Title :
Quaternary codes for partial-response channels
Author :
Eleftheriou, E. ; Cideciyan, R.
Author_Institution :
IBM Res. Div., Ruschlikon, Switzerland
Abstract :
Quaternary codes for improving the reliability of baseband data transmission over noisy partial-response channels are proposed. These codes offer the spectral shaping properties of line codes, i.e. they exhibit spectral nulls at the frequencies where the channel transfer function has zeros, together with a significant increase in minimum Euclidean distance between allowed channel output sequences. Simple encoders and decoders for selected quaternary codes with a spectral null at DC are given for the dicode channel. The receiver employs soft-decision maximum-likelihood sequence estimation on the combined channel and FSTD (finite-state transition diagram) trellis followed by block decoding. The code design avoids long runs of identical symbols and limits the path memory of the Viterbi detector by eliminating all undesired sequences. Simulation results on the performance of 5B4Q, 8B6Q, and 9B6Q codes and their power spectral density are presented
Keywords :
decoding; error correction codes; telecommunication channels; 5B4Q codes; 8B6Q codes; 9B6Q codes; baseband data transmission; block decoding; channel transfer function; decoders; dicode channel; encoders; error probabilities; finite-state transition diagram; noisy partial-response channels; performance; quaternary codes; soft-decision maximum-likelihood sequence estimation; spectral shaping properties; Baseband; Data communication; Euclidean distance; Frequency; Maximum likelihood decoding; Maximum likelihood detection; Maximum likelihood estimation; Noise shaping; Transfer functions; Viterbi algorithm;
Conference_Titel :
Global Telecommunications Conference, 1990, and Exhibition. 'Communications: Connecting the Future', GLOBECOM '90., IEEE
Conference_Location :
San Diego, CA
Print_ISBN :
0-87942-632-2
DOI :
10.1109/GLOCOM.1990.116773
