Modeling of Complex Dynamic Systems

Modeling of Complex Dynamic Systems by Vladimir Stojanović, Jian Deng, Marko D. Petković, and Marko A. Ristić is an authoritative guide for engineers, researchers, and advanced students who tackle the challenges of modeling, analyzing, and controlling dynamic systems. Clear and contemporary, this book distills advanced theory into practical tools for working with nonlinear behavior, interconnected networks, and time-varying processes.

Start solving real problems with rigorous yet accessible treatments of state-space modeling, stability and bifurcation analysis, numerical simulation techniques, and control-design strategies tailored for complex, real-world applications. Emphasis on dynamic systems modeling means you’ll find methods that bridge mathematical foundations and engineering practice — from small-scale mechanical systems to large-scale networked infrastructure.

Designed for use in universities, research labs, and industry across Europe, North America, and Asia, the text balances conceptual clarity with actionable insight. Readers benefit from structured explanations, worked examples, and suggestions for implementing models in contemporary simulation environments. Whether you’re refining a control loop, evaluating system resilience, or developing new simulation workflows, the book equips you to build robust models faster and with greater confidence.

If you demand a professional, practical reference that keeps pace with modern applications in control, robotics, energy systems, and beyond, this volume is an essential addition to your library. Order your copy today to advance your modeling skills, strengthen your research, and turn complex dynamic behaviors into predictable, manageable systems.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.