New paradigms in subsurface prediction : characterization of the shallow subsurface implications for urban infrastructure and environmental assessment
著者
書誌事項
New paradigms in subsurface prediction : characterization of the shallow subsurface implications for urban infrastructure and environmental assessment
(Lecture notes in earth sciences, 99)
Springer, c2003
大学図書館所蔵 全1件
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  福島
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  埼玉
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  東京
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  新潟
  富山
  石川
  福井
  山梨
  長野
  岐阜
  静岡
  愛知
  三重
  滋賀
  京都
  大阪
  兵庫
  奈良
  和歌山
  鳥取
  島根
  岡山
  広島
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  徳島
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  愛媛
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  福岡
  佐賀
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注記
Includes bibliographical references and index
内容説明・目次
内容説明
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.
目次
Fundamentals.- Characterisation of the shallow subsurface: implications for urban infrastructure and environmental assessment.- Bridging the gap between geoscience providers and the user community.- Definition of the modelling technologies.- New paradigms for geoscience information management.- End-User Requirements.- Putting the user first: implications for subsurface characterisation.- What are the end-user issues? Settlement risk management in underground construction.- Data requirements for geo-environmental management: end-user and producer perspectives for a harbour.- A decision support system for groundwater: water management issues for opencast mining.- Model Construction and Visualisation.- Visualisation: are the images really useful?.- Numerical schemes for process simulation: software for coupling pattern recognition to process modelling.- Regional subsurface models and their practical usage.- Slope stability estimation using GIS.- Using 2D GIS for the 3D reconstruction of the Corno Zuccone sackung, Val Taleggio (Italy).- Sedimentation modelling: data analysis in Rotterdam Harbour.- Fluid flow in fractured formations.- Effect of strain-softening on settlement due to tunnelling in soft soil.- Dissemination Strategies.- Dissemination of geoscience data: societal implications.- An economic model for the dissemination of national geological survey products and services.- Access to national geoscience repositories using digital geoscience spatial models.- Dissemination and visualisation of earth system models for the Dutch subsurface.- Property Prediction.- Total Geological History: a web-based modelling approach to the anticipation, observation and understanding of site conditions.- 3D modelling system for ground engineering.- Rock mass quality assessment based on deformation: experience from recent tunnels.- Improving subsurface parameter estimation through guiding geophysical inversions with a priori geological data.- Characterisation of void space utilising pore network models.- Assisting data interpretation: the cone penetration test.- Managing Uncertainty.- Impact of geoinformatics on the emerging Geoscience Knowledge Integration Paradigm.- Assessment of uncertainties in volume and yield estimations of clastic deposits.- Uncertainty with characterisation of soils.- Analysing uncertainty when modelling geological structures.- Uncertainty characterisation: reliability methods for slope stability.- The Way Ahead.- Current themes, issues and challenges concerning the prediction of subsurface conditions.- The Global Geoscientific Knowledge Network: overcoming the impediments to subsurface characterisation.
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