Line-end detection and boundary gap completion in an EDANN module for orientation

M. V. Van Hulle, T. Tollenaere, G. Orban
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引用次数: 2

Abstract

Explores two sources of inaccuracies originating from the use of local line detectors for inferring curve and boundary traces: (1) due to the position uncertainty of the local line detectors, ends of thin lines are not easily detected, even if cross-orientation inhibition is applied; and (2) due to the limited ability of the local line detectors to assess more global trace information gaps appear in the curve and boundary extracted. It is shown how a single EDANN (entropy drive artificial neural networks) module processing the orientation of illumination contrast compensates for these inaccuracies by performing a two-stage detection process, a competitive and a cooperative one. In the competitive stage, a vector field of tangents to curves and boundaries is extracted by using elongated receptive fields. In the cooperative stage, line-ends are extracted and boundary gaps are bridged by broadening the neuron's orientation tuning curves.<>
EDANN定位模块中的线端检测和边界间隙补全
探讨了使用局部线检测器推断曲线和边界轨迹时产生的两个不准确性来源:(1)由于局部线检测器的位置不确定,即使应用了交叉方向抑制,也不容易检测到细线的末端;(2)由于局部线检测器评估更多全局轨迹信息的能力有限,在提取的曲线和边界中出现间隙。它展示了一个处理照明对比度方向的EDANN(熵驱动人工神经网络)模块如何通过执行两阶段检测过程(竞争和合作)来补偿这些不准确性。在竞争阶段,利用延长的接受场提取曲线和边界的切线向量场。在合作阶段,提取线端点,并通过拓宽神经元的方向调整曲线来桥接边界间隙。
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