This book presents up-to-date research developments and novel methodologies to solve various stability and control problems of dynamic systems with time delays. First, it provides the new introduction of integral and summation inequalities for stability analysis of nominal time-delay systems in continuous and discrete time domain, and presents corresponding stability conditions for the nominal system and an applicable nonlinear system. Next, it investigates several control problems for dynamic systems with delays including H(infinity) control problem Event-triggered control problems; Dynamic output feedback control problems; Reliable sampled-data control problems. Finally, some application topics covering filtering, state estimation, and synchronization are considered. The book will be a valuable resource and guide for graduate students, scientists, and engineers in the system sciences and control communities.
Unique and comprehensive, this resource thoroughly discusses the various micro-acupuncture systems with clear and clinically useful information for practice, including styles of practice throughout the world, overviews of each system, and treatment for common disorders. All micro systems are covered, including information on point locations and functions. Treatment protocols are given for more than 50 common diseases and conditions, providing the tools necessary for the most effective treatment of patients. The books readability, evidence-based approach, excellent organization, detailed illustrations, comprehensive coverage of all micro-systems, and practical therapeutic treatment guidelines for commonly seen conditions make it an essential for anyone treating patients with acupuncture. Covers all micro-acupuncture systems, including point locations and functions, providing you with a wide variety of clinical tools - all in one reference. Treatment protocols for more than 50 conditions, listed alphabetically for quick reference. Logically organized, with consistent coverage of introductory material, micro-systems, and treatment protocols. Clear and detailed illustrations and photos that show locations of acupuncture points and each micro-system’s relationship to the body, enhancing your understanding of treatment techniques. Based on current research with evidence behind the systems to ensure you are using the most authoritative information in the field. Author Yajuan Wang, an instructor at a major naturopathic university, has more than 20 years of clinical experience.
The aim of this book is to explain to high-performance computing (HPC) developers how to utilize the Intel® Xeon PhiTM series products efficiently. To that end, it introduces some computing grammar, programming technology and optimization methods for using many-integrated-core (MIC) platforms and also offers tips and tricks for actual use, based on the authors’ first-hand optimization experience. The material is organized in three sections. The first section, “Basics of MIC”, introduces the fundamentals of MIC architecture and programming, including the specific Intel MIC programming environment. Next, the section on “Performance Optimization” explains general MIC optimization techniques, which are then illustrated step-by-step using the classical parallel programming example of matrix multiplication. Finally, “Project development” presents a set of practical and experience-driven methods for using parallel computing in application projects, including how to determine if a serial or parallel CPU program is suitable for MIC and how to transplant a program onto MIC. This book appeals to two main audiences: First, software developers for HPC applications – it will enable them to fully exploit the MIC architecture and thus achieve the extreme performance usually required in biological genetics, medical imaging, aerospace, meteorology and other areas of HPC. Second, students and researchers engaged in parallel and high-performance computing – it will guide them on how to push the limits of system performance for HPC applications.
This book presents up-to-date research developments and novel methodologies to solve various stability and control problems of dynamic systems with time delays. First, it provides the new introduction of integral and summation inequalities for stability analysis of nominal time-delay systems in continuous and discrete time domain, and presents corresponding stability conditions for the nominal system and an applicable nonlinear system. Next, it investigates several control problems for dynamic systems with delays including H(infinity) control problem Event-triggered control problems; Dynamic output feedback control problems; Reliable sampled-data control problems. Finally, some application topics covering filtering, state estimation, and synchronization are considered. The book will be a valuable resource and guide for graduate students, scientists, and engineers in the system sciences and control communities.
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