Abstract
This paper considers a multi-cell relay-aided orthogonal frequency division multiple access (OFDMA) downlink system, in which all stations are coordinated by a central controller for resource allocation (RA). The decode-and-forward (DF) protocol with opportunistic relaying (OR) and high spectrum efficiency (HSE) is applied. The problem of maximizing the weighted sum of per cell min-rate (WSMR) with per-cell total power constraints is formulated, and its per-cell maximum fairness property is proven. An iterative RA algorithm is proposed to optimize mode selection (decision whether the relay should help or not), subcarrier assignment (MSSA) and power allocation (PA) alternatively. Each iteration is composed of the MSSA stage and the PA stage. During the MSSA stage, the original problem is decoupled into mixed integer linear programs (MILPs) with the tentative PA results, which can be solved by typical MILP solvers. To solve the MILPs more efficiently in polynomial time, a randomized rounding-based MSSA (RR-MSSA) algorithm and a direct rounding-based MSSA (DR-MSSA) algorithm are further proposed. During the PA stage, an algorithm based on single condensation and geometric programming (SCGP) PA is designed to optimize PA with the tentative MSSA results. The convergence and the per-cell user fairness of the proposed RA algorithm are proven. Finally, the performance of the RA algorithm and the benefits of using OR and the HSE protocol are illustrated through numerical experiments.
Highlights
In next-generation wireless communication networks, ubiquitous coverage and high data rate are strongly required
During the mode selection and subcarrier assignment (MSSA) stage, the original problem is decoupled into mixed integer linear programs (MILPs), which can be solved by typical MILP solvers
5.3 Results averaged over channel distribution In order to illustrate the average performance of our proposed resource allocation (RA) algorithms, 100 random realizations of channels are generated with U = 8
Summary
In next-generation wireless communication networks, ubiquitous coverage and high data rate are strongly required. To achieve this goal, incorporating orthogonal frequency division multiple access (OFDMA) technology with emerging relaying technologies is highly investigated by both academia and industry. For relay-aided OFDM(A) systems, the authors in [2] and [3] have proposed two efficient types of relaying, namely amplify and forward (AF) and decode and forward (DF). During the first TS, the source broadcasts symbols on all subcarriers with the relay keeping quiet. During the second TS, except from the relay, the source might broadcast symbols on subcarriers not used by the relay, as will be elaborated later. Adopting DF relaying, the authors in [4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23] have studied the RA problems for downlink OFDMA intensively
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