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Machine Learning Security Principles

You're reading from   Machine Learning Security Principles Keep data, networks, users, and applications safe from prying eyes

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Product type Paperback
Published in Dec 2022
Publisher Packt
ISBN-13 9781804618851
Length 450 pages
Edition 1st Edition
Languages
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Author (1):
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John Paul Mueller John Paul Mueller
Author Profile Icon John Paul Mueller
John Paul Mueller
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Table of Contents (19) Chapters Close

Preface 1. Part 1 – Securing a Machine Learning System
2. Chapter 1: Defining Machine Learning Security FREE CHAPTER 3. Chapter 2: Mitigating Risk at Training by Validating and Maintaining Datasets 4. Chapter 3: Mitigating Inference Risk by Avoiding Adversarial Machine Learning Attacks 5. Part 2 – Creating a Secure System Using ML
6. Chapter 4: Considering the Threat Environment 7. Chapter 5: Keeping Your Network Clean 8. Chapter 6: Detecting and Analyzing Anomalies 9. Chapter 7: Dealing with Malware 10. Chapter 8: Locating Potential Fraud 11. Chapter 9: Defending against Hackers 12. Part 3 – Protecting against ML-Driven Attacks
13. Chapter 10: Considering the Ramifications of Deepfakes 14. Chapter 11: Leveraging Machine Learning for Hacking 15. Part 4 – Performing ML Tasks in an Ethical Manner
16. Chapter 12: Embracing and Incorporating Ethical Behavior 17. Index 18. Other Books You May Enjoy

Understanding autoencoders

An autoencoder encodes data and compresses it, then decodes data and decompresses it, which doesn’t seem like a very helpful thing to do. However, it’s what happens during the encoding and decoding process that makes autoencoders useful. For example, during this process, the autoencoder can remove noise from a picture, sound, or video, thus cleaning it up. Autoencoders are simpler than GANs and they’re commonly used today for the following important tasks (in order of relevance):

  • Data de-noising
  • Data dimensionality reduction
  • Teaching how more complex techniques work
  • Detail context matching (where the autoencoder receives a small high-resolution piece of an image as input and is able to find it in a lower-resolution target image)
  • Toy tasks, such as jigsaw puzzle solving
  • Simple image generation

The third use means that anyone taking a class on more advanced machine learning techniques will likely encounter...

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