@article{SJIM_2009_12_2_a9,
author = {N. V. Pertsev and B. Yu. Pichugin},
title = {{\CYRI}{\cyrn}{\cyrd}{\cyri}{\cyrv}{\cyri}{\cyrd}{\cyru}{\cyru}{\cyrm}-{\cyro}{\cyrr}{\cyri}{\cyre}{\cyrn}{\cyrt}{\cyri}{\cyrr}{\cyro}{\cyrv}{\cyra}{\cyrn}{\cyrn}{\cyra}{\cyrya} {\cyrs}{\cyrt}{\cyro}{\cyrh}{\cyra}{\cyrs}{\cyrt}{\cyri}{\cyrch}{\cyre}{\cyrs}{\cyrk}{\cyra}{\cyrya} {\cyrm}{\cyro}{\cyrd}{\cyre}{\cyrl}{\cyrsftsn} {\cyrr}{\cyra}{\cyrs}{\cyrp}{\cyrr}{\cyro}{\cyrs}{\cyrt}{\cyrr}{\cyra}{\cyrn}{\cyre}{\cyrn}{\cyri}{\cyrya} {\cyrt}{\cyru}{\cyrb}{\cyre}{\cyrr}{\cyrk}{\cyru}{\cyrl}{\cyre}{\cyrz}{\cyra}},
journal = {Sibirskij \v{z}urnal industrialʹnoj matematiki},
pages = {97--110},
year = {2009},
volume = {12},
number = {2},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/SJIM_2009_12_2_a9/}
}
TY - JOUR AU - N. V. Pertsev AU - B. Yu. Pichugin TI - Индивидуум-ориентированная стохастическая модель распространения туберкулеза JO - Sibirskij žurnal industrialʹnoj matematiki PY - 2009 SP - 97 EP - 110 VL - 12 IS - 2 UR - http://geodesic.mathdoc.fr/item/SJIM_2009_12_2_a9/ LA - ru ID - SJIM_2009_12_2_a9 ER -
N. V. Pertsev; B. Yu. Pichugin. Индивидуум-ориентированная стохастическая модель распространения туберкулеза. Sibirskij žurnal industrialʹnoj matematiki, Tome 12 (2009) no. 2, pp. 97-110. http://geodesic.mathdoc.fr/item/SJIM_2009_12_2_a9/
[1] Avilov K. K., Romanyukha A. A., “Matematicheskie modeli rasprostraneniya i kontrolya tuberkuleza (obzor)”, Mat. biologiya i bioinformatika, 2:2 (2007), 188–318
[2] Perelman M. I., Marchuk G. I., Borisov S. E., Kazennykh B. Y., Avilov K. K., Karkach A. S., Romanyukha A. A., “Tuberculosis epidemiology in Russia: the mathematical model and data analysis”, Russian J. Numer. Anal. Math. Modelling, 19:4 (2004), 305–314 | DOI | MR | Zbl
[3] Avilov K. K., Romanyukha A. A., “Matematicheskoe modelirovanie protsessov rasprostraneniya tuberkuleza i vyyavleniya bolnykh”, Avtomatika i telemekhanika, 2007, no. 9, 145–160 | MR | Zbl
[4] Melnichenko A. O., Romanyukha A. A., “A model of tuberculosis epidemiology: estimation of parameters and analysis of factors influencing the dynamics of an epidemic process”, Russian J. Numer. Anal. Math. Modelling, 23:1 (2008), 1–13 | DOI | MR
[5] Kasatkina V. S., Pertsev N. V., “Sopostavlenie reshenii stokhasticheskoi i determinirovannoi modelei rasprostraneniya tuberkuleza”, Analiticheskie i chislennye metody modelirovaniya estestvenno-nauchnykh i sotsialnykh problem, Sb. tr. 2 Mezhdunar. nauch.-tekhn. konf., Penza, 2007, 171–174
[6] Pertsev N. V., Romanyukha A. A., Kasatkina V. S., “Nelineinaya stokhasticheskaya model rasprostraneniya tuberkuleza”, Sistemy upravleniya i informatsionnye tekhnologii, 2008, no. 1–2(31), 246–250
[7] Pichugin B. Yu., “Stokhasticheskaya model soobschestva vzaimodeistvuyuschikh osobei, okharakterizovannykh naborom parametrov”, Tr. Mezhdunar. konf. po vychisl. matematike MKVM-2004, Ch. 1, izd. IVMiMG SO RAN, Novosibirsk, 2004, 303–309
[8] Pertsev N. V., Pichugin B. Yu., “Primenenie metoda Monte-Karlo dlya modelirovaniya dinamiki soobschestv vzaimodeistvuyuschikh individuumov”, Vestnik Voronezh. gos. tekhn. un-ta. Ser. Vychislitelnye i informatsionno-telekommunikatsionnye sistemy, 2:5 (2006), 70–77
[9] Pichugin B. Yu., Programma pm.exe., http://iitam.omsk.net.ru/~pichugin/
[10] Marchuk G. I., Anisimov V. N., Romanyukha A. A., Yashin A. I., Gerontologiya in silico: stanovlenie novoi distsipliny. Matematicheskie modeli, analiz dannykh i vychislitelnye eksperimenty, BINOM, M., 2007
[11] Mikhailov G. A., Voitishek A. V., Chislennoe statisticheskoe modelirovanie. Metody Monte-Karlo, Akademiya, M., 2006
[12] Wallinga J., Edmunds W. J., Kretzschmar M., “Perspective: human contact patterns and the spread of airbone infectious diseases”, Trends in Microbiology, 7:9 (1999), 372–377 | DOI