Shape Descriptors for Maximally Stable Extremal Regions
Per-Erik Forssén, David LoweICCV07, Rio de Janeiro, Brazil
IEEE International Conference on Computer Vision
Volume CFP07198-CDR
October 2007
Abstract
This paper introduces an affine invariant shape descriptor for maximally stable extremal regions (MSER). Affine invariant feature descriptors are normally computed by sampling the original grey-scale image in an invariant frame defined from each detected feature, but we instead use only the shape of the detected MSER itself. This has the advantage that features can be reliably matched regardless of the appearance of the surroundings of the actual region. The descriptor is computed using the scale invariant feature transform (SIFT), with the resampled MSER binary mask as input. We also show that the original MSER detector can be modified to achieve better scale invariance by detecting MSERs in a scale pyramid. We make extensive comparisons of the proposed feature against a SIFT descriptor computed on grey-scale patches, and also explore the possibility of grouping the shape descriptors into pairs to incorporate more context. While the descriptor does not perform as well on planar scenes, we demonstrate various categories of full 3D scenes where it outperforms the SIFT descriptor computed on grey-scale patches. The shape descriptor is also shown to be more robust to changes in illumination. We show that a system can achieve the best performance under a range of imaging conditions by matching both the texture and shape descriptors.
Full Paper
Portable document format file PDF (
Bibtex entry
@InProceedings{fl07, author = {Per-Erik Forss{\'e}n and David Lowe}, title = {Shape Descriptors for Maximally Stable Extremal Regions}, OPTcrossref = {}, OPTkey = {}, booktitle = {{IEEE} International Conference on Computer Vision}, OPTpages = {}, year = {2007}, OPTeditor = {}, volume = {CFP07198-CDR}, issn = {1550-5499}, isbn = {978-1-4244-1631-8}, OPTnumber = {}, OPTseries = {}, address = {Rio de Janeiro, Brazil}, month = {October}, publisher = {{IEEE} Computer Society} }
Per-Erik Forssén
Contact:
Computer Vision Laboratory
Department of Electrical Engineering
Building B
Room 2D:521
SE-581 83 Linköping, Sweden
+46(0)13 285654
< >
My pages:
Page responsible: Per-Erik Forssén
Last updated: 2024-09-28