Joint Optimization for Proportional Fairness in MIMO-OFDMA Relay-Enhanced Cellular Networks

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概要

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• This paper first formulates the optimal instantaneous resource allocation, including path selection, power allocation and subchannel scheduling with proportional fairness in MIMO, OFDMA and relay-enhanced network. The joint optimization problem is a NP-hard one with non-linear constraints. To simplify this problem, we first propose a water-filling method named 'CP-AP w PF' to adaptively allocate power only among transmitting antennas. Then, a modified iterative water-filling algorithm named 'AP-AP w PF' is proposed to achieve adaptive power allocation on each subchannel by using the Jensen's inequality. Simulation shows that 'AP-AP w PF' algorithm improves the throughput for cell-edge users, and achieve a tradeoff between maximizing system throughput and assuring individual QoS.

著者

• HUANG Min

  Broadband Wireless communications and Multimedia Laboratory, Tongji University

• WANG Ping

  Broadband Wireless communications and Multimedia Laboratory, Tongji University

• SU Lin

  Broadband Wireless communications and Multimedia Laboratory, Tongji University

• LIU Fuqiang

  Broadband Wireless communications and Multimedia Laboratory, Tongji University

• ZU Lijun

  Broadband Wireless communications and Multimedia Laboratory, Tongji University

関連論文

• Joint Optimization for Proportional Fairness in MIMO-OFDMA Relay-Enhanced Cellular Networks
• Joint Optimization for Proportional Fairness in MIMO-OFDMA Relay-Enhanced Cellular Networks

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