To deal with the problem of urban ground object information extraction, the paper proposes an object-oriented classification method using aerial image and LiDAR data. Firstly, we select the optimal segmentation scales of different ground objects and synthesize them to get accurate object boundaries. Then, this paper uses ReliefF algorithm to select the optimal feature combination and eliminate the Hughes phenomenon. Eventually, the multiple classifier combination method is applied to get the outcome of the classification. In order to validate the feasible of this method, this paper selects two experimental regions in Stuttgart and Germany (Region A and B, covers 0.21 km<sup>2</sup> and 1.1 km<sup>2</sup> respectively). Th...
The classification of different objects in the urban area using airborne LIDAR point clouds is a cha...
Recent advances in Light Detection and Ranging (LIDAR) technology and integration have resulted in v...
LIDAR is a powerful remote sensing technology for acquisition of 3D information from terrain surface...
The classification of urban objects such as buildings, trees and roads from airborne sensors data is...
This paper presents an automatic building extraction approach using LiDAR data and aerial photograph...
With the rapid developments of the sensor technology, high spatial resolution imagery and airborne L...
Today, one of the main applications of multi-source aerial data is the city modelling. The capabilit...
This paper deals with object-oriented image analysis applied for an urban area. Very high-resolution...
The paper describes two different methods for extraction of two types of urban objects from lidar di...
Geographical object classification and information extraction is an important topic for the construc...
Many calamities in history like hurricanes, tornado and flooding are proof to the large scale impact...
Light Detection and Ranging, (LiDAR) presents a series of unique challenges, the foremost of these b...
Satellite images and aerial images with high spatial resolution have improved visual interpretation ...
Urban areas are rapidly changing over time in most of the countries. Buildings are the main entities...
Visual clarity of aerial LiDAR image textures with integration of LiDAR points is critical for accur...
The classification of different objects in the urban area using airborne LIDAR point clouds is a cha...
Recent advances in Light Detection and Ranging (LIDAR) technology and integration have resulted in v...
LIDAR is a powerful remote sensing technology for acquisition of 3D information from terrain surface...
The classification of urban objects such as buildings, trees and roads from airborne sensors data is...
This paper presents an automatic building extraction approach using LiDAR data and aerial photograph...
With the rapid developments of the sensor technology, high spatial resolution imagery and airborne L...
Today, one of the main applications of multi-source aerial data is the city modelling. The capabilit...
This paper deals with object-oriented image analysis applied for an urban area. Very high-resolution...
The paper describes two different methods for extraction of two types of urban objects from lidar di...
Geographical object classification and information extraction is an important topic for the construc...
Many calamities in history like hurricanes, tornado and flooding are proof to the large scale impact...
Light Detection and Ranging, (LiDAR) presents a series of unique challenges, the foremost of these b...
Satellite images and aerial images with high spatial resolution have improved visual interpretation ...
Urban areas are rapidly changing over time in most of the countries. Buildings are the main entities...
Visual clarity of aerial LiDAR image textures with integration of LiDAR points is critical for accur...
The classification of different objects in the urban area using airborne LIDAR point clouds is a cha...
Recent advances in Light Detection and Ranging (LIDAR) technology and integration have resulted in v...
LIDAR is a powerful remote sensing technology for acquisition of 3D information from terrain surface...