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040   $aDip.to Lingue$bita$cA.t.i. Arché s.c.r.l. Pandora Sicilia s.r.l.
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100 1 $aBeckett, Samuel$0131281
245 10$aDisjecta :$bmiscellaneous writings and a dramatic fragment /$cby Samuel Beckett ; edited with a foreword by Ruby Cohn
260   $aLondon :$bCalder,$c1983
300   $a166 p. ;$c20 cm
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100   $a20080714d2009      uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 00$aGeomorphometry$b[electronic resource] $econcepts, software, applications /$fedited by Tomislav Hengl, Hannes I. Reuter
210   $aAmsterdam ;$aBoston $cElsevier$d2009
215   $a1 online resource (796 p.)
225 1 $aDevelopments in soil science ;$v33
300   $aDescription based upon print version of record.
311   $a0-12-374345-1 
320   $aIncludes bibliographical references and index.
327   $aFront cover; Geomorphometry: Concepts, Software, Applications; Copyright page; Contents; Authors; Co-authors; Foreword; Part I: Concepts; Chapter 1. Geomorphometry: A Brief Guide; 1. What is geomorphometry?; 2. The basic principles of geomorphometry; 3. The history of geomorphometry; 4. Geomorphometry today; 5. The ``Baranja Hill'' case study; 6. Summary points; Important sources; Chapter 2. Mathematical and Digital Models of the Land Surface; 1. Conceptual models of the land surface; 2. Digital models of the land surface; 3. The sampling, generation and analysis of land surfaces
327   $a4. Summary pointsImportant sources; Chapter 3. DEM Production Methods and Sources; 1. Ground survey techniques; 2. Remote sensing sources; 3. Frequently-used remote-sensing based DEM products; 4. Summary points; Important sources; Chapter 4. Preparation of DEMs for Geomorphometric Analysis; 1. Introduction; 2. Reducing errors in DEMs; 3. Reduction of errors in parameters and objects; 4. Summary; Important sources; Chapter 5. Geostatistical Simulation and Error Propagation in Geomorphometry; 1. Uncertainty in DEMs; 2. Geostatistical modelling of DEM errors
327   $a3. Methods for error propagation analysis4. Error propagation: Baranja Hill; 5. Summary points; Important sources; Chapter 6. Basic Land-Surface Parameters; 1. Introduction; 2. Local land-surface parameters; 3. Regional land-surface parameters; 4. Summary points; Important sources; Chapter 7. Land-Surface Parameters and Objects in Hydrology; 1. Hydrological modelling; 2. Flow direction and aspect; 3. Flow algorithms; 4. Contributing area/flow accumulation; 5. Land-surface parameters based on catchment area; 6. Land-surface objects based on flow-variables; 7. Deposition function
327   $a8. Flow modelling using TIN-based elevation models9. Summary points; Important sources; Chapter 8. Land-Surface Parameters Specific to Topo-Climatology; 1. Land surface and climate; 2. Climate regionalisation approaches; 3. Topographic radiation; 4. Topographic temperature; 5. Topographic precipitation; 6. Topographic exposure to wind; 7. Summary points; Important sources; Chapter 9. Landforms and Landform Elements in Geomorphometry; 1. Geomorphology, landforms and geomorphometry; 2. Approaches to landform classification; 3. Extracting and classifying specific landform elements
327   $a4. Extracting and classifying repeating landform types5. Implementing extraction of landforms; 6. Summary points; Important sources; Part II: Software; Chapter 10. Overview of Software Packages Used in Geomorphometry; 1. Introduction; 2. The software landscape; 3. Approaches to using software; 4. Other packages for geomorphometry; 5. The future of geomorphometry software; Important sources; Chapter 11. Geomorphometry in ESRI Packages; 1. Getting started; 2. DEM preparation; 3. Extraction of land-surface parameters and objects; 4. Arc scripts; 5. Summary points and future direction
327   $aImportant sources
330   $aGeomorphometry is the science of quantitative land-surface analysis.  It draws upon mathematical, statistical, and image-processing techniques to quantify the shape of earth's topography at various spatial scales.  The focus of geomorphometry is the calculation of surface-form measures (land-surface parameters) and features (objects), which may be used to improve the mapping and modelling of landforms to assist in the evaluation of soils, vegetation, land use, natural hazards, and other information. This book provides a practical guide to preparing Digital Elevation Models (DEM) for an
410  0$aDevelopments in soil science ;$v33.
606   $aGeomorphology
606   $aGeomorphology$xMethodology
606   $aSoil science
615  0$aGeomorphology.
615  0$aGeomorphology$xMethodology.
615  0$aSoil science.
676   $a551.41
686   $aRB 10104$2rvk
686   $aRB 10208$2rvk
686   $aRB 10241$2rvk
701   $aHengl$b Tomislav$01502340
701   $aReuter$b Hannes I$01502341
712 02$aInstitute for Environment and Sustainability (European Commission. Joint Research Centre)
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910782444703321
996   $aGeomorphometry$93730032
997   $aUNINA