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TinyML Cookbook

You're reading from   TinyML Cookbook Combine machine learning with microcontrollers to solve real-world problems

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Product type Paperback
Published in Nov 2023
Publisher Packt
ISBN-13 9781837637362
Length 664 pages
Edition 2nd Edition
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Author (1):
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Gian Marco Iodice Gian Marco Iodice
Author Profile Icon Gian Marco Iodice
Gian Marco Iodice
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Table of Contents (16) Chapters Close

Preface 1. Getting Ready to Unlock ML on Microcontrollers FREE CHAPTER 2. Unleashing Your Creativity with Microcontrollers 3. Building a Weather Station with TensorFlow Lite for Microcontrollers 4. Using Edge Impulse and the Arduino Nano to Control LEDs with Voice Commands 5. Recognizing Music Genres with TensorFlow and the Raspberry Pi Pico – Part 1 6. Recognizing Music Genres with TensorFlow and the Raspberry Pi Pico – Part 2 7. Detecting Objects with Edge Impulse Using FOMO on the Raspberry Pi Pico 8. Classifying Desk Objects with TensorFlow and the Arduino Nano 9. Building a Gesture-Based Interface for YouTube Playback with Edge Impulse and the Raspberry Pi Pico 10. Deploying a CIFAR-10 Model for Memory-Constrained Devices with the Zephyr OS on QEMU 11. Running ML Models on Arduino and the Arm Ethos-U55 microNPU Using Apache TVM 12. Enabling Compelling tinyML Solutions with On-Device Learning and scikit-learn on the Arduino Nano and Raspberry Pi Pico 13. Conclusion
14. Other Books You May Enjoy
15. Index

Transfer learning with Keras

Transfer learning is an effective technique to train a model when dealing with small datasets.

In this recipe, we will exploit it alongside the MobileNet v2 pre-trained model to recognize our two desk objects.

Getting ready

The basic principle behind transfer learning is to exploit features learned for one problem to address a new and similar one. Therefore, the idea is to take layers from a previously trained model, commonly called a pre-trained model, and add some new trainable layers on top of them:

Figure 8.17: Model architecture with transfer learning

The pre-trained model’s layers are frozen, meaning their weights cannot change during training. These layers are the base (or backbone) of the new architecture and aim to extract features from the input data. These features feed the trainable layers, the only layers to be trained from scratch.

The trainable layers are the head of the new architecture, and for...

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