An Adaptive Model Applied to Digital Geometry to Enhance Segment Straightness

Author

Barros Neto, L.C. ; Hirakawa, A.H. ; Massola, A.M.A.

Author_Institution

Univ. de Sao Paulo (USP), Sao Paulo, Brazil

Volume

9

Issue

6

fYear

2011

Firstpage

956

Lastpage

962

Abstract

Currently, there are some traditional approaches for representing digital straight lines, digitized straight line segments and arcs in digital geometry, each with its advantages and suitable applications. However, taking into account the complexities of real-world scenarios involving spurious interferences, the use of these representations requires flexible models. Thus, this study investigates an alternative based on adaptive finite automaton through the device called adaptive digitized straight line segment. Consequently, the proposed method reveals to be simple, intuitive and capable of learning, besides being computationally powerful.

Keywords

computational geometry; finite automata; adaptive digitized straight line segment; adaptive finite automaton; adaptive model; digital geometry; segment straightness enhancement; Adaptation models; Complexity theory; Computational modeling; Geometry; Image segmentation; Learning automata; Pattern recognition; Adaptive Systems; Automata; Computational Geometry; Error Correction; Pattern Recognition;

fLanguage

English

Journal_Title

Latin America Transactions, IEEE (Revista IEEE America Latina)

Publisher

ieee

ISSN

1548-0992

Type

jour

DOI

10.1109/TLA.2011.6096979

Filename

6096979