On consumable energy allocation frame-work with SWIPT for remotely located wireless node within internet of things

A. ElSabaa, M. Patwary, E. Benkhelifa, A. Zaki, S. El-Khamy
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引用次数: 1

Abstract

The degree of assurance of providing reliable connectivity to diversely located devices will define the success of internet of things as aimed for future generation of wireless networks. This poses a challenge of making energy available to such devices, regardless of the environment or the circumstances they are into to keep them connected. Solving such a challenge is expected to provide significant degree of flexibility to the coverage planning of the future generations of wireless networks. Simultaneous wireless information and power transfer (SWIPT) provides a candidate solution to resolve this problem; which may require a trade off with the available data rate to the device. This paper proposes an innovative trade-off frame-work to avoid any of the data rate compromise, while providing enormous flexibility to facilitate energy to the remotely located devices on demand basis. Such flexibility relaxes the coverage as well as capacity planning constraint in future wireless networks.
基于SWIPT的物联网远程无线节点耗电分配框架研究
为不同位置的设备提供可靠连接的保证程度将决定物联网能否成功,以下一代无线网络为目标。这就给这些设备提供能量带来了挑战,无论它们所处的环境如何,都不能使它们保持连接。解决这一挑战有望为未来几代无线网络的覆盖规划提供很大程度的灵活性。同时无线信息与电力传输(SWIPT)为解决这一问题提供了一种备选方案;这可能需要与设备的可用数据速率进行权衡。本文提出了一种创新的权衡框架,以避免任何数据速率妥协,同时提供巨大的灵活性,以根据需要为远程设备提供能源。这种灵活性放宽了未来无线网络的覆盖范围和容量规划限制。
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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