Paper Info
Title
Surface smoothing for enhancement of 3d data using curvature-based adaptive regularization
Abstract
This paper presents both standard and adaptive versions of regularized surface smoothing algorithms for 3D image enhancement. We incorporated both area decreasing flow and the median constraint as multiple regularization functionals. The corresponding regularization parameters adaptively changes according to the local curvature value. The combination of area decreasing flow and the median constraint can efficiently remove various types of noise, such as Gaussian, impulsive, or mixed types. The adaptive version of the proposed regularized smoothing algorithm changes regularization parameters based on local curvature for preserving local edges and creases that reflects important surface information in 3D data. In addition to the theoretical expansion, experimental results show that the proposed algorithms can significantly enhance 3D data acquired by both laser range sensors and disparity maps from stereo images.
Year
DOI
Venue
2004
10.1007/978-3-540-30503-3_35
IWCIA
Keywords
Field
DocType
local edge,local curvature,adaptive version,multiple regularization functionals,changes regularization parameter,important surface information,curvature-based adaptive regularization,local curvature value,proposed algorithm,corresponding regularization parameter,median constraint,3d imaging
Computer vision,Curvature,Computer science,Flow (psychology),Image processing,Regularization (mathematics),Smoothing,Gaussian,Artificial intelligence,Adaptive regularization,Gaussian noise
Conference
Volume
ISSN
ISBN
3322
0302-9743
3-540-23942-1
Citations 
PageRank 
References 
0
0.34
8
Authors
5
Name
Order
Citations
PageRank
Hyunjong Ki111.72
Jeongho Shin212417.26
Junghoon Jung384.67
Seong-Won Lee411216.01
Joonki Paik561171.87