Abstract
In recent years, event-based sensors have been combined with spiking neural networks (SNNs) to create a new generation of bio-inspired artificial vision systems. These systems can process spatio-temporal data in real time, and are highly energy efficient. In this study, we used a new hybrid event-based camera in conjunction with a multi-layer spiking neural network trained with a spike-timing-dependent plasticity learning rule. We showed that neurons learn from repeated and correlated spatio-temporal patterns in an unsupervised way and become selective to motion features, such as direction and speed. This motion selectivity can then be used to predict ball trajectory by adding a simple read-out layer composed of polynomial regressions, and trained in a supervised manner. Hence, we show that a SNN receiving inputs from an event-based sensor can extract relevant spatio-temporal patterns to process and predict ball trajectories.
Highlights
The original aim of Artificial Neural Networks (ANNs) was to mimic human or even non-human brain processing
In the context of this study, images are generated in a 128 × 120 pixels format guaranteeing a throughput of 240 frames per second, with an exposure time of 3.7 ms due to low luminosity conditions
More complicated decoders could provide better results, but this study focuses on the performance of the spiking neural networks (SNNs)
Summary
The original aim of Artificial Neural Networks (ANNs) was to mimic human or even non-human brain processing. The quest for performance has taken ANNs away from their original bio-inspired function, even if ANNs show good performances with neural activity correlated with human cortical activity (Schrimpf et al, 2018). There is, another category of neural networks, called Spiking Neural Networks (SNNs). Since spiking activity is usually binary-coded and sparse (Van Rullen and Thorpe, 2001; Perrinet et al, 2004), processing in SNNs is highly power efficient (Rueckauer et al, 2017; Barrios-Avilés et al, 2018; Pfeiffer and Pfeil, 2018)
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