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Most published authors (scientific articles only) of the journal
|
| 1. |
M. V. Shamolin |
15 |
| 2. |
I. B. Petrov |
14 |
| 3. |
A. L. Semenov |
12 |
| 4. |
V. I. Bogachev |
10 |
| 5. |
V. F. Tishkin |
10 |
| 6. |
B. N. Chetverushkin |
10 |
| 7. |
A. M. Raigorodskii |
8 |
| 8. |
V. G. Romanov |
8 |
| 9. |
V. I. Berdyshev |
7 |
| 10. |
M. E. Zhukovskii |
7 |
| 11. |
A. A. Zlotnik |
7 |
| 12. |
G. A. Mikhailov |
7 |
| 13. |
V. V. Ostapenko |
7 |
| 14. |
N. A. Rautian |
7 |
| 15. |
A. G. Chechkina |
7 |
| 16. |
E. V. Burnaev |
6 |
| 17. |
A. V. Gasnikov |
6 |
| 18. |
V. I. Golubev |
6 |
| 19. |
Yu. G. Evtushenko |
6 |
| 20. |
Yu. A. Kriksin |
6 |
| 21. |
Yu. L. Sachkov |
6 |
| 22. |
O. G. Smolyanov |
6 |
| 23. |
A. A. Tret'yakov |
6 |
| 24. |
G.V. Fedorov |
6 |
| 25. |
G. A. Chechkin |
6 |
| 26. |
S. V. Shaposhnikov |
6 |
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| Most cited authors of the journal |
| 1. |
M. V. Shamolin |
217 |
| 2. |
I. V. Oseledets |
137 |
| 3. |
S. A. Budennyy |
117 |
| 4. |
I. S. Barsola |
112 |
| 5. |
I. V. Egorov |
112 |
| 6. |
A. A. Kosterina |
112 |
| 7. |
N. N. Zakharenko |
110 |
| 8. |
A. N. Korovin |
110 |
| 9. |
V. S. Akhripkin |
106 |
| 10. |
D. V. Dimitrov |
106 |
| 11. |
L. E. Zhukov |
106 |
| 12. |
V. D. Lazarev |
106 |
| 13. |
I. V. Pavlov |
106 |
| 14. |
O. A. Plosskaya |
106 |
| 15. |
I. B. Petrov |
42 |
| 16. |
O. G. Smolyanov |
42 |
| 17. |
A. M. Raigorodskii |
37 |
| 18. |
V. G. Romanov |
29 |
| 19. |
V. I. Golubev |
28 |
| 20. |
B. N. Chetverushkin |
28 |
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40 most cited authors of the journal |
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| Most cited articles of the journal |
| 1. |
eco2AI: carbon emissions tracking of machine learning models as the first step towards sustainable AI
S. A. Budennyy, V. D. Lazarev, N. N. Zakharenko, A. N. Korovin, O. A. Plosskaya, D. V. Dimitrov, V. S. Akhripkin, I. V. Pavlov, I. V. Oseledets, I. S. Barsola, I. V. Egorov, A. A. Kosterina, L. E. Zhukov
Dokl. RAN. Math. Inf. Proc. Upr., 2022, 508, 134–145 |
106 |
| 2. |
New cases of integrable odd-order systems with dissipation
M. V. Shamolin
Dokl. RAN. Math. Inf. Proc. Upr., 2020, 491, 95–101 |
39 |
| 3. |
New cases of homogeneous integrable systems with dissipation on tangent bundles of three-dimensional manifolds
M. V. Shamolin
Dokl. RAN. Math. Inf. Proc. Upr., 2020, 495, 84–90 |
30 |
| 4. |
New cases of homogeneous integrable systems with dissipation on tangent bundles of two-dimensional manifolds
M. V. Shamolin
Dokl. RAN. Math. Inf. Proc. Upr., 2020, 494, 105–111 |
29 |
| 5. |
New cases of homogeneous integrable systems with dissipation on tangent bundles of four-dimensional manifolds
M. V. Shamolin
Dokl. RAN. Math. Inf. Proc. Upr., 2021, 497, 23–30 |
26 |
| 6. |
Spectral neural operators
V. S. Fanaskov, I. V. Oseledets
Dokl. RAN. Math. Inf. Proc. Upr., 2023, 514:2, 72–79 |
25 |
| 7. |
New cases of integrability of systems of geodesics and potential and dissipative systems on tangent bundles of finite-dimensional manifolds
M. V. Shamolin
Dokl. RAN. Math. Inf. Proc. Upr., 2021, 500, 78–86 |
21 |
| 8. |
Tensor invariants of geodesic, potential, and dissipative systems on tangent bundles of two-dimensional manifolds
M. V. Shamolin
Dokl. RAN. Math. Inf. Proc. Upr., 2021, 501, 89–94 |
20 |
| 9. |
Random quantization of Hamiltonian systems
J. E. Gough, Yu. N. Orlov, V. Zh. Sakbaev, O. G. Smolyanov
Dokl. RAN. Math. Inf. Proc. Upr., 2021, 498, 31–36 |
18 |
| 10. |
Increased integrability of the gradient of the solution to the Zaremba problem for the Poisson equation
Yu. A. Alkhutov, G. A. Chechkin
Dokl. RAN. Math. Inf. Proc. Upr., 2021, 497, 3–6 |
18 |
| 11. |
Topological modeling of integrable systems by billiards: realization of numerical invariants
V. V. Vedyushkina, V. A. Kibkalo, A. T. Fomenko
Dokl. RAN. Math. Inf. Proc. Upr., 2020, 493, 9–12 |
16 |
| 12. |
Application of pretrained large language models in embodied artificial intelligence
A. K. Kovalev, A. I. Panov
Dokl. RAN. Math. Inf. Proc. Upr., 2022, 508, 94–99 |
15 |
| 13. |
Invariant volume forms of variable dissipation systems with three degrees of freedom
M. V. Shamolin
Dokl. RAN. Math. Inf. Proc. Upr., 2022, 507, 86–92 |
15 |
| 14. |
Young duality and aggregation of balances
A. A. Shananin
Dokl. RAN. Math. Inf. Proc. Upr., 2020, 493, 81–85 |
15 |
| 15. |
The second boundary value problem for differential-difference equations
A. L. Skubachevskii, N. O. Ivanov
Dokl. RAN. Math. Inf. Proc. Upr., 2021, 500, 74–77 |
14 |
| 16. |
Classical solutions of hyperbolic equations with nonlocal potentials
N. V. Zaitseva
Dokl. RAN. Math. Inf. Proc. Upr., 2021, 498, 37–40 |
14 |
| 17. |
Application of a numerical-asymptotic approach to the problem of restoring the parameters of a local stationary source of anthropogenic pollution
M. A. Davydova, N. F. Elansky, S. A. Zakharova, O. V. Postylyakov
Dokl. RAN. Math. Inf. Proc. Upr., 2021, 496, 34–39 |
14 |
| 18. |
An inverse problem for a semilinear wave equation
V. G. Romanov
Dokl. RAN. Math. Inf. Proc. Upr., 2022, 504, 36–41 |
13 |
| 19. |
Uniqueness of solutions of initial-boundary value problems for parabolic systems with Dini-continuous coefficients in domains on the plane
E. A. Baderko, S. I. Saharov
Dokl. RAN. Math. Inf. Proc. Upr., 2022, 503, 26–29 |
13 |
| 20. |
Schrödinger quantization of infinite-dimensional Hamiltonian systems with a nonquadratic Hamiltonian function
O. G. Smolyanov, N. N. Shamarov
Dokl. RAN. Math. Inf. Proc. Upr., 2020, 492, 65–69 |
13 |
| 21. |
On the existence of a global solution of a hyperbolic problem
O. S. Rozanova, E. V. Chizhonkov
Dokl. RAN. Math. Inf. Proc. Upr., 2020, 492, 97–100 |
13 |
| 22. |
On global classical solutions of hyperbolic differential-difference equations
N. V. Zaitseva
Dokl. RAN. Math. Inf. Proc. Upr., 2020, 491, 44–46 |
13 |
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40 most cited articles of the journal |
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| Most requested articles of the journal |
|
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| 1. |
A stability estimate in the source problem for the radiative transfer equation
V. G. Romanov
Dokl. RAN. Math. Inf. Proc. Upr., 2023, 514:1, 34–38 | 17 |
| 2. |
Incremental learning of topic models for finding trend topics in scientific publications
N. A. Gerasimenko, A. S. Chernyavsky, M. A. Nikiforova, M. D. Nikitin, K. V. Vorontsov
Dokl. RAN. Math. Inf. Proc. Upr., 2022, 508, 106–108 | 8 |
| 3. |
On implementation of boolean functions by contact circuits with a constant uniform width
K. A. Popkov
Dokl. RAN. Math. Inf. Proc. Upr., 2020, 495, 65–68 | 7 |
| 4. |
On numerical modeling of fiber deformation and destruction under impact load
I. B. Petrov, A. V. Vasyukov, K. A. Beklemysheva, E. S. Onuchin, N. A. Tovarnova
Dokl. RAN. Math. Inf. Proc. Upr., 2022, 504, 83–87 | 7 |
| 5. |
Optimization of physics-informed neural networks for nonlinear Schrödinger equation
I. A. Chuprov, J. Gao, D. S. Efremenko, E. A. Kazakov, F. A. Buzaev, V. Zemlyakov
Dokl. RAN. Math. Inf. Proc. Upr., 2023, 514:2, 28–38 | 7 |
| 6. |
On one approach to obtaining the boundaries of perturbation of homogeneous Markov processes
A. I. Zeifman, I. A. Usov, Ya. A. Satin, A. L. Kryukova, V. Yu. Korolev
Dokl. RAN. Math. Inf. Proc. Upr., 2025, 523, 35–43 | 7 |
| 7. |
Many-dimensional Zaremba problem for an inhomogeneous $p$-Laplace equation
Yu. A. Alkhutov, A. G. Chechkina
Dokl. RAN. Math. Inf. Proc. Upr., 2022, 505, 37–41 | 6 |
| 8. |
Loss function dynamics and landscape for deep neural networks trained with quadratic loss
M. S. Nakhodnov, M. S. Kodryan, E. M. Lobacheva, D. S. Vetrov
Dokl. RAN. Math. Inf. Proc. Upr., 2022, 508, 50–69 | 6 |
| 9. |
AI review of polygraph screenings
D. V. Asonov, M. A. Krylov
Dokl. RAN. Math. Inf. Proc. Upr., 2022, 508, 102–103 | 6 |
| 10. |
Digital ark of knowledge
V. V. Goryachko, A. S. Bubnov, E. V. Rayevskii, A. L. Semenov
Dokl. RAN. Math. Inf. Proc. Upr., 2022, 508, 128–133 | 6 |
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| Total publications: |
661 |
| Scientific articles: |
653 |
| Authors: |
949 |
| Citations: |
1567 |
| Cited articles: |
370 |
 |
Impact Factor Web of Science |
|
for 2024:
0.600 |
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for 2023:
0.500 |
|
for 2021:
0.486 |
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for 2020:
0.619 |
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for 2019:
0.548 |
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Scopus Metrics |
|
2024 |
CiteScore |
1.100 |
|
2024 |
SNIP |
0.608 |
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2024 |
SJR |
0.389 |
|
2023 |
CiteScore |
1.000 |
|
2023 |
SNIP |
0.589 |
|
2023 |
SJR |
0.458 |
|
2022 |
SJR |
0.444 |
|
2021 |
SJR |
0.385 |
|
2020 |
SJR |
0.765 |
|
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