Mitigating channel estimation error via cooperative communications

Abstract: Abstract-Channel estimation error problem is among the main causes of performance degradation in wireless networks. In this paper, we investigate the impact of cooperative communications on mitigating the effect of channel estimation error. Two main performance criteria, namely, the traditional outage probability and the proposed signal-to-noise ratio (SNR) gap ratio, are utilized to characterize such impact. The SNR gap ratio measures the reduction in the SNR due to channel estimation error. Taking into consi… Show more

“…In this section, we adopt a concept, called the SNR gap ratio, proposed in [12], to our cooperative transmission scenarios to give a scale to quantify the SNR loss caused by the channel estimation errors. The SNR gap ratio in [12] is defined as follows…”

“…A DF cooperative protocol proposed in [12] is adopted to our system, where the availability of a relay node assisting the source-to-destination communication depending on the quality of the received signal. In this protocol, a transmission of one symbol is implemented in N + 1 phases.…”

“…Imperfect channel estimation problem in DF systems consists of individual estimation of source-to-relay and relay-to-destination channels. In [12], the outage probability of DF systems with channel estimation errors was well studied, where performance analysis could be explained by a similar approach as point-to-point networks. On the other hand, in AF systems, a cascaded channel consisting of source-to-relay and relayto-destination links needs to be estimated and the effect of channel estimation errors in the two links should be jointly considered.…”

“…Therefore, investigating the performance of cooperative systems with imperfect channel estimation will be significatively important to practice. There have been increasing studies on this topic recently [12]- [17]. Imperfect channel estimation problem in DF systems consists of individual estimation of source-to-relay and relay-to-destination channels.…”

“…• The average SNR gap ratio is employed by our system to quantify the impact of channel estimation errors, which was proposed in [12] and shows a new method to quantify the reduction in the SNR due to the channel estimation errors. We derive the exact expressions of the average SNR gap ratio for both DF and AF systems and present the comparison between them to investigate different degrees of the impact.…”

Impact of Channel Estimation Errors in Cooperative Transmission over Nakagami-m Fading Channels

“…In this section, we adopt a concept, called the SNR gap ratio, proposed in [12], to our cooperative transmission scenarios to give a scale to quantify the SNR loss caused by the channel estimation errors. The SNR gap ratio in [12] is defined as follows…”

“…A DF cooperative protocol proposed in [12] is adopted to our system, where the availability of a relay node assisting the source-to-destination communication depending on the quality of the received signal. In this protocol, a transmission of one symbol is implemented in N + 1 phases.…”

“…Imperfect channel estimation problem in DF systems consists of individual estimation of source-to-relay and relay-to-destination channels. In [12], the outage probability of DF systems with channel estimation errors was well studied, where performance analysis could be explained by a similar approach as point-to-point networks. On the other hand, in AF systems, a cascaded channel consisting of source-to-relay and relayto-destination links needs to be estimated and the effect of channel estimation errors in the two links should be jointly considered.…”

“…Therefore, investigating the performance of cooperative systems with imperfect channel estimation will be significatively important to practice. There have been increasing studies on this topic recently [12]- [17]. Imperfect channel estimation problem in DF systems consists of individual estimation of source-to-relay and relay-to-destination channels.…”

“…• The average SNR gap ratio is employed by our system to quantify the impact of channel estimation errors, which was proposed in [12] and shows a new method to quantify the reduction in the SNR due to the channel estimation errors. We derive the exact expressions of the average SNR gap ratio for both DF and AF systems and present the comparison between them to investigate different degrees of the impact.…”

Impact of Channel Estimation Errors in Cooperative Transmission over Nakagami-m Fading Channels

Improved MIMO Turbo-Trellis Coded Modulation Under Channel Estimation Errors

Opportunistic source‐pair selection method with imperfect channel state information for multiuser bi‐directional relaying networks