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Python for Finance Cookbook – Second Edition

You're reading from   Python for Finance Cookbook – Second Edition Over 80 powerful recipes for effective financial data analysis

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Product type Paperback
Published in Dec 2022
Publisher Packt
ISBN-13 9781803243191
Length 740 pages
Edition 2nd Edition
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Author (1):
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Eryk Lewinson Eryk Lewinson
Author Profile Icon Eryk Lewinson
Eryk Lewinson
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Table of Contents (18) Chapters Close

Preface 1. Acquiring Financial Data FREE CHAPTER 2. Data Preprocessing 3. Visualizing Financial Time Series 4. Exploring Financial Time Series Data 5. Technical Analysis and Building Interactive Dashboards 6. Time Series Analysis and Forecasting 7. Machine Learning-Based Approaches to Time Series Forecasting 8. Multi-Factor Models 9. Modeling Volatility with GARCH Class Models 10. Monte Carlo Simulations in Finance 11. Asset Allocation 12. Backtesting Trading Strategies 13. Applied Machine Learning: Identifying Credit Default 14. Advanced Concepts for Machine Learning Projects 15. Deep Learning in Finance 16. Other Books You May Enjoy
17. Index

Detecting patterns in a time series using the Hurst exponent

In finance, a lot of trading strategies are based on one of the following:

  • Momentum—the investors try to use the continuance of the existing market trend to determine their positions
  • Mean-reversion – the investors assume that properties such as stock returns and volatility will revert to their long-term average over time (also known as an Ornstein-Uhlenbeck process)

While we can relatively easily classify a time series as one of the two by inspecting it visually, this solution definitely does not scale well. That is why we can use approaches such as the Hurst exponent to identify if a given time series (not necessarily a financial one) is trending, mean-reverting, or simply a random walk.

A random walk is a process in which a path consists of a succession of steps taken at random. Applied to stock prices, it suggests that changes in stock prices have the same distribution...

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