Title :
Performance of low-complexity RAKE reception in a realistic UWB channel
Author :
Cassioli, Dajana ; Win, Moe Z. ; Vatalaro, Francesco ; Molisch, Andreas F.
Author_Institution :
Rome Univ., Italy
Abstract :
We evaluate the link performance of an ultra-wide band (UWB) system using reduced-complexity RAKE receivers, which are based on either partial combining (called PRAKE) or selective combining (called SRAKE). The first is suboptimum and combines the first arriving multipath components, while the second combines the strongest multipath components. We use a statistical tapped-delay-line channel model that is based on extensive measurement campaigns, and reflects both small-scale and large-scale variations of the channel. Through semi-analytical evaluations of the bit error probability, we show that the simpler PRAKE receiver is almost as good as the SRAKE even for a small number of fingers. We show how this behavior can be related to the channel characteristics.
Keywords :
broadband networks; delay lines; diversity reception; error statistics; indoor radio; multipath channels; radio links; radio networks; radio receivers; radiowave propagation; spread spectrum communication; telecommunication channels; PRAKE receiver; SRAKE receiver; SS systems; UWB channel; UWB indoor channel model; UWB propagation channel; bit error probability; channel characteristics; large-scale channel variations; link performance evaluation; low-complexity RAKE reception; multipath components; partial combining; reduced-complexity RAKE receivers; selective combining; small-scale channel variations; statistical tapped-delay-line channel model; ultra-wide band system; ultra-wideband spread-spectrum systems; Delay; Diversity reception; Energy resolution; Fading; Fingers; Multipath channels; Performance analysis; Power system modeling; RAKE receivers; Signal resolution;
Conference_Titel :
Communications, 2002. ICC 2002. IEEE International Conference on
Print_ISBN :
0-7803-7400-2
DOI :
10.1109/ICC.2002.996958
