Cooperative diversity systems with optimal and suboptimal antenna and relay selection have been paid significant attention for more than half a decade. However, optimal antenna and relay selection strategies require global channel state information (CSI), which is a cumbersome process. In this paper, we propose a diversity-optimal and three suboptimal transmit-receive antenna and relay selection strategies, named S1, S2, and S3, for decode-and-forward cooperative relaying systems, equipped with Nt and Nr antennas at the source (S) and the destination (D), respectively, and considering a multirelay scenario. Furthermore, we study the symbol error probability (SEP) for these strategies, assuming M-ary phase-shift keying signaling over Rayleig...
This thesis investigates the effectiveness of relay selection and antenna selection for cooperative ...
International audienceNetwork-coded cooperation (NCC) has recently gained interest as it improves th...
Selection combining (SC) with full channel state information (CS!) achieves full diversity order in ...
In this paper, a new relay selection scheme for decode-and-forward (DF) relay cooperative network wi...
Abstract—We propose and analyze three different transmit antenna selection schemes for cooperative d...
Consider a cooperative diversity network that consists of a source, cooperating relays, and a destin...
In this letter, an uncoded cooperative diversity system with a source, two decode-and-forward (DF) r...
In this article, we consider the diversity-multiplexing tradeoff (DMT) of relay-assisted communicati...
This letter proposes three smart relaying strategies, including power allocation, continuous power c...
The cooperative diversity network has been proposed as an efficient technique to provide the system ...
We consider an amplify-and-forward (AF) cooperative diversity system where a source node communicate...
The performance analysis of a cooperative diversity system with decode and forward relaying has draw...
2010 National Conference on Communications (NCC)Consider a multi-relay cooperative diversity networ...
Multihop relay channels use multiple relay stages, each with multiple relay nodes, to facilitate co...
Abstract—We consider the application of switch-and-stay transmit diversity (SSTD) to a three-node co...
This thesis investigates the effectiveness of relay selection and antenna selection for cooperative ...
International audienceNetwork-coded cooperation (NCC) has recently gained interest as it improves th...
Selection combining (SC) with full channel state information (CS!) achieves full diversity order in ...
In this paper, a new relay selection scheme for decode-and-forward (DF) relay cooperative network wi...
Abstract—We propose and analyze three different transmit antenna selection schemes for cooperative d...
Consider a cooperative diversity network that consists of a source, cooperating relays, and a destin...
In this letter, an uncoded cooperative diversity system with a source, two decode-and-forward (DF) r...
In this article, we consider the diversity-multiplexing tradeoff (DMT) of relay-assisted communicati...
This letter proposes three smart relaying strategies, including power allocation, continuous power c...
The cooperative diversity network has been proposed as an efficient technique to provide the system ...
We consider an amplify-and-forward (AF) cooperative diversity system where a source node communicate...
The performance analysis of a cooperative diversity system with decode and forward relaying has draw...
2010 National Conference on Communications (NCC)Consider a multi-relay cooperative diversity networ...
Multihop relay channels use multiple relay stages, each with multiple relay nodes, to facilitate co...
Abstract—We consider the application of switch-and-stay transmit diversity (SSTD) to a three-node co...
This thesis investigates the effectiveness of relay selection and antenna selection for cooperative ...
International audienceNetwork-coded cooperation (NCC) has recently gained interest as it improves th...
Selection combining (SC) with full channel state information (CS!) achieves full diversity order in ...