Very-high-throughput millimeter-wave system oriented for health monitoring applications

2011 IEEE 13th International Conference on e-Health Networking, Applications and Services Pub Date : 2011-06-13 DOI:10.1109/HEALTH.2011.6026753

C. Estevez, Jian-feng Wei, A. Kailas, David Fuentealba, G. Chang

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引用次数: 8

Abstract

Millimeter-wave transmission systems allow for very high throughput rates and broad bandwidths using wireless technology. Most Body Area Networks (BANs) work in the high MHz or few GHz range, which limit the channel capacity of the system. If the bandwidth is narrow, only low spectrally-efficient modulation techniques can be utilized. In this study an energy-efficient radio-over-fiber media access control protocol using the unlicensed 60-GHz millimeter-wave (mm-wave) band is proposed. The protocol can be best described as an algorithm that generates an isometric distribution of the available frequency-time resources and services the slave motes in monochromatic groups. The master mote builds a frequency-time two-dimensional grid that organizes the chronological service order of this FD-TDMA hybrid protocol. This mechanism provides a collision-free environment in which the sensors can achieve energy independence, also referred as self-sustainability in this work, which is an important feature in BANs. Results show that the proposed protocol successfully manages the BANs in a collision-free and energy self-sustainable manner.

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面向健康监测应用的高通量毫米波系统

毫米波传输系统允许使用无线技术实现非常高的吞吐率和宽带。大多数体域网络(ban)工作在高MHz或少GHz范围内，这限制了系统的信道容量。如果带宽很窄，只能使用低频谱效率的调制技术。在本研究中，提出了一种使用未经许可的60 ghz毫米波(mm-wave)频段的节能无线光纤媒体访问控制协议。该协议可以最好地描述为一种算法，该算法生成可用频率时间资源的等距分布，并在单色组中为从点提供服务。主节点建立一个频率-时间二维网格来组织这个FD-TDMA混合协议的时间服务顺序。这种机制提供了一个无碰撞的环境，在这个环境中传感器可以实现能量独立性，在这项工作中也被称为自我可持续性，这是ban的一个重要特征。结果表明，该协议成功地以无碰撞和能量自持续的方式管理了ban。

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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2011 IEEE 13th International Conference on e-Health Networking, Applications and Services

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