Hybrid Transceiver Optimization for Multi-Hop Communications
share
Multi-hop communication with the aid of large-scale antenna arrays will play a vital role in future emergence communication systems. In this paper, we investigate amplify-and-forward based and multiple-input-multiple-output assisted multi-hop communication, in which all nodes employ hybrid transceivers. Moreover, channel errors are taken into account in our hybrid transceiver design. Based on the matrix-monotonic optimization framework, the optimal structures of the robust hybrid transceivers are derived. By utilizing these optimal structures, the optimizations of analog transceivers and digital transceivers can be separated without loss of optimality. This fact greatly simplifies the joint optimization of analog transceivers and digital transceivers. Since the optimization of analog transceivers under unit modulus constraints is non-convex and difficult to solve, a projection type algorithm is proposed for analog transceiver optimization to overcome this difficulty. Based on the derived analog transceivers, the optimal digital transceivers can then be derived using matrix monotonic optimization. Numeral results are given to demonstrate the performance advantages of the proposed hybrid transceiver deigns over other existing solutions.
READ FULL TEXT