Title :
Equalization of rapidly fading channels: self-recovering methods
Author :
Tsatsanis, M.K. ; Giannakis, Georgios B.
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Stevens Inst. of Technol., Hoboken, NJ, USA
fDate :
5/1/1996 12:00:00 AM
Abstract :
Blind estimation of time-varying (TV), rapidly fading channels is addressed, using a basis expansion approach. Each TV coefficient is expanded onto a basis and the expansion parameters are estimated for subsequent use in Viterbi or decision-feedback equalizers. Blind estimation of the expansion parameters is accomplished using higher order statistics. Identifiability of the channel is shown from second and fourth-order TV cumulants of the received signal. A cumulant matching criterion is adopted and instantaneous approximations are proposed in place of the nonstationary ensembles. Linear methods are also derived to initialize the nonlinear optimization procedure. Strong convergence of the proposed method is established. Finally, the method is tested on a simulated mobile radio channel with multipath
Keywords :
convergence of numerical methods; decision feedback equalisers; fading; higher order statistics; land mobile radio; multipath channels; optimisation; parameter estimation; time-varying channels; Viterbi equalizers; basis expansion; blind estimation; channel identification; convergence; cumulant matching criterion; decision-feedback equalizers; expansion parameters; fourth order cumulants; higher order statistics; instantaneous approximations; linear methods; multipath channel; nonlinear optimization; nonstationary ensembles; parameter estimation; rapidly fading channels; received signal; second order cumulants; self recovering methods; simulated mobile radio channel; time-varying channels; time-varying coefficient; Convergence; Decision feedback equalizers; Fading; Higher order statistics; Optimization methods; Parameter estimation; Signal processing; TV; Testing; Viterbi algorithm;
Journal_Title :
Communications, IEEE Transactions on
