2-years impact-factor Math-Net.Ru of «Diskretnaya Matematika» journal, 2020

2-years impact-factor Math-Net.Ru of the journal in 2020 is calculated as the number of citations in 2020 to the scientific papers published during 2018–2019.

The table below contains the list of citations in 2020 to the papers published in 2018–2019. We take into account all citing publications we found from different sources, mostly from references lists available on Math-Net.Ru. Both original and translation versions are taken into account.

The impact factor Math-Net.Ru may change when new citations to a year given are found.

1 2 3  Full list
N	Citing pulication		Cited paper
1.	S. A. Komkov, “Novaya formulirovka kriteriya minimalnogo logarifmicheskogo tempa rosta”, Vestn. Mosk. un-ta. Ser. 1. Matem., mekh., 2020, № 5, 60–62	→	Cardinality of generating sets for operations from the Post lattice classes S. A. Komkov Diskr. Mat., 30:1 (2018),  19–38
2.	V. G. Nikonov, A. I. Zobov, “Kombinatornye polinomialno vychislimye kharakteristiki podstanovok i ikh svoistva”, Comp. nanotechnol., 7:2 (2020), 34–41	→	Boolean functions as points on the hypersphere in the Euclidean space O. A. Logachev, S. N. Fedorov, V. V. Yashchenko Diskr. Mat., 30:1 (2018),  39–55
3.	L. Yakymiv, A., “Local limit theorem for the multiple power series distributions”, Mathematics, 8:11 (2020), 2067	→	On the asymptotics of degree structure of configuration graphs with bounded number of edges Yu. L. Pavlov, I. A. Cheplyukova Diskr. Mat., 30:1 (2018),  77–94
4.	V. A. Vatutin, E. E. Dyakonova, “Veroyatnost nevyrozhdeniya dlya odnogo klassa mnogotipnykh dokriticheskikh vetvyaschikhsya protsessov v sluchainoi srede”, Matem. zametki, 107:2 (2020), 163–177	→	A subcritical decomposable branching process in a mixed environment E. E. D'yakonova Diskr. Mat., 30:2 (2018),  14–26
5.	V. O. Mironkin, “Sloi v grafe kompozitsii nezavisimykh ravnoveroyatnykh sluchainykh otobrazhenii”, Matem. vopr. kriptogr., 11:1 (2020), 101–114	→	Estimates of the mean size of the subset image under composition of random mappings A. M. Zubkov, A. A. Serov Diskr. Mat., 30:2 (2018),  27–36
6.	V. O. Mironkin, “Ob obrazakh i proobrazakh v grafe kompozitsii nezavisimykh ravnoveroyatnykh sluchainykh otobrazhenii”, PDM, 2020, № 49, 5–17	→	Estimates of the mean size of the subset image under composition of random mappings A. M. Zubkov, A. A. Serov Diskr. Mat., 30:2 (2018),  27–36
7.	V. T. Markov, A. A. Tuganbaev, “Uniserial Artinian centrally essential rings”, Beitr. Algebr. Geom., 61:1 (2020), 23–33	→	Centrally essential rings V. T. Markov, A. A. Tuganbaev Diskr. Mat., 30:2 (2018),  55–61
8.	V. T. Markov, A. A. Tuganbaev, “Cayley-dickson process and centrally essential rings”, J. Algebra. Appl., 19:5 (2020), 2050096	→	Centrally essential rings V. T. Markov, A. A. Tuganbaev Diskr. Mat., 30:2 (2018),  55–61
9.	Lyubimtsev O.V. Tuganbaev A.A., “Local Centrally Essential Subalgebras of Triangular Algebras”, Linear Multilinear Algebra, 2020	→	Centrally essential rings V. T. Markov, A. A. Tuganbaev Diskr. Mat., 30:2 (2018),  55–61
10.	A. A. Tuganbaev, “Centrally essential rings”, Lobachevskii J. Math., 41:2, SI (2020), 280–288	→	Centrally essential rings V. T. Markov, A. A. Tuganbaev Diskr. Mat., 30:2 (2018),  55–61
11.	Markov V.T., Tuganbaev A.A., “Uniserial Noetherian Centrally Essential Rings”, Commun. Algebr., 48:1 (2020), 149–153	→	Centrally essential rings V. T. Markov, A. A. Tuganbaev Diskr. Mat., 30:2 (2018),  55–61
12.	Markov V.T., Tuganbaev A.A., “Constructions of Centrally Essential Rings”, Commun. Algebr., 48:1 (2020), 198–203	→	Centrally essential rings V. T. Markov, A. A. Tuganbaev Diskr. Mat., 30:2 (2018),  55–61
13.	Lyubimtsev O.V., Tuganbaev A.A., “Centrally Essential Endomorphism Rings of Abelian Groups”, Commun. Algebr., 48:3 (2020), 1249–1256	→	Centrally essential rings V. T. Markov, A. A. Tuganbaev Diskr. Mat., 30:2 (2018),  55–61
14.	I. S. Sergeev, “Mnogoyarusnoe predstavlenie i slozhnost skhem iz mnogovkhodovykh elementov”, Vestn. Mosk. un-ta. Ser. 1. Matem., mekh., 2020, № 3, 42–46	→	On the complexity of bounded-depth circuits and formulas over the basis of fan-in gates I. S. Sergeev Diskr. Mat., 30:2 (2018),  120–137
15.	V. V. Zhukov, “Asymptotically Best Synthesis Methods for Reflexive-Recursive Circuits”, Comput Math Model, 31:3 (2020), 369	→	On the complexity of bounded-depth circuits and formulas over the basis of fan-in gates I. S. Sergeev Diskr. Mat., 30:2 (2018),  120–137
16.	A. V. Cheremushkin, “Chastichno obratimye silno zavisimye $n$-arnye operatsii”, Matem. sb., 211:2 (2020), 141–158	→	Analogues of Gluskin–Hosszú and Malyshev theorems for strongly dependent $n$-ary operations A. V. Cheremushkin Diskr. Mat., 30:2 (2018),  138–147
17.	A. V. Cheremushkin, “Medialnye cilno zavisimye $n$-arnye operatsii”, Diskret. matem., 32:2 (2020), 112–121	→	Analogues of Gluskin–Hosszú and Malyshev theorems for strongly dependent $n$-ary operations A. V. Cheremushkin Diskr. Mat., 30:2 (2018),  138–147
18.	Aleksandr V. Cheremushkin, “Post theorem for strongly dependent n-ary semigroups”, Discrete Mathematics and Applications, 30:5 (2020), 307	→	Analogues of Gluskin–Hosszú and Malyshev theorems for strongly dependent $n$-ary operations A. V. Cheremushkin Diskr. Mat., 30:2 (2018),  138–147
19.	Blecher A., Brennan Ch., Knopfmacher A., Mansour T., “The Depth of Compositions”, Math. Comput. Sci., 14:1 (2020), 69–76	→	Durfee squares in compositions M. Archibald, A. Blecher, Ch. Brennan, A. Knopfmacher, T. Mansour Diskr. Mat., 30:3 (2018),  3–13
20.	N. E. Aleksandrova, D. S. Romanov, “The Length of a Single Fault Detection Test for Constant-Nonpreserving Element Insertions”, Comput Math Model, 31:4 (2020), 484	→	Short single tests for circuits with arbitrary stuck-at faults at outputs of gates K. A. Popkov Diskr. Mat., 30:3 (2018),  99–116
1 2 3  Full list