Channel and delay estimation for base-station-based cooperative communications in frequency flat-fading channels
Base-station - based cooperative communication is an asynchronous cooperative communication system. The challenge therein is to estimate the relative delay between the transmitters in the system. A channel and delay estimation algorithm based on the distributed Alamouti scheme has been previously di...
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doaj-687c4464cd3743f3baa2f10465e9b8c42021-04-03T15:47:16ZengAcademy of Science of South AfricaSouth African Journal of Science1996-74892010-04-011063/4Channel and delay estimation for base-station-based cooperative communications in frequency flat-fading channelsHongjun Xu0Laneil Padayachee1School of Electrical, Electronic and Computer Engineering, University of KwaZulu-Natal - Howard College campusSchool of Electrical, Electronic and Computer Engineering, University of KwaZulu-Natal - Howard College campusBase-station - based cooperative communication is an asynchronous cooperative communication system. The challenge therein is to estimate the relative delay between the transmitters in the system. A channel and delay estimation algorithm based on the distributed Alamouti scheme has been previously discussed for the asynchronous cooperative system. The algorithm only makes accommodation for positive delay, that is, when data from Transmitter one always arrives at the receiver before data from Transmitter two. In reality, the data from Transmitter one does not always arrive at the receiver before data from Transmitter two in the asynchronous cooperative system, because of the constantly changing mobile environment in the system. This paper extends the algorithm to accommodate both positive and negative delays, which is when the data from Transmitter one arrives at the receiver before or after data from Transmitter two, in a Rayleigh block fat-fading channel. Simulation results show that the Cram ér - Rao lower bound for channel and delay estimation is achieved for different delay values. The symbol error rate performance is also achievable compared to the channel and the delay is known at the receiver.http://192.168.0.115/index.php/sajs/article/view/9973asynchronous cooperative communicationchannel estimationcyclic prefxdistributed space-time codingpilot symbol design |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Hongjun Xu Laneil Padayachee |
spellingShingle |
Hongjun Xu Laneil Padayachee Channel and delay estimation for base-station-based cooperative communications in frequency flat-fading channels South African Journal of Science asynchronous cooperative communication channel estimation cyclic prefx distributed space-time coding pilot symbol design |
author_facet |
Hongjun Xu Laneil Padayachee |
author_sort |
Hongjun Xu |
title |
Channel and delay estimation for base-station-based cooperative communications in frequency flat-fading channels |
title_short |
Channel and delay estimation for base-station-based cooperative communications in frequency flat-fading channels |
title_full |
Channel and delay estimation for base-station-based cooperative communications in frequency flat-fading channels |
title_fullStr |
Channel and delay estimation for base-station-based cooperative communications in frequency flat-fading channels |
title_full_unstemmed |
Channel and delay estimation for base-station-based cooperative communications in frequency flat-fading channels |
title_sort |
channel and delay estimation for base-station-based cooperative communications in frequency flat-fading channels |
publisher |
Academy of Science of South Africa |
series |
South African Journal of Science |
issn |
1996-7489 |
publishDate |
2010-04-01 |
description |
Base-station - based cooperative communication is an asynchronous cooperative communication system. The challenge therein is to estimate the relative delay between the transmitters in the system. A channel and delay estimation algorithm based on the distributed Alamouti scheme has been previously discussed for the asynchronous cooperative system. The algorithm only makes accommodation for positive delay, that is, when data from Transmitter one always arrives at the receiver before data from Transmitter two. In reality, the data from Transmitter one does not always arrive at the receiver before data from Transmitter two in the asynchronous cooperative system, because of the constantly changing mobile environment in the system. This paper extends the algorithm to accommodate both positive and negative delays, which is when the data from Transmitter one arrives at the receiver before or after data from Transmitter two, in a Rayleigh block fat-fading channel. Simulation results show that the Cram ér - Rao lower bound for channel and delay estimation is achieved for different delay values. The symbol error rate performance is also achievable compared to the channel and the delay is known at the receiver. |
topic |
asynchronous cooperative communication channel estimation cyclic prefx distributed space-time coding pilot symbol design |
url |
http://192.168.0.115/index.php/sajs/article/view/9973 |
work_keys_str_mv |
AT hongjunxu channelanddelayestimationforbasestationbasedcooperativecommunicationsinfrequencyflatfadingchannels AT laneilpadayachee channelanddelayestimationforbasestationbasedcooperativecommunicationsinfrequencyflatfadingchannels |
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1721543820607225856 |