Your search keyword '"Keqi Zhang"' showing total 3 results

1. Automatic Construction of 3-D Building Model From Airborne LIDAR Data Through 2-D Snake Algorithm.

Author

Jianhua Yan, Keqi Zhang, Chengcui Zhang, Shu-Ching Chen, and Narasimhan, Giri

Subjects

*OPTICAL radar, *LIDAR, *TOPOLOGY, *COMPUTER vision, *IMAGE segmentation, *OBJECT tracking (Computer vision), *TWO-dimensional models

Abstract

The snake algorithm has been proposed to solve many remote sensing and computer vision problems such as object segmentation, surface reconstruction, and object tracking. This paper introduces a framework for 3-D building model construction from LIDAR data based on the snake algorithm. It consists of nonterrain object identification, building and tree separation, building topology extraction, and adjustment by the snake algorithm. The challenging task in applying the snake algorithm to building topology adjustment is to find the global minima of energy functions derived for 2-D building topology. The traditional snake algorithm uses dynamic programming for computing the global minima of energy functions which is limited to snake problems with 1-D topology (i.e., a contour) and cannot handle problems with 2-D topology. In this paper, we have extended the dynamic programming method to address the snake problems with a 2-D planar topology using a novel graph reduction technique. Given a planar snake, a set of reduction operations is defined and used to simplify the graph of the planar snake into a set of isolated vertices while retaining the minimal energy of the graph. Another challenging task for 3-D building model reconstruction is how to enforce different kinds of geometric constraints during building topology refinement. This framework proposed two energy functions, deviation and direction energy functions, to enforce multiple geometric constraints on 2-D topology refinement naturally and efficiently. To examine the effectiveness of the framework, the framework has been applied on different data sets to construct 3-D building models from airborne LIDAR data. The results demonstrate that the proposed snake algorithm successfully found the global optima in polynomial time for all of the building topologies and generated satisfactory 3-D models for most of the buildings in the study areas. [ABSTRACT FROM PUBLISHER]

Published

2015

2. Automatic Construction of Building Footprints From Airborne LIDAR Data.

Author

Keqi Zhang, Jianhua Yan, and Shu-Ching Chen

Subjects

*ALGORITHMS, *OPTICAL radar, *ANTHROPOMETRY, *MORPHOLOGY, *METROPOLITAN areas, *QUANTITATIVE research

Abstract

This paper presents a framework that applies a series of algorithms to automatically extract building footprints from airborne light detection and ranging (LIDAR) measurements. In the proposed framework, the ground and nonground LIDAR measurements are first separated using a progressive morphological filter. Then, building measurements are identified from nonground measurements using a region-growing algorithm based on the plane-fitting technique. Finally, raw footprints for segmented building measurements are derived by connecting boundary points, and the raw footprints are further simplified and adjusted to remove noise caused by irregularly spaced LIDAR measurements. Data sets from urbanized areas including large institutional, commercial, and small residential buildings were employed to test the proposed framework. A quantitative analysis showed that the total of omission and commission errors for extracted footprints for both institutional and residential areas was about 12%. The results demonstrated that the proposed framework identified building footprints well. [ABSTRACT FROM AUTHOR]

Published

2006

3. A Progressive Morphological Filter for Removing Nonground Measurements From Airborne LIDAR Data.

Author

Keqi Zhang, Shu-ching Chen, Whitman, Dean, Mei-Ling Shyu, Jianhua Yan, and Chengcui Zhang

Subjects

*OPTICAL radar, *ALTIMETERS, *ELECTRONIC data processing

Abstract

Recent advances in airborne light detection and ranging (LIDAR) technology allow rapid and inexpensive measurements of topography over large areas. This technology is becoming a primary method for generating high-resolution digital terrain models (DTMs) that are essential to numerous applications such as flood modeling and landslide prediction. Airborne LIDAR systems usually return a three-dimensional cloud of point measurements from reflective objects scanned by the laser beneath the flight path. In order to generate a DTM, measurements from non-ground features such as buildings, vehicles, and vegetation have to be classified and removed. In this paper, a progressive morphological filter was developed to detect non-ground LIDAR measurements. By gradually increasing the window size of the filter and using elevation difference thresholds, the measurements of vehicles, vegetation, and buildings are removed, while ground data are preserved. Datasets from mountainous and flat urbanized areas were selected to test the progressive morphological filter. The results show that the filter can remove most of the non-ground points effectively. [ABSTRACT FROM AUTHOR]

Published

2003