无线通信系统的中断概率和容量改进

E. H. Ali, M. El_Tokhy, Somaya I Kayed
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摘要

本文主要通过分析和评估作为无线通信系统的多载波码分多址(MC-CDMA)的性能,来改进核辐射监测的无线通信网络。这项工作旨在确定作为服务质量参数的中断概率,并研究信道恶化情况下的平均信道容量。他们使用封闭式表达来呈现这些特性的性能,并研究了分支和子载波数量对中断概率的影响。此外,作者还提出了衰落条件下信道的稳健可靠方法,并研究了用户数量最多的 MC-CDMA 的容量。研究结果证实,与其他信道衰落相比,指数信道衰落实现了最低的中断概率。此外,所提出的结果保证了高平均信道容量和高吞吐量,这对于成功部署 MC-CDMA 系统至关重要。这项研究的结果为无线通信系统领域的研究人员和工程师,尤其是对 MC-CDMA 系统的设计和优化感兴趣的人员提供了宝贵的信息。总之,本文有助于理解 MC-CDMA 系统在各种信道条件下的性能,并为此类系统的设计和优化提供了深入见解。研究结果表明,在核辐射监测中利用稳健可靠的无线通信系统来确保所获数据的准确性和可靠性非常重要。
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Outage Probability and Capacity improvement of A Wireless Communication Systems
The paper focuses on improving wireless communication networks for nuclear radiation monitoring by analyzing and evaluating the performance of Multi Carrier Code Division Multiple Access (MC-CDMA) as a wireless communication system. The work aims to determine the outage probability as a quality-of-service parameter and investigate the average channel capacity under channel deterioration. They use closed form expressions to present the performances of these characteristics and study the impact of the number of branches and subcarriers on the outage probability. In addition, the authors propose a robust and reliable approach to channel under fading and study the capacity of MC-CDMA with the largest number of users. The results obtained from the study confirm that exponential channel fading achieves the lowest outage probability compared to other channel degradations. Moreover, the proposed results guarantee high average channel capacity and high throughput, which are essential for the successful deployment of MC-CDMA systems. The findings of this study provide valuable information for researchers and engineers working in the field of wireless communication systems, particularly those interested in the design and optimization of MC-CDMA systems. Overall, the paper contributes to the understanding of the performance of MC-CDMA systems under various channel conditions and provides insights into the design and optimization of such systems. The results show that the importance of utilizing robust and reliable wireless communication systems in nuclear radiation monitoring to ensure the accuracy and reliability of the data obtained.
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