.save("my_encodings.enc")
    another_encoder = FaceEncoder()
    another_encoder.load("my_encodings.enc")

This code saves the encodings computed in the first FaceEndocer object to the file my_encodings.enc and then loads them into another FaceEncoder object.

If you are going to encode many faces for use with the Tello we suggest you write a separate program which encodes all the faces you desire and saves that information to a file, then when using the Tello you load that file. This ensures the Tello will not automatically shutdown while face encoding is happening.

Notes:

  • It is best to use photos taken by the Tello itself. This helps to reduce the potential difference in distortion, resolution, and sapect ratio from affecting the accuracy of face recognition.
  • It is possible to assign multiple images to a single name. This will increase accuracy of face detection.
  • It may take a long time to encode all faces and so you should encode faces first, then use them.
  • As encoding faces takes a long time, it is recommended to encode first, then connect to the drone as encoding time may exceed the drone's autoshutoff limit.
  • If a FaceEncoder object detects a face it does not recognize it will attribute the name unknown to it.
  • Detection is not a fast algorithm and while the HUD will attempt 30 frames per second, actual refresh rate varies with a number of factors.
  • Face recongition in this package not entirely reliable and results may vary.

Tello Remote Control

SAC-Tello also comes with a class for using a ground station computer as a remote control for the tello. This remote control can be combined with the TelloHud class just like the TelloDrone class, but we will skip that here.

To create and use the remote control simply include the following in your program:

from SAC_Tello import TelloRC
if __name__ == '__main__':
    drone = TelloRC()
    drone.start()
    drone.control()
    drone.close()

The TelloRC class has it's own integrated hud system and does not require creaton and activation of a separate hud.

The control() method begins polling loop for keyboard input. The controls are as follows:

Key Press Effect
T Takeoff
L Land
ESCAPE Emergency Kill Switch
BACKSPACE End Remote Control
DELETE Zero Velocity
LEFT ARROW Flip Drone to the Left
RIGHT ARROW Flip Drone to the Right
UP ARROW Flip Drone Forward
DOWN ARROW Flip Drone Backeard
Key Held Effect
W Increase Forward Velocity
A Increase Leftward Velocity
S Increase Backward Velocity
D Increase Rightward Velocity
Q Rotate Counterclockwise
E Rotate Clockwise
R Increase Hover Height
F Decrease Hover Height

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