PAS-Net is a fully multiplier-free spiking neural network that enforces human joint constraints spatially and uses causal neuromodulation temporally to achieve state-of-the-art accuracy on IMU HAR with up to 98% lower dynamic energy via early-exit.
Temporal efficient training of spiking neu- ral network via gradient re-weighting,
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
years
2026 3verdicts
UNVERDICTED 3representative citing papers
SpikingMoE adds LGN-inspired SDprompt routing to a spike-driven Transformer MoE, replacing MLPs with spike-compatible experts and reporting 94.09% top-1 on CIFAR-10 and 74.54% on CIFAR-100.
LSFormer uses local structure-aware spiking self-attention and spiking response pooling to cut global attention bottlenecks, delivering 4.3% and 8.6% accuracy gains on Tiny-ImageNet and N-CALTECH101 over prior transformer-based SNNs.
citing papers explorer
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Towards Green Wearable Computing: A Physics-Aware Spiking Neural Network for Energy-Efficient IMU-based Human Activity Recognition
PAS-Net is a fully multiplier-free spiking neural network that enforces human joint constraints spatially and uses causal neuromodulation temporally to achieve state-of-the-art accuracy on IMU HAR with up to 98% lower dynamic energy via early-exit.
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SpikingMoE: SDPrompt-Guided Dynamic Expert Fusion in Spiking Neural Networks
SpikingMoE adds LGN-inspired SDprompt routing to a spike-driven Transformer MoE, replacing MLPs with spike-compatible experts and reporting 94.09% top-1 on CIFAR-10 and 74.54% on CIFAR-100.
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Breaking Global Self-Attention Bottlenecks in Transformer-based Spiking Neural Networks with Local Structure-Aware Self-Attention
LSFormer uses local structure-aware spiking self-attention and spiking response pooling to cut global attention bottlenecks, delivering 4.3% and 8.6% accuracy gains on Tiny-ImageNet and N-CALTECH101 over prior transformer-based SNNs.