The registration of long-strip, terrestrial laser scanning (TLS) point clouds is a prerequisite for various engineering tasks, including tunnels, bridges, and roads. An artificial target-based registration method is proposed in this paper to automatically calculate registration parameters (i.e., rotation, translation) of scanned pairs without initial estimations. The approach is based on the well-known Random Sample Consensus (RANSAC) method and effectively searches the point cloud for corresponding returns from a system of artificial targets. In addition, Closed Constraint Adjustment (CCA) is integrated into the registration method to significantly reduce the accumulative error. Experimental results demonstrate the robustness and feasibili...
This paper presents an algorithm for the automatic registration of terrestrial point clouds by match...
During the development of the data acquired by airborne laser scanning the important issue is the fi...
As part of a system being developed to manage large terrain reconstructions from laser scanner point...
The registration of long-strip, terrestrial laser scanning (TLS) point clouds is a prerequisite for ...
Terrestrial laser scanners have become a standard piece of surveying equipment, used in diverse fiel...
The registration process of terrestrial laser scans (TLS) targets the problem of how to combine seve...
This paper presents a new approach to the automatic registration of terrestrial laser scanning (TLS)...
The registration of point clouds that are acquired from different laser scanner standpoints is an es...
Terrestrial laser scanners provide a three-dimensional sampled representation of the surfaces of obj...
This paper proposes a rigorous registration method of multi-view point clouds constrained by closed-...
Terrestrial laser scanners provide a three-dimensional sampled representation of the surfaces of obj...
The registration of point clouds that are acquired from different laser scanner standpoints is an es...
Probabilistic registration algorithms [e.g., coherent point drift, (CPD)] provide effective solution...
Fine registration of point clouds plays an important role in data analysis in Terrestrial Laser Scan...
Terrestrial laser scanning data that are acquired from multiple scan locations need to be registered...
This paper presents an algorithm for the automatic registration of terrestrial point clouds by match...
During the development of the data acquired by airborne laser scanning the important issue is the fi...
As part of a system being developed to manage large terrain reconstructions from laser scanner point...
The registration of long-strip, terrestrial laser scanning (TLS) point clouds is a prerequisite for ...
Terrestrial laser scanners have become a standard piece of surveying equipment, used in diverse fiel...
The registration process of terrestrial laser scans (TLS) targets the problem of how to combine seve...
This paper presents a new approach to the automatic registration of terrestrial laser scanning (TLS)...
The registration of point clouds that are acquired from different laser scanner standpoints is an es...
Terrestrial laser scanners provide a three-dimensional sampled representation of the surfaces of obj...
This paper proposes a rigorous registration method of multi-view point clouds constrained by closed-...
Terrestrial laser scanners provide a three-dimensional sampled representation of the surfaces of obj...
The registration of point clouds that are acquired from different laser scanner standpoints is an es...
Probabilistic registration algorithms [e.g., coherent point drift, (CPD)] provide effective solution...
Fine registration of point clouds plays an important role in data analysis in Terrestrial Laser Scan...
Terrestrial laser scanning data that are acquired from multiple scan locations need to be registered...
This paper presents an algorithm for the automatic registration of terrestrial point clouds by match...
During the development of the data acquired by airborne laser scanning the important issue is the fi...
As part of a system being developed to manage large terrain reconstructions from laser scanner point...