Boundary representation models reconstructed from 3D range data suffer from various inaccuracies caused by noise in the data and the model building software. The quality of such models can be improved in a beautification step, which finds regular geometric patterns approximately present in the model and imposes a maximal consistent subset of constraints deduced from these patterns on the model. This paper presents analysis methods seeking geometric patterns defined by similarities. Their specific types are derived from a part survey estimating the frequencies of the patterns in simple mechanical components. The methods seek clusters of similar objects which describe properties of faces, loops, edges and vertices, try to find special values ...
In many areas of industry, it is desirable to create geometric models of existing objects for which ...
Engineering geometric models are often designed to have symmetries and other regularities. In knowle...
We introduce a computational framework for discovering regular or repeated geometric structures in 3...
Boundary representation models reconstructed from 3D range data suffer from various inaccuracies cau...
Current reverse engineering systems are able to generate simple valid boundary representation (B-rep...
Current reverse engineering systems are able to generate simple valid boundary representation (B-rep...
Boundary representation models reconstructed from 3D range data suffer from various inaccuracies cau...
Current reverse engineering systems can generate boundary representation (B-rep) models from 3D rang...
for personal use only. Current reverse engineering systems are able to generate simple valid boundar...
Boundary representation models reverse engineered from 3D range data suffer from various inaccuracie...
Boundary representation models reconstructed from 3D range data suffer from various inaccuracies cau...
Boundary representation models reconstructed from 3D range data suer from var-ious inaccuracies caus...
Reverse engineering allows the geometric reconstruction of simple mechanical parts. However, the res...
Boundary representation models reverse engineered from 3D range data suffer from various inaccuracie...
Boundary representation models reconstructed from 3D range data suffer from various in-accuracies ca...
In many areas of industry, it is desirable to create geometric models of existing objects for which ...
Engineering geometric models are often designed to have symmetries and other regularities. In knowle...
We introduce a computational framework for discovering regular or repeated geometric structures in 3...
Boundary representation models reconstructed from 3D range data suffer from various inaccuracies cau...
Current reverse engineering systems are able to generate simple valid boundary representation (B-rep...
Current reverse engineering systems are able to generate simple valid boundary representation (B-rep...
Boundary representation models reconstructed from 3D range data suffer from various inaccuracies cau...
Current reverse engineering systems can generate boundary representation (B-rep) models from 3D rang...
for personal use only. Current reverse engineering systems are able to generate simple valid boundar...
Boundary representation models reverse engineered from 3D range data suffer from various inaccuracie...
Boundary representation models reconstructed from 3D range data suffer from various inaccuracies cau...
Boundary representation models reconstructed from 3D range data suer from var-ious inaccuracies caus...
Reverse engineering allows the geometric reconstruction of simple mechanical parts. However, the res...
Boundary representation models reverse engineered from 3D range data suffer from various inaccuracie...
Boundary representation models reconstructed from 3D range data suffer from various in-accuracies ca...
In many areas of industry, it is desirable to create geometric models of existing objects for which ...
Engineering geometric models are often designed to have symmetries and other regularities. In knowle...
We introduce a computational framework for discovering regular or repeated geometric structures in 3...