Tomography of the earth's crust :
- 出版日期:c2014.
- 出版者:Springer,
- 页数:x, 176 pages :
- 出版地:Cham, Switzerland :
- 第一责任说明:Michael Weber, Ute Munch, editors.
- 尺寸:25 cm
- 分类号:a631
- ISBN:9783319042046 (hardback) :
MARC全文
02h0059196 20150212112524.0 150206s2014 sz ab frb |000|||eng d 9783319042046 (hardback) : CNY1108.69 N$T eng rda ; pn N$T YDXCP ; GW5XE ; COO ; A7U ; OCLCF ; BEDGE ; CN4UL ; CNNGL x------ QE511 551.13 23 a631 aP631.4 v5 Tomography of the earth's crust : from geophysical sounding to real-time monitoring : GEOTECHNOLOGIEN Science Report no. 21/ Michael Weber, Ute Munch, editors. Cham, Switzerland : Springer, c2014. aCham, Switzerland : bSpringer, c2014. x, 176 pages : illustrations (some color), color map ; 25 cm atext btxt 2rdacontent acomputer bc 2rdamedia aonline resource bcr 2rdacarrier Advanced technologies in earth sciences, 2190-1635 Includes bibliographical references. 4D Spectral Electrical Impedance Tomography (EIT) a diagnostic imaging tool for the characterization of subsurface structures and processes (4D-EIT) -- From Airborne Data Inversion to In-Depth Analysis (AIDA) -- Monitoring and Imaging based on Interferometric Concepts (MIIC) -- Mining Environments: Continuous Monitoring and Simultaneous Inversion (MINE) -- Three-dimensional Multi-Scale and Multi-Method Inversion to Determine the Electrical Conductivity Distribution of the Subsurface Using Parallel Computing Architectures (Multi-EM) -- Multi-Scale S-Wave Tomography for Exploration and Risk Assessment of Development Sites (MuSaWa) -- Seismic Observations for Underground Development (SOUND) -- Toolbox for Applied Seismic Tomography (TOAST) -- Tomographic Methods in Hydrogeology (TOMOME) The research work on the topic of ''Tomography of the Earth's Crust: From Geophysical Sounding to Real-Time Monitoring'' has focused on the development of cross-scale multiparameter methods and their technological application together with the development of innovative field techniques. Seismic wave field inversion theory, diffusion and potential methods were developed and optimized with respect to cost and benefit aspects. This volume summarizes the scientific results of nine interdisciplinary joint projects funded by the German Federal Ministry of Education and Research in the framework of the Research and Development Program GEOTECHNOLOGIEN. Highlights and innovations presented cover many length scales and involve targets ranging from applications in the laboratory, to ground water surveys of heterogeneous aquifer, geotechnical applications like tunnel excavation, coal mine and CO2 monitoring and the imaging and monitoring of tectonic and societally relevant objects as active faults and volcanoes. To study these objects, the authors use the full spectrum of geophysical methods (ultrasonics, seismic and seismology, electromagnetics, gravity, and airborne) in combination with new methods like seismic interferometry, diffuse wave field theory and full-wave-form inversion in 3D and partially also in 4D. Geophysical Sounding to Real-Time Monitoring'' has focused on the development of cross-scale multiparameter methods and their technological application together with the development of innovative field techniques. Seismic wave field inversion theory, diffusion and potential methods were developed and optimized with respect to cost and benefit aspects. This volume summarizes the scientific results of nine interdisciplinary joint projects funded by the German Federal Ministry of Education and Research in the framework of the Research and Development Program GEOTECHNOLOGIEN. Highlights and innovations presented cover many length scales and involve targets ranging from applications in the laboratory, to ground water surveys of heterogeneous aquifer, geotechnical applications like tunnel excavation, coal mine and CO2 monitoring and the imaging and monitoring of tectonic and societally relevant objects as active faults and volcanoes. To study these objects, the authors use the full spectrum of geophysical methods (ultrasonics, seismic and seismology, electromagnetics, gravity, and airborne) in combination with new methods like seismic interferometry, diffuse wave field theory and full-wave-form inversion in 3D and partially also in 4D. 2 monitoring and the imaging and monitoring of tectonic and societally relevant objects as active faults and volcanoes. To study these objects, the authors use the full spectrum of geophysical methods (ultrasonics, seismic and seismology, electromagnetics, gravity, and airborne) in combination with new methods like seismic interferometry, diffuse wave field theory and full-wave-form inversion in 3D and partially also in 4D. Geological cross sections. ; Tomography. ; Imaging systems in geophysics. aWeber, Michael, ; eeditor. ; aMunch, Ute, ; eeditor. Advanced technologies in earth sciences. aCN b010001 EBSCOhost ; SpringerLink http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=704578 ; http://dx.doi.org/10.1007/978-3-319-04205-3 010001 631 W38 gljx1501 rCNY1108.69