Methods of MIMO decoders for very high throughput WLAN IEEE802.11ac

2016 3rd International Conference on Information Technology, Computer, and Electrical Engineering (ICITACEE) Pub Date : 2016-10-19 DOI:10.1109/ICITACEE.2016.7892490

W. Syafei, Zuhrotul Maulida, I. Santoso

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引用次数: 1

Abstract

Exponential growing of wireless multimedia communications has forced the IEEE802.11 workgroup to define new standard of WLAN. It is named a Very High Throughput WLAN IEEE 802.11ac which exploits MIMO-OFDM technology to provide up to 6,9Gbps of throughput. MIMO decoder is the vital part of WLAN 802.11ac. It decodes the received signals to get back the transmitted information. There are many methods can be implemented in MIMO Decoder. The linear methods, such as Zero Forcing (ZF) and Minimum Mean Square Error (MMSE) are simple but low in performance. At the other side, the well-known non-linear method called Maximum Likelihood Detection (MLD) measures the likelihood of the received signal to all symbol candidates. It gives an optimum performance by the cost of very high complexity. Between them, there are some sub-optimal methods, such as K-best, Trellis, and Sphere Detection. These three methods are low in complexity but give performance close to optimum. This paper is adressed to compare the performance and complexity of above methods as MIMO decoders for 8×8 WLAN 802.11ac. Observation is conducted under small room channel model.

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用于非常高吞吐量WLAN IEEE802.11ac的MIMO解码器方法

随着无线多媒体通信的迅猛发展，IEEE802.11工作组不得不制定新的无线局域网标准。它被命名为极高吞吐量WLAN IEEE 802.11ac，利用MIMO-OFDM技术提供高达6.9 gbps的吞吐量。MIMO解码器是WLAN 802.11ac的重要组成部分。它对接收到的信号进行解码，以得到发送的信息。在MIMO解码器中可以实现多种方法。线性方法，如零强迫(ZF)和最小均方误差(MMSE)是简单的，但性能较差。另一方面，众所周知的非线性方法称为最大似然检测(MLD)测量接收信号对所有候选符号的似然。它以极高的复杂度为代价获得了最优的性能。在它们之间，有一些次优方法，如K-best、Trellis和Sphere Detection。这三种方法的复杂性较低，但性能接近最佳。本文旨在比较上述方法作为8×8 WLAN 802.11ac的MIMO解码器的性能和复杂性。在小房间通道模型下进行观察。

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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2016 3rd International Conference on Information Technology, Computer, and Electrical Engineering (ICITACEE)

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