Title :
Optimal design for decision-feedback equalizer
Author :
Nan, Li ; Leyman, A.R. ; Cheok, A.D.
Author_Institution :
Inst. for Infocomm. Res., Agency for Sci. Technol. & Res., Singapore
fDate :
31 Aug.-4 Sept. 2004
Abstract :
In this paper, an optimal precoder/decoder pair that maximized the information rate is proposed. We solve the problem by using the Lagrangian optimizing method to make the eigenvectors of precoder matrix match to the eigenvectors of the circulant channel matrix. We compare the performance of information rate between zero-forcing design and our design. In addition, on the basis of the first design, we further present a precoder/decoder pair to minimize the bit error rate by adopting the minimum mean-squared error criterion and using the discrete Fourier transform matrix. Therefore, bit error rates are minimized and information rates are maximized at the same time. The SNR gain for our purposed design over zero-forcing design can be several decibels. Simulation results highlights the improvements of our two designs.
Keywords :
codecs; decision feedback equalisers; discrete Fourier transforms; eigenvalues and eigenfunctions; error statistics; least mean squares methods; matrix algebra; optimisation; Lagrangian optimizing method; bit error rate; circulant channel matrix; decision-feedback equalizer; decoder pair; discrete Fourier transform matrix; minimum mean-squared error criterion; optimal design; optimal precoder pair; precoder matrix match; zero-forcing design; Additive noise; Bit error rate; Decision feedback equalizers; Decoding; Filters; Information rates; Iron; Lagrangian functions; Rats; Transceivers;
Conference_Titel :
Signal Processing, 2004. Proceedings. ICSP '04. 2004 7th International Conference on
Print_ISBN :
0-7803-8406-7
DOI :
10.1109/ICOSP.2004.1452678
