This book argues that there are three dividing lines regarding modes and consequences of property transfers which should not be conflated by comparative lawyers, namely, intent alone versus intent plus, unitary approach versus separatist approach, and causality versus abstraction. Unlike Chinese law, English law takes a non-unified approach not only in the stage of transfer but also in the stage of restitution, where the consequence in relation to the property right transferred under a flawed underlying basis can be purely causal, purely abstract, and abstract in common law but causal in equity. Nevertheless, abstraction is normatively more justifiable than causality.
This book argues that there are three dividing lines regarding modes and consequences of property transfers which should not be conflated by comparative lawyers, namely, intent alone versus intent plus, unitary approach versus separatist approach, and causality versus abstraction. Unlike Chinese law, English law takes a non-unified approach not only in the stage of transfer but also in the stage of restitution, where the consequence in relation to the property right transferred under a flawed underlying basis can be purely causal, purely abstract, and abstract in common law but causal in equity. Nevertheless, abstraction is normatively more justifiable than causality.
This book is mainly focused on the global impulsive synchronization of complex dynamical networks with different types of couplings, such as general state coupling, nonlinear state coupling, time-varying delay coupling, derivative state coupling, proportional delay coupling and distributed delay coupling. Studies on impulsive synchronization of complex dynamical networks have attracted engineers and scientists from various disciplines, such as electrical engineering, mechanical engineering, mathematics, network science, system engineering. Pursuing a holistic approach, the book establishes a fundamental framework for this topic, while emphasizing the importance of network synchronization and the significant influence of impulsive control in the design and optimization of complex networks. The primary audience for the book would be the scholars and graduate students whose research topics including the network science, control theory, applied mathematics, system science and so on.
The book mainly discusses the "Strategies for Frontier Science Development Driven by Technology Innovation and Competition", which includes five chapters. Chapter 1, Technology Foresight of China's New Energy Frontier Technology Development. Chapter 2, From the perspective of complex systems, accelerate the improvement of the strategic management of China's key bottleneck technology research and development manufacturing. Chapter 3, Strategies for Dealing with Asymmetric Competition in the United States. Chapter 4, The ethical challenges brought by the development of artificial intelligence technology: Taking the ethical exploration of Japanese robot wives as an example. Chapter 5, Strengthen technological innovation and investment environment comprehensively promote high-level opening-up to the outside world.
The book provides fault detection and diagnosis approaches from the perspective of filtering analysis. In order to design fault detection filters, it uses set-membership principles to deal with the unknown but bounded noise term. Some regular geometric spaces are introduced, such as the ellipsoid, polyhedron, interval, to describe the feasible parameter sets of the given system. Both principles and engineering practice have been addressed, with more weight placed on engineering practice. Some typical application cases are studied for fault detection and diagnosis in detail, which are power converter, permanent magnet synchronous motor, pitch system of wind turbine. Given its scope, the book offers a valuable guide for students, teachers, engineers and researchers in the field of fault detection and diagnosis.
Filter Design for System Modeling, State Estimation and Fault Diagnosis analyzes the latest methods in the design of filters for system modeling, state estimation and fault detection with the intention of providing a new perspective of both theoretical and practical aspects. This book also includes fault diagnosis techniques for unknown but bounded systems, their real applications on modeling and fault diagnosis for lithium battery systems, DC-DC converters and spring damping systems. It proposes new methods based on zonotopic Kalman filtering, a variety of state estimation methods of zonotope and its derived algorithms, a state estimation method based on convex space, set inversion interval observer filtering-based guaranteed fault estimation and a novel interval observer filtering-based fault diagnosis. The methods presented in this text are more practical than the common probabilistic-based algorithms, since these can be applied in unknown but bounded noisy environments. This book will be an essential read for students, scholars and engineering professionals who are interested in filter design, system modeling, state estimation, fault diagnosis and related fields.
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