Add to ORKGThis thesis presents and evaluates a new approach for modeling pixel level error in fine-resolution digital elevations models (DEMs), addressing shortcomings of previous studies related to: (1) the assumption of normality for pixel level errors; (2) the scale-dependence of the relationship between local topographic roughness (LTR) and error; and (3) the spatial autocorrelation of error. Ordinary Least Squares (OLS) and spatial lag (SL) regression are used to predict DEM errors for integration into geomorphic change detection analyses. The modeling approach is tested using two terrestrial LiDAR datasets. Pixel level errors prove predominantly non-normally distributed and a new measure for summarizing asymmetric error distributions is introdu...
This paper focuses on two common problems encountered when using Light Detection And Ranging (LiDAR)...
Digital Elevation Models (DEMs) play an important role in terrain related applications, and their ac...
This paper focuses on two common problems encountered when using Light Detection And Ranging (LiDAR)...
Digital topographic models are the foundation of more advanced modeling applications and ultimately ...
Digital topographic models are the foundation of more advanced modeling applications and ultimately ...
Light detection and ranging (lidar) is the premier technology for high-resolution elevation measurem...
Light detection and ranging (lidar) is the premier technology for high-resolution elevation measurem...
Light detection and ranging (lidar) is the premier technology for high-resolution elevation measurem...
Light detection and ranging (lidar) is the premier technology for high-resolution elevation measurem...
The cumulative error at a point in a LiDAR-derived DEM consists of three components: propagated LiDA...
The cumulative error at a point in a LiDAR-derived DEM consists of three components: propagated LiDA...
The monitoring of Earth’s and planetary surface elevations at larger and finer scales is rapidly pro...
International audienceThe monitoring of Earth's and planetary surface elevations at larger and finer...
International audienceThe monitoring of Earth's and planetary surface elevations at larger and finer...
Abstract. With the LIDAR data more wide use in DEM products, especially in urban area DEM modeling, ...
This paper focuses on two common problems encountered when using Light Detection And Ranging (LiDAR)...
Digital Elevation Models (DEMs) play an important role in terrain related applications, and their ac...
This paper focuses on two common problems encountered when using Light Detection And Ranging (LiDAR)...
Digital topographic models are the foundation of more advanced modeling applications and ultimately ...
Digital topographic models are the foundation of more advanced modeling applications and ultimately ...
Light detection and ranging (lidar) is the premier technology for high-resolution elevation measurem...
Light detection and ranging (lidar) is the premier technology for high-resolution elevation measurem...
Light detection and ranging (lidar) is the premier technology for high-resolution elevation measurem...
Light detection and ranging (lidar) is the premier technology for high-resolution elevation measurem...
The cumulative error at a point in a LiDAR-derived DEM consists of three components: propagated LiDA...
The cumulative error at a point in a LiDAR-derived DEM consists of three components: propagated LiDA...
The monitoring of Earth’s and planetary surface elevations at larger and finer scales is rapidly pro...
International audienceThe monitoring of Earth's and planetary surface elevations at larger and finer...
International audienceThe monitoring of Earth's and planetary surface elevations at larger and finer...
Abstract. With the LIDAR data more wide use in DEM products, especially in urban area DEM modeling, ...
This paper focuses on two common problems encountered when using Light Detection And Ranging (LiDAR)...
Digital Elevation Models (DEMs) play an important role in terrain related applications, and their ac...
This paper focuses on two common problems encountered when using Light Detection And Ranging (LiDAR)...