Energy efficient joint radio resource management in D2D assisted cellular communication
Farooq Alam Orakzai (farooqorakzai@gmail.com),
Muhammad Iqbal (miqbal1976@gmail.com),
Muhammad Naeem (muhammadnaeem@gmail.com) and
Ayaz Ahmad (ayaz.uet@gmail.com)
Additional contact information
Farooq Alam Orakzai: COMSATS Institute of Information Technology
Muhammad Iqbal: COMSATS Institute of Information Technology
Muhammad Naeem: COMSATS Institute of Information Technology
Ayaz Ahmad: COMSATS Institute of Information Technology
Telecommunication Systems: Modelling, Analysis, Design and Management, 2018, vol. 69, issue 4, No 7, 505-517
Abstract:
Abstract Device-to-device (D2D) is one of the promising technology that can be used in association with cellular networks for the provision of high data rates, which is the foremost demand of today’s cellular users. The climatic changes due to combustion are posing another big challenge that needs to be addressed by today’s technologists to strive for existence of humanity. Thus developing energy efficient schemes for the deployment of such joint venture is a challenging task due to increased system complexity. This paper addresses the mode selection, user admission control and the resource allocation issues related to optimizing the overall Energy Efficiency (EE) of the cellular systems. The contributions that have been made in this paper are (1) Development of a pooled D2D and cellular network optimization model for efficient resource allocation (2) Development of an algorithm for maximization of EE for the proposed joint D2D cellular network . The problem formulated is a Mixed Integer Nonlinear Problem, whereas such problems belong to a class of optimization problems whose computational complexity is quite high that is NP-hard. In such hard problems the computational complexity increases with increasing the number of users that make these problems more challenging. Finding the optimal solution of such hard problems by the brute force and searching the feasible space is also challenging since the complexity increases exponentially by increasing the admitted users. A Mesh Adaptive Direct Search algorithm has been proposed to find the EE resource allocation for this user admission controlled D2D based cellular network. Based on analysis of our simulation results, it can be clearly designated that our proposed solution for increasing the EE for this joint cellular and D2D venture is very much close to optimal solution provided by Exhaustive Search Algorithm.
Keywords: Green wireless communication; Cooperative communication; Device-to-device (D2D) communication (search for similar items in EconPapers)
Date: 2018
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DOI: 10.1007/s11235-018-0451-3
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