数字孪生脑:数字孪生脑与人脑的交互式视觉比较系统

IF 3.8 3区 计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS
Yuxiao Li , Xinhong Li , Siqi Shen , Longbin Zeng , Richen Liu , Qibao Zheng , Jianfeng Feng , Siming Chen
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引用次数: 3

摘要

基于脑启发计算研究的数字双脑计算模型是一种新兴的人工智能技术,它是通过硬件和软件的计算建模方法实现的。它可以以类似于人脑的方式实现各种认知能力及其协同机制。鉴于DTB的任务是模拟人脑的功能,比较两者之间的异同至关重要。然而,DTB的可视化研究仍处于研究阶段。此外,数据集的复杂性(多级时空粒度和不同类型的比较任务)对可视化的分析和探索提出了新的挑战。因此,在本研究中,我们提出了DTBVis,这是一个支持DTB比较任务的视觉分析系统。DTBVis支持不同层次、不同粒度的迭代探索。结合自动相似性推荐和高维探索,DTBVis可以帮助专家了解DTB和人脑之间的异同,从而帮助他们调整模型并增强其功能。DTBVis的最高级别显示了大脑数据集的概述,用于比较和探索DTB和人脑的功能和结构。中等水平用于对指定的大脑区域进行比较和探索。低级别可以分析指定的大脑体素。我们与脑科学专家密切合作,并定期与他们举行研讨会。专家的反馈表明,我们的方法有助于他们对DTB和人脑进行比较研究,并通过直观的视觉比较和互动探索对DTB进行建模调整。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
DTBVis: An interactive visual comparison system for digital twin brain and human brain

The digital twin brain (DTB) computing model from brain-inspired computing research is an emerging artificial intelligence technique, which is realized by a computational modeling approach of hardware and software. It can achieve various cognitive abilities and their synergistic mechanisms in a manner similar to the human brain. Given that the task of the DTB is to simulate the functions of the human brain, comparing the similarities and differences between the two is crucial. However, the visualization study of the DTB is still under-researched. Moreover, the complexity of the datasets (multilevel spatiotemporal granularity and different types of comparison tasks) presents new challenges to the analysis and exploration of visualization. Therefore, in this study, we proposed DTBVis, a visual analytics system that supports comparison tasks for the DTB. DTBVis supports iterative explorations from different levels and at different granularities. Combined with automatic similarity recommendation, and high-dimensional exploration, DTBVis can assist experts in understanding the similarities and differences between the DTB and the human brain, thus helping them adjust their model and enhance its functionality. The highest level of DTBVis shows an overview of the datasets from the brain, which is used for comparison and exploration of the function and structure of the DTB and the human brain. The medium level is used for the comparison and exploration of a designated brain region. The low level can analyze a designated brain voxel. We worked closely with experts of brain science and held regular seminars with them. Feedback from the experts indicates that our approach helps them conduct comparative studies of the DTB and human brain and make modeling adjustments of the DTB through intuitive visual comparisons and interactive explorations.

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来源期刊
Visual Informatics
Visual Informatics Computer Science-Computer Graphics and Computer-Aided Design
CiteScore
6.70
自引率
3.30%
发文量
33
审稿时长
79 days
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