Overview
Bridging theory and practice in network data analysis, this guide offers an intuitive approach to understanding and analyzing complex networks. It covers foundational concepts, practical tools, and real-world applications using Python frameworks including NumPy, SciPy, scikit-learn, graspologic, and NetworkX. Readers will learn to apply network machine learning techniques to real-world problems, transform complex network structures into meaningful representations, leverage Python libraries for efficient network analysis, and interpret network data and results. The book explores methods for extracting valuable insights across various domains such as social networks, ecological systems, and brain connectivity. Hands-on tutorials and concrete examples develop intuition through visualization and mathematical reasoning. The book will equip data scientists, students, and researchers in applications using network data with the skills to confidently tackle network machine learning projects, providing a robust toolkit for data science applications involving network-structured data.
Full Product Details
Author: Eric W. Bridgeford (The Johns Hopkins University) ,
Alexander R. Loftus (The Johns Hopkins University) ,
Joshua T. Vogelstein (The Johns Hopkins University)
Publisher: Cambridge University Press
Imprint: Cambridge University Press
Dimensions:
Width: 17.00cm
, Height: 2.40cm
, Length: 24.40cm
Weight: 0.915kg
ISBN: 9781009405393
ISBN 10: 100940539
Pages: 478
Publication Date: 18 September 2025
Audience:
Professional and scholarly
,
College/higher education
,
Professional & Vocational
,
Postgraduate, Research & Scholarly
Format: Paperback
Publisher's Status: Active
Availability: Manufactured on demand
We will order this item for you from a manufactured on demand supplier.
Reviews
'Networks are everywhere these days. The exponential growth of network data sets demands ever more sophisticated, flexible and scalable modeling techniques. This book provides a concise introduction to basic concepts, mathematical foundations and algorithmic approaches in network analysis. Highly recommended to all practitioners, students and professionals alike.' Olaf Sporns, Distinguished Professor, Indiana University Bloomington
‘Networks are everywhere these days. The exponential growth of network data sets demands ever more sophisticated, flexible and scalable modeling techniques. This book provides a concise introduction to basic concepts, mathematical foundations and algorithmic approaches in network analysis. Highly recommended to all practitioners, students and professionals alike.’ Olaf Sporns, Distinguished Professor, Indiana University Bloomington
Author Information
Eric W. Bridgeford is a postdoctoral scholar in the Department of Psychology at Stanford University. Eric's background includes Computer Science, Bioengineering, and Biostatistics, and he develops methods for veridical data science. Eric is interested in biases presenting inferential obstacles to neuroscience, and how these limitations challenge analytical approaches and clinical adoption of neuroimaging methods. Alexander R. Loftus is a doctoral student in David Bau's group in the Department of Computer Science at Northeastern University, studying interpretability in deep neural networks. He has worked on implementing network algorithms in Python. He won first place in a $100,000 Kaggle competition and has published work in top AI/ML conferences. Joshua T. Vogelstein is Associate Professor of Biomedical Engineering at Johns Hopkins University. His research intersects natural and artificial intelligence, applying machine learning to biomedical challenges. He has published extensively in top scientific and AI venues, received numerous grants, and co-founded successful startups in quantitative finance and software development.
