Meta-Programming and Model-Driven Meta-Program Development

Meta-Programming and Model-Driven Meta-Program Development

Meta-Programming and Model-Driven Meta-Program Development: Principles, Processes and Techniques presents an overall analysis of meta-programming, focusing on insights of meta-programming techniques, heterogeneous meta-program development processes in the context of model-driven, feature-based and transformative approaches.The fundamental concepts of meta-programming are still not thoroughly understood, in this well organized book divided into three parts the authors help to address this. Chapters include: Taxonomy of fundamental concepts of meta-programming; Concept of structural heterogeneous meta-programming based on the original meta-language; Model-driven concept and feature-based modeling to the development process of meta-programs; Equivalent meta-program transformations and metrics to evaluate complexity of feature-based models and meta-programs; Variety of academic research case studies within different application domains to experimentally verify the soundness of the investigated approaches.Both authors are professors at Kaunas University of Technology with 15 years research and teaching experience in the field. Meta-Programming and Model-Driven Meta-Program Development: Principles, Processes and Techniques is aimed at post-graduates in computer science and software engineering and researchers and program system developers wishing to extend their knowledge in this rapidly evolving sector of science and technology.

Meta-Programming and Model-Driven Meta-Program Development

Electromagnetic Properties of Multiphase Dielectrics

Electromagnetic Properties of Multiphase Dielectrics

Recently, several applications, primarily driven by microtechnology, have emerged where the use of materials with tailored electromagnetic (dielectric) properties are necessary for a successful overall design. The “tailored” aggregate properties are achieved by combining an easily moldable base matrix with particles having dielectric properties that are chosen to deliver (desired) effective properties. In many cases, the analysis of such materials requires the simulation of the macroscopic and microscopic electromagnetic response, as well as its resulting coupled thermal response, which can be important to determine possible failures in “hot spots.” This necessitates a stress analysis. Furthermore, because, oftentimes, such processes initiate degratory chemical processes, it can be necessary to also include models for these processes as well. A central objective of this work is to provide basic models and numerical solution strategies to analyze the coupled response of such materials by direct simulation using standard laptop/desktop equipment. Accordingly, this monograph covers: (1) The foundations of Maxwell’s equations, (2) Basic homogenization theory,(3) Coupled systems (electromagnetic, thermal, mechanical and chemical),(4) Numerical methods and(5) An introduction to select biological problems.The text can be viewed as a research monograph suitable for use in an upper-division undergraduate or first year graduate course geared towards students in the applied sciences, mechanics and mathematics that have an interest in the analysis of particulate materials.

Electromagnetic Properties of Multiphase Dielectrics

Sciences of Geodesy - II

Sciences of Geodesy - II

This series of reference books describes the sciences of different fields in and around geodesy. Each chapter, is written by experts in the respective fields and covers an individual field and describes the history, theory, the objective, the technology, and the development, the highlight of the research, the applications, the problems, as well as future directions. Contents of Volume II include: Geodetic LEO Satellite Missions, Satellite Altimetry, Airborne Lidar, GNSS Software Receiver, Geodetic Boundary Problem, GPS and INS, VLBI, Geodetic Reference Systems, Spectral Analysis, Earth Tide and Ocean Loading Tide, Remote Sensing, Photogrammetry, Occultation, Geopotential Determination, Geoid Determination, Local Gravity Field, Geopotential Determination, Magnet Field, Mobile Mapping, General Relativity, Wide-area Precise Positioning etc.

Sciences of Geodesy - II

Gender, Lifespan and Quality of Life

Gender, Lifespan and Quality of Life

This publication addresses the gender dimensions of peoples lived experience and emphasizes how gender relationships differentially impact on womens and girls as well as mens and boys subjective well-being across the lifespan. It therefore fills a significant gap in the literature on quality of life and subjective well-being. The book brings together research which compares females and males subjective experiences of well-being at various life stages from a variety of countries and regions, particularly focusing on womens subjective well-being. Sex-disaggregation of data on objective conditions of quality of life is now routinely undertaken in many countries of the world. However, despite the burgeoning of objective data on sex differences in life conditions across the world, very little gender analysis is carried out to explain fully such difference and there is still a serious dearth of data on gender differences in subjective experiences of quality of life and well-being. This publication will assist researchers, teachers, service providers and policy makers in filling some of the gaps in currently available literature on the nexus between age and gender in producing differential experiences of subjective wellbeing.

Gender, Lifespan and Quality of Life

High-Temperature Superconductivity in Cuprates

High-Temperature Superconductivity in Cuprates

The main purpose of the book is to present a description of the mechanism of high-temperature superconductivity and to discuss the physics of high-temperature superconductors, both entirely based on experimental facts. The pairing mechanism of this remarkable phenomenon is based on an anomaly found in tunneling (V) characteristics of some cuprates. By using the soliton theory, it is then shown that this anomaly is caused by pairs of quasi-one dimensional excitations – bisolitons – bound due to a moderately strong, nonlinear electron-phonon interaction. At the same time, analysis of experimental data unambiguously shows that magnetic (spin) fluctuations mediate the phase coherence in cuprates. The mechanism of superconductivity in quasi-one dimensional organic superconductors and heavy fermions is discussed too. In cuprates, the origins of five different energy/temperature scales are identified. Finally, three main principles of superconductivity are introduced at the end of the book. Analysis of tunneling and angle-resolved photoemission measurements is presented in the last chapter. The book which contains 300 pages with 180 illustrations is addressed to researchers and graduate students in all branches of exact sciences.

High-Temperature Superconductivity in Cuprates

Why Society is a Complex Matter

Why Society is a Complex Matter

Society is complicated. But this book argues that this does not place it beyond the reach of a science that can help to explain and perhaps even to predict social behaviour. As a system made up of many interacting agents people, groups, institutions and governments, as well as physical and technological structures such as roads and computer networks society can be regarded as a complex system. In recent years, scientists have made great progress in understanding how such complex systems operate, ranging from animal populations to earthquakes and weather. These systems show behaviours that cannot be predicted or intuited by focusing on the individual components, but which emerge spontaneously as a consequence of their interactions: they are said to be self-organized. Attempts to direct or manage such emergent properties generally reveal that top-down approaches, which try to dictate a particular outcome, are ineffectual, and that what is needed instead is a bottom-up approach that aims to guide self-organization towards desirable states. This book shows how some of these ideas from the science of complexity can be applied to the study and management of social phenomena, including traffic flow, economic markets, opinion formation and the growth and structure of cities. Building on these successes, the book argues that the complex-systems view of the social sciences has now matured sufficiently for it to be possible, desirable and perhaps essential to attempt a grander objective: to integrate these efforts into a unified scheme for studying, understanding and ultimately predicting what happens in the world we have made. Such a scheme would require the mobilization and collaboration of many different research communities, and would allow society and its interactions with the physical environment to be explored through realistic models and large-scale data collection and analysis. It should enable us to find new and effective solutions to major global problems such as conflict, disease, financial instability, environmental despoliation and poverty, while avoiding unintended policy consequences. It could give us the foresight to anticipate and ameliorate crises, and to begin tackling some of the most intractable problems of the twenty-first century.

Why Society is a Complex Matter

Mathematics and Art

Mathematics and Art

Recent progress in research, teaching and communication has arisen from the use of new tools in visualization. To be fruitful, visualization needs precision and beauty. This book is a source of mathematical illustrations by mathematicians as well as artists. It offers examples in many basic mathematical fields including polyhedra theory, group theory, solving polynomial equations, dynamical systems and differential topology. For a long time, arts, architecture, music and painting have been the source of new developments in mathematics. And vice versa, artists have often found new techniques, themes and inspiration within mathematics. Here, while mathematicians provide mathematical tools for the analysis of musical creations, the contributions from sculptors emphasize the role of mathematics in their work. This book emphasizes and renews the deep relation between Mathematics and Art. The Forum Discussion suggests to develop a deeper interpenetration between these two cultural fields, notably in the teaching of both Mathematics and Art.

Mathematics and Art

Male Homosexual Behavior and the Effects of AIDS Education

Male Homosexual Behavior and the Effects of AIDS Education

Since the AIDS epidemic was recognized, information on safer sex has been assumed to be the most crucial means of preventing further spread of the disease. But how well has AIDS education worked? What kinds of education work best and for whom? This study is the first to provide an in-depth analysis of the results of AIDS education programs and to explore the psychosocial factors that affect behavioral responses to education.

Male Homosexual Behavior and the Effects of AIDS Education

Mathematics for Multimedia

Mathematics for Multimedia

Mathematics and Multimedia focuses on the mathematics behind multimedia applications. This timely and thoroughly modern text is a rigorous survey of selected results from algebra and analysis, requiring only undergraduate math skills.The topics are `gems’ chosen for their usefulness in understanding and creating application software for multimedia signal processing and communication.The book is aimed at a wide audience, including computer science and mathematics majors and those interested in employing mathematics in multimedia design and implementation.

Mathematics for Multimedia

Essentials of Traumatic Injuries to the Teeth

Essentials of Traumatic Injuries to the Teeth

This is a readily accessible, fully illustrated guide to the initial treatment of acute dental injuries. The clinician is guided through the initial examination of the traumatized patient to the design of a rational, individualized treatment plan. This approach is aimed at minimizing the risk of long-term complications and, thereby, alleviating the uncertainty of the future of the the traumatized dentition both for the patient, dentist and for other concerned individuals. The material is drawn from clinical investigations, statistical analysis of 20,000 records of patients treated for acute dental injuries over 25 years, and results from 100 experimental studies.

Essentials of Traumatic Injuries to the Teeth

Space, Structure and Randomness

Space, Structure and Randomness

Space, structure, and randomness: these are the three key concepts underlying Georges Matherons scientific work. He first encountered them at the beginning of his career when working as a mining engineer, and then they resurfaced in fields ranging from meteorology to microscopy. What could these radically different types of applications possibly have in common? First, in each one only a single realisation of the phenomenon is available for study, but its features repeat themselves in space; second, the sampling pattern is rarely regular, and finally there are problems of change of scale. This volume is divided in three sections on random sets, geostatistics and mathematical morphology. They reflect his professional interests and his search for underlying unity. Some readers may be surprised to find theoretical chapters mixed with applied ones. We have done this deliberately. GM always considered that the distinction between the theory and practice was purely academic. When GM tackled practical problems, he used his skill as a physicist to extract the salient features and to select variables which could be measured meaningfully and whose values could be estimated from the available data. Then he used his outstanding ability as a mathematician to solve the problems neatly and efficiently. It was his capacity to combine a physicists intuition with a mathematicians analytical skills that allowed him to produce new and innovative solutions to difficult problems. The book should appeal to graduate students and researchers working in mathematics, probability, statistics, physics, spatial data analysis, and image analysis. In addition it will be of interest to those who enjoy discovering links between scientific disciplines that seem unrelated at first glance. In writing the book the contributors have tried to put GMs ideas into perspective. During his working life, GM was a genuinely creative scientist. He developed innovative concepts whose usefulness goes far beyond the confines of the discipline for which they were originally designed. This is why his work remains as pertinent today as it was when it was first written.

Space, Structure and Randomness

The Implosion of Contemporary Capitalism

The Implosion of Contemporary Capitalism

Renowned political economist Samir Amin, engaged in a unique lifelong effort both to narrate and affect the human condition on a global scale, brings his analysis up to the present-the world of 2013. The key events of our times-financial crisis, the emerging nations, globalization, financialization, political Islam, Euro-zone implosion-are related in a coherent, historically based, account. Changes in contemporary capitalism require an updating of definitions and analysis of social classes, class struggles, political parties, social movements and the ideological forms in which they express their modes of action in the transformation of societies. Amin meets this challenge and lays bare the reality of monopoly capitalism in its general, global form. Ultimately, Amin demonstrates that this system is not viable and that the implosion in progress is unavoidable. Whether humanity will rise to the challenge of building a more humane global order free of the contradictions of capital, however, is yet to be seen.

The Implosion of Contemporary Capitalism

Visual Texture

Visual Texture

This book surveys the state of the art in multidimensional, physically-correct visual texture modeling. Features: reviews the entire process of texture synthesis, including material appearance representation, measurement, analysis, compression, modeling, editing, visualization, and perceptual evaluation; explains the derivation of the most common representations of visual texture, discussing their properties, advantages, and limitations; describes a range of techniques for the measurement of visual texture, including BRDF, SVBRDF, BTF and BSSRDF; investigates the visualization of textural information, from texture mapping and mip-mapping to illumination- and view-dependent data interpolation; examines techniques for perceptual validation and analysis, covering both standard pixel-wise similarity measures and also methods of visual psychophysics; reviews the applications of visual textures, from visual scene analysis in medical applications, to high-quality visualizations in the automotive industry.

Visual Texture

Architecture Design for Soft Errors

Architecture Design for Soft Errors

This book provides a comprehensive description of the architetural techniques to tackle the soft error problem. It covers the new methodologies for quantitative analysis of soft errors as well as novel, cost-effective architectural techniques to mitigate them. To provide readers with a better grasp of the broader problem deffinition and solution space, this book also delves into the physics of soft errors and reviews current circuit and software mitigation techniques.

Architecture Design for Soft Errors

Introductory Real Analysis

Introductory Real Analysis

Self-contained and comprehensive, this elementary introduction to real and functional analysis is readily accessible to those with background in advanced calculus. It covers basic concepts and introductory principles in set theory, metric spaces, topological and linear spaces, linear functionals and linear operators, and much more. 350 problems. 1970 edition.

Introductory Real Analysis

Cross Disciplinary Biometric Systems

Cross Disciplinary Biometric Systems

Cross disciplinary biometric systems help boost the performance of the conventional systems. Not only is the recognition accuracy significantly improved, but also the robustness of the systems is greatly enhanced in the challenging environments, such as varying illumination conditions. By leveraging the cross disciplinary technologies, face recognition systems, fingerprint recognition systems, iris recognition systems, as well as image search systems all benefit in terms of recognition performance. Take face recognition for an example, which is not only the most natural way human beings recognize the identity of each other, but also the least privacy-intrusive means because people show their face publicly every day. Face recognition systems display superb performance when they capitalize on the innovative ideas across color science, mathematics, and computer science (e.g., pattern recognition, machine learning, and image processing). The novel ideas lead to the development of new color models and effective color features in color science; innovative features from wavelets and statistics, and new kernel methods and novel kernel models in mathematics; new discriminant analysis frameworks, novel similarity measures, and new image analysis methods, such as fusing multiple image features from frequency domain, spatial domain, and color domain in computer science; as well as system design, new strategies for system integration, and different fusion strategies, such as the feature level fusion, decision level fusion, and new fusion strategies with novel similarity measures.

Cross Disciplinary Biometric Systems

Motion History Images for Action Recognition and Understanding

Motion History Images for Action Recognition and Understanding

Human action analysis and recognition is a relatively mature field, yet one which is often not well understood by students and researchers. The large number of possible variations in human motion and appearance, camera viewpoint, and environment, present considerable challenges. Some important and common problems remain unsolved by the computer vision community. However, many valuable approaches have been proposed over the past decade, including the motion history image (MHI) method. This method has received significant attention, as it offers greater robustness and performance than other techniques. This work presents a comprehensive review of these state-of-the-art approaches and their applications, with a particular focus on the MHI method and its variants.

Motion History Images for Action Recognition and Understanding

The Evolution of Violence

The Evolution of Violence

This volume is an interdisciplinary exploration of our understanding of the causes and consequences of violence. Represented in its chapters are noted scholars from a variety of fields including psychology, anthropology, law, and literature. The contributions reflect a broad scope of inquiry and diverse levels of analysis. With an underlying evolutionary theme each of the contributors invoke their separate areas of expertise, offering empirical and theoretical insights to this complex subject. The multi-faceted aspect of the book is meant to engender new perspectives that will synthesize current knowledge and lead to a more nuanced understanding of an ever timely issue in human behavior. Of additional interest, is a foreword written by world renowned psychologist, Steven Pinker, and an afterword by noted evolutionary scholar, Richard Dawkins.

The Evolution of Violence

Mathematical Biophysics

Mathematical Biophysics

This book presents concise descriptions and analysis of the classical and modern models used in mathematical biophysics. The authors ask the question ‘what new information can be provided by the models that cannot be obtained directly from experimental data?’ Actively developing fields such as regulatory mechanisms in cells and subcellular systems and electron transport and energy transport in membranes are addressed together with more classical topics such as metabolic processes, nerve conduction and heart activity, chemical kinetics, population dynamics, and photosynthesis. The main approach is to describe biological processes using different mathematical approaches necessary to reveal characteristic features and properties of simulated systems. With the emergence of powerful mathematics software packages such as MAPLE, Mathematica, Mathcad, and MatLab, these methodologies are now accessible to a wide audience.

Mathematical Biophysics

Quantum Potential

Quantum Potential

Recently the interest in Bohm realist interpretation of quantum mechanics has grown. The important advantage of this approach lies in the possibility to introduce non-locality ab initio, and not as an unexpected host. In this book the authors give a detailed analysis of quantum potential, the non-locality term and its role in quantum cosmology and information. The different approaches to the quantum potential are analysed, starting from the original attempt to introduce a realism of particles trajectories (influenced by de Broglie’s pilot wave) to the recent dynamic interpretation provided by Goldstein, Durr, Tumulka and Zangh, and the geometrodynamic picture, with suggestion about quantum gravity. Finally we focus on the algebraic reading of Hiley and Birbeck school, that analyse the meaning of the non-local structure of the world, bringing important consequences for the space, time and information concepts.

Quantum Potential