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Artificial Intelligence By Example

You're reading from   Artificial Intelligence By Example Develop machine intelligence from scratch using real artificial intelligence use cases

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Product type Paperback
Published in May 2018
Publisher Packt
ISBN-13 9781788990547
Length 490 pages
Edition 1st Edition
Languages
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Author (1):
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Denis Rothman Denis Rothman
Author Profile Icon Denis Rothman
Denis Rothman
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Table of Contents (19) Chapters Close

Preface 1. Become an Adaptive Thinker FREE CHAPTER 2. Think like a Machine 3. Apply Machine Thinking to a Human Problem 4. Become an Unconventional Innovator 5. Manage the Power of Machine Learning and Deep Learning 6. Don't Get Lost in Techniques – Focus on Optimizing Your Solutions 7. When and How to Use Artificial Intelligence 8. Revolutions Designed for Some Corporations and Disruptive Innovations for Small to Large Companies 9. Getting Your Neurons to Work 10. Applying Biomimicking to Artificial Intelligence 11. Conceptual Representation Learning 12. Automated Planning and Scheduling 13. AI and the Internet of Things (IoT) 14. Optimizing Blockchains with AI 15. Cognitive NLP Chatbots 16. Improve the Emotional Intelligence Deficiencies of Chatbots 17. Quantum Computers That Think 18. Answers to the Questions

Using naive Bayes in a blockchain process

Naive Bayes is based on Bayes' theorem. Bayes' theorem applies conditional probability, defined as follows:

  • P(A|B) is a posterior probability, the probability of A after having observed some events (B). It is also a conditional probability: the likelihood of A happening given B has already happened.
  • P(B|A) the probability of B given the prior observations A. It is also a conditional probability: the likelihood of B happening given A has already happened.
  • P(A) is the probability of A prior to the observations.
  • P(B) is the probability of the predictions.

Naive Bayes, although based on Bayes' theorem, assumes that the features in a class are independent of each other. In many cases, this makes predictions more practical to implement. The statistical presence of features, related or not, will produce a prediction. As long...

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