Title :
Convolutional coding for parallel decision-feedback equalization
Author :
Souvignier, T. ; Wolf, Jack K. ; McEwen, Peter
Author_Institution :
Center for Magnetic Recording Res., California Univ., San Diego, La Jolla, CA, USA
Abstract :
A decision-feedback equalizer (DFE) is one of the simplest detectors for use in a magnetic recording channel. An extension of DFE, termed parallel DFE (PDFE), is shown to offer significant performance improvements with a relatively minor complexity increase. To offer still greater performance gains, a convolutional code is added to the system. Although PDFE suffers less error propagation than conventional DFE, the error bursts remain problematic when codes are part of the overall system. Therefore, a convolutional interleaver is added to randomize the error bursts. Simulation results for a Lorentzian channel are presented for various PDFE structures, with and without convolutional codes, with various levels of interleaving, for both hard and soft sequence detection
Keywords :
convolutional codes; decision feedback equalisers; decoding; digital magnetic recording; error statistics; interleaved codes; DFE; Lorentzian channel; PDFE structures; convolutional coding; convolutional interleaver; decision-feedback equalizer; error bursts; error propagation; hard sequence detection; magnetic recording channel; parallel decision-feedback equalization; soft sequence detection; Bit error rate; Convolutional codes; Decision feedback equalizers; Decoding; Detectors; Error analysis; Error correction codes; Magnetic recording; Maximum likelihood detection; System performance;
Conference_Titel :
Global Telecommunications Conference, 1998. GLOBECOM 1998. The Bridge to Global Integration. IEEE
Conference_Location :
Sydney,NSW
Print_ISBN :
0-7803-4984-9
DOI :
10.1109/GLOCOM.1998.776477
