Document Type

Conference Proceeding

Publication Date

8-1-2023

Abstract

This work reports on new results and insights from the optimization of spiking neural networks developed for gamma-ray radiation anomaly detection. Our previous paper introduced the first known neuromorphic algorithm for this application, demonstrating promising results and insights into optimal hyperparameter selection - particularly in the choice of data input encodings. Since the first paper, we have tested the algorithms on new datasets to investigate transferability from one background radiation environment to another. We have also performed a new hyperparameter optimization experiment with this new dataset to investigate the impact of new radiation data formatting techniques, the inclusion or neuronal temporality, and neuron charge leakage. This paper provides an overview and discussion of the results from this study. Of note, we report that the inclusion of neuronal temporality, or the process of maintaining synaptic state between sequences of input, improves recall by over 50% at an operationally-relevant false alarm rate of 1 hr-1

Publication Source (Journal or Book title)

ACM International Conference Proceeding Series

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