A Gene Regulatory Network-Inspired Self-Organizing Control for Wireless Sensor Networks

HeejungByun; JaesungPark

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A Gene Regulatory Network-Inspired Self-Organizing Control for Wireless Sensor Networks

机译：基因调控网络启发的无线传感器网络自组织控制

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Biologically inspired modeling techniques have received considerable attention for the realization of robustness, scalability, and adaptability with simple local interactions and limited information. Gene Regulatory Networks (GRNs) play a central role in understanding natural evolution and development of biological organisms from cells. In this paper, we employ GRN principles and propose a new GRN model for self-organizing control of Wireless Sensor Networks (WSNs) with dual aims of energy saving and delay guarantee. Through this scheme, each sensor node schedules its state autonomously according to the controlled gene expression and protein concentration of the proposed GRN model. Simulation results also indicate that the proposed scheme achieves good performance in meeting delay requirements and conserving energy in WSN systems.

机译：受生物学启发的建模技术以简单的本地交互和有限的信息实现鲁棒性，可伸缩性和适应性而受到了广泛关注。基因调控网络（GRN）在了解细胞的生物进化和发展过程中起着核心作用。在本文中，我们采用GRN原理，并提出了一种新的GRN模型，用于无线传感器网络（WSN）的自组织控制，具有节能和延迟保证的双重目的。通过该方案，每个传感器节点根据所建议的GRN模型的受控基因表达和蛋白质浓度自主调度其状态。仿真结果还表明，所提出的方案在满足延迟要求和节省WSN系统能量方面取得了良好的性能。

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《International Journal of Distributed Sensor Networks》 |2015年第3期|共7页
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HeejungByun; JaesungPark;
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A Gene Regulatory Network-Inspired Self-Organizing Control for Wireless Sensor Networks

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