Distributed output encoding for multi-class pattern recognition

Author

Erenshteyn, Roman ; Saxe, David ; Laskov, Pavel ; Foulds, Richard

fYear

1999

fDate

1999

Firstpage

229

Lastpage

234

Abstract

Fingerspelling recognition and handshape recognition are two examples of real-world, multi-class recognition problems consisting of 26 and 78 classes respectively. While it is theoretically possible to solve any multi-class problem with a single “smart” classifier the complexity of such a classifier is usually prohibitively high. This paper looks at several approaches to solving a numerous multi-class recognition problem and discusses in detail a method involving coded output. Experiments are conducted using biomechanical data from a human hand as input, but work is continuing concerning the extraction of this data from multi-view hand images alone. Code generation is discussed and results are presented for several different coded output cases including the Hamming, Golay, and several hybrid codes. Conclusions show that the recognition accuracy increases proportionally to code length

Keywords

Golay codes; Hamming codes; biomechanics; gesture recognition; image coding; Golay codes; Hamming codes; biomechanical data; code generation; code length; distributed output encoding; fingerspelling recognition; handshape recognition; human hand; hybrid codes; multi-class pattern recognition; multi-class recognition problems; multi-view hand images; recognition accuracy; Data mining; Educational institutions; Encoding; Humans; Hybrid power systems; Image processing; Pattern recognition; Read only memory; Shape; Time of arrival estimation;

fLanguage

English

Publisher

ieee

Conference_Titel

Image Analysis and Processing, 1999. Proceedings. International Conference on

Conference_Location

Venice

Print_ISBN

0-7695-0040-4

Type

conf

DOI

10.1109/ICIAP.1999.797600

Filename

797600