NON-DESTRUCTIVE WHOLE-BRAIN MONITORING USING NANOROBOTS: NEURAL ELECTRICAL DATA RATE REQUIREMENTS

International Journal of Machine Consciousness Pub Date : 2012-06-14 DOI:10.1142/S1793843012400069
Nuno R. B. Martins, W. Erlhagen, R. Freitas
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引用次数: 15

Abstract

Neuronanorobotics, a promising future medical technology, may provide the ultimate tool for achieving comprehensive non-destructive real-time in vivo monitoring of the many information channels in the human brain. This paper focuses on the electrical information channel and employs a novel electrophysiological approach to estimate the data rate requirements, calculated to be (5.52 ± 1.13) × 1016 bits/sec in an entire living human brain, for acquiring, transmitting, and storing single-neuron electrical information using medical nanorobots, corresponding to an estimated synaptic-processed spike rate of (4.31 ± 0.86) × 1015 spikes/sec.
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使用纳米机器人的非破坏性全脑监测:神经电数据速率要求
神经机器人是一种很有前途的未来医学技术,它可能为实现对人脑中许多信息通道的全面、非破坏性实时体内监测提供最终工具。本文关注电信息通道,并采用一种新颖的电生理学方法来估计数据速率需求,计算出在整个活人大脑中,使用医用纳米机器人获取,传输和存储单个神经元电信息的数据速率为(5.52±1.13)× 1016位/秒,对应于估计的突触处理尖峰速率为(4.31±0.86)× 1015尖峰/秒。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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International Journal of Machine Consciousness
International Journal of Machine Consciousness
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