English

Current Source Localization Using Deep Prior with Depth Weighting

Signal Processing 2022-03-29 v1 Computer Vision and Pattern Recognition Machine Learning Neurons and Cognition

Abstract

This paper proposes a novel neuronal current source localization method based on Deep Prior that represents a more complicated prior distribution of current source using convolutional networks. Deep Prior has been suggested as a means of an unsupervised learning approach that does not require learning using training data, and randomly-initialized neural networks are used to update a source location using a single observation. In our previous work, a Deep-Prior-based current source localization method in the brain has been proposed but the performance was not almost the same as those of conventional approaches, such as sLORETA. In order to improve the Deep-Prior-based approach, in this paper, a depth weight of the current source is introduced for Deep Prior, where depth weighting amounts to assigning more penalty to the superficial currents. Its effectiveness is confirmed by experiments of current source estimation on simulated MEG data.

Cite

@article{arxiv.2203.13981,
  title  = {Current Source Localization Using Deep Prior with Depth Weighting},
  author = {Rio Yamana and Hajime Yano and Ryoichi Takashima and Tetsuya Takiguchi and Seiji Nakagawa},
  journal= {arXiv preprint arXiv:2203.13981},
  year   = {2022}
}
R2 v1 2026-06-24T10:26:39.715Z