Three-Dimensional Modeling with Geoscientific Information Systems
Three-Dimensional Modeling with Geoscientific Information Systems

Author: A.K. Turner

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 446

ISBN-13: 9401125562

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A. K. TURNER Department of Geology and Geological Engineering Colorado School of Mines Golden, Colorado 80401 USA Geology deals with three-dimensional data. Geoscientists are concerned with three dimensional spatial observations, measurements, and explanations of a great variety of phenomena. The representation of three-dimensional data has always been a problem. Prior to computers, graphical displays involved specialized maps, cross-sections, fence diagrams, and geometrical constructions such as stereonets. All were designed to portray three-dimensional relationships on two-dimensional paper products, and all were time consuming to develop. Until recently, computers were of little assistance to three-dimensional data handling and representation problems. Memory was too expensive to handle the huge amounts of data required by three-dimensional assessments; computational speeds were too slow to perform the necessary calculations within a reasonable time; and graphical displays had too Iowa resolution or were much too expensive to produce useful visualizations. Much experience was gained with two-dimensional geographic information systems (GIS), which were applied to many land-use management and resource assessment problems. The two-dimensional GIS field matured rapidly in the late 1980's and became widely accepted. The advent of the modern computer workstation, with its enhanced memory and graphical capabilities at ever more affordable prices, has largely overcome these earlier constraints.

On the Way to Component-Based 3D/4D Geoinformation Systems
On the Way to Component-Based 3D/4D Geoinformation Systems

Author: Martin Breunig

Publisher: Springer

Published: 2008-01-26

Total Pages: 206

ISBN-13: 3540449507

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The book deals with two central themes: data modeling and management for 3D objects during different time states and the operning of geoinformation systems to a new generation of component-based GIS. The way from first geo-database kernel systems to a component-based GeoToolKit is presented. Furthermore, the implementation of a component-based GIS with geological and geophysical applications is described. With the common data access to a geo-database the geological and the geophysical application are brought closer together and profit from each others interpretations of the data.

Subsurface Conditions
Subsurface Conditions

Author: Keith Turner

Publisher: Springer

Published: 2008-01-26

Total Pages: 418

ISBN-13: 3540480196

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Characterisation of the shallow subsurface has gained in importance as civil and geotechnical engineering and environmental applications have become more dependent on a precise definition of geomechanical and geohydrological properties. A better understanding of the subsurface conditions offers wide-ranging benefits to governments, industry and individual citizens. Subsurface geological modelling became an economic and technologic reality in the late 1980's, when competing 3-D geoscientific information systems were the subject of considerable research and evaluation, especially by the petroleum exploration industry. Investigations in the shallow subsurface impose additional requirements that have only recently become technically and economically achievable. The very shallow urban underground environment, where many infrastructure and utilities elements are located, presents the most difficult characterisation problems. Subsurface modelling techniques have matured, along with modern data base concepts. The evolution of the Internet and Web-browser technologies has expanded information transmission and dissemination capabilities. Subsurface models are being integrated with decision-support systems to provide predictions of technical and economic performance. Yet even the most sophisticated of these models leave some uncertainty in geologic interpretation. A variety of techniques for assessing uncertainty have been developed and are being evaluated.

Three Dimensional Applications In GIS
Three Dimensional Applications In GIS

Author: Jonathan Raper

Publisher: CRC Press

Published: 2020-07-24

Total Pages: 218

ISBN-13: 1000162915

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Provides a survey of the approaches used and the problems encountered in the model of real geophysical data.

Planning the Use of the Earth’s Surface
Planning the Use of the Earth’s Surface

Author: Antonio Cendrero

Publisher: Springer

Published: 2006-04-11

Total Pages: 376

ISBN-13: 354047031X

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The purpose of this book is to analyse and discuss a series of topics related with environmental conservation, land-use planning and management and impact prevention as seen from the perspective of the Earth Sciences, but with an inte- grated, interdisciplinary approach. The contributions included in the book intend to give an overview of existing problems and trends and to point out certain lines along which work and/or actions will be par- ticularly needed in the near future. In short, they intend to show where we stand now with regard to those problems and in what direction we should move. Readers will find particularly useful the brief presentation of a variety of important environmental earth science top- ics, the description of the present state of the art and the suggestions for methodological approaches to solve different problems, as well as the guidelines for action presented throughout the book.

Multidimensional Geographic Information Science
Multidimensional Geographic Information Science

Author: Jonathan Raper

Publisher: CRC Press

Published: 2000-11-23

Total Pages: 344

ISBN-13: 9780748405060

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The way people normally view a GIS is 2-dimensional, a greatly limiting form. However, as developments occur within the field, researchers and practitioners are finding ways to make a GIS 3-dimensional, and in some instances even 4-dimensional. Being able to view a GIS in more than 2 dimensions greatly enhances its usability. This forward-looking text, looks at the ways in which 3- and 4-dimensional (multidimensional) GIS can be incorporated into the area in the future using a variety of programming techniques. The author of this unique book also discusses current examples and uses of multidimensional GIS in the field and shows the way forward for users in the coming years.

Integration of Spatial Information for Geo-information Systems
Integration of Spatial Information for Geo-information Systems

Author: Martin Breunig

Publisher:

Published: 1996

Total Pages: 192

ISBN-13:

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This book presents a model for the integration of spatial information for 3D Geo-Information Systems (3D-GISs). Former Geo-Information Systems are restricted to 2D space. They execute the integration of spatial information by conversion of vector and raster representations. This, however, leads to conceptual difficulties because of the totally different paradigms. After an introduction to the history and architecture of Geo-Information Systems this book examines spatial representations in 2D and 3D space regarding their suitability in 3D-GISs. A three-level notion of space serves as a basis of a model for the integration of spatial information. It likewise takes into account the geometry, metrics and the topology of geo-objects.