Crisis and Legitimacy in Atlantic American Narratives of Piracy: 1678-1865
This book, Crisis and Legitimacy in Atlantic American Narratives of Piracy: 1678-1865, examines literary and visual representations of piracy beginning with A.O. Exquemelin’s 1678 Buccaneers of America and ending at the onset of the US-American Civil War.
Criminalising Harmful Conduct : The Harm Principle, its Limits and Continental Counterparts
This book explores the issue of legitimate criminalization in a modern, liberal society. Coverage provides a comparative study between two major criminal legal systems and its theories: the Anglo-American, on one side, and the Continental criminal legal system of Germanic legal circle, on the other.
Criminal profiling : Developing an effective science and practice
This book aims to transform criminal profiling into a credible science and practice that will reliably aid law enforcement investigation. Criminal Profiling tackles this problem squarely, exploring in detail how a science of profiling may be constructed and tested.
Criminal justice in America : the encyclopedia of crime, law enforcement, courts, and corrections
Provides a comprehensive overview of issues and trends in crime, law enforcement, courts, and corrections that encompass the field of criminal justice studies in the United States.
Cranbrook Architecture : A legacy of latitude
The renowned Cranbrook Academy of Art near Detroit, Michigan, has been described as the epicentre of American Modernism. When it opened in 1932 it combined a stunning Eliel Saarinen-designed campus with a radically open educational philosophy to attract and produce some of the most influential artists, designers and architects in US history, including Charles and Ray Eames, Fumihiko Maki, Florence Knoll and Edmund Bacon. Often compared to other experimental schools such as the Bauhaus, Black Mountain College and Taliesin, Cranbrook’s sustained purpose has been advancing a wide, interdisciplinary latitude and self-directed design research to expand and diversify its approaches to architectural practice.
Coupled Models for the Hydrological Cycle : Integrating Atmosphere, Biosphere and Pedosphere
Hydrologists, climatologists, soil scientists and environmental engineers are frequently asked to analyse complex environmental problems. It is becoming increasingly apparent that these problems usually involve feedbacks between atmospheric, ecological, and hydrological systems, as well as human society. It is often the feedbacks between systems that are of greatest interest because they may produce unanticipated responses. That is why coupling of different compartments of the Earth system has emerged as a general challenge to the modelling community. This book considers an array of state-of-the-art coupling and modelling concepts. First the relevant Earth system cycles are presented, followed by a discussion on scale issues and multiple equilibria. Inter- and intra-compartmental coupling is addressed, along with a debate on non-linearities and questions of parameterisation. Several applications are presented, where a focus is on cases where the hydrological cycle plays a central role.
Costs of air pollution control : Analyses of emission control options for ozone abatement strategies
This work derives strategies for developing useful EU policies aimed at the control of air pollutants in Europe, especially ground-level ozone. The author starts with the air-pollution status quo in the late 1990s, placing further impacts of photooxidant concentrations into perspective. Emission sources are then analysed in detail, and a likely scenario for a business-as-usual development in emissions is proposed. From the cost-benefit perspective, it is shown that a holistic, integrated evaluation of all air pollutants and their effects results in a full accounting that reflects synergies and hidden benefits. The modelling scheme identifies emission targets needed to achieve compliance with EU thresholds, and calculations reveal the need to review established ozone thresholds and emission limits, even after discounting the positive effects of including central and eastern European nations.
Cosmetic and reconstructive facial plastic surgery : A review of medical and biomedical engineering and science concepts
Provides an extensive overview of the most recent technological advancements in facial plastic and reconstructive surgeries and head and neck surgery through a thorough review of the literature in biomedical engineering, technology, and medicine. Coverage includes the most recent engineering and computing techniques, such as robotics, biomechanics, artificial intelligence (AI), deep learning (DL), machine learning (ML), and optimization, as well as the medical and surgical aspects of medical and scientific methods, surgical and non-surgical procedure types, complications, patient care, and psychological factors.
Coronaviruses : Methods and Protocols
Aims to describe a variety of techniques that reflects the wide range of research currently performed in the field of coronavirology, and begins with an overview of current understandings of coronavirus replication and pathogenesis to introduce specialists and non-specialists to the field. The rest of the book is divided into several sections of chapters beginning with those that describe identification, diagnosis, and study of the evolution of coronaviruses. The next few chapters discuss the preparation of cells and organ cultures useful in propagating coronaviruses and titration techniques, as well as techniques for analyzing virus functions that require purification of the viruses. The next chapters describe two commonly used reverse genetics techniques for coronaviruses, and techniques detailing identification of cellular receptors, binding profiles of viral attachment proteins, and virus-cell fusion. The final chapters cover a broad spectrum of techniques to identify virus-host protein-protein interactions, confirm the functional role of these proteins in virus replication, study host cell responses through genome-wide or pathway-specific approaches, and visualize virus replication complexes. Written in the highly successful Methods in Molecular Biology series format, the chapters include the kind of detailed description and implementation advice that is crucial for getting optimal results in the laboratory.
Core concepts in criminal law and criminal justice ; Vol. 3
Explores the principles and concepts that underpin the different domestic systems and rules. It will focus on the Germanic and several principal Anglo-American jurisdictions, which are employed as examples of the wider common law-civil law divide.
Core concepts in criminal law and criminal justice ; 2nd ed.
Explores the foundational principles and concepts that underpin the different domestic systems. It will focus on the Germanic and several principal Anglo-American jurisdictions, which are employed as examples of the wider divide between common law and civil law
Cooperative stochastic differential games
Numerical Optimization presents a comprehensive and up-to-date description of the most effective methods in continuous optimization. It responds to the growing interest in optimization in engineering, science, and business by focusing on the methods that are best suited to practical problems. There are new chapters on nonlinear interior methods and derivative-free methods for optimization, both of which are used widely in practice and the focus of much current research. Because of the emphasis on practical methods, as well as the extensive illustrations and exercises.
Cooperative Sourcing : Simulation Studies and Empirical Data on Outsourcing Coalitions in the Banking Industry
Based on the integration of relevant economic and organizational theories, Daniel Beimborn develops a formal model of cooperative sourcing. The model captures the different drivers and inhibitors like economies of scale, scope and skill, transaction costs, strategic constraints etc. and forms the basis for both game-theoretical analyses and agent-based simulations. Simulations help to handle the numerical complexity and allow for compound analyses of the causes and effects of cooperative sourcing. Empirical data from two large-scale surveys and case studies in the German credit business are used in order to feed the simulation model and to validate the results.
Cooperation in Wireless Networks : Principles and Applications : Real Egoistic Behavior is to Cooperate!
Cooperation in Wireless Networks: Principles and Applications covers the underlying principles of cooperative techniques as well as several applications demonstrating the use of such techniques in practical systems. The work is written in a collaborative manner by several authors from Asia, America, and Europe. Twenty chapters introduce and discuss in detail the main cooperative strategies for the whole communication protocol stack from the application layer down to the physical layer. Furthermore power saving strategies, security, hardware realization, and user scenarios for cooperative communication systems are introduced and discussed. The book also summarizes the strength of cooperation for upcoming generation of wireless communication systems, clearly motivating the use of cooperative techniques and pointing out that cooperation will become one of the key technologies enabling 4G and beyond. This book puts into one volume a comprehensive and technically rich view of the wireless communications scene from a cooperation point of view.
Convective and Advective Heat Transfer in Geological Systems
This monograph aims to provide state-of-the-art theoretical results in a systematic treatment of convective and advective heat transfer during fluid flow in geological systems at the crustal scale. Although some numerical results are provided to complement theoretical ones, the main focus of this monograph is on theoretical aspects of the topic. The theoretical treatment contained in this monograph is also applicable to a wide range of problems of other length-scales such as engineering length-scales.
Control Systems Theory and Applications for Linear Repetitive Processes
After motivating examples, this monograph gives substantial new results on the analysis and control of linear repetitive processes. These include further applications of the abstract model based stability theory which, in particular, shows the critical importance to the dynamics developed of the structure of the initial conditions at the start of each new pass, the development of stability tests and performance bounds in terms of so-called 1D and 2D Lyapunov equations. It presents the development of a major bank of results on the structure and design of control laws, including the case when there is uncertainty in the process model description, together with numerically reliable computational algorithms. Finally, the application of some of these results in the area of iterative learning control is treated --- including experimental results from a chain conveyor system and a gantry robot system.
Control problems for conservation laws with traffic applications: modeling, analysis, and numerical methods
Conservation and balance laws on networks have been the subject of much research interest given their wide range of applications to real-world processes, particularly traffic flow. This open access monograph is the first to investigate different types of control problems for conservation laws that arise in the modeling of vehicular traffic. Four types of control problems are discussed - boundary, decentralized, distributed, and Lagrangian control - corresponding to, respectively, entrance points and tolls, traffic signals at junctions, variable speed limits, and the use of autonomy and communication. Because conservation laws are strictly connected to Hamilton-Jacobi equations, control of the latter is also considered.
Control of cracking in reinforced concrete structures
Provides guidelines which can extend the existing standards and codes to cover these types of special works, especially those which are massive in nature, taking account of their specific behaviour in terms of cracking and shrinkage together with other important properties such as water/air leak tightness
Continuous System Simulation
Continuous System Simulation describes systematically and methodically how mathematical models of dynamic systems, usually described by sets of either ordinary or partial differential equations possibly coupled with algebraic equations, can be simulated on a digital computer.
Continuous Optimization : Current Trends and Modern Applications
The search for the best possible performance is inherent in human nature. Individuals, enterprises and governments all seek optimal—that is, the best—possible solutions of problems that they meet. Evidently, continuous optimization plays an increasingly significant role in everyday management and technical decisions in science, engineering and commerce. The collection of 16 refereed papers in this book covers a diverse number of topics and provides a good picture of recent research in continuous optimization. The first part of the book presents substantive survey articles in a number of important topic areas of continuous optimization. Most of the papers in the second part present results on the theoretical aspects as well as numerical methods of continuous optimization. The papers in the third part are mainly concerned with applications of continuous optimization.



















