Consider the joint beamforming and quantization problem in the cooperative cellular network, where multiple relay-like base stations (BSs) connected to the central processor (CP) via rate-limited fronthaul links cooperatively serve the users. This problem can be formulated as the minimization of the total transmit power, subject to all users' signal-to-interference-plus-noise-ratio (SINR) constraints and all relay-like BSs' fronthaul rate constraints. In this paper, we first show that there is no duality gap between the considered problem and its Lagrangian dual by showing the tightness of the semidefinite relaxation (SDR) of the considered problem. Then we propose an efficient algorithm based on Lagrangian duality for solving the considered problem. The proposed algorithm judiciously exploits the special structure of the Karush-Kuhn-Tucker (KKT) conditions of the considered problem and finds the solution that satisfies the KKT conditions via two fixed-point iterations. The proposed algorithm is highly efficient (as evaluating the functions in both fixed-point iterations are computationally cheap) and is guaranteed to find the global solution of the problem. Simulation results show the efficiency and the correctness of the proposed algorithm.
翻译:考虑合作蜂窝网络中的联合波束成形和量化问题,在合作蜂窝网络中,多个中继类似基站(BSs)通过限速前方连接连接中央处理器(CP),为用户提供合作服务。这个问题可以表述为最大限度地减少总传输功率,但取决于所有用户的信号-干涉+噪声-拉皮欧(SINR)限制和所有中继类似BS的前方速率限制。在本文中,我们首先通过显示所考虑的问题的半定点放松(SDR)的紧凑性,来显示所考虑的问题与拉格朗双轨之间不存在双重性差距。然后,我们提出基于拉格朗双轨的高效算法,以解决所考虑的问题。提议的算法明智地利用了所考虑问题的Karush-Kuhn-Tucker(KKT)特殊结构,找到通过两个固定点的尺寸来满足KKT条件的解决方案。拟议的算法非常有效(通过评估固定点的透视离值的半定点的解解的功能是廉价的计算结果),并保证找出全球效率问题。