DocumentCode
1147772
Title
Image Algebra and Automatic Shape Recognition
Author
Crimmins, T.R. ; Brown, W.M.
Author_Institution
Environmental Research Institute of Michigan (ERIM)
Issue
1
fYear
1985
Firstpage
60
Lastpage
69
Abstract
Shape recognition can be carried out with set theory operations. In addition to the usual set theory operations of union, complement, etc., the operation of erosion between two sets (or images) is incorporated. Then it is shown that these operations between sets serve as a basis for representation theorems for all, generally nonlinear, translation invariant transformations, (i.e., transformations which commute with translations). By treating images and shapes as point sets in n-dimensional Cartesian space (n = 2 for binary images, n = 3 for gray scale images, and larger n for images that incorporate color, polarization, and the like), the problem of shape or pattern recognition is converted to the problem of detecting the occurrences of specific sets within an image. This problem is closely related to the operation of erosion. By introducing complement images and complement shapes, a generic computer for automatic shape recognition is found which provides a constructive proof of the representation theorem and related results.
Keywords
Algebra; Animals; Hardware; Humans; Image converters; Image recognition; Pattern recognition; Polarization; Set theory; Shape;
fLanguage
English
Journal_Title
Aerospace and Electronic Systems, IEEE Transactions on
Publisher
ieee
ISSN
0018-9251
Type
jour
DOI
10.1109/TAES.1985.310539
Filename
4104018
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