
This page contains information and support material for my book, An Introduction to Complex Systems. The text explores a variety of largescale phenomena — global warming, ice ages, water, poverty — and uses these case studies as a motivation to explore nonlinear dynamics, powerlaw statistics, and complex systems. Although the detailed mathematical descriptions of these topics can be challenging, the consequences of a system being nonlinear, powerlaw, or complex are in fact quite accessible. This book blends a tutorial approach to the mathematical aspects of complex systems, together with a complementary narrative on the global/ecological/societal implications of such systems.
Nearly all engineering undergraduate courses focus on mathematics and systems which are small scale, linear, and Gaussian. Unfortunately there is not a single largescale ecological or social phenomenon that is scalar, linear, and Gaussian! This book offers students insights to better understand the largescale problems facing the world and to realize that these cannot be solved by a single, narrow academic field or perspective. Instead, the book seeks to emphasize understanding, concepts, and ideas, in a way that is mathematically rigorous, so that the concepts do not feel vague, but not so technical that the mathematics get in the way.
Every chapter has suggested further reading, the links of which are collected here for convenience. Each chapter has a list of problems to work on, some of which are analytical, some numerical, and at least one qualitative discussion based on a reading:
Errata  please email me regarding errors which are not listed here:
(Page last updated February 1, 2017, [an error occurred while processing this directive])