资 源 简 介
Poisson surface reconstruction creates watertight surfaces from oriented point sets. In this work we extend the technique to explicitly incorporate
the points as interpolation constraints. The extension can be interpreted as a generalization of the underlying mathematical framework to a screened
Poisson equation. In contrast to other image and geometry processing techniques, the screening term is defined over a sparse set of points rather
than over the full domain. We show that these sparse constraints can nonetheless be integrated efficiently. Because the modified linear system
reta
文 件 列 表
PoissonRecon.VS2010.suo
PoissonRecon.VS2010.vcxproj
Src
Allocator.h
BinaryNode.h
BSplineData.h
BSplineData.inl
CmdLineParser.cpp
CmdLineParser.h
CmdLineParser.inl
Factor.cpp
Factor.h
FunctionData.h
FunctionData.inl
Geometry.cpp
Geometry.h
Geometry.inl
Hash.h
MarchingCubes.cpp
MarchingCubes.h
MAT.h
MAT.inl
MemoryUsage.h
MultiGridOctest.cpp
MultiGridOctreeData.h
MultiGridOctreeData.inl
Octree.h
Octree.inl
ply.cpp
ply.h
plyfile.cpp
PlyFile.h
PointStream.h
PointStream.inl
Polynomial.h
Polynomial.inl
PPolynomial.h
PPolynomial.inl
SparseMatrix.h
SparseMatrix.inl
Time.cpp
Time.h
Vector.h
Vector.inl
Makefile
PoissonRecon.VS2010.sln
