广播/组播业务中非均匀星座的多通道设计

B. Mouhouche, Mohammed Al-Imari, D. Ansorregui
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引用次数: 3

摘要

最近的研究表明,与传统的均匀星座相比,非均匀星座(NUC)具有潜在的性能增益。NUC可以成为5G系统中提高数据吞吐量的有希望的候选者。在文献中,NUC是针对特定的信噪比值和传播信道而设计的。然而,在广播/组播业务中,不同用户接收到的信号会看到独立的、不同的信道。因此,在本文中,我们关注的是针对多个传播信道进行联合优化时NUC的潜在增益。为了评估增益,我们提出了一种迭代算法来共同优化不同信道条件下的NUC。然后将得到的星座与均匀星座和单通道NUC进行比较。仿真结果表明,当考虑不同信道的平均性能时,新设计的星座在不同信道条件下的性能优于传统的单信道NUC。
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Multichannel Design of Non Uniform Constellations for Broadcast/Multicast Services
Recent studies have shown the potential performance gain of Non Uniform Constellations (NUC) compared to the conventional uniform constellations. NUC can be a promising candidate in 5G systems to increase the data throughput. In the literature, NUC is designed for a specific SNR value and propagation channel. However, in broadcast/multicast services, the received signal by different users will see independent and different channels. Hence, in this paper, we focus on the potential gain of NUC when jointly optimized for more than one propagation channel. In order to assess the gain, we propose an iterative algorithm to jointly optimize the NUC for different channel conditions. The resulting constellations are then compared to uniform constellation and single channel NUC. The simulation results show that the newly designed constellations outperform the classical single channel NUC across different channel conditions when the average performance (across different channels) is considered.
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