The local variation of terrain properties causes profound changes in the biosphere, microclimate, hydrologic cycle, and in the distribution of human activities on this planet. With the dawn of computerized technology, the terrain is represented in a digital form and new methods are needed to effectively describe, evaluate and quantify terrain properties. The purpose of this project is to develop new methods and procedures for terrain analyses within a GIS environment. The focus is to develop tools for capturing the local terrain variability. The selected parameters such as the hypsometric integral (modified Martonne’s index), roughness index, and basic statistical measures (mean, range and variance) are combined with newly developed dissect...
Terrain drainage characteristics are of interest to a number of fields such as hydrology, hydraulic...
Terrain attributes (e.g. slope, rugosity) derived from digital terrain models are commonly used in e...
As digital terrain models are indispensable for visualizing and modeling geographic processes, terra...
Terrain analysis is the quantitative analysis of topographic surfaces. The purpose of a digital terr...
Remote Sensing and GIS recently had been extensively used in various spatial analyses for different ...
Digital terrain models (DTMs) are not commonly used to integrate for landscape spatial analysis. Two...
We describe a method of morphometric characterisation of landform from digital elevation models (DEM...
Abstract: A widening variety of applications is diversifying geomorphometry (digital terrain modelli...
Terrain parameters describe the morphological characteristics of the surface and are an important pa...
Terrain parameters describe the morphological characteristics of the surface and are an important pa...
International audienceComputer-based geomorphometry using a DEM (Digital Elevation Model) allows the...
International audienceComputer-based geomorphometry using a DEM (Digital Elevation Model) allows the...
International audienceComputer-based geomorphometry using a DEM (Digital Elevation Model) allows the...
Terrain attributes (e.g. slope, rugosity) derived from digital terrain models are commonly used in e...
As digital terrain models are indispensable for visualizing and modeling geographic processes, terra...
Terrain drainage characteristics are of interest to a number of fields such as hydrology, hydraulic...
Terrain attributes (e.g. slope, rugosity) derived from digital terrain models are commonly used in e...
As digital terrain models are indispensable for visualizing and modeling geographic processes, terra...
Terrain analysis is the quantitative analysis of topographic surfaces. The purpose of a digital terr...
Remote Sensing and GIS recently had been extensively used in various spatial analyses for different ...
Digital terrain models (DTMs) are not commonly used to integrate for landscape spatial analysis. Two...
We describe a method of morphometric characterisation of landform from digital elevation models (DEM...
Abstract: A widening variety of applications is diversifying geomorphometry (digital terrain modelli...
Terrain parameters describe the morphological characteristics of the surface and are an important pa...
Terrain parameters describe the morphological characteristics of the surface and are an important pa...
International audienceComputer-based geomorphometry using a DEM (Digital Elevation Model) allows the...
International audienceComputer-based geomorphometry using a DEM (Digital Elevation Model) allows the...
International audienceComputer-based geomorphometry using a DEM (Digital Elevation Model) allows the...
Terrain attributes (e.g. slope, rugosity) derived from digital terrain models are commonly used in e...
As digital terrain models are indispensable for visualizing and modeling geographic processes, terra...
Terrain drainage characteristics are of interest to a number of fields such as hydrology, hydraulic...
Terrain attributes (e.g. slope, rugosity) derived from digital terrain models are commonly used in e...
As digital terrain models are indispensable for visualizing and modeling geographic processes, terra...