Achievable Rate with Receivers using Iterative Channel Estimation in Stationary Fading Channels
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Abstract
We study the achievable rate with receivers based on synchronized detection and iterative code-aided channel estimation for stationary Rayleigh flat-fading channels. The main idea behind this type of receivers is that—additionally to the pilot symbols
which are used for the initial channel estimation and coherent detection/decoding—the channel estimation is enhanced by iteratively feeding back reliability information on the data symbols acquired by the channel decoder. For a specific type of such a receiver, we derive an upper bound on the achievable rate. Based on an approximation of the upper bound, which is not a closed-form expression, we are able to upper-bound the possible performance gain when using this specific receiver based on code-aided channel estimation in comparison to receivers using synchronized detection with a solely pilot based channel estimation. Furthermore, we compare this approximate upper bound with a lower bound on the achievable rate with joint processing of data and pilot symbols given in [1]. In addition, we show which part of the mutual information between the transmitter and the receiver cannot be exploited by the given receiver structure using synchronized detection in combination with iterative code-aided channel estimation.
BibTEX Reference Entry
@inproceedings{DoIsMe11, author = {Meik D{\"o}rpinghaus and Adrian Ispas and Heinrich Meyr}, title = "Achievable Rate with Receivers using Iterative Channel Estimation in Stationary Fading Channels", pages = "517-521", booktitle = "International Symposium on Wireless Communication Systems (ISWCS) 2011", address = {Aachen, Germany}, doi = 10.1109/ISWCS.2011.6125412, month = Nov, year = 2011, hsb = hsb999910117187, }
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