摘要
本文给出一种用光学方法实现全双极WTA三层神经网络模型的新方案及其实验结果.在全双极情况下.中间层第i个神经元的输入值由两部分组成,一部分为单极神经元状态时中间层该神经元的输入值,另一部分为对应存储模式的反模式和的二分之一.其中常数1/2可通过将每一输入神经元分成相等的两部分,使其中一部分为全透,另一部分为完全不透来实现.实验表明全双极系统比原先的单极系统具有更高的存储容量和寻址能力.
The optical implementation of WTA neural network model with bipolar input-layer neurons and bipolar input-layer-to-hidden-layer connections is presented. The input to the hidden-layer neurons is the bipolarly weighted summation of the bipolar neuron states of the input-layer, which is equivalent to the unipolarly weighted summation of the unipolar input states and the summation of the unipolar reversed storage pattern by a constant 1/2. The constant 1/2 can be implemented by dividing each neural pixel into two equal parts of which one is opaque and the other is transparent. Experimental results shows that both the storage capacity and the content addressability of the optical system are improved compared to those of the unipolar WTA optical system
出处
《电子学报》
EI
CAS
CSCD
北大核心
1992年第10期69-75,共7页
Acta Electronica Sinica
关键词
神经网络
网络模型
WTA neural nnetwork model, Bioplar neural state, Pattern recognition, Multichannel inner-product hologram.
