纳米机器-神经元通信的频谱分析

2013 First International Black Sea Conference on Communications and Networking (BlackSeaCom) Pub Date : 2013-07-03 DOI:10.1109/BlackSeaCom.2013.6623382

M. Veletić, I. Balasingham, Z. Babic

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引用次数: 8

摘要

考虑了利用纳米级元件组成的纳米机器与生物组织相互作用的概念。生物启发的方法有助于发展纳米机器和系统的特定目的。预计由纳米机器组成的纳米网络可用于神经损伤的医学治疗。然而，纳米器件与神经细胞在体内的相互作用是一项具有挑战性的任务。依托计算神经科学、神经元系统数学建模和电路理论，研究了纳米级刺激器注入电流对神经元行为的影响。推导并讨论了合适的输入信号形状和频率。此外，研究了基于射频(RF)的信号及其非热效应，以设计纳米机器与神经元通信的接口。

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On spectrum analysis for nanomachine-to-neuron communications

The concept of using nanomachines consisting of nanoscale components to have interaction with biological tissues is considered. Bio-inspired approach contributes to the development of nanomachines and systems for specific purposes. It is anticipated that nanonetworks composed of nanomachines can be useful in medical treatment of neuronal impairments. However, interaction between nanodevices and neuronal cells within in-vivo environment is a challenging task. Relying on computational neuroscience, mathematical modeling of neuronal systems and electrical circuit theory, we investigate the neuronal behavior due to injected currents by nanoscale stimulator. Favorable input signal shapes and frequencies are derived and discussed. Furthermore, the investigations on using radio frequency (RF) based signaling and their non-thermal effects are considered to design an interface for nanomachine-to-neuron communication.

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2013 First International Black Sea Conference on Communications and Networking (BlackSeaCom)

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