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arxiv: 2410.16524 · v2 · pith:M6XQUUYKnew · submitted 2024-10-21 · 💻 cs.CV · q-bio.NC

Supervised Learning without Backpropagation using Spike-Timing-Dependent Plasticity for Image Recognition

classification 💻 cs.CV q-bio.NC
keywords learningsupervisedaccuracymodeltrainingambiguitybackpropagationimage
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This study introduces a novel supervised learning approach for spiking neural networks that does not rely on traditional backpropagation. Instead, it employs spike-timing-dependent plasticity (STDP) within a supervised framework for image recognition tasks. The effectiveness of this method is demonstrated using the MNIST dataset. The model achieves approximately 40\% learning accuracy with just 10 training stimuli, where each category is exposed to the model only once during training (one-shot learning). With larger training samples, the accuracy increases up to 87\%, maintaining negligible ambiguity. Notably, with only 10 hidden neurons, the model reaches 89\% accuracy with around 10\% ambiguity. This proposed method offers a robust and efficient alternative to traditional backpropagation-based supervised learning techniques.

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