Article: Integer linear programming model for grid-based wireless transmitter location problems Journal: International Journal of Operational Research (IJOR) 2015 Vol.22 No.1 pp.48 - 64 Abstract: At present, wireless communications are an integral part of day to day life. To make this communication effective and efficient, we have to place our transmitters in such a way that we can provide reliable service with a minimum cost. However, properly accomplishing this becomes a very difficult and computationally complex task when real-world considerations such as variation in signal strength due to distance and differences in the propagation environment (i.e., different degrees of obstruction) are taken into account. Therefore, the objective of this research is to develop effective and efficient methodologies to design an optimum wireless transmitter allocation strategy. To achieve this objective, we consider this decision problem as a grid-based location problem (GBLP), and develop an ILP model that is designed to provide the optimal solution for the transmitter location problem. These ILP models are often difficult to solve. As such, we developed a problem-specific decomposition approach to solve large-scale GBLP ILP problems, which we demonstrate has significantly reduced solution runtimes while not impacting optimality. Inderscience Publishers - linking academia, business and industry through research

Title: Integer linear programming model for grid-based wireless transmitter location problems

Authors: Md. Noor-E-Alam; Brody Todd; John Doucette

Addresses: Department of Mechanical Engineering, 4-9 Mechanical Engineering Bldg., University of Alberta, Edmonton, AB, T6G 2G8, Canada ' Department of Mechanical Engineering, 4-9 Mechanical Engineering Bldg., University of Alberta, Edmonton, AB, T6G 2G8, Canada; TRLabs, Edmonton, AB, Canada ' Department of Mechanical Engineering, 4-9 Mechanical Engineering Bldg., University of Alberta, Edmonton, AB, T6G 2G8, Canada; TRLabs, Edmonton, AB, Canada

Abstract: At present, wireless communications are an integral part of day to day life. To make this communication effective and efficient, we have to place our transmitters in such a way that we can provide reliable service with a minimum cost. However, properly accomplishing this becomes a very difficult and computationally complex task when real-world considerations such as variation in signal strength due to distance and differences in the propagation environment (i.e., different degrees of obstruction) are taken into account. Therefore, the objective of this research is to develop effective and efficient methodologies to design an optimum wireless transmitter allocation strategy. To achieve this objective, we consider this decision problem as a grid-based location problem (GBLP), and develop an ILP model that is designed to provide the optimal solution for the transmitter location problem. These ILP models are often difficult to solve. As such, we developed a problem-specific decomposition approach to solve large-scale GBLP ILP problems, which we demonstrate has significantly reduced solution runtimes while not impacting optimality.

Keywords: linear programming; transmitter location analysis; grid-based location problems; GBLPs; integer programming; wireless transmitter location; wireless transmitters; wireless communications.

DOI: 10.1504/IJOR.2015.065939

International Journal of Operational Research, 2015 Vol.22 No.1, pp.48 - 64

Received: 12 Oct 2012
Accepted: 04 Apr 2013
Published online: 09 May 2015 *

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Title: Integer linear programming model for grid-based wireless transmitter location problems

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