Add to ORKGThis unit introduces some of the uses of digital terrain data, the types of elevation data available and how to obtain them. Through examples and discussion it presents examples of data sources and formats, software for viewing and processing elevation data, and a comprehensive list of data and software resources
Terrain drainage characteristics are of interest to a number of fields such as hydrology, hydraulic...
Digital and Web-based maps are stuck in the 2D mode for a long time. Also, various novel methodologi...
'NOne potentially important area of work in remote sensing is the use of topographic data in co...
A terrain data warehouse is essential for a variety of engineering and scientific disciplines. Howev...
As digital terrain models are indispensable for visualizing and modeling geographic processes, terra...
This study investigated digital terrain models and options for their evaluation and effective usage....
Terrain data is becoming increasingly popular both in industry and in academia. Many tools have been...
The purpose of this research is to enhance the efficiency of the task of extracting elevation data f...
Production of higher-fidelity digital elevation models is important; as such models are indispensabl...
Elevation data are a critical element in most geoscience applications. From geological mapping to mo...
<div><p>Production of higher-fidelity digital elevation models is important; as such models are indi...
Digital Elevation Models (DEMs) provide elementary information for various application fields. From ...
In order to perform a thorough quantitative analysis of the morphology of an area, a methodology has...
This unit considers digital elevation models (DEMs) as one way of representing surfaces. It describe...
Terrain analysis is the quantitative analysis of topographic surfaces. The purpose of a digital terr...
Terrain drainage characteristics are of interest to a number of fields such as hydrology, hydraulic...
Digital and Web-based maps are stuck in the 2D mode for a long time. Also, various novel methodologi...
'NOne potentially important area of work in remote sensing is the use of topographic data in co...
A terrain data warehouse is essential for a variety of engineering and scientific disciplines. Howev...
As digital terrain models are indispensable for visualizing and modeling geographic processes, terra...
This study investigated digital terrain models and options for their evaluation and effective usage....
Terrain data is becoming increasingly popular both in industry and in academia. Many tools have been...
The purpose of this research is to enhance the efficiency of the task of extracting elevation data f...
Production of higher-fidelity digital elevation models is important; as such models are indispensabl...
Elevation data are a critical element in most geoscience applications. From geological mapping to mo...
<div><p>Production of higher-fidelity digital elevation models is important; as such models are indi...
Digital Elevation Models (DEMs) provide elementary information for various application fields. From ...
In order to perform a thorough quantitative analysis of the morphology of an area, a methodology has...
This unit considers digital elevation models (DEMs) as one way of representing surfaces. It describe...
Terrain analysis is the quantitative analysis of topographic surfaces. The purpose of a digital terr...
Terrain drainage characteristics are of interest to a number of fields such as hydrology, hydraulic...
Digital and Web-based maps are stuck in the 2D mode for a long time. Also, various novel methodologi...
'NOne potentially important area of work in remote sensing is the use of topographic data in co...