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Keep sensitive user data safe and secure without sacrificing the performance and accuracy of your machine learning models.

In Privacy Preserving Machine Learning, you will learn:

  • Privacy considerations in machine learning
  • Differential privacy techniques for machine learning
  • Privacy-preserving synthetic data generation
  • Privacy-enhancing technologies for data mining and database applications
  • Compressive privacy for machine learning

Privacy Preserving Machine Learning is a comprehensive guide to avoiding data breaches in your machine learning projects. You’ll get to grips with modern privacy-enhancing techniques such as differential privacy, compressive privacy, and synthetic data generation. Based on years of DARPA-funded cybersecurity research, ML engineers of all skill levels will benefit from incorporating these privacy-preserving practices into their model development. By the time you’re done reading, you’ll be able to create machine learning systems that preserve user privacy without sacrificing data quality and model performance.

About the Technology
Machine learning applications need massive amounts of data. It’s up to you to keep the sensitive information in those data sets private and secure. Privacy preservation happens at every point in the ML process, from data collection and ingestion to model development and deployment. This practical book teaches you the skills you’ll need to secure your data pipelines end to end.

About the Book
Privacy Preserving Machine Learning explores privacy preservation techniques through real-world use cases in facial recognition, cloud data storage, and more. You’ll learn about practical implementations you can deploy now, future privacy challenges, and how to adapt existing technologies to your needs. Your new skills build towards a complete security data platform project you’ll develop in the final chapter.

What's Inside
  • Differential and compressive privacy techniques
  • Privacy for frequency or mean estimation, naive Bayes classifier, and deep learning
  • Privacy-preserving synthetic data generation
  • Enhanced privacy for data mining and database applications


About the Reader
For machine learning engineers and developers. Examples in Python and Java.

About the Authors
J. Morris Chang is a professor at the University of South Florida. His research projects have been funded by DARPA and the DoD. Di Zhuang is a security engineer at Snap Inc. G. Dumindu Samaraweera is an assistant research professor at the University of South Florida. The technical editor for this book, Wilko Henecka, is a senior software engineer at Ambiata where he builds privacy-preserving software.

Quotes
A detailed treatment of differential privacy, synthetic data generation, and privacy-preserving machine-learning techniques with relevant Python examples. Highly recommended!
- Abe Taha, Google

A wonderful synthesis of theoretical and practical. This book fills a real need.
- Stephen Oates, Allianz

The definitive source for creating privacy-respecting machine learning systems. This area in data-rich environments is so important to understand!
- Mac Chambers, Roy Hobbs Diamond Enterprises

Covers all aspects for data privacy, with good practical examples.
- Vidhya Vinay, Streamingo Solutions

Table of Contents

  1. inside front cover
  2. Privacy-Preserving Machine Learning
  3. Copyright
  4. contents
  5. front matter
  6. Part 1 Basics of privacy-preserving machine learning with differential privacy
  7. 1 Privacy considerations in machine learning
  8. 2 Differential privacy for machine learning
  9. 3 Advanced concepts of differential privacy for machine learning
  10. Part 2 Local differential privacy and synthetic data generation
  11. 4 Local differential privacy for machine learning
  12. 5 Advanced LDP mechanisms for machine learning
  13. 6 Privacy-preserving synthetic data generation
  14. Part 3 Building privacy-assured machine learning applications
  15. 7 Privacy-preserving data mining techniques
  16. 8 Privacy-preserving data management and operations
  17. 9 Compressive privacy for machine learning
  18. 10 Putting it all together: Designing a privacy-enhanced platform (DataHub)
  19. Appendix A. More details about differential privacy
  20. references
  21. index
  22. inside back cover
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