Data for Brain Reference Architecture of NM24VestibuloOcularReflex

Mizuguchi, Nayuta; Yoshimasa Tawatsuji; Hiroshi Yamakawa

doi:10.51094/jxiv.810

##article.authors##

Mizuguchi, Nayuta The College of Arts and Sciences, The University of Tokyo
Yoshimasa Tawatsuji The University of Tokyo/The Whole Brain Architecture Initiative https://researchmap.jp/7000019779
Hiroshi Yamakawa The University of Tokyo/The Whole Brain Architecture Initiative https://orcid.org/0000-0002-6981-0349 https://researchmap.jp/ymkw

DOI:

https://doi.org/10.51094/jxiv.810

キーワード:

Brain Reference Architecture、 Vestibulo-Ocular Reflex、 Brain Stem

抄録

Computational models have been proposed for the vestibulo-ocular reflex (VOR), one of the key components of eye movements. To realize brain-inspired software , it is necessary to comprehensively describe and organize the functions of brainstem nuclei related to VOR in alignment with other types of eye movements. In this paper, we introduced the concept of “network motifs” , which are repeatedly occurring circuit patterns consisting of multiple nodes with input-output transformations that can be interpreted as computational functions. Based on this concept, we organized the functions of the nuclei. Furthermore, based on the hierarchical functional decomposition, we propose hypotheses for new anatomical structures in some nuclei. Also, we will discuss the details and validity of these proposals, as well as the issues with the currently proposed information-processing structure of neural nuclei involved in VOR.

利益相反に関する開示

The author(s) has/have no competing interests to declare.

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