TinyML Cookbook: Combine artificial intelligence and ultra-low-power embedded devices to make the world smarter
by: Gian Marco Iodice and Ronan Naughton
Publisher finelybook 出版社: Packt Publishing (April 1, 2022)
Language 语言: English
Print Length 页数: 344 pages
ISBN-10: 180181497X
ISBN-13: 9781801814973
Book Description
By finelybook
Work through over 50 recipes to develop smart applications on Arduino Nano 33 BLE Sense and Raspberry Pi Pico using the power of machine learning
Key Features
Train and deploy ML models on Arduino Nano 33 BLE Sense and Raspberry Pi Pico
Work with different ML frameworks such as TensorFlow Lite for Microcontrollers and Edge Impulse
Explore cutting-edge technologies such as microTVM and Arm Ethos-U55 microNPU
This book explores TinyML, a fast-growing field at the unique intersection of machine learning and embedded systems to make AI ubiquitous with extremely low-powered devices such as microcontrollers.
The TinyML Cookbook starts with a practical introduction to this multidisciplinary field to get you up to speed with some of the fundamentals for deploying intelligent applications on Arduino Nano 33 BLE Sense and Raspberry Pi Pico. As you progress, you’ll tackle various problems that you may encounter while prototyping microcontrollers, such as controlling the LED state with GPIO and a push-button, supplying power to microcontrollers with batteries, and more. Next, you’ll cover recipes relating to temperature, humidity, and the three “V” sensors (Voice, Vision, and Vibration) to gain the necessary skills to implement end-to-end smart applications in different scenarios. Later, you’ll learn best practices for building tiny models for memory-constrained microcontrollers. Finally, you’ll explore two of the most recent technologies, microTVM and microNPU that will help you step up your TinyML game.
Author: the end of this book, you’ll be well-versed with best practices and machine learning frameworks to develop ML apps easily on microcontrollers and have a clear understanding of the key aspects to consider during the development phase.
What you will learn
Understand the relevant microcontroller programming fundamentals
Work with real-world sensors such as the microphone, camera, and accelerometer
Run on-device machine learning with TensorFlow Lite for Microcontrollers
Implement an app that responds to human voice with Edge Impulse
Leverage transfer learning to classify indoor rooms with Arduino Nano 33 BLE Sense
Create a gesture-recognition app with Raspberry Pi Pico
Design a CIFAR-10 model for memory-constrained microcontrollers
Run an image classifier on a virtual Arm Ethos-U55 microNPU with microTVM