Faiza Rashid Ammar Al Harthi, Abderezak Touzene, Nasser Alzidi, Faiza Al Salti
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引用次数: 0
摘要
在 5 G 网络中部署经济高效的小基站以创建超高密度(UDN)异构网络,已成为增强网络覆盖和优化资源分配的潜在有效策略。然而,由于 5 G 小蜂窝的密集性和异质性,UDN 使得网络选择更具挑战性。本研究为 5 G V2X 网络提出了一种高效的小基站选择切换机制。该机制采用多标准决策(MCDM)技术进行最佳小区切换选择,以提高整体性能。所提出的切换机制对上下文敏感,能适应不断变化的网络条件,确保在车辆高速行驶过程中实现高效切换。此外,该机制还结合了小蜂窝停留时间的概念,可减少不必要的切换。仿真结果表明,所提出的机制在减少频繁切换次数、减少链路故障和减少乒乓现象方面明显优于传统的切换技术和切换决策算法(Handover Decision-making Algorithm,HDMA)机制,平均减少了 66% 的不必要切换。
An efficient multi-criteria cell selection handover mechanism for Vehicle-to-Everything (V2X)
The deployment of cost-effective small cells to create ultra-high-density (UDN) heterogeneous networks in 5 G networks has emerged as a potentially effective strategy for enhancing network coverage and optimising resource allocation. However, UDN makes network selection more challenging due to the densification of small cells in 5 G and their heterogeneity. This research presents an efficient small cell selection handover mechanism for 5 G V2X networks. The proposed mechanism uses a Multiple Criteria Decision Making (MCDM) technique for the handover best cell selection to improve the overall performance. The proposed handover mechanism is context sensitive and it adapts to changing network conditions, ensuring efficient handovers during high-speed vehicular movement. Furthermore, the mechanism incorporates the concept of small cell Stay Time, which may reduce unnecessary handovers. The simulation results reveal that the proposed mechanism outperforms traditional handover techniques and Handover Decision-making Algorithm (HDMA) mechanisms significantly in terms of reducing the number of frequent handovers, minimizing link failures, and minimizing ping-pong with an average of 66 % reduction for unnecessary handovers.
期刊介绍:
The impact of computers has nowhere been more revolutionary than in electrical engineering. The design, analysis, and operation of electrical and electronic systems are now dominated by computers, a transformation that has been motivated by the natural ease of interface between computers and electrical systems, and the promise of spectacular improvements in speed and efficiency.
Published since 1973, Computers & Electrical Engineering provides rapid publication of topical research into the integration of computer technology and computational techniques with electrical and electronic systems. The journal publishes papers featuring novel implementations of computers and computational techniques in areas like signal and image processing, high-performance computing, parallel processing, and communications. Special attention will be paid to papers describing innovative architectures, algorithms, and software tools.
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