Voir la notice de l'article provenant de la source Czech Digital Mathematics Library
Vokurka, Karel. On the group pulse processes. III. Power spectrum of the processes with independent intervals. Kybernetika, Tome 20 (1984) no. 1, pp. 18-36. http://geodesic.mathdoc.fr/item/KYB_1984_20_1_a1/
@article{KYB_1984_20_1_a1,
author = {Vokurka, Karel},
title = {On the group pulse processes. {III.} {Power} spectrum of the processes with independent intervals},
journal = {Kybernetika},
pages = {18--36},
year = {1984},
volume = {20},
number = {1},
zbl = {0531.60048},
language = {en},
url = {http://geodesic.mathdoc.fr/item/KYB_1984_20_1_a1/}
}
[1] K. Vokurka: On the group pulse processes. I. Classification. Kybernetika 19 (1983), 5, 374-386. | Zbl
[2] K. Vokurka: On the group pulse processes. II. Power spectrum of the processes with independent points. Kybernetika 19 (1983), 6, 505-515. | Zbl
[3] J. S. Churgin: Spektr impulsnych sluchainych processov s nezavisimimi intervalami i shirina spektralnych linii impulsnych avtokolebanii. Nauchnye doklady vysshei shkoly (radiotekhnika i elektronika) (1958), 1, 96-101.
[4] T. Lukes: The statistical properties of sequences of stochastic pulses. Proc. Phys. Soc. (London) 78 (1961), 2, 153-168. | MR
[5] P. Mazzetti: Correlation function and power spectrum of a train of nonindependent overlapping pulses having random shape and amplitude. Nuovo Cimento 31 (1964), 1, 88-97.
[6] E. D. Banta: A note on the correlation function of nonindependent, overlapping pulse trains. IEEE Trans. Inform. Theory IT-10 (1964), 2, 160- 161.
[7] I. S. Gradshtein, I. M. Ryzhik: Tablici integralov, sum, rjadov i proizvedenii. Fizmatgiz, Moskva 1963. English translation: Tables of Integrals, Series and Products. Academic Press, New York 1965.
[8] K. Vokurka: Power spectrum of the quasiperiodic and the aperiodic group pulse process. Kybernetika 17 (1981), 4, 298-309. | Zbl
[9] B. R. Levin: Theory of Random Processes and its Application in Radiocommunication. SNTL, Praha 1965. (In Czech.)
[10] K. Vokurka: Power spectrum of the periodic group pulse process. Kybernetika 16 (1980), 5, 462-471. | MR | Zbl
[11] B. V. Gnedenko, I. N. Kovalenko: Vvedenie v teoriyu massovovo obsluzhivaniya. Nauka, Moskva 1966. English translation: Introduction to Queueing Theory. Israel Program for Scientific Translations, Jerusalem 1968. | MR
[12] B. R. Levin, Ya. A. Fomin: Energeticheskie spektry gruppovych signalov v mnogokanalnych impulsnych sistemach. Elektrosvyaz (1963), 2, 3-10.
[13] G. L. Cariolaro, G. P. Tronca: Spectra of block coded digital signals. IEEE Trans. Commun. COM-22 (1974), 10, 1555-1564. | MR
[14] J. H. Gilchrist, J. B. Thomas: Power spectral densities of modulated error-correcting coded sequences. IEEE Trans. Commun. COM-23 (1974), 11, 1207-1214. | MR
[15] S. Bevan R. Kullberg, J. Rice: An analysis of cell membrane noise. Ann. Statistics 7 (1979), 2, 237-257.
[16] B. E. A. Saleh, M. C. Teich: Multiplied-Poisson noise in pulse, particle, and photon detection. Proc. IEEE 70 (1982), 3, 229-245.
[17] K. M. van Vliet P. H. Handel, A. van der Ziel: Superstatistical emission noise. Physica 108A (1981), 511-530.
[18] H. Tokunaga: The statistical theory of one-dimensional turbulence in a compressible fluid. J. Phys. Soc. Jpn. 41 (1976), 1, 328-337.
[19] K. Vokurka: A contribution to interpretation of power spectrum of the cavitation noise at hydrodynamical cavitation. Strojírenství 33 (1983), 5, 268-275. (In Czech.)
[20] K. Vokurka: Power spectrum of the cavitation noise at ultrasonic cavitation. XXth Internat. Conf. on Acoustics- Ultrasound, ČSVTS, Praha 1981, 53 - 55.
[21] K. Vokurka: Application of the group pulse processes in the theory of Barkhausen noise. Czech. J. Phys. B32 (1982), 12, 1384-1398.
[22] R. Friedrich: Beitrag zur Beschreibung Stochastischer Impulsstörungen. Z. elektr. Inform. u. Energietechnik 5 (1975), 5, 338-347. | Zbl
[23] J. W. Modestino, B. Sankur: Analysis and modeling of impulsive noise. Arch. Elektron. & Uebertragungstech. 35 (1981), 12, 481-488.
[24] K. Furutsu, T. Ishida: On the theory of amplitude distribution of impulsive random noise. J. Appl. Phys. 32 (1961), 7, 1206-1221. | MR | Zbl
[25] J. H. Gilchrist, J. B. Thomas: A model for the current pulses of cloud-to-ground lightning discharges. J. Franklin Inst. 299 (1975), 3, 199-210.
[26] J. H. Gilchrist, J. B. Thomas: Another model for the current pulses of cloud-to-ground lightning discharges. J. Franklin Inst. 301 (1976), 3, 279-286.
[27] J. H. Gilchrist, J. B. Thomas: Model for radio interference produced by corona pulses on a.c. lines. Proc. IEE 122 (1975), 11, 1260- 1264.
[28] K. Vokurka: A simple model of the acoustical diagnostic signal. Internat. Conf. Technical Diagnostics '79, ČSVTS, Karlovy Vary 1979, 59-67. (In Czech.)
[29] K. Vokurka: Modelling combustion engine noise. 3rd Acoustical Seminar, ČSVTS, Piešťany 1983, 1-3. (In Czech.)
[30] E. Parzen: Stochastic Processes. Holden-Day, San Francisco 1964. | MR
[31] F. J. Beutler, O A. Z. Leneman: On the statistics of random pulse process. Inform. and Control 18 (1971), 4, 326-341. | MR
[32] I. Korn: A simple derivation of the autocorrelation of a random pulse train. Proc. IEEE 58 (1970), 6, 955-956.
[33] Ch. S. Lorens: Recovery of randomly sampled time sequences. IRE Trans. Commun. Syst. CS-10 (1962), 2, 214-216.
[34] W. M. Brown: Sampling with random jitter. J. Soc. Ind. & Appl. Math. 11 (1963), 2, 460-473. | MR | Zbl
[35] G. Weiss: Shot noise models for the generation of synthetic streamflow data. Water Resour. Res. 13 (1977), 1, 101-108.
[36] K. Vokurka: Random Pulse Processes in Electrical Engineering. Habilitation thesis, Vysoká škola strojní a elektrotechnická v Plzni, Plzeň 1980. (In Czech.)