Title :
Convergence analysis and tracking ability of reduced-dimension blind space-time RAKE receivers for DS-CDMA
Author :
Chen, Yung-Fang ; Zoltowski, Michael D.
Author_Institution :
Sch. of Electr. Eng., Purdue Univ., West Lafayette, IN, USA
Abstract :
We previously presented reduced dimension blind space-time RAKE receivers for classical DS-CDMA that cancel strong multi-user access interference while optimally combining the desired user´s multipath. We show through theoretical analysis and supporting simulations that if the space and time compressing transformations are designed judiciously, reduced dimension 2D RAKE receivers offer faster convergence with respect to the output SINR as a function of the number of symbols received than that achieved with a full dimension space-time RAKE receiver, at the expense of only a slight loss in asymptotic SINR. Applications to the IS-95 uplink are presented along with supporting simulations. In addition, simulations involving a mobile moving 75 mph are presented demonstrating the tracking capabilities of the reduced dimension 2D RAKE receiver
Keywords :
array signal processing; cellular radio; code division multiple access; computational complexity; convergence of numerical methods; direction-of-arrival estimation; interference suppression; radio links; radio receivers; radio tracking; radiofrequency interference; space-time adaptive processing; spread spectrum communication; DOA; DS-CDMA; IS-95 uplink; asymptotic SINR; beamspace-frequency adaptive MVDR processing; blind space-time RAKE receivers; coherent combining; convergence analysis; multi-user access interference cancellation; multipath; output SINR; post-correlation space-time adaptive processing; power control; rapid time-varying conditions; reduced dimension 2D RAKE receivers; simulations; space compressing transformation; time compressing transformation; tracking; urban cellular environment; Antenna arrays; Communication systems; Convergence; Fading; Fingers; Interference cancellation; Multiaccess communication; Multipath channels; Signal to noise ratio; Spread spectrum communication;
Conference_Titel :
Vehicular Technology Conference, 1998. VTC 98. 48th IEEE
Conference_Location :
Ottawa, Ont.
Print_ISBN :
0-7803-4320-4
DOI :
10.1109/VETEC.1998.686175
