用于FBMC和OFDM系统中增强联合信道估计和干扰消除的递归神经网络:揭示5G网络的潜力

IF 1.9 4区 工程技术 Q2 Engineering EURASIP Journal on Advances in Signal Processing Pub Date : 2023-11-24 DOI:10.1186/s13634-023-01077-0
Rasha M. Al-Makhlasawy, Mayada Khairy, Walid El-Shafai
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引用次数: 0

摘要

FBMC是5G的关键系统,是有效利用可用带宽的基石,同时满足对高频谱效率的严格要求。值得注意的是,FBMC利用了多载波调制(MC)的功能,这是支持第四代(4G)系统的正交频分复用(OFDM)技术的一个很好的替代方案。无线通信领域充满了挑战,其中最重要的是信道估计和干扰消除,这两个问题都值得全面研究,以提高数据传输的效率。在本文中,我们的研究采取了一个深思熟虑的步骤,以收敛两个突出的调制模型:OFDM和FBMC。我们特别将这些调制技术与复杂的联合信道估计和干扰消除(JCEIC)领域进行了对比。在本研究中,我们利用递归神经网络(RNNs)作为车载信道的效率来执行精确的信道估计和恢复未损坏的传输信号,从而降低误码率(BER)。我们对双选择信道的信道估计是基于分散在时间和频率维度上的导频的精心放置,并通过选择低复杂度的干扰消除方法进一步改进。我们的JCEIC提案旨在仔细整合rnn,使用JCEIC算法的输出序列作为该神经结构的有用输入。与传统方法相比,通过清楚地展示误码率的降低,很明显,新方法的性能接近于完美信道的性能。此外,FBMC和OFDM系统在不同信噪比下的性能比较揭示了在系统效率方面有利于前者的明显性能差异。在适度的5db下,FBMC将误码率限制在一个值得称赞的小于0.1的阈值,继续其改进的基于rnn的信道估计开始的更高趋势。这种范式转换明显提高了信道估计的准确性,也明显降低了5G网络典型的计算复杂性。
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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Recurrent neural networks for enhanced joint channel estimation and interference cancellation in FBMC and OFDM systems: unveiling the potential for 5G networks

FBMC is a pivotal system in 5G, serving as a cornerstone for efficient use of available bandwidth while simultaneously meeting stringent requirements for high spectral efficiency. Notably, FBMC harnesses the power of multicarrier modulation (MC), a good alternative to orthogonal frequency division multiplexing (OFDM) technology that supports fourth-generation (4G) systems. The wireless communications field is full of challenges, the most important of which are channel estimation and interference cancellation, both of which deserve comprehensive study to increase the efficiency of data transmission. In this paper, our investigation takes a deliberate step towards the convergence of two prominent modulation models: OFDM and FBMC. We specifically contrast these modulation techniques with the intricate field of joint channel estimation and interference cancellation (JCEIC). In this research study, we take advantage of recurrent neural networks' (RNNs') efficiency as a vehicular channel to perform precise channel estimation and recovery of uncorrupted transmitted signals, thereby lowering the bit error rate (BER). Our channel estimation for a dual selective channel is based on the thoughtful placement of pilots scattered over the temporal and frequency dimensions, and is further improved by the interference cancellation method of low complexity that was selected. Our JCEIC proposal aims to integrate RNNs carefully, using the output sequences of JCEIC algorithms as useful inputs to this neural architecture. By clearly demonstrating a decrease in BER as compared to traditional approaches, it is evident that the performance of the novel approach is near to that of a perfect channel. Additionally, a comparison of the performance of FBMC and OFDM systems at various signal-to-noise ratios reveals a clear performance divide that favors the former in terms of system efficiency. The BER is restricted by FBMC to a commendable threshold of less than 0.1 at a modest 5 dB, continuing the higher trend started by its improved RNN-based channel estimate. The accuracy of channel estimation is clearly improved by this paradigm shift, and the computing complexity typical of 5G networks is also clearly reduced.

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来源期刊
EURASIP Journal on Advances in Signal Processing
EURASIP Journal on Advances in Signal Processing 工程技术-工程:电子与电气
CiteScore
3.50
自引率
10.50%
发文量
109
审稿时长
2.6 months
期刊介绍: The aim of the EURASIP Journal on Advances in Signal Processing is to highlight the theoretical and practical aspects of signal processing in new and emerging technologies. The journal is directed as much at the practicing engineer as at the academic researcher. Authors of articles with novel contributions to the theory and/or practice of signal processing are welcome to submit their articles for consideration.
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