文件名称:多层卷积脉冲神经网络.pdf
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更新时间:2023-08-17 11:16:43
卷积脉冲神经网络
Spiking neural networks (SNNs) have advantages over traditional, non-spiking networks with respect to bio- realism, potential for low-power hardware implementations, and theoretical computing power. However, in practice, spiking net- works with multi-layer learning have proven difficult to train. This paper explores a novel, bio-inspired spiking convolutional neural network (CNN) that is trained in a greedy, layer-wise fashion. The spiking CNN consists of a convolutional/pooling layer followed by a feature discovery layer, both of which undergo bio-inspired learning. Kernels for the convolutional layer are trained using a sparse, spiking auto-encoder representing primary visual features. The feature discovery layer uses a probabilistic spike-timing-dependent plasticity (STDP) learning rule. This layer represents complex visual features using WTA- thresholded, leaky, integrate-and-fire (LIF) neurons. The new model is evaluated on the MNIST digit dataset using clean and noisy images. Intermediate results show that the convolutional layer is stack-admissible, enabling it to support a multi-layer learning architecture. The recognition performance for clean images is above 98%. This performance is accounted for by the independent and informative visual features extracted in a hierarchy of convolutional and feature discovery layers. The performance loss for recognizing the noisy images is in the range 0.1% to 8.5%. This level of performance loss indicates that the network is robust to additive noise