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http://dx.doi.org/10.3837/tiis.2020.04.023

Resource Allocation and EE-SE Tradeoff for H-CRAN with NOMA-Based D2D Communications  

Wang, Jingpu (College of Computer Science and Engineering, Northeastern University)
Song, Xin (College of Computer Science and Engineering, Northeastern University)
Dong, Li (College of Computer Science and Engineering, Northeastern University)
Publication Information
KSII Transactions on Internet and Information Systems (TIIS) / v.14, no.4, 2020 , pp. 1837-1860 More about this Journal
Abstract
We propose a general framework for studying resource allocation problem and the tradeoff between spectral efficiency (SE) and energy efficiency (EE) for downlink traffic in power domain-non-orthogonal multiple access (PD-NOMA) and device to device (D2D) based heterogeneous cloud radio access networks (H-CRANs) under imperfect channel state information (CSI). The aim is jointly optimize radio remote head (RRH) selection, spectrum allocation and power control, which is formulated as a multi-objective optimization (MOO) problem that can be solved with weighted Tchebycheff method. We propose a low-complexity algorithm to solve user association, spectrum allocation and power coordination separately. We first compute the CSI for RRHs. Then we study allocating the cell users (CUs) and D2D groups to different subchannels by constructing a bipartite graph and Hungrarian algorithm. To solve the power control and EE-SE tradeoff problems, we decompose the target function into two subproblems. Then, we utilize successive convex program approach to lower the computational complexity. Moreover, we use Lagrangian method and KKT conditions to find the global optimum with low complexity, and get a fast convergence by subgradient method. Numerical simulation results demonstrate that by using PD-NOMA technique and H-CRAN with D2D communications, the system gets good EE-SE tradeoff performance.
Keywords
Power domain-non-orthogonal multiple access; device-to-device groups; heterogeneous cloud radio access networks; energy efficiency; spectral efficiency; imperfect channel state information;
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