Design of a low-complexity O-QPSK transceiver with spatial modulation for internet-of-things applications

Ching-Hoa Yang, P. Tsai
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引用次数: 2

Abstract

In this paper, we propose an O-QPSK transceiver with five modes including 2×2 spatial-modulation mode to offer different data rates for supporting diverse internet-of-things (IoT) applications. Synchronization, channel estimation and joint ML detection for spatial modulation at the receiver are presented. To accomplish a low-complexity design, we use ℓ1-norm instead of ℓ2-norm, share the intermediate computation results, and exploit the property of the pulse-shaping-window coefficients for the joint Ml detection. Almost 78.8% reduction in computational complexity is achieved with only 0.2dB performance loss. The simulation results show that the low-complexity transceiver works well in the low-SNR region with low-rate modes and also supports up to 3Mbps with the spatial modulation.
面向物联网应用的空间调制低复杂度O-QPSK收发器设计
在本文中,我们提出了一种O-QPSK收发器,具有五种模式,包括2×2空间调制模式,以提供不同的数据速率,以支持各种物联网(IoT)应用。提出了接收机空间调制的同步、信道估计和联合ML检测。为了实现低复杂度的设计,我们使用1-范数代替2-范数,共享中间计算结果,并利用脉冲形窗系数的特性进行联合Ml检测。在仅损失0.2dB性能的情况下,计算复杂度降低了78.8%。仿真结果表明,该低复杂度收发器在低信噪比区域和低速率模式下工作良好,在空间调制下可支持高达3Mbps的带宽。
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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