Distributed Differential Space-Time Spreading for the Asynchronous Relay Aided Interference-Free Cooperative CDMA Uplink

S. Sugiura, Sheng Chen, L. Hanzo
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引用次数: 1

Abstract

In this paper, we propose a differential Space-Time Coding (STC) scheme designed for asynchronous cooperative networks, where neither channel estimation nor symbol-level synchronization is required at the cooperating nodes. More specifically, our system employs differential encoding during the broadcast phase and a Space-Time Spreading (STS)-based amplify-and-forward scheme during the cooperative phase in conjunction with interference rejection Direct Sequence (DS) spreading codes, namely Loosely Synchronized (LS) codes. The LS codes exhibit a so-called Interference Free Window (IFW), where both the autocorrelation and cross-correlation values of the codes become zero. The IFW allows us to eliminate both the Multi-User Interference (MUI) as well as the potential dispersion-induced orthogonality degradation of the cooperative space-time codeword and the interference imposed by the asynchronous transmissions of the relay nodes. Furthermore, the destination node can beneficially combine both the directly transmitted and the relayed symbols using low-complexity correlation operations combined with a hard-decision detector. Our simulation results demonstrate that the proposed Cooperative Differential STS (CDSTS) scheme is capable of combating the effects of asynchronous uplink transmissions without any Channel State Information (CSI), provided that the maximum synchronization delay of the relay nodes is within the width of IFW. It will be demonstrated that in the frequency-selective environment considered our CDSTS arrangement is capable of exploiting both space-time diversity and multi-path diversity with the aid of a RAKE combiner.
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异步中继辅助无干扰协同CDMA上行链路的分布式差分时空扩展
本文提出了一种针对异步协作网络的差分空时编码(STC)方案,该方案既不需要信道估计,也不需要在协作节点上进行符号级同步。更具体地说,我们的系统在广播阶段采用差分编码,在合作阶段采用基于空时扩展(STS)的放大转发方案,并结合抗干扰直接序列(DS)扩展码,即松散同步(LS)码。LS码表现出所谓的无干扰窗口(IFW),其中码的自相关和互相关值都变为零。IFW允许我们消除多用户干扰(MUI),以及潜在的分散引起的协同空时码字正交性退化和中继节点异步传输所施加的干扰。此外,目标节点利用低复杂度的相关运算结合硬决策检测器,可以有效地将直接传输的符号和中继的符号结合起来。仿真结果表明,只要中继节点的最大同步延迟在IFW的宽度内,所提出的协同差分STS (CDSTS)方案能够抵抗不含任何信道状态信息(CSI)的异步上行传输的影响。将证明在频率选择环境下,我们的CDSTS安排能够在RAKE组合器的帮助下利用时空分集和多径分集。
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