In this paper, we address the issue of imperfect channel estimation in coded systems on fading channels. Since performance of channel codes is influenced in different ways by different components of channel-estimation errors, we develop a simplified model which separates the estimation errors of a Wiener-filtered received signal into the amplitude error and the phase error. Based on the model, we derive tight bounds on component error variances. Moreover, we prove that the classical Wiener filter results in a biased estimate of the channel amplitude. We also show that the probability of having a phase-estimation error large enough to cause decision errors in the receiver is significant. Using our model, we derive an approximate upper limit ...
We derive here improved upper bounds on the error probability of block codes which are transmitted o...
The potentials of pilot symbol aided channel estimation are examined for OFDM based mobile radio and...
We analyze the error performance of a space-time coding system using N transmit and M receive antenn...
Abstract—In this paper, we address the issue of imperfect channel estimation in coded systems on fad...
This thesis focuses on practical implementation issues of turbo codes with imperfectly estimated fad...
In this paper, we discuss the influence of imperfect Wiener channel estimation on performance and dy...
In this paper, the performance of turbo coded signals are investigated over a new channel model, den...
We consider the problem of channel estimation when non-ideal training information (pilots) is availa...
This paper studies the performance of turbo-coded system in the frequency non-selective correlated R...
Summarization: We consider the behavior of the transmit Wiener filter for broadcast channels with no...
We investigate the behavior of block errors which arise in data transmission on fading channels. Our...
Block-fading is a popular channel model that approximates the behavior of different wireless communi...
In this paper, the best achievable performance of a turbo coded system on a block fading channel is ...
In this thesis, iterative estimation and decoding techniques are considered for channels with memory...
A new metric for Turbo decoding on Rayleigh fading channels with noisy channel estimates is derived....
We derive here improved upper bounds on the error probability of block codes which are transmitted o...
The potentials of pilot symbol aided channel estimation are examined for OFDM based mobile radio and...
We analyze the error performance of a space-time coding system using N transmit and M receive antenn...
Abstract—In this paper, we address the issue of imperfect channel estimation in coded systems on fad...
This thesis focuses on practical implementation issues of turbo codes with imperfectly estimated fad...
In this paper, we discuss the influence of imperfect Wiener channel estimation on performance and dy...
In this paper, the performance of turbo coded signals are investigated over a new channel model, den...
We consider the problem of channel estimation when non-ideal training information (pilots) is availa...
This paper studies the performance of turbo-coded system in the frequency non-selective correlated R...
Summarization: We consider the behavior of the transmit Wiener filter for broadcast channels with no...
We investigate the behavior of block errors which arise in data transmission on fading channels. Our...
Block-fading is a popular channel model that approximates the behavior of different wireless communi...
In this paper, the best achievable performance of a turbo coded system on a block fading channel is ...
In this thesis, iterative estimation and decoding techniques are considered for channels with memory...
A new metric for Turbo decoding on Rayleigh fading channels with noisy channel estimates is derived....
We derive here improved upper bounds on the error probability of block codes which are transmitted o...
The potentials of pilot symbol aided channel estimation are examined for OFDM based mobile radio and...
We analyze the error performance of a space-time coding system using N transmit and M receive antenn...