Abstract
In recent years, Energy Efficiency (EE) has become a critical design metric for cellular systems. In order to achieve EE, a fine balance between throughput and fairness must also be ensured. To this end, in this paper we have presented various resource block (RB) allocation schemes in relay-assisted Long Term Evolution-Advanced (LTE-A) networks. Driven by equal power and Bisection-based Power Allocation (BOPA) algorithm, the Maximum Throughput (MT) and an alternating MT and proportional fairness (PF)-based SAMM (abbreviated with Authors’ names) RB allocation scheme is presented for a single relay. In the case of multiple relays, the dependency of RB and power allocation on relay deployment and users’ association is first addressed through a k-mean clustering approach. Secondly, to reduce the computational cost of RB and power allocation, a two-step neural network (NN) process (SAMM NN) is presented that uses SAMM-based unsupervised learning for RB allocation and BOPA-based supervised learning for power allocation. The results for all the schemes are compared in terms of EE and user throughput. For a single relay, SAMM BOPA offers the best EE, whereas SAMM equal power provides the best fairness. In the case of multiple relays, the results indicate SAMM NN achieves better EE compared to SAMM equal power and BOPA, and it also achieves better throughput fairness compared to MT equal power and MT BOPA.
Highlights
Green Radio communication has received a lot of attention in the past few years with an aim to decrease the carbon foot print of wireless networks
Process (SAMM neural network (NN)) is presented that uses SAMM-based unsupervised learning for resource block (RB) allocation and BOPA-based supervised learning for power allocation
In this figure we can see that the data fitting errors are minimum and they are distributed within a closed range around zero
Summary
Hammad Hassan 1 , Irfan Ahmed 2, * , Rizwan Ahmad 1 , Hedi Khammari 3 , Ghulam Bhatti 3 , Waqas Ahmed 4 and Muhammad Mahtab Alam 5. College of Computers and Information Technology, Taif University, Taif 21974, Saudi Arabia. Pakistan Institute of Engineering and Applied Sciences (PIEAS), Islamabad 45650, Pakistan. Thomas Johann Seebeck Department of Electronics, Tallinn University of Technology, Tallinn 19086, Estonia. This paper is an extended version of our paper published in 16th Biennial Baltic Conference on Electronics and Embedded Systems, Tallinn, Estonia, 8–10 October 2018
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