Title :
Multiuser interference modeling and suppression for a multichannel differential IR-UWB system
Author :
Steiner, Christoph ; Witrisal, Klaus
Author_Institution :
Graz Univ. of Technol., Austria
Abstract :
In a frame-differential, transmitted-reference (TR), impulse radio (IR) UWB system, operating in a dispersive multipath propagation and multi-access environment, the performance is, besides to noise, determined by the amount of inter-symbol interference (ISI) and multi-access interference (MAI). In this paper a multiuser multichannel equivalent system model accounting for ISI and MAI is derived to develop advanced detectors for these IR-UWB systems. A low complexity LMS algorithm is used to calculate optimal weighting coefficients for the fractionally-spaced, multichannel sample vectors acquired from the analog receiver front-end, to obtain an optimized decision variable. The achieved results are compared to the conventional single-channel system and to the results of a maximum likelihood sequence detection (MLSD) multiuser detection algorithm.
Keywords :
dispersive channels; interference suppression; maximum likelihood detection; multi-access systems; multipath channels; multiuser detection; radiofrequency interference; ultra wideband communication; analog receiver front-end; conventional single-channel system; dispersive multipath propagation; inter-symbol interference; low complexity LMS algorithm; maximum likelihood sequence detection; multi-access interference; multiaccess environment; multichannel differential IR-UWB system; multiuser detection algorithm; multiuser interference modeling; transmitted-reference UWB system; Amplitude modulation; Autocorrelation; Dispersion; Interference suppression; Intersymbol interference; Maximum likelihood detection; Multiple access interference; Pulse modulation; Receivers; Working environment noise;
Conference_Titel :
Ultra-Wideband, 2005. ICU 2005. 2005 IEEE International Conference on
Print_ISBN :
0-7803-9397-X
DOI :
10.1109/ICU.2005.1570068
