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引用次数: 11
摘要
在大规模空分多址(SDMA)系统中,最大似然多用户检测器(ML MUD)可能过于复杂,这决定了在传统系统中使用低复杂性的次优MUD。然而,最近提出的基于 rr- h øyer算法(DHA)辅助量子加权和算法(QWSA)的量子多用户检测器(QMUD)绕过了这一限制,该检测器用于在SDMA系统中执行最优ML迭代检测。我们将重点放在QWSA上,通过一个简单的SDMA上行场景分析QMUD和量子系统的演化。我们对所提倡的DHA-QWSA QMUD的性能进行了表征,它能够在出口图和BER曲线方面匹配ML MUD的性能。
Low-complexity iterative quantum multi-user detection in SDMA systems
The potentially excessive complexity of the Maximum Likelihood Multi-User Detector (ML MUD) in large-scale Spatial Division Multiple Access (SDMA) systems dictates the employment of low-complexity sub-optimal MUDs in the context of conventional systems. However, this limitation was circumvented by the recently proposed Dürr-Høyer Algorithm (DHA)-aided Quantum Weighted Sum Algorithm (QWSA)-based Quantum Multi-User Detector (QMUD) employed for performing optimal ML iterative detection in SDMA systems. Focusing our attention on the QWSA, we analyse the QMUD and the evolution of the quantum system with the aid of a simple SDMA uplink scenario. We characterize the performance of the DHA-QWSA QMUD advocated, which is capable of matching the performance of the ML MUD both in terms of its EXIT charts and BER curves.
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