Research on frequency allocation scheme in wireless communication system

2021 International Symposium on Computer Technology and Information Science (ISCTIS) Pub Date : 2021-06-01 DOI:10.1109/ISCTIS51085.2021.00055

Zhuoqun Jin, Yufan Liu, Yuanyuan Miao

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Abstract

With the development of communication, spectrum plays a more and more important role in the wireless system. So, in this paper, we research spectrum allocation problems in a wireless system. 1)we research some algorithms such as Simultaneous Water-Filling (SWF), fractional frequency reuse FFR. To increase the capacity or enhance the performance and achieve a good user experience, and improve spectral efficiency interference management, techniques like FFR or SWF with enhanced scheduling strategies are proposed. They are important and efficient in spectrum allocation. 2)We propose a method named SWF+FFR, which can improve the wireless system's capacity and improve the efficiency of the spectrum. In our method, the resource allocation in FFR is done for the users in the cell center (full reuse). As for users in the cell range expansion (partial reuse) regions, they depend on the optimum post processing signal to interference plus noise ratio threshold with different schedulers in the two regions. We demonstrate that the particular combination shows a better throughput performance than the popular and ordinary FFR scheme.

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无线通信系统中的频率分配方案研究

随着通信技术的发展，频谱在无线系统中发挥着越来越重要的作用。因此，本文对无线系统中的频谱分配问题进行了研究。1)研究了同步充水(SWF)、分数频率重复使用FFR等算法。为了增加容量或提高性能，获得良好的用户体验，并改善频谱效率干扰管理，提出了具有增强调度策略的FFR或SWF等技术。它们在频谱分配中具有重要的作用和效率。2)提出了一种名为SWF+FFR的方法，可以提高无线系统的容量，提高频谱的效率。在我们的方法中，FFR中的资源分配是为单元中心的用户完成的(完全重用)。对于小区范围扩展(部分重用)区域的用户，在两个区域使用不同的调度程序，依赖于最优的后处理信号对干扰加噪声比阈值的处理。我们证明了特定的组合比流行的普通FFR方案具有更好的吞吐量性能。

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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2021 International Symposium on Computer Technology and Information Science (ISCTIS)

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