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OpenCV Python Neural Network Autonomous RC Car

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AutoRCCar

Python3 + OpenCV3

alt text

Self Driving in Action (Youtube)

A scaled down version of self-driving system using a RC car, Raspberry Pi, Arduino and open source software. The system uses a Raspberry Pi with a camera and an ultrasonic sensor as inputs, a processing computer that handles steering, object recognition (stop sign and traffic light) and distance measurement, and an Arduino board for RC car control.

Dependencies

  1. Raspberry Pi:
        PiCamera

  2. Computer:
        Python
        Numpy
        OpenCV
        Pygame
        PiSerial
        Scikit-learn

About the files

test/
    rc_control_test.py: RC car control with keyboard
    stream_server_test.py: video streaming from Pi to computer
    ultrasonic_server_test.py: sensor data streaming from Pi to computer

raspberryPi/
    stream_client.py: stream video frames in jpeg format to the host computer
    ultrasonic_client.py: send distance data measured by sensor to the host computer

arduino/
    rc_keyboard_control.ino: control RC car controller

computer/
    cascade_xml/
        trained cascade classifiers
    chess_board/
        images for calibration, captured by pi camera

    picam_calibration.py: pi camera calibration
    collect_training_data.py: collect images in grayscale, data saved as *.npz
    model.py: neural network model
    model_training.py: model training and validation
    rc_driver_helper.py: helper classes/functions for rc_driver.py
    rc_driver.py: receive data from raspberry pi and drive the RC car based on model prediction

Traffic_signal
    trafic signal sketch contributed by @geek111

How to drive

  1. Testing: Flash rc_keyboard_control.ino to Arduino and run rc_control_test.py to drive the RC car with keyboard. Run stream_server_test.py on computer and then run stream_client.py on raspberry pi to test video streaming. Similarly, ultrasonic_server_test.py and ultrasonic_client.py can be used for sensor data streaming testing.

  2. Pi Camera calibration (optional): Take multiple chess board images using pi camera module at various angles and put them into chess_board folder, run picam_calibration.py and returned parameters from the camera matrix will be used in rc_driver.py.

  3. Collect training/validation data: First run collect_training_data.py and then run stream_client.py on raspberry pi. Press arrow keys to drive the RC car, press q to exit. Frames are saved only when there is a key press action. Once exit, data will be saved into newly created training_data folder.

  4. Neural network training: Run model_training.py to train a neural network model. Please feel free to tune the model architecture/parameters to achieve a better result. After training, model will be saved into newly created saved_model folder.

  5. Cascade classifiers training (optional): Trained stop sign and traffic light classifiers are included in the cascade_xml folder, if you are interested in training your own classifiers, please refer to OpenCV doc and this great tutorial.

  6. Self-driving in action: First run rc_driver.py to start the server on the computer, and then run stream_client.py and ultrasonic_client.py on raspberry pi.