Title :
Quasi-Synchronous Cooperative Networks: A Practical Cooperative Transmission Protocol
Author :
Sugiura, Shinya ; Ng, Soon Xin ; Kong, Lingkun ; Chen, Sheng ; Hanzo, Lajos
Author_Institution :
Toyota Central R&D Labs., Inc., Nagakute, Japan
Abstract :
In this article, we propose a cooperative space-time coding (STC) protocol, amalgamating the concepts of asynchronous cooperation, noncoherent detection, as well as distributed turbo coding (DTC), where neither symbol-level time synchronization nor channel-state information (CSI) estimation is required at any of the cooperating nodes, while attaining high performance even at low signal-to-noise ratios (SNRs). More specifically assuming the system configuration of a single source node, multiple relay nodes, and a single destination node, each having a single antenna element (AE)a practical cooperative differential space-time spreading (CDSTS) scheme is designed using interference rejection spreading codes, to eliminate the effect of synchronization errors between the relay nodes without the assistance of channel estimation or equalization.
Keywords :
antennas; channel coding; cooperative communication; protocols; space-time codes; synchronisation; telecommunication channels; turbo codes; SNR; STC protocol; asynchronous cooperation; channel-state information; cooperating nodes; cooperative differential space-time spreading; cooperative space-time coding; cooperative transmission protocol; distributed turbo coding; interference rejection spreading codes; multiple relay nodes; noncoherent detection; quasi-synchronous cooperative networks; signal-to-noise ratios; single antenna element; synchronization errors; Bit error rate; Channel estimation; Fading; MIMO; Relays; Synchronization;
Journal_Title :
Vehicular Technology Magazine, IEEE
DOI :
10.1109/MVT.2012.2193493
