\documentclass[12pt,onecolumn]{IEEEtran} \begin{document} \title{Coordinated Beamforming and Common Message Decoding for Intercell Interference Mitigation} \author{ Hayssam Dahrouj and Wei Yu \\ Department of Electrical and Computer Engineering\\ University of Toronto, Toronto, ON, Canada\\ Emails: hayssam.dahrouj@utoronto.ca, weiyu@comm.utoronto.ca} \maketitle \begin{abstract} Conventional multicell wireless systems operate with out-of-cell interference treated as noise---interference detection is infeasible as intercell interference is typically weak. This work considers the benefits of coordinating base-stations across multiple cells, and designing decodable interference signals by allowing common-private message splitting at the transmitter and common message decoding by users in adjacent cells. In particular, we consider a downlink scenario, where base-stations are equipped with multiple transmit antennas, the remote users are equipped with a single antenna, and multiple remote users are active simultaneously via spatial division multiplexing. We consider the problem of minimizing the total transmit power across the base-stations subject to service rate requirements for remote users. First consider the transmission of private messages only. We derive an efficient algorithm for finding the joint globally optimal beamformers across all base-stations based on a generalization of uplink-downlink duality. An important feature of the proposed algorithm is that it naturally leads to a distributed implementation in time-division duplex (TDD) systems. It also provides appreciable performance improvements as compared to the conventional per-cell optimized network. Next consider the benefit of including common messages. We solve a network optimization problem of jointly determining the appropriate users in adjacent cells for rate splitting, the optimal beamforming vectors for both common and private messages, and the optimal common-private rates. Simulation results show that common message decoding can significantly improve the network overall performance. \end{abstract} \end{document}