Author_Institution :
Dept. of Electr. Eng., Sharif Univ. of Technol., Tehran, Iran
Abstract :
We evaluate the performance, in multipath Rayleigh fading channels, of both the uncoded and coded multiple access TH-UWB systems introduced by R.A. Scholtz (see Proc. Milcom 93, 1993), M.Z. Win (see Ph.D. dissertation, Electrical Engineering, University of Southern California, 1998) and A.R. Forouzan et al. (see Proc. PIAMC 2000, vol.2, p.1555-8, 2000). The receiver is a selective diversity combining receiver, known as SRAKE. Based on a Gaussian distribution assumption for multiple access interference at the output of the SRAKE receiver, and by using a virtual branch technique as introduced by M.Z. Win and J.H. Winters (see Proc. 49th Annual Int. Veh. Technol. Conf, vol.1, p.215-20, 1999; Proc. IEEE Int. Conf. on Commun., vol.1, p.6-10, 1999), the bit error rates for uncoded and coded schemes are derived. Our analysis shows that the effective order of diversity achieved by the coded scheme is the product of the number of branches of the SRAKE receiver and the Hamming distance of the code applied. Furthermore, it indicates that the coded scheme significantly outperforms the uncoded scheme.
Keywords :
Gaussian distribution; Rayleigh channels; convolutional codes; diversity reception; error statistics; multi-access systems; multipath channels; radio receivers; radiofrequency interference; Gaussian distribution; Hamming distance; RAKE receiver; Rayleigh fading channels; SRAKE receiver; coded schemes; convolutional code; multipath channels; multipath fading channels; multiple access interference; multiple access systems; selective diversity combining receiver; super-orthogonal code; time-hopping ultra-wideband systems; uncoded schemes; Diversity reception; Fading; Gaussian distribution; Multiple access interference; Performance analysis; Pulse modulation; RAKE receivers; Signal resolution; Spread spectrum communication; Ultra wideband technology;
