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Data Science for Malware Analysis

You're reading from   Data Science for Malware Analysis A comprehensive guide to using AI in detection, analysis, and compliance

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Product type Paperback
Published in Dec 2023
Publisher Packt
ISBN-13 9781804618646
Length 230 pages
Edition 1st Edition
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Author (1):
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Shane Molinari Shane Molinari
Author Profile Icon Shane Molinari
Shane Molinari
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Toc

Table of Contents (15) Chapters Close

Preface 1. Part 1– Introduction
2. Chapter 1: Malware Science Life Cycle Overview FREE CHAPTER 3. Chapter 2: An Overview of the International History of Cyber Malware Impacts 4. Part 2 – The Current State of Key Malware Science AI Technologies
5. Chapter 3: Topological Data Analysis for Malware Detection and Analysis 6. Chapter 4: Artificial Intelligence for Malware Data Analysis and Detection 7. Chapter 5: Behavior-Based Malware Data Analysis and Detection 8. Part 3 – The Future State of AI’s Use for Malware Science
9. Chapter 6: The Future State of Malware Data Analysis and Detection 10. Chapter 7: The Future State of Key International Compliance Requirements 11. Chapter 8: Epilogue – A Harmonious Overture to the Future of Malware Science and Cybersecurity
12. Index 13. Other Books You May Enjoy Appendix

TDA – comparing and contrasting the persistence diagrams of different software

The application of TDA and its technique of persistent homology offers a unique approach to differentiating benign software from malicious ones (malware), even amid the complexity and noise present in high-dimensional datasets.

Let’s delve into this by further expanding on the examples provided. First, consider benign software – programs designed to perform legitimate, useful tasks without causing harm to the system. When subjected to TDA, the properties of benign software tend to form certain predictable patterns. These properties, which can include binary structures, system calls, or network activity, may cluster together in the topological space. This is like how people at a social gathering might group based on shared interests or common connections. In terms of our earlier analogy, these clusters can be viewed as “mountains” on our landscape.

In the context of...

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