Python for Finance Cookbook

By : Eryk Lewinson

4.2 (6)

Buy this Book

Python for Finance Cookbook

4.2 (6)

By: Eryk Lewinson

Buy this Book

Overview of this book

Python is one of the most popular programming languages used in the financial industry, with a huge set of accompanying libraries. In this book, you'll cover different ways of downloading financial data and preparing it for modeling. You'll calculate popular indicators used in technical analysis, such as Bollinger Bands, MACD, RSI, and backtest automatic trading strategies. Next, you'll cover time series analysis and models, such as exponential smoothing, ARIMA, and GARCH (including multivariate specifications), before exploring the popular CAPM and the Fama-French three-factor model. You'll then discover how to optimize asset allocation and use Monte Carlo simulations for tasks such as calculating the price of American options and estimating the Value at Risk (VaR). In later chapters, you'll work through an entire data science project in the financial domain. You'll also learn how to solve the credit card fraud and default problems using advanced classifiers such as random forest, XGBoost, LightGBM, and stacked models. You'll then be able to tune the hyperparameters of the models and handle class imbalance. Finally, you'll focus on learning how to use deep learning (PyTorch) for approaching financial tasks. By the end of this book, you’ll have learned how to effectively analyze financial data using a recipe-based approach.

Preface

Who this book is for

What this book covers

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Sections

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Financial Data and Preprocessing

Getting data from Yahoo Finance

Getting data from Quandl

Getting data from Intrinio

Converting prices to returns

Changing frequency

Visualizing time series data

Identifying outliers

Investigating stylized facts of asset returns

Free Chapter

Technical Analysis in Python

Creating a candlestick chart

Backtesting a strategy based on simple moving average

Calculating Bollinger Bands and testing a buy/sell strategy

Calculating the relative strength index and testing a long/short strategy

Building an interactive dashboard for TA

Time Series Modeling

Decomposing time series

Decomposing time series using Facebook's Prophet

Testing for stationarity in time series

Correcting for stationarity in time series

Modeling time series with exponential smoothing methods

Modeling time series with ARIMA class models

Forecasting using ARIMA class models

Multi-Factor Models

Implementing the CAPM in Python

Implementing the Fama-French three-factor model in Python

Implementing the rolling three-factor model on a portfolio of assets

Implementing the four- and five-factor models in Python

Modeling Volatility with GARCH Class Models

Explaining stock returns' volatility with ARCH models

Explaining stock returns' volatility with GARCH models

Implementing a CCC-GARCH model for multivariate volatility forecasting

Forecasting the conditional covariance matrix using DCC-GARCH

Monte Carlo Simulations in Finance

Simulating stock price dynamics using Geometric Brownian Motion

Pricing European options using simulations

Pricing American options with Least Squares Monte Carlo

Pricing American options using Quantlib

Estimating value-at-risk using Monte Carlo

Asset Allocation in Python

Evaluating the performance of a basic 1/n portfolio

Finding the Efficient Frontier using Monte Carlo simulations

Finding the Efficient Frontier using optimization with scipy

Finding the Efficient Frontier using convex optimization with cvxpy

Identifying Credit Default with Machine Learning

Loading data and managing data types

Exploratory data analysis

Splitting data into training and test sets

Dealing with missing values

Encoding categorical variables

Fitting a decision tree classifier

Implementing scikit-learn's pipelines

Tuning hyperparameters using grid searches and cross-validation

Advanced Machine Learning Models in Finance

Investigating advanced classifiers

Using stacking for improved performance

Investigating the feature importance

Investigating different approaches to handling imbalanced data

Bayesian hyperparameter optimization

Deep Learning in Finance

Deep learning for tabular data

Multilayer perceptrons for time series forecasting

Convolutional neural networks for time series forecasting

Recurrent neural networks for time series forecasting

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Recurrent neural networks for time series forecasting

Recurrent Neural Networks (RNNs) are a special type of neural network designed to work with sequential data. They are popular for time series forecasting as well as for solving NLP problems such as machine translation, text generation, and speech recognition. There are numerous extensions of the RNNs, such as Long-Short Term Memory (LSTM) networks and Gated Recurrent Unit (GRU) networks, which are currently part of some of the state-of-the-art architectures. However, it is good to be familiar with the original vanilla RNN. The following diagram presents the typical RNN schema:

One of the main differences between the feedforward networks and RNNs is that the former take a fixed size input at once to produce a fixed size output. On the other hand, RNNs do not take all the input data at once – they ingest the data sequentially...