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Machine Learning for Time-Series with Python

You're reading from   Machine Learning for Time-Series with Python Forecast, predict, and detect anomalies with state-of-the-art machine learning methods

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Product type Paperback
Published in Oct 2021
Publisher Packt
ISBN-13 9781801819626
Length 370 pages
Edition 1st Edition
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Author (1):
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Ben Auffarth Ben Auffarth
Author Profile Icon Ben Auffarth
Ben Auffarth
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Table of Contents (15) Chapters Close

Preface 1. Introduction to Time-Series with Python 2. Time-Series Analysis with Python FREE CHAPTER 3. Preprocessing Time-Series 4. Introduction to Machine Learning for Time-Series 5. Forecasting with Moving Averages and Autoregressive Models 6. Unsupervised Methods for Time-Series 7. Machine Learning Models for Time-Series 8. Online Learning for Time-Series 9. Probabilistic Models for Time-Series 10. Deep Learning for Time-Series 11. Reinforcement Learning for Time-Series 12. Multivariate Forecasting 13. Other Books You May Enjoy
14. Index

Deep Q-Learning

Q-learning, introduced by Chris Watkins in 1989, is an algorithm to learn the value of an action in a particular state. Q-learning revolves around representing the expected rewards for an action taken in a given state.

The expected reward of the state-action combination is approximated by the Q function:

Q is initialized to a fixed value, usually at random. At each time step t, the agent selects an action and sees a new state of the environment as a consequence and receives a reward.

The value function Q can then be updated according to the Bellman equation as the weighted average of the old value and the new information:

The weight is by , the learning rate – the higher the learning rate, the more adaptive the Q-function. The discount factor is weighting the rewards by their immediacy – the higher , the more impatient (myopic) the agent becomes.

represents the current reward. is the reward obtained by weighted by...

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