Title :
Blind channel-shortening for wireless communication with a recursive delayed prediction-error filter
Author :
Dalzell, W.G. ; Cowan, C.F.N.
Author_Institution :
Digital Commun. Res. Group, Queen´´s Univ. of Belfast, Belfast, UK
Abstract :
Linear Prediction in Prediction-Error Filter implementation is a well-known technique for communication channel equalization. Here, we show how a recursive version may be used with additional prediction delay for blind channel-shortening of wireless channels with Multi-Carrier Modulation signals. We observe the recursive prediction-error filter impulse response adapts to minimum-phase form, required for stability. The recursive mode allows the filter length to be significantly shorter than in non-recursive form. Good equalization of minimum-phase channels is obtained. Additional prediction delay ameliorates the filter response to maximum-phase terms within a channel, so that partial equalization may be achieved other than for channels with severe maximum-phase terms.
Keywords :
channel estimation; modulation; radio networks; recursive filters; wireless channels; blind channel-shortening; communication channel equalization; linear prediction; minimum-phase form; multicarrier modulation signal; nonrecursive form; prediction delay; recursive delayed prediction-error filter; stability; wireless channels; wireless communication; Correlation; Delay; Finite impulse response filter; Maximum likelihood detection; Nonlinear filters; Predictive models; Wireless communication; Channel-Shortening; Equalization; Linear Predictor; Multi-Carrier Modulation; Prediction-Error Filter;
Conference_Titel :
Signal Processing Conference (EUSIPCO), 2012 Proceedings of the 20th European
Conference_Location :
Bucharest
Print_ISBN :
978-1-4673-1068-0
