Title :
Joint predistortion and nonlinear equalisation for high-capacity wireless links
Author :
Lottici, V. ; D´Andrea, A.N. ; Reggiannini, R.
Abstract :
A nonlinearity compensation scheme for a high-capacity wireless link employing multilevel QAM as the signalling format is discussed. The distinctive feature of this scheme is that the linearisation task is split over a predistorter and a nonlinear equaliser, to be implemented at the transmit and receive sections, respectively. It is shown that this scheme considerably relieves the overall computational requirement for nonlinear channel compensation, as compared to the approach in which the task of linearisation is entirely allocated to a nonlinear equaliser without any signal predistortion
Keywords :
AWGN channels <high-capacity wireless links, joint predistortion and nonlin. equalisation>; equalisers <high-capacity wireless links, joint predistortion and nonlin. equalisation>; fading channels <high-capacity wireless links, joint predistortion and nonlin. equalisation>; linearisation techniques <high-capacity wireless links, joint predistortion and nonlin. equalisation>; nonlinear distortion <high-capacity wireless links, joint predistortion and nonlin. equalisation>; quadrature amplitude modulation <high-capacity wireless links, joint predistortion and nonlin. equalisation>; radio links <high-capacity wireless links, joint predistortion and nonlin. equalisation>; radio receivers <high-capacity wireless links, joint predistortion and nonlin. equalisation>; radio transmitters <high-capacity wireless links, joint predistortion and nonlin. equalisation>; telecommunication channels <high-capacity wireless links, joint predistortion and nonlin. equalisation>; AWGN channel; frequency selective fading channel; high-capacity wireless links; multilevel QAM; nonlinear channel compensation; nonlinear equalisation; nonlinearity compensation; signal predistortion; terrestrial radio communications;
Journal_Title :
Communications, IEE Proceedings-
DOI :
10.1049/ip-com:20030647
