Title :
On the cutoff rate of a discrete memoryless channel with (d, k)-constrained input sequences
Author :
Raghavan, Sreenivasa A. ; Wolf, Jack K. ; Milstein, Laurence B.
Author_Institution :
ComStream Corp., San Diego, CA, USA
fDate :
1/1/1992 12:00:00 AM
Abstract :
The cutoff rate of a discrete memoryless channel whose output sequences are from a (d, k) encoder is investigated. A rational rate (d, k) encoder is considered as a finite state machine and maximum-likelihood decoding is used to compute the cutoff rate. Some commonly used (d, k) codes, such as the rate 1/2 (1, 3) code with a two-state encoder, the IBM rate 2/3 (1, 7) code having a five-state encoder, and the IBM rate 1/2 (2, 7) code with a seven-state encoder, are used to illustrate the cutoff rate computation. Results are presented for both the binary symmetric channel (BSC) and the Gaussian noise channel. The performance of a decoder designed for noiseless transmission of (1, 3) code is compared to that of a maximum-likelihood decoder for the (1, 3) code. It is also shown that for the case of the Gaussian noise channel, a gain of about 1.7 dB in signal-to-noise ratio is possible by using 3-bit soft decisions over hard decisions
Keywords :
binary sequences; codes; decoding; encoding; random noise; telecommunication channels; Gaussian noise channel; IBM codes; binary sequences; binary symmetric channel; constrained input sequences; cutoff rate; discrete memoryless channel; finite state machine; five-state encoder; gain; maximum-likelihood decoding; noiseless transmission; output sequences; rational rate encoder; run length limited codes; seven-state encoder; signal-to-noise ratio; soft decisions; two-state encoder; Binary sequences; Data storage systems; Gain; Gaussian noise; Lifting equipment; Magnetic recording; Maximum likelihood decoding; Memoryless systems; Signal to noise ratio; Timing;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
