Textbooks
3
HIGHLIGHT TEXTBOOK
Modern Statistics for Modern Biology Susan Holmes Stanford University, California
and Wolfgang Huber European Molecular Biology Laboratory
Designed for a new generation of biologists, this textbook teaches modern computational statistics by using R/Bioconductor to analyze experimental data from high-throughput technologies. The presentation minimizes mathematical notation and emphasizes inductive understanding from well-chosen examples, hands-on simulation, and visualization. ‘This is a gorgeous book, both visually and intellectually, superbly suited for anyone who wants to learn the nuts and bolts of modern computational biology. It can also be a practical, hands-on starting point for life scientists and students who want to break out of ‘canned packages’ into the more versatile world of R coding. Much richer than the typical statistics textbook, it covers a wide range of topics in machine learning and image processing. The chapter on making high-quality graphics is alone worth the price of the book.’ William H. Press, University of Texas, Austin ‘The book is a timely, comprehensive and practical reference for anyone working with modern quantitative biotechnologies. It can be read at multiple levels. For scientists with a statistics background, it is a thorough review of key methods for design and analysis of high-throughput experiments. For life scientists with a limited exposure to statistics, it offers a series of examples with relevant data and R code. Avoiding buzzwords and hype, the book advocates appropriate statistical practice for reproducible research. I expect it to be as influential for the life sciences community as Modern Applied Statistics with S, by Venables and Ripley or Introduction to Statistical Learning, by James, Witten, Hastie and Tibshirani are for applied statistics.’ Olga Vitek, Northeastern University, Boston 2019 276 x 216 mm 402pp 978-1-108-70529-5 Paperback £49.99 / US$64.99 For all formats available, see
www.cambridge.org/9781108705295
eBooks available at www.cambridge.org/ebookstore
