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AuthorGhazzai, Hakim
AuthorYaacoub, Elias
AuthorAlouini, Mohamed-Slim
AuthorDawy, Zaher
AuthorAbu-Dayya, Adnan
Available date2024-09-29T09:39:44Z
Publication Date2016
Publication NameIEEE Transactions on Vehicular Technology
ResourceScopus
ISSN189545
URIhttp://dx.doi.org/10.1109/TVT.2015.2411579
URIhttp://hdl.handle.net/10576/59436
AbstractBase station (BS) deployment in cellular networks is one of the fundamental problems in network design. This paper proposes a novel method for the cell planning problem for fourth-generation (4G) cellular networks using metaheuristic algorithms. In this approach, we aim to satisfy both cell coverage and capacity constraints simultaneously by formulating an optimization problem that captures practical planning aspects. The starting point of the planning process is defined through a dimensioning exercise that captures both coverage and capacity constraints. Afterward, we implement a metaheuristic algorithm based on swarm intelligence (e.g., particle swarm optimization or the recently proposed gray-wolf optimizer) to find suboptimal BS locations that satisfy both problem constraints in the area of interest, which can be divided into several subareas with different spatial user densities. Subsequently, an iterative approach is executed to eliminate eventual redundant BSs. We also perform Monte Carlo simulations to study the performance of the proposed scheme and compute the average number of users in outage. Next, the problems of green planning with regard to temporal traffic variation and planning with location constraints due to tight limits on electromagnetic radiations are addressed, using the proposed method. Finally, in our simulation results, we apply our proposed approach for different scenarios with different subareas and user distributions and show that the desired network quality-of-service (QoS) targets are always reached, even for large-scale problems.
Languageen
PublisherIEEE
SubjectCoverage and cell capacity dimensioning
electromagnetic radiation exposure
green planning
Long-Term Evolution (LTE) cellular network planning
metaheuristic algorithms
TitleOptimized LTE Cell Planning with Varying Spatial and Temporal User Densities
TypeConference
Pagination1575-1589
Issue Number3
Volume Number65
dc.accessType Full Text


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