First book explaining how to become a Chartered Surveyor Clear guidance on how to understand the requirements of the RICS for the APC and AssocRICS assessments from an experience APC assessor and training consultant Candidates are often willing to spend large sums on training courses; this book represents a great value tool for those that cannot afford a training course

Over the last fifteen years GIS has become a fully-fledged technology, deployed across a range of application areas. However, although computer advances in performance appear to continue unhindered, data volumes and the growing sophistication of analysis procedures mean that performance will increasingly become a serious concern in GIS. Parallel computing offers a potential solution. However, traditional algorithms may not run effectively in a parallel environment, so utilization of parallel technology is not entirely straightforward. This groundbreaking book examines some of the current strategies facing scientists and engineers at this crucial interface of parallel computing and GIS.; The book begins with an introduction to the concepts, terminology and techniques of parallel processing, with particular reference to GIS. High level programming paradigms and software engineering issues underlying parallel software developments are considered and emphasis is given to designing modular reusable software libraries. The book continues with problems in designing parallel software for GIS applications, potential vector and raster data structures and details the algorithmic design for some major GIS operations. An implementation case study is included, based around a raster generalization problem, which illustrates some of the principles involved. Subsequent chapters review progress in parallel database technology in a GIS environment and the use of parallel techniques in various application areas, dealing with both algorithmic and implementation issues.; "Parallel Processing Algorithms for GIS" should be a useful text for a new generation of GIS professionals whose principal concern is the challenge of embracing major computer performance enhancements via parallel computing. Similarly, it should be an important volume for parallel computing professionals who are increasingly aware that GIS offers a major application domain for their technology.

This volume aims to provide a definitive description of the various models of Mission Operations Systems (MOS) available to the Project Manager, the Operations Manager, or to the student, to aid in the understanding and design of a cost-effective mission operations system for future unmanned, remote sensing missions, either Earth-observing or planetary. The text provides an account of the Mission Operations Systems design process and of general principles of the designs themselves. Professionals designing a Mission Operations System, and students of remote sensing or other spacecraft missions who need to know how one is organized and run, should find it useful. NASA's program, the Magellan mission to Venus, is described as a detail MOS case study. The principles expressed in this book can be applied to all types of scientific remote sensing missions to effect an efficient, comprehensive and cost-effective design.

Providing new developments in Geodesy, Cartography, and Geoinformatics

* Written in a fluid and accessible style, replete with exercises; ideal for undergraduate courses * Suitable for students of land surveying and natural science, as well as professionals, but also for map amateurs

The text develops the principal aspects of applied Fourier analysis and methodology with the main goal to inculcate a different way of perceiving global and regional geodetic and geophysical data, namely from the perspective of the frequency, or spectral, domain rather than the spatial domain. The word "methods" in the title is meant to convey that the transformation of a geophysical signal into the spectral domain can be applied for purposes of analysis as well as rapid computation. The text is written for graduate students; however, Chapters 1 through 4 and parts of 5 can also benefit undergraduates who have a solid and fluent knowledge of integral and differential calculus, have some statistical background, and are not uncomfortable with complex numbers. Concepts are developed by starting from the one-dimensional domain and working up to the spherical domain, which is part of every chapter. Many concepts are illustrated graphically with actual geophysical data primarily from signals of gravity, magnetism, and topography.

Geomathematics provides a comprehensive summary of the mathematical principles behind key topics in geophysics and geodesy, covering the foundations of gravimetry, geomagnetics and seismology. Theorems and their proofs explain why physical realities in geoscience are the logical mathematical consequences of basic laws. The book also derives and analyzes the theory and numerical aspects of established systems of basis functions; and presents an algorithm for combining different types of trial functions. Topics cover inverse problems and their regularization, the Laplace/Poisson equation, boundary-value problems, foundations of potential theory, the Poisson integral formula, spherical harmonics, Legendre polynomials and functions, radial basis functions, the Biot-Savart law, decomposition theorems (orthogonal, Helmholtz, and Mie), basics of continuum mechanics, conservation laws, modelling of seismic waves, the Cauchy-Navier equation, seismic rays, and travel-time tomography. Each chapter ends with review questions, with solutions for instructors available online, providing a valuable reference for graduate students and researchers.

Although lunar exploration began in the 1960s, the moon and other planets have many long-standing, unanswered questions about planetary environments, origin, formation and evolution, magnetization of crustal rocks, internal structure, and possible life. However, with the recent development of planetary geodesy and remote sensing with higher spatial and spectral resolution have come new opportunities to explore and understand the moon and planets in greater detail. Written by well-established, international scientists in the planetary science and remote sensing fields, Planetary Geodesy and Remote Sensing presents the latest methods and techniques of planetary geodesy and remote sensing. The book discusses the latest results in planetary science, including theory, methods, measurements, topography, gravity and magnetic field, atmosphere and ionosphere, geomorphology, volcano, craters, internal structure, and water. The book also highlights comparative studies with the earth in the atmosphere, geomorphology, and interiors of the planets. It discusses future missions and future objectives of planetary exploration and science using the latest advances in remote sensing. With chapters contributed by a stellar list of pioneers and experts, the book provides new insight on the application of new technologies and the observations in planetary geodesy. It is suitable for those working in the field as well as for planetary probe designers, engineers, and planetary geologists and geophysicists.

First book explaining how to become a Chartered Surveyor Clear guidance on how to understand the requirements of the RICS for the APC and AssocRICS assessments from an experience APC assessor and training consultant Candidates are often willing to spend large sums on training courses; this book represents a great value tool for those that cannot afford a training course

A concise text presenting the fundamental concepts in Geographical Information Systems (GIS), emphasising an understanding of techniques in management, analysis and graphic display of spatial information. Divided into five parts - the first part reviews the development and application of GIS, followed by a summary of the characteristics and representation of geographical information. It concludes with an overview of the functions provided by typical GIS systems. Part Two introduces co-ordinate systems and map projections, describes methods for digitising map data and gives an overview of remote sensing. Part Three deals with data storage and database management, as well as specialised techniques for accessing spatial data. Spatial modelling and analytical techniques for decision making form the subject of Part Four, while the final part is concerned with graphical representation, emphasising issues of graphics technology, cartographic design and map generalisation.

Although lunar exploration began in the 1960s, the moon and other planets have many long-standing, unanswered questions about planetary environments, origin, formation and evolution, magnetization of crustal rocks, internal structure, and possible life. However, with the recent development of planetary geodesy and remote sensing with higher spatial and spectral resolution have come new opportunities to explore and understand the moon and planets in greater detail. Written by well-established, international scientists in the planetary science and remote sensing fields, Planetary Geodesy and Remote Sensing presents the latest methods and techniques of planetary geodesy and remote sensing. The book discusses the latest results in planetary science, including theory, methods, measurements, topography, gravity and magnetic field, atmosphere and ionosphere, geomorphology, volcano, craters, internal structure, and water. The book also highlights comparative studies with the earth in the atmosphere, geomorphology, and interiors of the planets. It discusses future missions and future objectives of planetary exploration and science using the latest advances in remote sensing. With chapters contributed by a stellar list of pioneers and experts, the book provides new insight on the application of new technologies and the observations in planetary geodesy. It is suitable for those working in the field as well as for planetary probe designers, engineers, and planetary geologists and geophysicists.

A definitive description of the various models of mission operations systems MOS which provides an account of the design process and of the general principles of the designs themselves. The principles described can be applied to all types of scientific remote sensing.

Providing new developments in Geodesy, Cartography, and Geoinformatics

This edition provides the first complete, modern version of John Norden's The Surveyor's Dialogue. Norden's text, a series of dialogues between a fictional surveyor and several interlocutors"including a tenant farmer, an aristocrat landowner, a manorial officer, and a socially mobile land buyer"is remarkable for its unique commentary on the agrarian roots of English capitalism. In his extensive introduction, Mark Netzloff situates the text in relation to a number of early modern contexts. He discusses the use of dialogue and other literary forms in proto-scientific writing and the role of print in the increasing professionalism of early surveyors. Netzloff also examines the impact of capital formation on agrarian and manorial class relations, discussing topics such as popular protest and revolt, cottagers and the rural poor, regionalism and urbanization, and the transformation of the natural environment through deforestation, enclosure, and the appropriation of commons. Alongside a thorough annotation of technical and historical terms, the edition provides a list of textual variants among early modern versions of the text. This critical edition of The Surveyor's Dialogue constitutes an important contribution to early modern scholarship, and it will be invaluable to scholars from a range of fields, including the history of science, economic and agrarian history, and literary and cultural studies.

Contents:
Part1. Introduction 1. Maps and Worlds Part 2. Deconstructing the Map 2. What Do Maps Represent? The Crisis of Representation and the Critique of Cartographic Reason 3. Situated pragmatics: Maps and Mapping as Social Practice Part 3. The Over-Coded World: A Genealogy of Modern Mapping 4. The Cartographic Gaze, Global Visions, and Modalities of Visual Culture 5. Cadasters and Capitalism: The Emergence of a New Map Consciousness 6. Mapping the Geo-Body: State, Territory, and Nation 7. Commodity and Control: Technologies of the Social Body Part 4. Investing Bodies in Depth 8. Cyber-Empires: Cartographic Reason and the Technological Sublime in a Digital Age Part 5. Conclusion 9. Counter-Mappings: Cartographic Reason in the Age of Intelligent Machines and Smart Bombs

The text develops the principal aspects of applied Fourier analysis and methodology with the main goal to inculcate a different way of perceiving global and regional geodetic and geophysical data, namely from the perspective of the frequency, or spectral, domain rather than the spatial domain. The word "methods" in the title is meant to convey that the transformation of a geophysical signal into the spectral domain can be applied for purposes of analysis as well as rapid computation. The text is written for graduate students; however, Chapters 1 through 4 and parts of 5 can also benefit undergraduates who have a solid and fluent knowledge of integral and differential calculus, have some statistical background, and are not uncomfortable with complex numbers. Concepts are developed by starting from the one-dimensional domain and working up to the spherical domain, which is part of every chapter. Many concepts are illustrated graphically with actual geophysical data primarily from signals of gravity, magnetism, and topography.

GIS users and professionals are aware that the accuracy of GIS results cannot be naively based on the quality of the graphical output. Data stored in a GIS will have been collected or measured, classified, generalised, interpreted or estimated, and in all cases this allows the introduction of errors.; With the processing of translation of this data into the GIS itself further propagation or amplification or errors also occur. It is essential that GIS professionals understand these issues systematically if they are to build ever more accurate systems.; In this book the authors decade of study into these problems is brought into focus with an account of the development, application and implementation of error propagation techniques for use in environmental modelling with GIS. Its purpose is to provide a methodology for handling error and error propagation.

The ability to manipulate spatial data in different forms and to extract additional meaning from them is at the heart of GIS, yet genuine spatial analysis tools are rarely incorporated into commercial software, thus seriously limiting their usefulness. The future of GIS technology wil depend largely on the incorporation of more powerful analytical and modelling functions - and there is agreement within the GIS community of the urgent need to address these issues. This text attempts this task. It presents the latest information on incorporating spatial analysis tools into GIS, and includes concepts and applications from both the environmental and socio-econimc sciences.

An understanding of environmental gradients (physical, chemical, hydrological, and biological) is a prerequisite to the accurate delineation of wetland boundaries. Presenting the wide-ranging views of academicians, environmentalists, policy makers, consultants, planners, engineers, hydrologists, biologists, geochemists, ecologists, and conservationists, Wetlands: Environmental Gradients, Boundaries, and Buffers focuses on current topics and research related to wetland delineation; summarizes the main issues of concern; and provides recommendations on research needs.
In addition to integrating the most important research and theoretical aspects, this book includes a strong prescriptive component, providing practicing professionals with specific guidance on defining the true dimensions of a wetland area.

Geoid and its Geophysical Interpretations explains how an accurate geoid can be constructed and used for a variety of applied and theoretical geophysical purposes. The book discusses existing techniques for geoid computation, recently developed mathematical and computational tools designed for applications, and various interpretations. Principles and results are well illustrated. This book will be an excellent reference for geodesists, geophysicists, geophysical prospectors, oceanographers, and researchers and students in geophysics and geodesy.

The sheer scale of it makes the measuring of America extraordinary. Beginning in 1785, it became the largest land survey in history stretching from the Ohio river to the Pacific coast and from Lake Erie to the Mexican border. It prepared the ground for the sale of almost two billion acres, and shaped landscapes and cities across the US more drastically than any event since the last ice age.

Before the survey could begin, there had to be agreement about what kind of measurement should be used. What made the 18th-century debate so critical was the revolution taking place in Western thought as objective, scientific reasoning challenged the traditional, subjective view of the world. A battle began between those (like the British) supporting a centuries-old organic form of measurement (ounces and pounds, yards and acres) and the modernizers, like Thomas Jefferson, who backed a system based on scientific observation.

The effects of the measuring of America on the landscape and people (native and immigrant) were huge and long-lasting; the story itself an exotic blend of narrative history and popular science

How does your cell phone know where you are right now? How is our planet changing due to geodynamic processes and ongoing climate change? How can these changes be precisely measured from space in order to obtain reliable information about the melting of ice sheets or the threat to coastal regions from rising sea levels? This popular science book provides answers to these and many other socially relevant questions. It is aimed at interested nonprofessionals who want to learn more about our fascinating planet, but also at experts in natural sciences. You are taken on an exciting journey through time from the first surveys in ancient times to the satellite era, which is providing us with a global view of our home planet. Illustrative examples demonstrate how deeply global positioning and navigation with satellites pervade our daily life, and what fundamental contributions geodesy makes to understanding the Earth system and determining the effects of climate change. With interview contributions by Gunter Hein, Harald Lesch and Stefan Rahmstorf. This book is a translation of the original German 1st edition Mission Erde by Detlef Angermann et al., published by Springer-Verlag GmbH Germany, part of Springer Nature in 2021. The translation was done with the help of artificial intelligence (machine translation by the service DeepL.com). Content and language were subsequently revised by the authors. Springer Nature works continuously to further the development of tools for the production of books and on the related technologies to support the authors.

This book contributes to the transformative and revolutionary use of small, unmanned vehicle systems for three-dimensional geospatial data acquisition and mapping, which is considered to be a paradigm shift in the science and technology of geomatics. The book presents a systematic and comprehensive approach for the use of small mobile unmanned systems for robotic geomatics research and applications. Emphasis is placed on aerial unmanned mapping systems as aerial data collection provides better perspective and coverage of an area, and offers the ability for targeted coverage.

Originally published in 1925, this book was written following a series of experiments at Cambridge regarding problems arising in the construction of maps from aerial photographs. The text provides a record and description of the experiments, discussing the results in relation to potential choices of method and equipment. Illustrative figures and appendices are included. This book will be of value to anyone with an interest in aerial surveying and the development of mapping.

Uncertainties in GPS Positioning: A Mathematical Discourse describes the calculations performed by a GPS receiver and the problems associated with ensuring that the derived location is a close match to the actual location. Inaccuracies in calculating a location can have serious repercussions, so this book is a timely source for information on this rapidly evolving technology.