Visual shape recognition with contour propagation

被引:0
作者
C. Rasche
机构
[1] University of Notre Dame,Department of Psychology
[2]  ,Department of Psychology
来源
Biological Cybernetics | 2005年 / 93卷
关键词
Vector Field; Directional Connection; Visual Space; Shape Recognition; Space Inside;
D O I
暂无
中图分类号
学科分类号
摘要
A neural architecture is presented that encodes the visual space inside and outside of a shape. The contours of a shape are propagated across an excitable neuronal map and fed through a set of orientation columns, thus creating a pattern which can be viewed as a vector field. This vector field is then burned as synaptic, directional connections into a propagation map, which will serve as a “shape map”. The shape map identifies its own, preferred input when it is translated, deformed, scaled and fragmented, and discriminates other shapes very distinctively. Encoding visual space is much more efficient for shape recognition than determining contour geometry only.
引用
收藏
页码:31 / 42
页数:11
相关论文
共 57 条
[1]  
Amit Y(2003)An integrated network for invariant visual detection and recognition Vision Res 43 2073-2088
[2]  
Mascaro M(1991)Priming contour-deleted images: evidence for intermediate representations in visual object recognition Cognit Psychol 23 393-419
[3]  
Biederman I(1992a)Differential imaging of ocular dominance and orientation selectivity in monkey striate cortex J Neurosci 12 3115-3138
[4]  
Cooper EE(1992b)Orientation selectivity, preference, and continuity in monkey striate cortex J Neurosci 12 3139-3161
[5]  
Blasdel G(1973)Biological shape and visual science J Theor Biol 38 205-287
[6]  
Blasdel G(1997)Synaptic origin and stimulus dependency of neuronal oscillatory activity in the primary visual cortex of the cat J Physiol (Lond) 500 751-774
[7]  
Blum H(1995)Object representation by cores – identifying and representing primitive spatial regions Vision Res 35 1917-1930
[8]  
Bringuier V(1998)Limited translation invariance of human visual pattern recognition Percept Psychophys 60 65-81
[9]  
Fregnac Y(1982)Neocognitron – a new algorithm for pattern-recognition tolerant of deformations and shifts in position Pattern Recognit 15 455-469
[10]  
Baranyi A(1999)Motion detection and characterization by an excitable membrane: The ‘bow wave’ model Neurocomputing 26–7 137-146
123456