@article{10_21136_AM_1962_102783,
author = {Dupa\v{c}, V\'aclav},
title = {Metody {Monte} {Carlo}},
journal = {Applications of Mathematics},
pages = {1--20},
year = {1962},
volume = {7},
number = {1},
doi = {10.21136/AM.1962.102783},
mrnumber = {0138188},
zbl = {0100.13503},
language = {cs},
url = {http://geodesic.mathdoc.fr/articles/10.21136/AM.1962.102783/}
}
Dupač, Václav. Metody Monte Carlo. Applications of Mathematics, Tome 7 (1962) no. 1, pp. 1-20. doi: 10.21136/AM.1962.102783
[1] H. G. Jones A. M. Lee: Monte Carlo methods in heavy industry. Operational research quarterly, 6 (1955), s. 108-116. | DOI
[2] W. N. Jessop: Monte Carlo methods and industrialproblems. Applied Statistics, 5 (1956), s. 158-165. | DOI | MR
[3] R. A. Levine R. B. Rainey: Random variations and sampling models in production economics. Econometrica, 27 (1959), s. 294-295.
[4] A. Korganoff: Apercu général des méthodes de Monte Carlo, Application à la gestion d'un stock. Sborník Utilisation des calculateurs électroniques en recherche opérationelle, Compagnie des machines Bull, Paris.
[4a] J. P. Boss: Application de la méthode de Monte Carlo à la gestion d'un parc de camions. Týž sborník.
[5] R. S. Lehman G. H. Weiss: A study of the restricted random walk. Jrn. Soc. Ind. Appl. Mathem., 6 (1958), s. 257-278. | DOI | MR
[6] J. Hammersley K. Morton: Poor man's Monte Carlo. Jrn. Roy. Statist. Soc., ser. B, 16 (1954), s. 23-38. | MR
[7] M. Rosenbluth A. Rosenbluth: Monte Carlo calculation of the average extension of molecular chains. Jrn. Chem. Phys., 23 (1955), s. 356-359. | DOI
[8] H. Kahn: Random sampling techniques in neutron attenuation problems. I, II. Nucleonics б (1950), No 5, s. 27-33; 6 (1950), No 6, s. 60-65.
[9] M. J. Berger: An application of the Monte Carlo method to a problem in gamma ray diffusion. Symposium on Monte Carlo methods, J. Wiley, N. Y. 1956, s, 89-102. [Dále jen Symposium.] | MR
[10] L. A. Beach R. B. Theus: Stochastic calculations of gamma ray diffusion. Symposium, s. 103-122. | MR
[11] N. M. Dismuke: Monte Carlo computations. Symposium, s. 52-62.
[12] G. P. Dinneen I. S. Reed: An analysis of signal detection and location by digital methods. IRE Transactions, IT-2, March 1956, s. 29-38.
[13] J. V. Harrington: An analysis of the detection of repeated signals in noise by binary integration. IRE Trans., IT-1, March 1955, s. 295. (Články (12) a (13) viz též sborník překladů: Прием сигналов при наличии шума. Изд. иностр. лит., Москва 1960.
[14] W. J. Dixon: Analysis of extreme values. Ann. Math. Statist., 21 (1950), s. 488-506. | DOI | MR | Zbl
[15] H. J. Arnold B. D. Bucher H. F. Trotter J. E. Tukey: Monte Carlo techniques in a complex problem about normal samples. Symposium, s. 80-88. | MR
[15a] H. M. Wagner: A Monte Carlo study of estimates of simultaneous linear structural equations. Econometrica, 26 (1958), s. 1Í7 -133. | MR | Zbl
[16] R. Courant K. Friedrichs H. Lévy: Über die partiellen Differenzengleichungen der mathematischen Physik. Math. Ann. 100 (1928), s. 32-74. | DOI | MR
[17] W. F. Bauer: The Monte Carlo method. Jrn. Soc. Ind. Appl. Math., 6 (1958), s. 438-451. | DOI | MR | Zbl
[18] G. E. Forsythe R. A. Leibler: Matrix inversion by a Monte Carlo method. Math. Tables Aids Comput., 4 (1950), s. 128-129. | MR
[19] J. H. Curtiss: Monte Carlo methods for the iteration of linear operators. Jrn. Math. Phys., 37 (1954), s. 209-232. | MR
[20] В. С. Владимиров: О применении методов Монте Карло для отыскания наименьшего характеристического числа и соответствующей собственной функции линейного интегрального уравнения. Теория вероятностей, 1 (1956), s. 113-130. | Zbl
[21] K. D. Tocher: The application of automatic computers to sampling experiments. Jrn. Roy. Statist. Soc., ser. B, 16 (1954), s. 39-60. | MR | Zbl
[22] V. Dupač: Stochastické početní metody. Čas. pěst. matem., 81 (1956), s. 55-68.
[23] H. Kahn A. W. Marshall: Methods of reducing sample size in Monte Carlo computations. Jrn. Operat. Res. Soc. Amer., 1 (1953), s. 263-271. | DOI
[24] M. G. Kendall B. Babington Smith: Tables of random sampling numbers. Tracts for computers, No 24, 1940.
[25] M. Кадыров: Таблицы случайных чисел. Ташкент, 1936. | Zbl
[26] RAND Corporation: A million random digits with 100 000 normal deviates. The Free Press, Glencoe, Illinois, 1955. | MR
[27] J. von Neumann: Various techniques used in connection with random digits. Monte Carlo methods. Nat. Bur. of Stand., Appl. Math. Ser. 12, 1951.
[28] H. Wold: Random normal deviates. Cambridge Univ. Press, 1948. | MR | Zbl
[29] G. W. Brown: History of RAND's random digits. The Monte Carlo method. Nat. Bur. of Stand., Appl. Math. Ser. 12, 1951.
[30] J. Havel: An electronic generator of random sequences. Trans. of the 2-nd Prague conference on IT, Praha 1960, s. 219-231. | MR | Zbl
[31] D. H. Lehmer: Mathematical methods in large scale computing units. Proc. 2-nd Symp. on Large-Scale Digital Calcul. Machinery. Harvard Univ. Press, 1951. | MR | Zbl
[32] O. Taussky J. Todd: Generation and testing of pseudo-random numbers. Symposium on Monte Carlo methods, J. Wiley, N. York 1956, s. 15-28. | MR
[33] J. Moshman: The generation of pseudo-random numbers on a decimal calculator. Jrn. Ass. for Computing Mach., 1 (1954), s. 88-91. | DOI | MR
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