Title :
Separation of cochannel signals in TDMA mobile radio
Author :
Keerthi, Arvind V. ; Shynk, John J.
Author_Institution :
Dept. of Electr. & Comput. Eng., California Univ., Santa Barbara, CA, USA
fDate :
10/1/1998 12:00:00 AM
Abstract :
We propose a sequential algorithm that separates cochannel time-division multiple-access (TDMA) signals that encounter multipath interference and noise. The receiver employs a multistage architecture where each stage consists of a beamformer and an equalizer that isolates one source, compensates for intersymbol interference (ISI), and demodulates the data. A problem encountered with such bursty sources is that the beamformer/equalizer trained for a particular time slot may not be appropriate for all the data contained in that slot. This occurs because a cochannel source typically overlaps only part of the time slot of interest and may not overlap the training sequence at all. The algorithm presented overcomes this problem by processing the data forward and backward in a sequential noncausal manner. Computer simulations using signals with the IS-54 format are presented to demonstrate the properties of the sequential algorithm
Keywords :
adaptive equalisers; array signal processing; cochannel interference; demodulation; direction-of-arrival estimation; interference suppression; intersymbol interference; land mobile radio; multipath channels; radio receivers; time division multiple access; IS-54 format; ISI; TDMA mobile radio; adaptive antenna array; adaptive beamformer; adaptive equalizer; beamformer/equalizer; bursty sources; cochannel signals separation; cochannel source; computer simulations; data demodulation; data processing; intersymbol interference; multipath interference; multistage architecture; noise; receiver; sequential algorithm; sequential noncausal processing; time slot; time-division multiple-access; training sequence; Equalizers; Frequency; GSM; Interchannel interference; Intersymbol interference; Land mobile radio; Land mobile radio cellular systems; Multiple access interference; Signal processing algorithms; Time division multiple access;
Journal_Title :
Signal Processing, IEEE Transactions on
