72d99519d2
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| ESP32-image-object-classification-live-demo.mp4 | ||
| LICENSE | ||
| README.md | ||
| [h]-HogClassifier.h | ||
| [h]-HogPipeline.h | ||
| [ino]-CameraWebServer.ino | ||
| [ino]-arduino-ESP32-code.ino | ||
| [ipynb]-TinyML-CAM-full-code-with-markdown.ipynb | ||
README.md
TinyML-CAM - Image Recognition System that Runs at 80 FPS in 1 Kb of RAM
Image Recognition Demo - ESP32
ESP32 classifying Raspberry Pi Pico, Portenta H7, Wio Terminal from image frames
Following can be observed from the video:
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Time For image frames, the digital signal processing (DSP) based features extraction time is ≈ 12 ms, while classification time is ≈ < 20 𝜇𝑠 (1/1000th of DSP).
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FPS It is 1000/12 ms = 83.3 FPS, which is the time taken by the TinyML-CAM image recognition system to process (DSP) plus classify using a single image frame. Since the ESP32 has a 30 FPS frame rate, just to capture frames, it takes 1000/30 = 33 ms. So the entire frame rate is 1000/(33+12) = 22 FPS.
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Accuracy As expected during Pairplot analysis, Portenta and Pi (features overlapped) are mislabelled quite often, which can be rectified by improving dataset quality.
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Memory Consumes only 1 kB of RAM - difference between the RAM calculated by Arduino IDE before and after adding the TinyML-CAM image recognition system.
Code
- [ino]-CameraWebServer.ino
- [ipynb]-TinyML-CAM-full-code-with-markdown.ipynb -
- [h]-HogClassifier.h - Contains the RandomForestClassifier trained using the collected image data.
- [h]-HogPipeline.h - Contains the HOG features extrator for image frames.
- [ino]-arduino-ESP32-code.ino - Upload to ESP32 along with the above two .h files. After upload, put your objects in front of the camera to see predicted labels.