ASPRS

  • increase font size
  • Default font size
  • decrease font size
books join My ASPRS
Home PE&RS Journals In Press Peer Reviewed Articles

PE&RS Journals

In Press Peer Reviewed Articles

As a convenience to ASPRS members, in-press peer reviewed articles approved for publication in forthcoming issues of PE&RS have been made available for members of the society.


November 2014 Issue

Association-Matrix-Based Sample Consensus Approach for Automated Registration of Terrestrial Laser Scans Using Linear Features

Kaleel Al-Durgham, andAyman Habib

Abstract Download Full Article (members only)

This paper presents an approach for the automatic registration of terrestrial laser scans using linear features. The main contribution here is introducing a new matching strategy that uses an association matrix to store information about candidate matches of linear features. The motivation for this work is aiding the 3D modeling of industrial sites rich with pole-like features. The proposed matching strategy aims at establishing hypotheses about potential minimal matches of linear features that could be used for the estimation of the transformation parameters relating the scans; then, quantifying the agreement between the scans using the estimated transformation parameters. We combine the association matrix and the well-known RANSAC approach for the derivation of conjugate pairs among the two scans. Rather than randomly selecting the line pairs as in the RANSAC-based registration, the association matrix guides the process of selecting the candidate matches of linear features. Experiments are conducted using laser scanning data of an electrical substation to assess the performance of the proposed association-matrix-based sample consensus approach as it compares to the traditional RANSAC-based procedure. The association-matrix-based approach showed consistent tendency of bringing up the correct matches first before the RANSAC-based registration.

 


A Robust Image Matching Method based on Optimized BaySAC

Zhizhong Kang, Fengman Jia, and Liqiang Zhang

Abstract Download Full Article (members only)

This paper proposes a robust image-matching method, which integrates SIFT with the optimized Bayes SAmpling Consensus (BaySAC). As the point correspondences are likely contaminated by outliers, we present a novel robust estimation method involving an efficient BaySAC for eliminating falsely accepted correspondences. The key points of the proposed hypothesis testing algorithm are determining and updating the prior probabilities of pseudo-correspondences. First, we propose a strategy for prior probability determination in terms of the statistical characteristics of a deterministic mathematical model for hypothesis testing. Moreover, the inlier probability updating is simplified based on a memorable form of Bayes’ Theorem. The proposed approach is validated on a variety of image pairs. The results indicate that when compared with the performance of RANdom SAmpling Consensus (RANSAC) and the original BaySAC, the proposed optimized BaySAC consumes less computation and obtains higher matching accuracy when the hypothesis set is contaminated with more outliers.

 


Block Adjustment of Satellite Imagery Using RPCs with Virtual Strip Scenes

Guo Zhang, Hongbo Pan, Deren Li, Xinming Tang, and Xiaoyong Zhu

Abstract Download Full Article (members only)

The increasing volume of high-resolution satellite imagery has seen the need for a large number of ground control points become a limiting factor for large-area mapping. Utilizing a shift model for adjacent scenes of the same track, this paper proposes a method based on rational polynomial coefficients with virtual strip scenes. An affine transformation in the image space is used as the adjustment model for the virtual strip scenes, and the corresponding adjustment parameters are derived from the relationship between the standard scenes and virtual strip scenes. Triplet stereo images from ZiYuan-3 are used to test the accuracy of the virtual strip scenes, and we compare the block adjustment of the long strip scene products and standard scene products. The results show that sub-pixel accuracy can be achieved in checkpoints close to the long strip scenes.

 


Automatic Building Extraction Using a Fuzzy Active Contour Model

Mostafa Kabolizade, Hamid Ebadi, and Mehdi Mokhtarzade

Abstract Download Full Article (members only)

Automatic building extraction is currently an important research topic in the field of photogrammetry. An active contour model is a well-received approach in this field. This paper proposes an improved active contour model that focuses on building extraction from aerial images and lidar data. The main research concern in this paper is the development of energy functions to the optimum use of expert human knowledge in the overall process. Based on this approach, a new fuzzy inference system for evaluating energy functions was developed by modeling the human perception of various effective parameters in the energy functions. Compared to the existing active contour models, the new algorithm is capable of directing the initial contour to building feature boundaries more quickly and robustly. Accuracy assessment showed that the proposed model is capable of achieving a shape accuracy of 98 percent and a total accuracy of 97 percent in complex urban areas.

 


CityGML Implementation Specifications for a Countrywide 3D Data Set: The Case of The Netherlands

Jantien Stoter, George Vosselman, Christian Dahmen, Sander Oude Elberink, and Hugo Ledoux

Abstract Download Full Article (members only)

This paper discusses and presents the specifications of a countrywide 3D data set for The Netherlands and the best practices to generate 3D data accordingly. The specifications extend the OGC 3D standard CityGML to align it to national requirements. Although CityGML offers a solid base for 3D information modeling, we have met the problems of CityGML being a generic standard resulting in too much flexibility and in some cases ambiguity when implementing it at a national level. Based on experiences and use cases, we refined and extended the CityGML specifications into implementation specifications for our Dutch context. We present a workflow to generate 3D information compliant with specifications, starting from existing 2D/3D raw data. Also, a 3D validation tool has been developed to be able to evaluate 3D information against the defined specifications. Currently these specifications have been offered to OGC as best practices.

Click Here to Report a Problem on this Page
Home PE&RS Journals In Press Peer Reviewed Articles