用于纳米通信的简单块纳米码

Proceedings of the 3rd ACM International Conference on Nanoscale Computing and Communication Pub Date : 2016-09-28 DOI:10.1145/2967446.2967452

M. A. Zainuddin, Eugen Dedu, J. Bourgeois

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引用次数: 4

摘要

纳米网络由在分子尺度上执行简单任务(传感、数据处理和通信)的纳米机器组成。纳米网络有望在生物医学、工业和军事等各个领域提供新的解决方案。可靠的纳米通信需要误差控制。由于太赫兹频段的特性、计算复杂度和能量容量的限制，ARQ和复杂前向纠错(FEC)方法不适用于纳米器件。为了在电磁纳米通信中提供可靠的数据传输，我们提出了简单块纳米码(SBN)。我们将其与文献中两种可靠的纳米网络传输码——最小能量信道码(MEC)和低权重信道码(LWC)进行了比较。结果表明，SBN在可靠性和接收端图像质量方面优于MEC和LWC。结果还表明，具有采集模块的纳米器件(带有纳米相机)具有足够的能量来支持永久图像传输。

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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SBN: Simple Block Nanocode for nanocommunications

Nanonetworks consist of nanomachines that perform simple tasks (sensing, data processing and communication) at molecular scale. Nanonetworks promise novel solutions in various fields, such as biomedical, industrial and military. Reliable nanocommunications require error control. ARQ and complex Forward Error Correction (FEC) are not appropriate in nano-devices due to the peculiarities of Terahertz band, limited computation complexity and energy capacity. In this paper we propose Simple Block Nanocode (SBN) to provide reliable data transmission in electromagnetic nanocommunications. We compare it with the two reliable transmission codes in nanonetworks in the literature, minimum energy channel (MEC) and Low Weight Channel (LWC) codes. The results show that SBN outperforms MEC and LWC in terms of reliability and image quality at receiver. The results also show that a nano-device (with nano-camera) with harvesting module has enough energy to support perpetual image transmission.

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Proceedings of the 3rd ACM International Conference on Nanoscale Computing and Communication

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