Volterra, V. 1931. Leqons sur la theorie mathematique de la lutte pour la vie. Paris. 222 p.
Lotka, A.T. 1939. Theoric analytique des associations biologiques. Paris: Principles. 218 p.
Lotka, A. T. 1956. Elements of physical biology. New York, NY: Dover Publs. 460 p.
May, R. M. 1976. Simple mathematical model with very complicated dynamics. Nature 261(560):459-467.
Murray, J.D. 1977. Lectures on nonlinear-differential-equation models in biology. Clarendon Press. 370 p.
Liu, B., Y. Zhang, and I. Chen. 2005. The dynamical behaviors of Lotka-Volterra predator-prey model concerning integrated pest management. Nonlinear Anal. - Real 6(2):227-243. doi: 10.1016/j.nonrwa.2004.08.001.
Jambhulkar, P. P., andS. Murlidhar. 2013. Information technology in plant protection. Current concepts in plant protection. Ed. S. Banik. New Dehli: Studium Press India Pvt. Ltd. 30.
Svirezhev, Yu.M., and D.O. Logofet. 1978. Ustoychivost' biologicheskikh soob- shchestv [Stability of biological communities]. Moscow: Nauka. 352 p.
Logofet, D. O., and M.K. Yunusov. 1979. Voprosy kachestvennoy ustoychivosti i regulyarizatsii v dinamicheskikh modelyakh agrobiotsenoza khlopchatnika [Questions of qualitative stability and regularization in dynamic models of cotton agrophytocenosis]. Voprosy kibernetiki [Problems of Cybernetics] 52:60-72.
Odinaev, R. N. 2013. Issledovanie matematicheskoy modeli zadachi zashchity rasteniy v statsionarnom sluchae [The study of the mathematical model of the plant protection problem in a stationary case]. Vestnik Tadzhikskogo natsional'nogo universiteta. Ser. estestvennykh nauk [Bull. TajikNational University. Ser. Natural Sciences] 1 /3(110):7-11.
Odinaev, R. N. 2019. Matematicheskaya model' zadachi zashchity rasteniy v biosisteme tipa "vrednye nasekomye - poleznye nasekomye" s proizvol'nymi troficheskimi funkt- siyami [A mathematical model of the problem of plant protection in a biosystem of the type "harmful insects -beneficial insects" with arbitrary trophic functions]. Sistemy i Sredstva Informatiki - Systems and Means of Informatics 29(1 ):96-108. doi: 10.14357/08696527190109.
Odinaev, R. N. 2017. Chislennyy metod resheniya integro-differentsial'noy zadachi zashchity rasteniy [A numerical method for solving the integrodifferential problem of plant protection]. Vestnik Tadzhikskogo natsional'nogo universiteta. Ser. estestvennykh nauk [Bull. TajikNational University. Ser. Natural Sciences] 1-5:112-116.
Odinaev, R. N. 2018. Komp'yuternoe modelirovanie protsessa zashchity rasteniy s uchetom vremenno-vozrastnoy struktury i prostranstvennogo raspredeleniya s proizvol'nymi troficheskimi funktsiyami [Computer simulation of the plant protection process taking into account the temporal age structure and spatial distribution with arbitrary trophic functions]. Nauka, novye tekhnologii i innovatsii Kyrgyzstana [Science, New Technologies, and Innovations of Kyrgyzstan] 2:33-38.

Title

MATHEMATICAL AND COMPUTER MODELING OF AGROCENOSIS OF COTTON TAKING INTO ACCOUNT THE AGE STRUCTURE AND WITH ARBITRARY TROPHIC FUNCTIONS

Journal

Systems and Means of Informatics
Volume 31, Issue 2, pp 173-183

Cover Date

2021-05-20

DOI

10.14357/08696527210216

Print ISSN

0869-6527

Publisher

Institute of Informatics Problems, Russian Academy of Sciences

Additional Links

Key words

mathematical and computer modeling; model; agrocenosis; cotton; arbitrary trophic function; harmful insects; beneficial insects; age structure; biomass; number of biological populations; nectariferous plants

Authors

R. N. Odinaev

and A. B. Gaforov

Author Affiliations

Faculty of Mechanics and Mathematics, Tajik National University, 17 Rudaki Av., Dushanbe 734025, Republic of Tajikistan

Systems and Means of Informatics