Adaptive Resource Allocation for Interference Management in Small Cell Networks
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A practical but suboptimal channel assignment and interference management algorithm for fractional frequency reuse (FFR) wireless networks and an adaptive graph coloring approach for resource allocation with the goal of interference management among femtocells as well as achieving fairness among users is proposed.Abstract:
We consider a femto cellular network consisting of multiple neighboring femtocells, eg, in an enterprise deployment such as shopping malls, stadiums, or corporate premises We present a practical but suboptimal channel assignment and interference management algorithm for fractional frequency reuse (FFR) wireless networks More specifically, we propose an adaptive graph coloring approach for resource allocation with the goal of interference management among femtocells as well as achieving fairness among users While the global-optimum solution has exponential complexity, our proposed scheme has a linear complexity in the number of femtocells Although suboptimal, we have evaluated our algorithm in small scenarios, where direct evaluation is possible, and found that the achieved minimum user rate using the proposed algorithm is 85% of the optimal minimum rate Additionally, we have analyzed several practical design considerations of our proposal such as channel feedback, latency, and computational complexity We demonstrate the performance of our proposed solution against various alternatives and show that it provides better performance under various environment parameters For example, in a dense femtocell deployment, the performance was improved by 47% over a full frequency reuse schemeread more
Citations
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Computation Offloading and Resource Allocation in Wireless Cellular Networks With Mobile Edge Computing
TL;DR: This work forms the computation offloading decision, resource allocation and content caching strategy as an optimization problem, considering the total revenue of the network, and develops an alternating direction method of multipliers-based algorithm to solve the optimization problem.
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Fast and Efficient Radio Resource Allocation in Dynamic Ultra-Dense Heterogeneous Networks
TL;DR: A new resource allocation scheme presenting a low computational overhead and a low subband handoff rate in a dynamic ultra-dense heterogeneous network is presented.
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Joint Interference Management in Ultra-Dense Small-Cell Networks: A Multi-Domain Coordination Perspective
TL;DR: The proposed distributed joint interference management (JIM) algorithm allows each small-cell base station to self-organize and interact into a stable overlapping coalition structure and reduce interference gradually from multi-domain, thus achieving an optimal tradeoff between costs and benefits.
Proceedings ArticleDOI
Joint computation offloading, resource allocation and content caching in cellular networks with mobile edge computing
TL;DR: An alternating direction method of multipliers (ADMM) based algorithm is developed to solve the optimization problem in wireless cellular networks with mobile edge computing, taking into consideration computation offloading decision, physical spectrum resource allocation, MEC computation resources allocation, and content caching strategy.
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Demand-aware resource allocation for ultra-dense small cell networks: an interference-separation clustering-based solution
TL;DR: This paper proposes an interference‐separation clustering‐based scheme to divide the massive small cells into smaller groups with different priorities, which reduces the network scale and outperforms some other existing approaches and is more suitable for large‐scale networks.
References
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Posted Content
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TL;DR: A quantitative measure called Indiex of FRairness, applicable to any resource sharing or allocation problem, which is independent of the amount of the resource, and boundedness aids intuitive understanding of the fairness index.
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