Efficient Optimal and Suboptimal Joint Access Point Association and Radio Resource Allocation in WLANs

IF 2 Q3 TELECOMMUNICATIONS

Journal of Computer Networks and Communications Pub Date : 2023-01-18 DOI:10.37256/cnc.1120231689

Zhiwei Mao

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引用次数: 0

Abstract

The centralized joint access point (AP) association and radio resource allocation problem in time-sharing based dense WLANs with heterogeneous station (STA) throughput demands and identical AP transmission power is considered in this paper. The problem is formulated as an NP-hard single non-zero programming (SNZP) optimization problem with three different throughput-based objective functions, including the maximal aggregate (MA) throughput, the max-min fair (MMF) throughput and the proportionally fair (PF) throughput. To solve the NP-hard SNZP problem, based on the optimal branch-and-bound (BnB) searching approach, two novel efficient algorithms, the optimal BnB and the suboptimal depth-first BnB (DF-BnB) algorithms, are proposed, which can be used as convenient performance benchmarks in the study of the problem considered. The complexity of the proposed algorithms is analyzed theoretically. Numerical results are presented to investigate and compare the performance and complexity of the proposed algorithms under the three different design criteria, which can help in choosing an appropriate cost function objective in practical system design.

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无线局域网中有效的最优和次优联合接入点关联与无线资源分配

研究了具有异构站吞吐量需求和相同AP发射功率的分时密集无线局域网中集中式联合接入点(AP)关联和无线资源分配问题。该问题是一个NP-hard单非零规划(SNZP)优化问题，具有三个不同的基于吞吐量的目标函数，包括最大聚合吞吐量(MA)、最大最小公平吞吐量(MMF)和比例公平吞吐量(PF)。为了解决NP-hard SNZP问题，在最优分支定界(BnB)搜索方法的基础上，提出了最优BnB和次最优深度优先BnB (DF-BnB)算法两种新的高效算法，这两种算法可以作为研究所考虑问题的方便性能基准。从理论上分析了所提算法的复杂性。通过数值结果比较了三种不同设计准则下所提出算法的性能和复杂度，有助于在实际系统设计中选择合适的成本函数目标。

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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来源期刊

Journal of Computer Networks and Communications TELECOMMUNICATIONS-

CiteScore

5.30

自引率

5.00%

发文量

审稿时长

15 weeks

期刊介绍： The Journal of Computer Networks and Communications publishes articles, both theoretical and practical, investigating computer networks and communications. Articles explore the architectures, protocols, and applications for networks across the full spectrum of sizes (LAN, PAN, MAN, WAN…) and uses (SAN, EPN, VPN…). Investigations related to topical areas of research are especially encouraged, including mobile and wireless networks, cloud and fog computing, the Internet of Things, and next generation technologies. Submission of original research, and focused review articles, is welcomed from both academic and commercial communities.