Cooperative signaling and directed migration of bio-nanomachines in mobile molecular communication

Shinya Ishiyama, T. Nakano, Yutaka Okaie, Takahiro Hara, K. Harumoto
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引用次数: 2

Abstract

In this paper, we propose a molecular communication system where bio-nanomachines cooperate in signaling and move directionally toward a target area in the environment. In the proposed system, bio-nanomachines, upon entering a target area, release signal molecules in pulses, and nearby bio-nanomachines respond to the signal molecules by further releasing signal molecules in pulses. When bio-nanomachines are distributed around a target area, signal molecules propagate over long distance as a traveling wave in the environment, where the direction of a traveling wave encodes the location information about a target area. Bio-nanomachines outside a target area implement the relay-and-stop mechanism; they relay signal molecules and stop for a short period of time in order to bias their motion toward a target area based on the direction of a traveling wave. Numerical results show that the proposed system outperforms existing systems in terms of the number of bio-nanomachines that move closer to target areas. Application of the proposed system is anticipated to improve the performance of cooperative drug delivery using bio-nanomachines.
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移动分子通信中生物纳米机器的协同信号和定向迁移
在本文中,我们提出了一种分子通信系统,其中生物纳米机器在信号传递中相互合作,并向环境中的目标区域定向移动。在所提出的系统中,生物纳米机器在进入靶区域后以脉冲方式释放信号分子,附近的生物纳米机器通过进一步以脉冲方式释放信号分子来响应信号分子。当生物纳米机器分布在目标区域周围时,信号分子作为行波在环境中长距离传播,其中行波的方向编码了目标区域的位置信息。目标区域外的生物纳米机器实现了继电器和停止机制;它们传递信号分子,并在短时间内停止,以便根据行波的方向将它们的运动偏向目标区域。数值结果表明,所提出的系统在靠近目标区域的生物纳米机器数量方面优于现有系统。该系统的应用有望提高生物纳米机器协同给药的性能。
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