Statistical Precoder Design for Space-Time-Frequency Block Codes in Multiuser MISO-MC-CDMA Systems

TL;DR

This paper introduces a joint space-time-frequency coding scheme with linear precoding for multiuser MISO-MC-CDMA systems, leveraging channel statistics to enhance diversity and reduce feedback.

Contribution

It proposes a novel STFBC scheme with precoder design based on channel statistical information, improving multiuser system performance with reduced feedback.

Findings

Achieves multi-diversity gains through orthogonal spreading and coding.

Provides a precoder design method using channel correlation models.

Validates performance improvements via numerical simulations.

Abstract

In this paper, we present a space-time-frequency joint block coding (STFBC) scheme to exploit the essential space-time-frequency degrees of freedom of multiuser MISO-MC-CDMA systems. Specifically, we use a series of orthogonal random codes to spread the space time code over several sub-carriers to obtain multi-diversity gains, while multiuser parallel transmission is applied over the same sub-carriers by making use of multiple orthogonal code channels. Furthermore, to improve the system performance, we put forward to linear precoding to the predetermined orthogonal STFBC, including transmitting directions selection and power allocation over these directions. We propose a precoder design method by making use of channel statistical information in time domain based on the Kronecker correlation model for the channels, so feedback amount can be decreased largely in multi-carrier systems. In addition, we give the performance analysis from the perspectives of diversity order and coding gain, respectively. Moreover, through asymptotic analysis, we derive some simple precoder design methods, while guaranteeing a good performance. Finally, numerical results validate our theoretical claims.