Stability and Controls Analysis for Delay Systems 1st Edition

Stability and Controls Analysis for Delay Systems, 1st Edition by Jinrong Wang, Michal Feckan, and Mengmeng Li

Modern control challenges often hinge on time delays—communication lags, processing latency, or transport delays—that can destabilize even well-designed systems. This authoritative 1st Edition offers a clear, rigorous roadmap for understanding and mastering stability and control of delay systems, tailored for engineers, researchers, and advanced students worldwide.

Inside you’ll find a balanced blend of theory and practice: precise mathematical foundations, delay-dependent stability criteria, Lyapunov–Krasovskii functional methods, frequency-domain techniques, and computational approaches that support robust controller design. The authors present complex concepts with clarity, using illustrative examples and problem-driven explanations that accelerate comprehension and application in real-world settings.

Whether you work in networked control, robotics, power systems, communication networks, or systems biology, this volume translates abstract analysis into actionable tools. Learn how to assess delay-induced instability, design controllers resilient to varying latency, and apply contemporary numerical methods to verify performance. The coverage is ideal for graduate courses, professional development, and research reference.

Readable yet rigorous, this title is both a classroom textbook and a practical reference for control engineers and applied mathematicians across Europe, North America, and Asia. If you need a foundational, up-to-date resource to tackle time-delay challenges with confidence, Stability and Controls Analysis for Delay Systems, 1st Edition is an essential addition to your library. Order your copy today to advance your work in control theory and delay-system analysis.

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