Introduction to Embedded Machine Learning

Introduction to Embedded Machine Learning

Instructors: Shawn Hymel

Sponsored by Louisiana Workforce Commission

47,205 already enrolled

3 modules

Gain insight into a topic and learn the fundamentals.

4.8

(680 reviews)

Intermediate level

Recommended experience

Flexible schedule

Approx. 17 hours

Learn at your own pace

96%

Most learners liked this course

3 modules

Gain insight into a topic and learn the fundamentals.

4.8

(680 reviews)

Intermediate level

Recommended experience

Flexible schedule

Approx. 17 hours

Learn at your own pace

96%

Most learners liked this course

What you'll learn

The basics of a machine learning system
How to deploy a machine learning model to a microcontroller
How to use machine learning to make decisions and predictions in an embedded system

Skills you'll gain

Details to know

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Assessments

14 assignments

Taught in English

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There are 3 modules in this course

Machine learning (ML) allows us to teach computers to make predictions and decisions based on data and learn from experiences. In recent years, incredible optimizations have been made to machine learning algorithms, software frameworks, and embedded hardware. Thanks to this, running deep neural networks and other complex machine learning algorithms is possible on low-power devices like microcontrollers.

This course will give you a broad overview of how machine learning works, how to train neural networks, and how to deploy those networks to microcontrollers, which is known as embedded machine learning or TinyML. You do not need any prior machine learning knowledge to take this course. Familiarity with Arduino and microcontrollers is advised to understand some topics as well as to tackle the projects. Some math (reading plots, arithmetic, algebra) is also required for quizzes and projects. We will cover the concepts and vocabulary necessary to understand the fundamentals of machine learning as well as provide demonstrations and projects to give you hands-on experience.

In this module, we will introduce the concept of machine learning, how it can be used to solve problems, and its limitations. We will also cover how machine learning on embedded systems, such as single board computers and microcontrollers, can be effectively used to solve problems and create new types of computer interfaces. Then, we will introduce the Edge Impulse tool and collect motion data for a "magic wand" demo. Finally, we will examine the various features that can be calculated from this raw motion data, including root mean square (RMS), Fourier transform, and power spectral density (PSD).

What's included

13 videos15 readings5 assignments2 discussion prompts

13 videosTotal 107 minutes

Welcome to the Course4 minutesPreview module
Instructor Introductions3 minutes
What is Machine Learning?15 minutes
Limitations and Ethics of Machine Learning12 minutes
Machine Learning on Embedded Devices5 minutes
Machine Learning Specific Hardware13 minutes
Machine Learning Software Frameworks7 minutes
Getting Started with Edge Impulse6 minutes
Data Collection14 minutes
Feature Extraction from Motion Data10 minutes
Feature Selection in Edge Impulse4 minutes
Machine Learning Pipeline6 minutes
Review of Module 12 minutes

15 readingsTotal 122 minutes

Syllabus5 minutes
Required Hardware5 minutes
Errata and Changes10 minutes
Getting Help2 minutes
Slides10 minutes
Limitations of Machine Learning15 minutes
Slides10 minutes
Machine Learning on Microcontrollers5 minutes
Slides10 minutes
Edge Impulse CLI Installation Troubleshooting10 minutes
What Makes a Good Dataset5 minutes
Slides10 minutes
Feature Selection and Extraction5 minutes
Slides10 minutes
Slides10 minutes

5 assignmentsTotal 90 minutes

Machine Learning Overview30 minutes
Machine Learning and Limitations15 minutes
Embedded Machine Learning15 minutes
Data Collection15 minutes
Feature Extraction15 minutes

2 discussion promptsTotal 30 minutes

Meet and Greet15 minutes
Machine Learning in Your Life15 minutes

In this module, we will look at how neural networks work, how to train them, and how to use them to perform inference in an embedded system. We will continue the previous demo of creating a motion classification system using motion data collected from a smartphone or Arduino board. Finally, we will challenge you with a new motion classification project where you will have the opportunity to implement the concepts learning in this module and the previous module.

What's included

10 videos10 readings5 assignments1 discussion prompt

10 videosTotal 76 minutes

Introduction to Neural Networks15 minutesPreview module
Model Training in Edge Impulse7 minutes
How to Evaluate a Model10 minutes
Underfitting and Overfitting6 minutes
How to Use a Model for Inference6 minutes
Testing Inference with a Smartphone3 minutes
How to Deploy a Trained Model to Arduino9 minutes
Anomaly Detection8 minutes
Industrial Embedded Machine Learning Demo4 minutes
Module Review3 minutes

10 readingsTotal 190 minutes

Neural Networks and Training5 minutes
Slides10 minutes
Evaluation, Underfitting, and Overfitting5 minutes
Slides10 minutes
Using a Model for Inference5 minutes
Slides10 minutes
Anomaly Detection5 minutes
Slides10 minutes
Project - Motion Detection120 minutes
Slides10 minutes

5 assignmentsTotal 80 minutes

Motion Classification and Anomaly Detection30 minutes
Neural Networks and Training15 minutes
Evaluation, Underfitting, and Overfitting15 minutes
Deploy Model to Embedded System15 minutes
Anomaly Detection5 minutes

1 discussion promptTotal 15 minutes

Share Your Motion Detection Project!15 minutes

In this module, we cover audio classification on embedded systems. Specifically, we will go over the basics of extracting mel-frequency cepstral coefficients (MFCCs) as features from recorded audio, training a convolutional neural network (CNN) and deploying that neural network to a microcontroller. Additionally, we dive into some of the implementation strategies on embedded systems and talk about how machine learning compares to sensor fusion.

What's included

9 videos7 readings4 assignments1 discussion prompt1 plugin

9 videosTotal 75 minutes

Introduction to Audio Classification7 minutesPreview module
Audio Data Capture11 minutes
Audio Feature Extraction10 minutes
Introduction to Convolutional Neural Networks11 minutes
Modifying the Neural Network10 minutes
Deploy Keyword Spotting System6 minutes
Implementation Strategies10 minutes
Sensor Fusion3 minutes
Conclusion2 minutes

7 readingsTotal 165 minutes

Sample Rate and Bit Depth5 minutes
Slides10 minutes
MFCCs and CNNs5 minutes
Slides10 minutes
Implementation Strategies and Sensor Fusion5 minutes
Slides10 minutes
Project - Sound Classification120 minutes

4 assignmentsTotal 70 minutes

Audio Classification30 minutes
Audio Classification and Sampling Audio Signals10 minutes
MFCCs and CNNs15 minutes
Implementation Strategies15 minutes

1 discussion promptTotal 15 minutes

Share Your Audio Classification Project!15 minutes

1 pluginTotal 5 minutes

Course End Survey5 minutes

Instructors

Instructor ratings

4.8 (265 ratings)

Shawn Hymel

Edge Impulse

2 Courses61,099 learners

Offered by

Edge Impulse

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4.8

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Reviewed on May 16, 2022

This is an excellent course taught by the best Teachers on AI. I enjoyed the course and learnt from scratch about AI, ML, NN and deep learning.

Reviewed on Sep 23, 2021

Thanks for detailed and well introduced topics, I enjoyed this course. I had prior knowledge in neural networks but this course was awsome for introducting ML for microcontrollers.

Reviewed on Jul 20, 2021

Best courser, as we are not just learning about the Embedded ML, as we also learn the fundamentals of ML.

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