Record Details
Towards an Algebra for Terrain-Based Flow Analysis
DigitalCommons@USU
| Field | Value |
|---|---|
| Title | Towards an Algebra for Terrain-Based Flow Analysis |
| Creator | Tarboton, David G. Baker, M. E. |
| Description | Topography is an important land surface attribute for hydrology that, in the form of Digital Elevation Models (DEMs), is widely used to derive information for the modeling of hydrologic processes. Much hydrologic terrain analysis is conditioned upon an information model for the topographic representation of downslope flow derived from a DEM, which enriches the information content of digital elevation data. This information model involves procedures for removing spurious sinks, deriving a... |
| Date | 2008-01-01T08:00:00Z |
| Type | text |
| Identifier | https://digitalcommons.usu.edu/cee_facpub/2485 info:doi/10.1201/9781420055504 |
| Source | Civil and Environmental Engineering Faculty Publications |
| Publisher | Hosted by Utah State University Libraries |
| Contributor | CRC Press |
| Subject | terrain-based flow analysis information model flow algebra efficient implementation multi-directional flow field broad class important land surface attribute structured flow field various topographic representation topographic representation accumulation algorithm much hydrologic terrain analysis application-specific function information content large input datasets environmental modeling derivative surface new function current weighted flow accumulation formulaic language spurious sink recursive flow analysis multiple input flow-based derivative surface digital elevation data future opportunity digital elevation model general method hydrologic process geographic information system algebraic rule downslope flow flow algebra functionality rich set UWRL Civil and Environmental Engineering |
