Celebrating the 150th anniversary of Cournot's work, which Mark Blaug has characterized as 'a book that for sheer originality and boldness of conception has no equal in the history of economics thought', this volume focuses on the properties and uses of Cournot's model of competition among the few. While there are many issues that Cournot explored in researches into the mathematical principles of the theory of wealth, the topic that he is most readily associated with - and which now is also enjoying a revival - is his model of oligopolistic interaction among firms. This revival of interest in Cournot's model is due largely to increased emphasis by economists on capturing elements of imperfect competition and strategic behavior.
As the East Asian financial crisis continues to leave a path of destruction economically and politically in its wake, people all over the world seek to know what went wrong. Many blame the illiberal markets of the countries involved and many blame their political leadership. This book, first published in 2000, explores how strong, open, liberalized markets create a counterbalance to crony capitalism and corruption and form the basis for a foundation of political liberalization. Using both a quantitative model and qualititative country studies, this work analyzes the experiences of China, Taiwan, Indonesia, and Korea in moving toward both marketization and democracy.
Beyond Microfoundations discusses the foundations for a post-Walrasian macroeconomics and, in doing so, carries the work of Robert Clower and Axel Leijonhufvud to the present. This book spells out both why an alternative approach to macro is needed, and what the essence of the approach will be. This post-Walrasian approach to macro is neither Keynesian nor Classical, both of which have Walrasian foundations, but it offers an approach to macro in which Walrasian economics is turned on its head. Specifically, it rejects the Walrasian ad hoc assumptions of the existence of a unique equilibrium and of simple dynamics. That rejection leads one to a fundamentally different conception of macro than most macroeconomics have implicit in their formal model. Post-Walrasian macroeconomics offers a vision of macro in which micro foundations devoid of an explicit macro context have no place, but one in which institutions have a fundamental role. Post-Walrasian macroeconomics provides a foundation f
Much of our understanding about insect predator-prey dynamics has been due to studies on insect parasitoids. But do true predators such as ladybird beetles really operate in a similar way and how does this affect their use in biological control? The extensive literature on ladybirds as biocontrol agents shows that their size and rate of development is very dependent on the nature of their prey. This volume explores basic ladybird biology, their association with their prey and its effect on development rate and body size. Optimal foraging theory, field observations and laboratory experiments are used to illustrate how ladybird larvae maximise their rate of energy intake, and ladybird adults their fitness. The interdependence of these life history parameters is then used to develop a simple predator-prey model which, with an analysis of the literature, highlights the specific attributes of potentially successful biocontrol agents for all those interested in predator-prey dynamics.
Advanced undergraduate or beginning graduate students need a unified foundation for their study of geometry, analysis, and algebra. This book, first published in 2003, uses categorical algebra to build such a foundation, starting from intuitive descriptions of mathematically and physically common phenomena and advancing to a precise specification of the nature of Categories of Sets. Set theory as the algebra of mappings is introduced and developed as a unifying basis for advanced mathematical subjects such as algebra, geometry, analysis, and combinatorics. The formal study evolves from general axioms which express universal properties of sums, products, mapping sets, and natural number recursion. The distinctive features of Cantorian abstract sets, as contrasted with the variable and cohesive sets of geometry and analysis, are made explicit and taken as special axioms. Functor categories are introduced in order to model the variable sets used in geometry, and to illustrate the failure
Much of our understanding about insect predator-prey dynamics has been due to studies on insect parasitoids. But do true predators such as ladybird beetles really operate in a similar way and how does this affect their use in biological control? The extensive literature on ladybirds as biocontrol agents shows that their size and rate of development is very dependent on the nature of their prey. This volume explores basic ladybird biology, their association with their prey and its effect on development rate and body size. Optimal foraging theory, field observations and laboratory experiments are used to illustrate how ladybird larvae maximise their rate of energy intake, and ladybird adults their fitness. The interdependence of these life history parameters is then used to develop a simple predator-prey model which, with an analysis of the literature, highlights the specific attributes of potentially successful biocontrol agents for all those interested in predator-prey dynamics.
Advanced undergraduate or beginning graduate students need a unified foundation for their study of geometry, analysis, and algebra. This book, first published in 2003, uses categorical algebra to build such a foundation, starting from intuitive descriptions of mathematically and physically common phenomena and advancing to a precise specification of the nature of Categories of Sets. Set theory as the algebra of mappings is introduced and developed as a unifying basis for advanced mathematical subjects such as algebra, geometry, analysis, and combinatorics. The formal study evolves from general axioms which express universal properties of sums, products, mapping sets, and natural number recursion. The distinctive features of Cantorian abstract sets, as contrasted with the variable and cohesive sets of geometry and analysis, are made explicit and taken as special axioms. Functor categories are introduced in order to model the variable sets used in geometry, and to illustrate the failure
Literature on the population dynamics of insect herbivores tends to favour a top-down regulation of abundance, owing much to the action of natural enemies. Originally published in 2005, this volume challenges this paradigm and argues that tree-dwelling species of aphids, through competition for resources, regulate their own abundance. The biology of tree-dwelling aphids is examined, particularly their adaptation to the seasonal development of their host plants. When host-plant quality is favourable, aphids, by telescoping generations, can achieve prodigious rates of increase which their natural enemies are unable to match. Using analyses of long-term population censuses and results of experiments, this book introduces students and research workers to insect herbivore-host dynamics using the interaction between aphids and trees as a model.
Observations of ocean circulation have increased as a result of international field programmes and of remote sensing systems on artificial earth satellites. Oceanographers are increasingly turning to inverse methods for combining these observations with numerical models of ocean circulation. Professor Bennett's work explores the potential for inverse theory, emphasizing possibilities rather than expedient or rudimentary applications. In addition to interpolating the data and adding realism to the model solutions, the methods can yield estimates for unobserved flow variables, forcing fields, and model parameters. Inverse formulations can resolve ill-posed modelling problems, lead to design criteria for oceanic observing systems, and enable the testing of models as scientific hypothesis. Exercises of varying difficulty rehearse technical skills and supplement the central theoretical development. Thus this book will be invaluable for environmental scientists and engineers, advanced underg
String theory is one of the most active branches of theoretical physics and has the potential to provide a unified description of all known particles and interactions. This book is a systematic introduction to the subject, focused on the detailed description of how string theory is connected to the real world of particle physics. Aimed at graduate students and researchers working in high energy physics, it provides explicit models of physics beyond the Standard Model. No prior knowledge of string theory is required as all necessary material is provided in the introductory chapters. The book provides particle phenomenologists with the information needed to understand string theory model building and describes in detail several alternative approaches to model building, such as heterotic string compactifications, intersecting D-brane models, D-branes at singularities and F-theory.
Cosmology has been transformed by dramatic progress in high-precision observations and theoretical modelling. This book surveys key developments and open issues for graduate students and researchers. Using a relativistic geometric approach, it focuses on the general concepts and relations that underpin the standard model of the Universe. Part I covers foundations of relativistic cosmology whilst Part II develops the dynamical and observational relations for all models of the Universe based on general relativity. Part III focuses on the standard model of cosmology, including inflation, dark matter, dark energy, perturbation theory, the cosmic microwave background, structure formation and gravitational lensing. It also examines modified gravity and inhomogeneity as possible alternatives to dark energy. Anisotropic and inhomogeneous models are described in Part IV, and Part V reviews deeper issues, such as quantum cosmology, the start of the universe and the multiverse proposal. Colour ve
Hugh Craig and Brett Greatley-Hirsch extend the computational analysis introduced in Shakespeare, Computers, and the Mystery of Authorship (edited by Hugh Craig and Arthur F. Kinney; Cambridge, 2009) beyond problems of authorship attribution to address broader issues of literary history. Using new methods to answer long-standing questions and challenge traditional assumptions about the underlying patterns and contrasts in the plays of Shakespeare and his contemporaries, Style, Computers, and Early Modern Drama sheds light on, for example, different linguistic usages between plays written in verse and prose, company styles and different character types. As a shift from a canonical survey to a corpus-based literary history founded on a statistical analysis of language, this book represents a fundamentally new approach to the study of English Renaissance literature and proposes a new model and rationale for future computational scholarship in early modern literary studies.
The reading public outside Sweden knows little of that country's history, beyond the dramatic and short-lived era in the seventeenth century when Sweden under Gustavus Adolphus became a major European power by her intervention in the Thirty Years War. In the last decades of the seventeenth century another Swedish king, Charles XI, launched a less dramatic but remarkable bid to stabilize and secure Sweden's position as a major power in northern Europe and as master of the Baltic Sea. This project, which is almost unknown to students of history outside Sweden, involved a comprehensive overhaul of the government and institutions of the kingdom, on the basis of establishing Sweden as a model of absolute monarchy. This 1998 book gives an account of what was achieved under the absolutist direction of a distinctly unglamorous, but pious and conscientious ruler.
This modern treatment of computer vision focuses on learning and inference in probabilistic models as a unifying theme. It shows how to use training data to learn the relationships between the observed image data and the aspects of the world that we wish to estimate, such as the 3D structure or the object class, and how to exploit these relationships to make new inferences about the world from new image data. With minimal prerequisites, the book starts from the basics of probability and model fitting and works up to real examples that the reader can implement and modify to build useful vision systems. Primarily meant for advanced undergraduate and graduate students, the detailed methodological presentation will also be useful for practitioners of computer vision. • Covers cutting-edge techniques, including graph cuts, machine learning and multiple view geometry • A unified approach shows the common basis for solutions of important computer vision problems, such as camera calibration, f
The advent of sensitive high-resolution observations of the cosmic microwave background radiation and their successful interpretation in terms of the standard cosmological model has led to great confidence in this model's reality. The prevailing attitude is that we now understand the Universe and need only work out the details. In this book, Sanders traces the development and successes of Lambda-CDM, and argues that this triumphalism may be premature. The model's two major components, dark energy and dark matter, have the character of the pre-twentieth-century luminiferous aether. While there is astronomical evidence for these hypothetical fluids, their enigmatic properties call into question our assumptions of the universality of locally determined physical law. Sanders explains how modified Newtonian dynamics (MOND) is a significant challenge for cold dark matter. Overall, the message is hopeful: the field of cosmology has not become frozen, and there is much fundamental work ahead f
Literature on the population dynamics of insect herbivores tends to favour a top-down regulation of abundance, owing much to the action of natural enemies. Originally published in 2005, this volume challenges this paradigm and argues that tree-dwelling species of aphids, through competition for resources, regulate their own abundance. The biology of tree-dwelling aphids is examined, particularly their adaptation to the seasonal development of their host plants. When host-plant quality is favourable, aphids, by telescoping generations, can achieve prodigious rates of increase which their natural enemies are unable to match. Using analyses of long-term population censuses and results of experiments, this book introduces students and research workers to insect herbivore-host dynamics using the interaction between aphids and trees as a model.
Ready for Anything is a year-long, site-based professional development support model for new teachers. It includes ready-to-use forms and checklists for the busy administrator.
Using data sets consisting of cross-sectional surveys drawn from nationally representative samples of adolescents in the US and official sources of crime statistics, a portrait of aggression and violence among adolescents is presented. Fluctuations in self-reported and official sources of data are examined by year, gender, grade, and race. Both distal and contemporary risk factors for aggression and violence are discussed. Distal risk factors for violence in adolescence are presented using longitudinal studies. The General Aggression Model provides the framework for exploring which contemporary personal and situational factors increase or decrease risk for aggression and violence. Dating aggression in adolescence is placed in the context of normal development and variable according to individual partner and relationship factors. This book presents rigorously tested scientific prevention programs for adolescents with violent and aggressive behavior.
The study of stable groups connects model theory, algebraic geometry and group theory. It analyses groups which possess a certain very general dependence relation (Shelah's notion of 'forking'), and tries to derive structural properties from this. These may be group-theoretic (nilpotency or solubility of a given group), algebro-geometric (identification of a group as an algebraic group), or model-theoretic (description of the definable sets). In this book, the general theory of stable groups is developed from the beginning (including a chapter on preliminaries in group theory and model theory), concentrating on the model- and group-theoretic aspects. It brings together the various extensions of the original finite rank theory under a unified perspective and provides a coherent exposition of the knowledge in the field.
Using data sets consisting of cross-sectional surveys drawn from nationally representative samples of adolescents in the US and official sources of crime statistics, a portrait of aggression and violence among adolescents is presented. Fluctuations in self-reported and official sources of data are examined by year, gender, grade, and race. Both distal and contemporary risk factors for aggression and violence are discussed. Distal risk factors for violence in adolescence are presented using longitudinal studies. The General Aggression Model provides the framework for exploring which contemporary personal and situational factors increase or decrease risk for aggression and violence. Dating aggression in adolescence is placed in the context of normal development and variable according to individual partner and relationship factors. This book presents rigorously tested scientific prevention programs for adolescents with violent and aggressive behavior.