Three amazing data science books to read in 2023 (if you won’t manage in 2022)
…and you can get them for free if you want! ❤️
2022 is a truly amazing year for the machine learning community worldwide! Many long-awaited titles have been or will be soon released, including new editions of all-time classics.
In this post I want to share with you three 2022 titles that I believe are especially worth reading (not only) this year.
At the end of each section, you’ll find a series of links related to each book, including a link to an e-book, hard copy, free copy and a code repository (if available).
Ready? Let’s dive in! 🌊
A new edition of a true classic from Kevin P. Murphy published by The MIT Press.
The brand new edition contains Python code (in the accompanying repository) and covers countless topics from basic probability to graph neural networks. And… all of the topics are presented from the probabilistic point of view! The book is over 750 pages long (excluding appendices and references), contains rich mathematical explanations, helpful graphs and plots and inspiring exercises.
I love Murphy’s style of writing and I find it clear and appealing even when he discusses complex topics. This book can be challenging, but it’s also quite self-contained. Wherever more background is needed the author provides us with helpful references. The book comes with an extremely rich bibliography that takes almost 33 pages.
The sequel to this book — “Probabilistic Machine Learning: Advanced Topics” — will contain deeper dives on topics like Bayesian inference, generative models, causality and structure discovery. Personally — I cannot wait to get it! If you feel similarly, check this link for the most recent updates!
“Probabilistic Machine Learning: An Introduction” is a great book if you want to broaden, deepen or organize your statistical and machine learning knowledge. It’s an excellent resource if you need a refresher on some topics or you’re striving to gain deeper mathematical understanding of the concepts that you use in your everyday work. It’s also a staggeringly rich source of references and inspiring code.
Interested how to integrate probabilistic modeling and neural networks? Check the series of articles on probabilistic neural networks in Python:
“Bayesian Modeling and Computation in Python” by Osvaldo A. Martin, Ravin Kumar and Junpeng Lao has been published by CRC Press early 2022. The book provides you with over 380 pages of brilliant content, including ample appendices and bibliography.
It’s a great resource to help you solidify your knowledge on Bayesian inference and workflows. Each chapter comes with practical examples and a set of exercises at the end. The book covers basics of Bayesian inference, model exploratory analysis, linear models (incl. hierarchical and mixed-effects models), splines, Bayesian time series & regression trees, end-to-end Bayesian workflows and more.
Practical aspects of modeling are at the heart of the book. Rich visual content helps to build intuitive understanding of inner workings of the models, which is incredibly helpful in the context of debugging complex architectures.
The authors use PyMC3 and TensorFlow Probability as main probabilistic frameworks in the book and briefly discuss other probabilistic languages like Stan and NumPyro. The content heavily relies on ArviZ — a phenomenal Python library for exploratory analysis of Bayesian models. The code is available within the book and in the accompanying repository.
Ample appendices provide us with a solid overview of theoretical basics, but if something’s missing, you can always refer to Kevin Murphy’s “Probabilistic Machine Learning: An Introduction”. Interestingly, Kevin Murphy wrote the foreword for “Bayesian Modeling and Computation in Python”. Both books complement each other greatly and reading them in parallel is a joyful experience!
Written by Yao Ma and Jiliang Tang with Chinese version by Yiqi Wang, Wei Jin, Yao Ma and Jiliang Tang and published by Cambridge University Press in September 2021, the book is a comprehensive guide to using deep learning techniques on graphs.
The book covers everything from graph and deep learning foundations to advanced topics in graph neural networks (GNNs). The authors provide solid and clear mathematical and intuitive explanations for discussed concepts. You’ll find popular architectures like GCNs, GAT or GraphSAGE discussed here as well as less popular — but definitely not less interesting — topics like variational autoencoders on graphs.
The book is neatly divided into four main sections: (1) Foundations, (2) Methods, (3) Applications and (4) Advances. You might think that the best way to read it is to follow this structure, but there are less linear recommendations made by the authors depending on your background and your goals. These recommendations have a form of a… graph:
The book provides solid foundations of GNNs. If you want to delve deeper into a given topic, there’s a very useful Further Reading list at the end of each section.
If you’d like to triangulate your GNN learning expereince, I think reading this book in parallel with this great series of lectures by Jure Leskovec is a brilliant idea:
Thank you for reading the article. Feel free to let me know your thoughts in the comments.
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