Event-Stream Super Resolution using Sigma-Delta Neural Network
- URL: http://arxiv.org/abs/2408.06968v1
- Date: Tue, 13 Aug 2024 15:25:18 GMT
- Title: Event-Stream Super Resolution using Sigma-Delta Neural Network
- Authors: Waseem Shariff, Joe Lemley, Peter Corcoran,
- Abstract summary: Event cameras present unique challenges due to their low resolution and sparse, asynchronous nature of the data they collect.
Current event super-resolution algorithms are not fully optimized for the distinct data structure produced by event cameras.
Research proposes a method that integrates binary spikes with Sigma Delta Neural Networks (SDNNs)
- Score: 0.10923877073891444
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: This study introduces a novel approach to enhance the spatial-temporal resolution of time-event pixels based on luminance changes captured by event cameras. These cameras present unique challenges due to their low resolution and the sparse, asynchronous nature of the data they collect. Current event super-resolution algorithms are not fully optimized for the distinct data structure produced by event cameras, resulting in inefficiencies in capturing the full dynamism and detail of visual scenes with improved computational complexity. To bridge this gap, our research proposes a method that integrates binary spikes with Sigma Delta Neural Networks (SDNNs), leveraging spatiotemporal constraint learning mechanism designed to simultaneously learn the spatial and temporal distributions of the event stream. The proposed network is evaluated using widely recognized benchmark datasets, including N-MNIST, CIFAR10-DVS, ASL-DVS, and Event-NFS. A comprehensive evaluation framework is employed, assessing both the accuracy, through root mean square error (RMSE), and the computational efficiency of our model. The findings demonstrate significant improvements over existing state-of-the-art methods, specifically, the proposed method outperforms state-of-the-art performance in computational efficiency, achieving a 17.04-fold improvement in event sparsity and a 32.28-fold increase in synaptic operation efficiency over traditional artificial neural networks, alongside a two-fold better performance over spiking neural networks.
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