Graphs and Network Algorithms for Everyone
Explore and Analyze Network Data in Python
Trees, graphs and networks are fundamental data structures that underlie much of the recent developments in data science and computer science algorithms. Technologies and applications like social networks, cloud and distributed computing, cryptocurrencies and traffic routing and directions all rely on the proper use of graph concepts.
In this course we will build, step by step, a mini toolkit of network representations and algorithms that will allow students to understand the fundamental ideas and concepts that lie at the base of state of art algorithms (such as PageRank and recommendation systems), technologies (such as graph databases) and tools (like web crawlers).
What you'll learnand how you can apply it
 Understand the similarities and differences between trees and graphs
 Identify data sets and problems that can be best represented in graph form
 Apply graph algorithms to practical data science problems
 Use graph algorithms for recommendation and optimization
 Build the rudiments of a graph library using nothing but basic Python
This training course is for you because...
 Want to use network feature to improve ML predictive models
 You work with data that describes the relationships between elements
 Want to understand the effect of network topology on the performance of graph algorithms
 Are curious about the best way of model social and technological networks
 Want to apply networks to recommendation and optimization problems
Prerequisites
 Basic Python
 Numpy
 Matplotlib
 Jupyter
Course Setup:
 Scientific Python distribution like Anaconda
Recommended Preparation:
Watch Learning Data Structures and Algorithms (video)
Recommended Followup:
 Read Practitioner’s Guide to Graph Data (book)
 Watch Introduction to Graph Modeling and Graph Databases (Neo4j) (video)
 Read Graph Algorithms (book)
 Stay connected with Bruno and uptodate on the world of data, science, and machine learning at https://data4sci.com/newsletter
About your instructor

Bruno Gonçalves is currently a Senior Data Scientist working at the intersection of Data Science and Finance. Previously, he was a Data Science fellow at NYU's Center for Data Science while on leave from a tenured faculty position at AixMarseille Université. Since completing his PhD in the Physics of Complex Systems in 2008 he has been pursuing the use of Data Science and Machine Learning to study Human Behavior. Using large datasets from Twitter, Wikipedia, web access logs, and Yahoo! Meme he studied how we can observe both large scale and individual human behavior in an obtrusive and widespread manner. The main applications have been to the study of Computational Linguistics, Information Diffusion, Behavioral Change and Epidemic Spreading. In 2015 he was awarded the Complex Systems Society's 2015 Junior Scientific Award for "outstanding contributions in Complex Systems Science" and in 2018 is was named a Science Fellow of the Institute for Scientific Interchange in Turin, Italy.
Schedule
The timeframes are only estimates and may vary according to how the class is progressing
Segment 1  Networks and Graphs (50 min)
 Graph theory
 Network and graph examples
 Types of graphs
 Tree and graph representations
 Break (10 min)
Segment 2  Graph Properties (40 min)
 Degree distributions
 Nearest neighbors
 Weight distributions
 Degree and weight correlations
 Break (10 min)
Segment 3  Graph Algorithms (60 min)
 Paths and walks on graphs
 Epidemic and viral spreading
 Graph sampling
 Shortest paths and maximum spanning trees
 Graph diameter and friendship paradox
 Random walks and markov chains
 Break (10min)
Segment 4  Applications to Empirical Social and Technological Networks (40 min)
 Temporal networks
 Multilayer networks
 Bipartite networks and recommender systems
 Graphs and optimization