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This book gives a comprehensive overview of all relevant elements in topography and their practical application. It elaborates on the classical representation of terrain on maps such as cartographic projections, together with their classification, scale, and geographical elements. It is richly illustrated with photographs, maps and figures, in which the theoretical explanations are clarified. Readers will become acquainted with the physical characteristics of the ground, i.e. tectonic and erosive shapes, the importance and classification of terrain, genetic (fluvial, abrasive, glacial, karst) and topographic types such as higher (mountains, hills, peaks) and lower terrain (valleys, fields). In addition, the book discusses cartometry and coordinate systems, orientation in space (geographic, topographic, tactical) including by means of maps, instruments and the night sky and elaborates new techniques and technologies such as aerial photogrammetric imagery, global navigation satellite systems and LiDAR. The book also includes methods for the practical execution of concrete measurement operations, such as determining position and movement on land with maps, compass and azimuth which makes it especially useful for practitioners and professionals, e.g., for landscape planning, military exercises, mountaineering, nature walks etc. As such it offers a valuable guide not only for undergraduate students but also for researchers in the fields of geography, geosciences, geodesy, ecology, forestry and related areas looking for an overview on topography. Uniquely, the book also features an extensive glossary of topographical terms.
The COVID-19 pandemic has re-ignited discussions of how architects, landscapes, and urban planners can shape the environment in response to disease. This challenge is both a timely topic and one with an illuminating history. In The Topography of Wellness, Sara Jensen Carr offers a chronological narrative of how six epidemics transformed the American urban landscape, reflecting changing views of the power of design, pathology of disease, and the epidemiology of the environment. From the infectious diseases of cholera and tuberculosis, to so-called "social diseases" of idleness and crime, to the more complicated origins of today's chronic diseases, each illness and its associated combat strategies has left its mark on our surroundings. While each solution succeeded in eliminating the disease on some level, sweeping environmental changes often came with significant social and physical consequences. Even more unexpectedly, some adaptations inadvertently incubated future epidemics. From the Industrial Revolution to present day, this book illuminates the constant evolution of our relationship to wellness and the environment by documenting the shifting grounds of illness and the urban landscape.
Third-year and postgraduate courses in physical geography, environmental studies and environmental science, particularly course units in geomorphology, climatology, pedology, biogeography, ecology; landscape ecology, GIS and remote sensing, and environmental modelling. This is the first book of its kind, focusing on topographic influences on environmental components. As a comprehensive introduction to the subject, Topography and the environment discusses the main facets of topography, including new and old ideas, models, methods, and theories, and identifies four different approaches to topography as an environmental factor: the physical ground surface; all the features of the Earth's surface, including the human-made; topographically based modelling, developed in association with geographical information systems (GIS); and the idea of place as a human construct. The authors then explore individual topographic influences on environmental elements such as climate, water, soils and plants. Accessible and wide ranging, it helps students understand the intrinsic links and the crossdisciplinary nature of physical systems and processes.
Want to know just how tall Mount Everest is? Or what the city of Denver's elevation is? Then look at a topographic map! These maps use lines to show the height and shape of Earth's surface. But how do you read the lines? And what other features do these maps have? Read on to learn the ins and outs of topographic maps!
The measurement and characterisation of surface topography is crucial to modern manufacturing industry. The control of areal surface structure allows a manufacturer to radically alter the functionality of a part. Examples include structuring to effect fluidics, optics, tribology, aerodynamics and biology. To control such manufacturing methods requires measurement strategies. There is now a large range of new optical techniques on the market, or being developed in academia, that can measure areal surface topography. Each method has its strong points and limitations. The book starts with introductory chapters on optical instruments, their common language, generic features and limitations, and their calibration. Each type of modern optical instrument is described (in a common format) by an expert in the field. The book is intended for both industrial and academic scientists and engineers, and will be useful for undergraduate and postgraduate studies.
Corneal topography has become essentially a pattern recognition trade, best learned by viewing multiple images of representative patterns. In spite of this, currently available topography books focus only on the technology behind topography, or a particular application of topography, as opposed to presenting a comprehensive collection of topographic patterns that provide quick, consistent pattern recognition and identification. Drs. Wang and Kugler, along with Drs. Morgan and Boerman, look to fill this void with Atlas and Clinical Reference Guide for Corneal Topography. Atlas and Clinical Reference Guide for Corneal Topography is the first corneal topography book that lends itself to efficient image search and reference for busy clinicians at chair side. Organized into both map-based and disease-based sections, the book allows for quick reference in busy clinical situations. Images come from the commonly used topographers, the Zeiss Atlas and the Oculus Pentacam, but the principles of pattern recognition can be applied to any topographer. Due to the text’s large collection of topographic images and corresponding corneal conditions, Atlas and Clinical Reference Guide for Corneal Topography can be used side by side with the topographer. Designed as both a learning tool for students and a reference for clinicians to use when faced with a challenging topography interpretation, Atlas and Clinical Reference Guide for Corneal Topography will be appreciated by a wide spectrum of eye care professionals. General ophthalmologists, cataract and refractive surgeons, corneal specialists, optometrists, and ophthalmology residents and students will benefit from this invaluable atlas for corneal topography.
Mathematical morphology has developed a powerful methodology for segmenting images, based on connected filters and watersheds. We have chosen the abstract framework of node- or edge-weighted graphs for an extensive mathematical and algorithmic description of these tools. Volume 2 proposes two physical models for describing valid flooding on a node- or edge-weighted graph, and establishes how to pass from one to another. Many new flooding algorithms are derived, allowing parallel and local flooding of graphs. Watersheds and flooding are then combined for solving real problems. Their ability to model a real hydrographic basin represented by its digital elevation model constitutes a good validity check of the underlying physical models. The last part of Volume 2 explains why so many different watershed partitions exist for the same graph. Marker-based segmentation is the method of choice for curbing this proliferation. This book proposes new algorithms combining the advantages of the previous methods which treated node- and edge-weighted graphs differently.
The recent financial crisis and the difficulty of using mainstream macroeconomic models to accurately monitor and assess systemic risk have stimulated new analyses of how we measure economic activity and the development of more sophisticated models in which the financial sector plays a greater role. Markus Brunnermeier and Arvind Krishnamurthy have assembled contributions from leading academic researchers, central bankers, and other financial-market experts to explore the possibilities for advancing macroeconomic modeling in order to achieve more accurate economic measurement. Essays in this volume focus on the development of models capable of highlighting the vulnerabilities that leave the economy susceptible to adverse feedback loops and liquidity spirals. While these types of vulnerabilities have often been identified, they have not been consistently measured. In a financial world of increasing complexity and uncertainty, this volume is an invaluable resource for policymakers working to improve current measurement systems and for academics concerned with conceptualizing effective measurement.
Landscape architecture and architecture are two fields that exist in close proximity to one another. Some have argued that the two are, in fact, one field. Others maintain that the disciplines are distinct. These designations are a subject of continual debate by theorists and practitioners alike. Here, David Leatherbarrow offers an entirely new way of thinking of architecture and landscape architecture. Moving beyond partisan arguments, he shows how the two disciplines rely upon one another to form a single framework of cultural meaning. Leatherbarrow redefines landscape architecture and architecture as topographical arts, the shared task of which is to accommodate and express the patterns of our lives. Topography, in his view, incorporates terrain, built and unbuilt, but also traces of practical affairs, by means of which culture preserves and renews its typical situations and institutions. This rigorous argument is supported by nearly 100 illustrations, as well as examples of topography from the sixteenth, eighteenth, and nineteenth centuries, through the heroic period of early modernism, to more recent offerings. A number of these studies revise existing accounts of decisive moments in the history of these disciplines, particularly the birth of the informal garden, the emergence of continuous space in the landscapes and architecture of the modern period, and the new significance of landform or earthwork in contemporary architecture. For readers not directly involved with either of these professions, this book shows how over the centuries our lives have been shaped and enriched by landscape and architecture. Topographical Stories provides a new paradigm for theorizing and practicing landscape and architecture.