Enabling Smart Grid via TV White Space Cognitive Radio

A. S. Cacciapuoti, M. Caleffi, Francesco Marino, L. Paura
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引用次数: 16

Abstract

The attractive characteristics of the TV White Space makes it the ideal candidate for enabling multiple and independently-operated secondary networks via Cognitive Radio paradigm. However, so far, there are no regulatory requirements for the coexistence among heterogenous secondary networks over TVWS. Hence, their mutual interference can be very severe. This issue is even more crucial in urban Smart Grid scenarios, where the latency and energy requirements are very tight and multiple Neighborhood Area Networks (NANs) are likely to be located within the same geographical area. Hence, in this paper, the problem of the interference among multiple NANs is addressed with the objective to maximize the achievable data rate. To this aim, the Gateway senses the TVWS channel declared available from incumbents by the WSDB to discover the presence of an interfering NAN. If the sensing declares the TVWS channel as idle, the Gateway can transmit over such a channel. Otherwise, the Gateway uses the ISM channel. Within the paper, the choice of the sensing duration maximizing the achievable data rate at the Gateway, by explicitly accounting for the accuracy/overhead trade-off and the co-located NANs traffic patterns, is addressed. Numerical results validate the theoretical analysis.
通过电视空白空间认知无线电启用智能电网
电视空白空间吸引人的特性使其成为通过认知无线电范式实现多个独立操作的辅助网络的理想候选者。然而,到目前为止,对于异构二次网络在TVWS上的共存还没有监管要求。因此,它们之间的相互干扰可能非常严重。这个问题在城市智能电网场景中更为重要,因为延迟和能源需求非常紧张,而且多个邻域网络(nan)可能位于同一地理区域内。因此,本文以最大可实现的数据速率为目标,解决了多个纳米网络之间的干扰问题。为此,网关感知WSDB声明的现有可用的TVWS通道,以发现干扰NAN的存在。如果感知声明TVWS信道为空闲,网关可以通过这样的信道进行传输。否则,网关将使用ISM通道。在本文中,通过明确地考虑准确性/开销权衡和共定位的nan流量模式,解决了传感持续时间选择最大化网关可实现的数据速率的问题。数值结果验证了理论分析的正确性。
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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