Title :
MAP-Based Code-Aided Hypothesis Testing
Author :
Herzet, Cédric ; Wymeersch, Henk ; Simoens, Frederik ; Moeneclaey, Marc ; Vandendorpe, Luc
Author_Institution :
Wireless Foundations, California Univ., Berkeley, CA
fDate :
8/1/2008 12:00:00 AM
Abstract :
This contribution deals with code-aided hypothesis testing for wireless digital receivers. We provide a theoretical justification for a hypothesis testing algorithm that was previously introduced in (Wymeersch et al., 2006) based on ad-hoc arguments. Contrary to conventional hypothesis testing methods, the algorithm from Wymeersch et al. exploits the code structure within the received signal and does not require any pilot symbols. By doing so, it allows to improve the bandwidth-efficiency of the transmission. The present contribution shows that, under mild conditions, the performance of the algorithm from Wymeersch et al. coincides with the performance of the optimal Maximum A Posteriori (MAP) hypothesis test. Computer simulations support this result.
Keywords :
maximum likelihood estimation; radio networks; receivers; MAP-based code-aided hypothesis testing; bandwidth efficiency; code structure; optimal maximum a posteriori hypothesis test; received signal; wireless digital receiver; AWGN; Communication systems; Computer simulation; Error correction codes; Helium; Information processing; Laboratories; Remote sensing; System testing; Wireless communication; MAP estimation; synchronization;
Journal_Title :
Wireless Communications, IEEE Transactions on
DOI :
10.1109/TWC.2008.060995
