05.13.18 (Mathematical modelling, calculating methods, and the program systems)
Birth date:
18.08.1947
E-mail:
Keywords:
mathematical modelling; conservative integration methods;
symbolic computation;
Lie algebra and groups;
computer science; synthesis of optimal systems
high performance computing.
Andrianov S. N. Dinamicheskoe modelirovanie sistem upravleniya puchkami chastits. SPbGU, SPb, 2004.
Andrianov S. N., Edamenko N. S. Modelirovanie dinamicheskikh sistem (na primere zadach fiziki puchkov). SPb. Izd-vo SPbGU, 2005.
Andrianov S. N., Degtyarev A. B. Parallelnye i raspredelennye vychisleniya. Chast 1. SPb. Izd-vo SPbGU, 2007. 68 s.
Andrianov S. N. Symplectification of Truncated Maps for Hamiltonian Systems. Mathematics and Computers in Simulation. Vol. 57. N 3–5. 2001. P. 139–146.
Andrianov S. N. Symbolic Computation of Approximate Symmetries for Ordinary Differential Equations.Mathematics and Computers in Simulation. Vol. 57. N 3–5. 2001. P. 147–154.
Andrianov S. N. Step-by-Step Optimization for Beam Lines.Nuclear Instruments and Methods. Ser. A Vol. 519, 2004, P. 28–36.
Andrianov S. N. Role of Parallel and Distributed Computing in Beam Physics. Nuclear Instruments and Methods. Ser. A Vol. 519, 2004, P. 37–41.
Andrianov S. N., Edamenko N. S., Dyatlov A. A. Algebraic Modeling and Parallel Computing. Nuclear Instruments & Methods, Section A. No 558 (2006). P. 150–153.
Andrianov S. N. Modelirovanie dinamicheskikh sistem. I. Postroenie propagatorov dinamicheskikh sistem.
Vestnik SPBGU, ser. 10, vypusk 3&nadsh;4, 2005, s. 80–92.
Andrianov S. N. Modelirovanie dinamicheskikh sistem. II. Priblizhennye simmetrii i invarianty.
Vestnik SPBGU, ser. 10, vypusk 2, 2006, s. 3–9.
D. V. Zyuzin, Yu. V. Senichev, S. N. Andrianov, A. N. Ivanov, “Modelling of polarized protons dynamics in electrostatic storage rings”, Vestnik S.-Petersburg Univ. Ser. 10. Prikl. Mat. Inform. Prots. Upr., 2014, no. 1, 51–61
2011
2.
Yu. V. Tereshonkov, S. N. Andrianov, M. Jakšić, Ž. Pastuović, T. Tadić, “Mathematical modeling of ion microprobes with fringe fields effects”, Vestnik S.-Petersburg Univ. Ser. 10. Prikl. Mat. Inform. Prots. Upr., 2011, no. 1, 60–75
2014
3.
V. N. Igolkin, V. V. Karelin, S. K. Myshkov, L. N. Polyakova, G. Sh. Tamasyan, L. A. Petrosyan, E. I. Veremey, Yu. M. Dahl, O. I. Drivotin, V. Yu. Dobrynin, N. V. Egorov, A. P. Zhabko, A. M. Kamachkin, G. A. Leonov, V. S. Novoselov, D. A. Ovsyannikov, A. N. Terekhov, S. V. Chistyakov, V. L. Kharitonov, V. M. Bure, A. Yu. Aleksandrov, S. N. Andrianov, A. O. Bochkarev, V. V. Evstafieva, V. S. Ermolin, V. V. Zakharov, I. V. Olemskoy, Yu. G. Pronina, S. L. Sergeev, A. Yu. Uteshev, O. N. Chizhova, “V. F. Demianov”, Vestnik S.-Petersburg Univ. Ser. 10. Prikl. Mat. Inform. Prots. Upr., 2014, no. 2, 154–156