Full‐space diversity and full‐rate distributed space–time block codes for amplify‐and‐forward relaying networks
Copyright policy )Full‐space diversity and full‐rate distributed space–time block codes for amplify‐and‐forward relaying networks
In this study, the authors propose a full‐rate distributed space–time block code (D‐STBC) that can operate on an arbitrary number of available relaying nodes which generates minimal network overhead when incorporating additional relaying nodes into transmission stream. The proposed D‐STBC also does not require any coordination among participating relaying nodes to share any information among each other. The design of the code allows for single‐symbol decoding complexity which is not always possible in other D‐STBC's when the number of relaying nodes increases. The proposed D‐STBC requires a minimum of two participating relaying nodes and because of anonymity among the relaying nodes to each the addition or removal of relaying nodes can be done with ease without disrupting the transmission. They present empirical results in this study to support these claims of the proposed code.
- University of Tasmania Australia
full-rate distributed space-time block codes, relaying nodes, amplify and forward communication, Engineering (General). Civil engineering (General), D-STBC, diversity reception, space-time block codes, relay networks (telecommunication), TA1-2040, amplify-and-forward relaying networks, full-space diversity codes, single-symbol decoding complexity
full-rate distributed space-time block codes, relaying nodes, amplify and forward communication, Engineering (General). Civil engineering (General), D-STBC, diversity reception, space-time block codes, relay networks (telecommunication), TA1-2040, amplify-and-forward relaying networks, full-space diversity codes, single-symbol decoding complexity
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