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Introduction to GIS Programming and Fundamentals with Python and ArcGIS®
by Chaowei YangCombining GIS concepts and fundamental spatial thinking methodology with real programming examples, this book introduces popular Python-based tools and their application to solving real-world problems. It elucidates the programming constructs of Python with its high-level toolkits and demonstrates its integration with ArcGIS Theory. Filled with hands-on computer exercises in a logical learning workflow this book promotes increased interactivity between instructors and students while also benefiting professionals in the field with vital knowledge to sharpen their programming skills. Readers receive expert guidance on modules, package management, and handling shapefile formats needed to build their own mini-GIS. Comprehensive and engaging commentary, robust contents, accompanying datasets, and classroom-tested exercises are all housed here to permit users to become competitive in the GIS/IT job market and industry.
Introduction to GIS Programming and Fundamentals with Python and ArcGIS®
by Chaowei YangCombining GIS concepts and fundamental spatial thinking methodology with real programming examples, this book introduces popular Python-based tools and their application to solving real-world problems. It elucidates the programming constructs of Python with its high-level toolkits and demonstrates its integration with ArcGIS Theory. Filled with hands-on computer exercises in a logical learning workflow this book promotes increased interactivity between instructors and students while also benefiting professionals in the field with vital knowledge to sharpen their programming skills. Readers receive expert guidance on modules, package management, and handling shapefile formats needed to build their own mini-GIS. Comprehensive and engaging commentary, robust contents, accompanying datasets, and classroom-tested exercises are all housed here to permit users to become competitive in the GIS/IT job market and industry.
An Introduction to Global Environmental Issues Instructors Manual
by Lewis A. Owen Professor Kevin Pickering Kevin T. PickeringAn Introduction to Global Environmental Issues presents a comprehensive stimulating introduction to the key environmental issues presently threatening our global environment. Offering an authoritative introduction to the key topics, a source of latest environmental information, and an innovative stimulus for debate, this is an essential book for all those studying or concerned with global environmental issues. In this second edition, the most topical global environmental issues are brought more clearly into focus. Explanations of the evolution of the earth's natural systems (hydrosphere, biosphere, geosphere, ecosphere) provide the essential understanding of the scientific concepts, processes and historical background behind key environmental issues. Contemporary socio-economic, cultural and political considerations are explored and important conceptual approaches such as Gaian hypotheses and Chaos Theory are introduced. Human impact and management of the natural environment, and concerns for maintaining biodiversity are emphasised throughout. Specific features include: * Case studies drawn from across the world * Superb illustrations: 4-colour plate sections; a wealth of informative diagrams * Glossary of key terms, with key concepts highlighted throughout the text * Annotated guides to Further Reading * Chapter summaries and key points A new Instructors' Manual is available to accompany the text
An Introduction to Global Spectral Modeling
by T. N. Krishnamurti H. S. Bedi V. M. HardikerThis book is an indispensable guide to the methods used by nearly all major weather forecast centers in the United States, England, Japan, India, France, and Australia. Designed for senior-level undergraduates and first-year graduate students, the book provides an introduction to global spectral modeling. It begins with an introduction to elementary finite-difference methods and moves on towards the gradual description of sophisticated dynamical and physical models in spherical coordinates. Topics include computational aspects of the spectral transform method, the planetary boundary layer physics, the physics of precipitation processes in large-scale models, the radiative transfer including effects of diagnostic clouds and diurnal cycle, the surface energy balance over land and ocean, and the treatment of mountains. The discussion of model initialization includes the treatment of normal modes and physical processes, and the concluding chapter covers the spectral energetics as a diagnostic tool for model evaluation.
An Introduction to Global Spectral Modeling (Atmospheric and Oceanographic Sciences Library #35)
by T.N. Krishnamurti H.S. Bedi V. Hardiker Leela Watson-RamaswamyThis is an introductory textbook on global spectral modeling designed for senior-level undergraduates and possibly for first-year graduate students. This text starts with an introduction to elementary finite-difference methods and moves on towards the gradual description of sophisticated dynamical and physical models in spherical coordinates. Computational aspects of the spectral transform method, the planetary boundary layer physics, the physics of precipitation processes in large-scale models, the radiative transfer including effects of diagnostic clouds and diurnal cycle, the surface energy balance over land and ocean, and the treatment of mountains are some issues that are addressed. The topic of model initialization includes the treatment of normal modes and physical processes. A concluding chapter covers the spectral energetics as a diagnostic tool for model evaluation. This revised second edition of the text also includes three additional chapters. Chapter 11 deals with the formulation of a regional spectral model for mesoscale modeling which uses a double Fourier expansion of data and model equations for its transform. Chapter 12 deals with ensemble modeling. This is a new and important area for numerical weather and climate prediction. Finally, yet another new area that has to do with adaptive observational strategies is included as Chapter 13. It foretells where data deficiencies may reside in model from an exploratory ensemble run of experiments and the spread of such forecasts.
Introduction to Global Variational Geometry (Atlantis Studies in Variational Geometry #1)
by Demeter KrupkaThe book is devoted to recent research in the global variational theory on smooth manifolds. Its main objective is an extension of the classical variational calculus on Euclidean spaces to (topologically nontrivial) finite-dimensional smooth manifolds; to this purpose the methods of global analysis of differential forms are used. Emphasis is placed on the foundations of the theory of variational functionals on fibered manifolds - relevant geometric structures for variational principles in geometry, physical field theory and higher-order fibered mechanics. The book chapters include: - foundations of jet bundles and analysis of differential forms and vector fields on jet bundles, - the theory of higher-order integral variational functionals for sections of a fibred space, the (global) first variational formula in infinitesimal and integral forms- extremal conditions and the discussion of Noether symmetries and generalizations,- the inverse problems of the calculus of variations of Helmholtz type- variational sequence theory and its consequences for the global inverse problem (cohomology conditions)- examples of variational functionals of mathematical physics. Complete formulations and proofs of all basic assertions are given, based on theorems of global analysis explained in the Appendix.
Introduction to GNSS Geodesy: Foundations of Precise Positioning Using Global Navigation Satellite Systems
by Clement A. OgajaIntroduction to GNSS Geodesy is a concise reference for beginners and experts in GNSS-based satellite geodesy. It covers all of the important concepts in almost a third of the space of the other GNSS books. Th e book begins with a case study in Augmented Reality to set the stage for what is to come and then moves on to the key elements of GNSS geodesy that make accurate and precise geopositioning possible. For example, it is important to understand the geodetic reference systems and the associated GNSS data processing strategies that enable both accurate and high-precision geopositioning. Chapter 2 gives an overview of GNSS constellations and signals, highlighting important characteristics. Chapter 3 then introduces reference systems in geodesy, covering such topics as time systems, geodetic datums, coordinate systems, coordinate conversions and transformations, and International Terrestrial Reference Frame. Th is lays the framework for the rest of the book. Chapters 4 and 5 dig deep into mathematical formulation of GNSS parameter estimation and observation models. All the concepts are presented clearly and concisely, with diagrams to assist reader comprehension. Chapter 6 describes Continuously Operating Reference Station (CORS) networks and their role in geodesy and definition of reference frames. Various global and regional CORS networks are presented in this section. Th e chapter also covers GNSS data and common formats such as RINEX and RTCM. Chapter 7 introduces the whole cycle of GNSS data processing, including preprocessing, ambiguity fixing, and solution reprocessing methods as commonly used in both epoch solutions and time series data. Th e book concludes with appendices on orbit modelling, GNSS linear combinations, application examples, and an example linear model.
Introduction to Gravitational Lensing: With Python Examples (Lecture Notes in Physics #956)
by Massimo MeneghettiThis book introduces the phenomenology of gravitational lensing in an accessible manner and provides a thorough discussion of the related astrophysical applications. It is intended for advanced undergraduates and graduate students who want to start working in this rapidly evolving field. This includes also senior researchers who are interested in ongoing or future surveys and missions such as DES, Euclid, WFIRST, LSST. The reader is guided through many fascinating topics related to gravitational lensing like the structure of our galaxy, the searching for exoplanets, the investigation of dark matter in galaxies and galaxy clusters, and several aspects of cosmology, including dark energy and the cosmic microwave background. The author, who has gained valuable experience as academic teacher, guides the readers towards the comprehension of the theory of gravitational lensing and related observational techniques by using simple codes written in python. This approach, beyond facilitating the understanding of gravitational lensing, is preparatory for learning the python programming language which is gaining large popularity both in academia and in the private sector.
Introduction to Hamiltonian Dynamical Systems and the N-Body Problem (Applied Mathematical Sciences #90)
by Kenneth Meyer Glen HallThe theory of Hamiltonian systems is a vast subject which can be studied from many different viewpoints. This book develops the basic theory of Hamiltonian differential equations from a dynamical systems point of view. That is, the solutions of the differential equations are thought of as curves in a phase space and it is the geometry of these curves that is the important object of study. The analytic underpinnings of the subject are developed in detail. The last chapter on twist maps has a more geometric flavor. It was written by Glen R. Hall. The main example developed in the text is the classical N-body problem, i.e., the Hamiltonian system of differential equations which describe the motion of N point masses moving under the influence of their mutual gravitational attraction. Many of the general concepts are applied to this example. But this is not a book about the N-body problem for its own sake. The N-body problem is a subject in its own right which would require a sizable volume of its own. Very few of the special results which only apply to the N-body problem are given.
Introduction to Hamiltonian Dynamical Systems and the N-Body Problem (Applied Mathematical Sciences #90)
by Kenneth Meyer Glen Hall Dan Offin
Introduction to Hamiltonian Dynamical Systems and the N-Body Problem (Applied Mathematical Sciences #90)
by Kenneth R. Meyer Daniel C. OffinThis third edition text provides expanded material on the restricted three body problem and celestial mechanics. With each chapter containing new content, readers are provided with new material on reduction, orbifolds, and the regularization of the Kepler problem, all of which are provided with applications. The previous editions grew out of graduate level courses in mathematics, engineering, and physics given at several different universities. The courses took students who had some background in differential equations and lead them through a systematic grounding in the theory of Hamiltonian mechanics from a dynamical systems point of view.This text provides a mathematical structure of celestial mechanics ideal for beginners, and will be useful to graduate students and researchers alike. Reviews of the second edition:"The primary subject here is the basic theory of Hamiltonian differential equations studied from the perspective of differential dynamical systems. The N-body problem is used as the primary example of a Hamiltonian system, a touchstone for the theory as the authors develop it. This book is intended to support a first course at the graduate level for mathematics and engineering students. … It is a well-organized and accessible introduction to the subject … . This is an attractive book … ." (William J. Satzer, The Mathematical Association of America, March, 2009) “The second edition of this text infuses new mathematical substance and relevance into an already modern classic … and is sure to excite future generations of readers. … This outstanding book can be used not only as an introductory course at the graduate level in mathematics, but also as course material for engineering graduate students. … it is an elegant and invaluable reference for mathematicians and scientists with an interest in classical and celestial mechanics, astrodynamics, physics, biology, and related fields.” (Marian Gidea, Mathematical Reviews, Issue 2010 d)
Introduction to Hamiltonian Fluid Dynamics and Stability Theory
by Gordon E SwatersHamiltonian fluid dynamics and stability theory work hand-in-hand in a variety of engineering, physics, and physical science fields. Until now, however, no single reference addressed and provided background in both of these closely linked subjects. Introduction to Hamiltonian Fluid Dynamics and Stability Theory does just that-offers a comprehensive introduction to Hamiltonian fluid dynamics and describes aspects of hydrodynamic stability theory within the context of the Hamiltonian formalism.The author uses the example of the nonlinear pendulum-giving a thorough linear and nonlinear stability analysis of its equilibrium solutions-to introduce many of the ideas associated with the mathematical argument required in infinite dimensional Hamiltonian theory needed for fluid mechanics. He examines Andrews' Theorem, derives and develops the Charney-Hasegawa-Mima (CMH) equation, presents an account of the Hamiltonian structure of the Korteweg-de Vries (KdV) equation, and discusses the stability theory associated with the KdV soliton.The book's tutorial approach and plentiful exercises combine with its thorough presentations of both subjects to make Introduction to Hamiltonian Fluid Dynamics and Stability Theory an ideal reference, self-study text, and upper level course book.
Introduction to Hamiltonian Fluid Dynamics and Stability Theory (Monographs And Surveys In Pure And Applied Mathematics Ser. #102)
by Gordon E SwatersHamiltonian fluid dynamics and stability theory work hand-in-hand in a variety of engineering, physics, and physical science fields. Until now, however, no single reference addressed and provided background in both of these closely linked subjects. Introduction to Hamiltonian Fluid Dynamics and Stability Theory does just that-offers a comprehensive introduction to Hamiltonian fluid dynamics and describes aspects of hydrodynamic stability theory within the context of the Hamiltonian formalism.The author uses the example of the nonlinear pendulum-giving a thorough linear and nonlinear stability analysis of its equilibrium solutions-to introduce many of the ideas associated with the mathematical argument required in infinite dimensional Hamiltonian theory needed for fluid mechanics. He examines Andrews' Theorem, derives and develops the Charney-Hasegawa-Mima (CMH) equation, presents an account of the Hamiltonian structure of the Korteweg-de Vries (KdV) equation, and discusses the stability theory associated with the KdV soliton.The book's tutorial approach and plentiful exercises combine with its thorough presentations of both subjects to make Introduction to Hamiltonian Fluid Dynamics and Stability Theory an ideal reference, self-study text, and upper level course book.
An Introduction to Hamiltonian Mechanics (Birkhäuser Advanced Texts Basler Lehrbücher)
by Gerardo F. Torres del CastilloThis textbook examines the Hamiltonian formulation in classical mechanics with the basic mathematical tools of multivariate calculus. It explores topics like variational symmetries, canonoid transformations, and geometrical optics that are usually omitted from an introductory classical mechanics course. For students with only a basic knowledge of mathematics and physics, this book makes those results accessible through worked-out examples and well-chosen exercises.For readers not familiar with Lagrange equations, the first chapters are devoted to the Lagrangian formalism and its applications. Later sections discuss canonical transformations, the Hamilton–Jacobi equation, and the Liouville Theorem on solutions of the Hamilton–Jacobi equation. Graduate and advanced undergraduate students in physics or mathematics who are interested in mechanics and applied math will benefit from this treatment of analytical mechanics. The text assumes the basics of classical mechanics, as well as linear algebra, differential calculus, elementary differential equations and analytic geometry. Designed for self-study, this book includes detailed examples and exercises with complete solutions, although it can also serve as a class text.
An Introduction to Heavy-Tailed and Subexponential Distributions (Springer Series in Operations Research and Financial Engineering)
by Sergey Foss Dmitry Korshunov Stan ZacharyHeavy-tailed probability distributions are an important component in the modeling of many stochastic systems. They are frequently used to accurately model inputs and outputs of computer and data networks and service facilities such as call centers. They are an essential for describing risk processes in finance and also for insurance premia pricing, and such distributions occur naturally in models of epidemiological spread. The class includes distributions with power law tails such as the Pareto, as well as the lognormal and certain Weibull distributions.One of the highlights of this new edition is that it includes problems at the end of each chapter. Chapter 5 is also updated to include interesting applications to queueing theory, risk, and branching processes. New results are presented in a simple, coherent and systematic way.Graduate students as well as modelers in the fields of finance, insurance, network science and environmental studies will find this book to be an essential reference.
An Introduction to Heavy-Tailed and Subexponential Distributions (Springer Series in Operations Research and Financial Engineering #38)
by Dmitry Korshunov Stan Zachary Sergey FossThis monograph provides a complete and comprehensive introduction to the theory of long-tailed and subexponential distributions in one dimension. New results are presented in a simple, coherent and systematic way. All the standard properties of such convolutions are then obtained as easy consequences of these results. The book focuses on more theoretical aspects. A discussion of where the areas of applications currently stand in included as is some preliminary mathematical material. Mathematical modelers (for e.g. in finance and environmental science) and statisticians will find this book useful.
An Introduction to Hilbert Space and Quantum Logic (Problem Books in Mathematics)
by David W. CohenHistorically, nonclassical physics developed in three stages. First came a collection of ad hoc assumptions and then a cookbook of equations known as "quantum mechanics". The equations and their philosophical underpinnings were then collected into a model based on the mathematics of Hilbert space. From the Hilbert space model came the abstaction of "quantum logics". This book explores all three stages, but not in historical order. Instead, in an effort to illustrate how physics and abstract mathematics influence each other we hop back and forth between a purely mathematical development of Hilbert space, and a physically motivated definition of a logic, partially linking the two throughout, and then bringing them together at the deepest level in the last two chapters. This book should be accessible to undergraduate and beginning graduate students in both mathematics and physics. The only strict prerequisites are calculus and linear algebra, but the level of mathematical sophistication assumes at least one or two intermediate courses, for example in mathematical analysis or advanced calculus. No background in physics is assumed.
Introduction to Homeland Security: Principles of All-Hazards Risk Management
by Damon P. Coppola Jane A. Bullock George D. HaddowWritten by renowned experts, Introduction to Homeland Security, Sixth Edition, informs users about the concepts and bedrock principles of homeland security. Readers will gain a solid appreciation of the broad range of topics that fall within the expanse of the homeland security umbrella and understand how and why they are so closely interconnected. The text will also provide an overview of the evolutionary process behind modern homeland security structures, which helps users to understand why certain functions exist and how they contribute to national and local security efforts. Unlike most books that focus solely on terrorism, this text covers an expansive range of homeland security topics including all-hazards emergency management, cybersecurity, border and transportation security, immigration and customs enforcement, and others.• Updated material to cover new developments in the field such as increased terror attacks, cybersecurity safeguards, and administrative changes• Balanced account of homeland security in all of its aspects• Authoritative voices from content experts• Critical thinking exercises included for each topic
An Introduction to Human Geography 5th edn
by Prof Peter Daniels Prof Michael Bradshaw Dr Denis Shaw Prof James Sidaway Prof Tim HallThe fifth edition of this widely used text provides a global overview of the major topics within human geography, including food security and population, geopolitics and territory, inequality and power, production, consumption, the global financial system, governance and now a new chapter on citizenship. Substantial and comprehensively updated chapters ensure balanced treatment across the range of contemporary human geography.
An Introduction to Human Geography 5th edn
by Prof Peter Daniels Prof Michael Bradshaw Dr Denis Shaw Prof James Sidaway Prof Tim HallThe fifth edition of this widely used text provides a global overview of the major topics within human geography, including food security and population, geopolitics and territory, inequality and power, production, consumption, the global financial system, governance and now a new chapter on citizenship. Substantial and comprehensively updated chapters ensure balanced treatment across the range of contemporary human geography.
Introduction to Industrial Minerals
by D.A.C. ManningIntroduction to Industrial Minerals introduces the reader to the subject of the new mineral raw materials that our society demands. It emphasizes the way in which, in order to satisfy the consumer, the requirements of industry control mineral exploitation, and the way fundamental mineral properties are exploited for particular applications. It describes aggregates, industrial clays and raw materials for the chemical industry. The need for high temperature processing is addressed with a chapter on interpretation and use of mineralogical phase diagrams and time-temperature-transformation diagrams. These are then applied in separate chapters on the manufacture of glass, cement, brick clays and refractories. Evaluation of geological reserves is described in the context of computer modelling of deposit quality, and the final chapter considers the use of a site after extraction, emphasizing the requirements for waste disposal.
An Introduction to Integrable Techniques for One-Dimensional Quantum Systems (Lecture Notes in Physics #940)
by Fabio FranchiniThis book introduces the reader to basic notions of integrable techniques for one-dimensional quantum systems. In a pedagogical way, a few examples of exactly solvable models are worked out to go from the coordinate approach to the Algebraic Bethe Ansatz, with some discussion on the finite temperature thermodynamics.The aim is to provide the instruments to approach more advanced books or to allow for a critical reading of research articles and the extraction of useful information from them. We describe the solution of the anisotropic XY spin chain; of the Lieb-Liniger model of bosons with contact interaction at zero and finite temperature; and of the XXZ spin chain, first in the coordinate and then in the algebraic approach. To establish the connection between the latter and the solution of two dimensional classical models, we also introduce and solve the 6-vertex model. Finally, the low energy physics of these integrable models is mapped into the corresponding conformal field theory. Through its style and the choice of topics, this book tries to touch all fundamental ideas behind integrability and is meant for students and researchers interested either in an introduction to later delve in the advance aspects of Bethe Ansatz or in an overview of the topic for broadening their culture.
Introduction to International Disaster Management
by Damon P. CoppolaIntroduction to International Disaster Management, Fourth Edition, offers an unbiased, global perspective for students and practitioners alike. It provides a comprehensive understanding of the disaster management profession, covering the varied sources of risk and vulnerability, the systems that exist to manage hazard risk, and the many different stakeholders involved, from individuals to global organizations. This text also serves as a reference on scores of disaster management topics, including various technological and intentional hazards, on international disaster management structures and systems, on global humanitarian spending and support, and much more. Taking a real-world approach with considerable illustration through case studies and recent and historical disaster events, this book prepares students interested in joining the disaster management community to understand the work they will be doing. In addition, it assists those who already work with the disaster management community by helping them better navigate this complex environment. Includes sections on the Ebola epidemic, the Nepal Earthquake, the 2015/2016 Western U.S. Wildfires, the Indonesia Palm Oil Fires, Hurricanes Harvey, Irma and Maria, the Mexico City Earthquake, emerging hazards like trash avalanches, and moreProvides a valuable introduction on the groundbreaking Sendai Framework for Disaster Risk Reduction (2015-2030) signed in March of 2015, along with an explanation of the relationship of this effort to Sustainable Development Goals and the Paris AgreementExplores the importance of global disaster risk reduction Covers key terms and chapter summaries, as well as instructor resources, support learning and instruction
Introduction to International Disaster Management
by Damon P. CoppolaIntroduction to International Disaster Management, Third Edition, continues to serve as the leading comprehensive overview of global emergency management. This edition provides practitioners and students alike with a comprehensive understanding of the disaster management profession by utilizing a global perspective and including the different sources of risk and vulnerability, the systems that exist to manage hazard risk, and the many different stakeholders involved. This update examines the impact of many recent large-scale and catastrophic disaster events on countries and communities, as well as their influence on disaster risk reduction efforts worldwide. It also expands coverage of small-island developing states (SIDS) and explores the achievements of the United Nations Hyogo Framework for Action (2005–2015) and the priorities for action in the Post-2015 Framework for Disaster Risk Reduction currently under development. This useful, relevant text includes many changes that have occurred since the last edition for a better understanding of the rapidly advancing field of international disaster management.Includes updated perspectives on recent events that have shaped the direction emergency management is taking todayExamines outcomes of the Hyogo Framework for Action (HFA) decade, such as insight into how disaster risk reduction has advanced globally, and how it differs among countries and regionsUpdated statistics on disaster frequency and impact provide a better understanding about how and why risk and vulnerability are changingPresents information on multilateral emergency management agreements as well as profiles of important NGOs and international organizationsKey terms and summaries are provided at the beginning of each chapter to ease student comprehensionOffers customized and updated instructor materials, including PowerPoint lecture slides, test banks, and a detailed instructor's guide