论文信息 - Entropy and power spectrum of asymmetrically DC-constrained binary sequences

Entropy and power spectrum of asymmetrically DC-constrained binary sequences

The eigenstructure of bidiagonal Hessenberg-Toeplitz matrices is determined. These matrices occur as skeleton matrices of finite-state machines generating certain asymmetrically DC-constrained binary sequences that can be used for simulating pilot tracking tones in digital magnetic recording. The eigenstructure is used to calculate the Shannon upper bound to the entropy of the finite state machine as well as the power spectrum of the maxentropic process generated by it. >

Kees A. Schouhamer Immink | Augustus J. E. M. Janssen

[1] Jørn Justesen,et al. Information rates and power spectra of digital codes , 1982, IEEE Trans. Inf. Theory.

[2] K.A.S. Immink. Signal-to-noise ratio of pilot tracking tones embedded in binary coded signals , 1988 .

[3] Roberto Padovani,et al. Spectral Analysis of Functions of Markov Chains with Applications , 1983, IEEE Trans. Commun..

[4] Augustus J. E. M. Janssen,et al. Asymptotics of the Perron-Frobenius eigenvalue of nonnegative Hessenberg-Toeplitz matrices , 1989, IEEE Trans. Inf. Theory.

[5] Kenneth J. Kerpez,et al. The power spectral density of maximum entropy charge constrained sequences , 1989, IEEE Trans. Inf. Theory.

[6] Hiroshi Kamabe,et al. Spectral lines of codes given as functions of finite Markov chains , 1991, IEEE Trans. Inf. Theory.

[7] Ta-Mu Chien,et al. Upper bound on the efficiency of dc-constrained codes , 1970, Bell Syst. Tech. J..