|
Most published authors (scientific articles only) of the journal
scientific articles published in peer review journal, serial, conference publications, indexed in international bibliographical databases and/or having DOI index
|
1. |
A. L. Tulupyev |
60 |
2. |
I. V. Kotenko |
37 |
3. |
A. A. Filchenkov |
32 |
4. |
R. M. Yusupov |
32 |
5. |
T. V. Tulupyeva |
31 |
6. |
A. A. Musaev |
27 |
7. |
A. E. Pashchenko |
21 |
8. |
I. B. Saenko |
20 |
9. |
B. V. Sokolov |
20 |
10. |
A. A. Karpov |
19 |
11. |
A. V. Sirotkin |
19 |
12. |
A.V. Suvorova |
16 |
13. |
A. A. Azarov |
15 |
14. |
R. V. Mescheriakov |
14 |
15. |
A. M. Kashevnik |
13 |
16. |
S. A. Potryasaev |
13 |
17. |
R. R. Fatkieva |
13 |
18. |
S. V. Kuleshov |
12 |
19. |
A. A. Chechulin |
12 |
20. |
V. F. Musina |
11 |
21. |
A. V. Smirnov |
11 |
22. |
O. O. Basov |
10 |
23. |
K. A. Batenkov |
10 |
24. |
I. S. Kipyatkova |
10 |
25. |
A. S. Geida |
9 |
26. |
A. A. Zaytseva |
9 |
27. |
V. I. Mironov |
9 |
28. |
V. M. Shpakov |
9 |
29. |
M. Yu. Kolodin |
8 |
30. |
I. I. Livshitz |
8 |
31. |
Yu. V. Mironov |
8 |
32. |
V. V. Nikiforov |
8 |
33. |
A. N. Pavlov |
8 |
34. |
N. G. Shilov |
8 |
35. |
I. V. Lysenko |
8 |
36. |
D. N. Biryukov |
7 |
37. |
V. A. Zelentsov |
7 |
38. |
N. P. Kirillov |
7 |
39. |
T. V. Levashova |
7 |
40. |
D. K. Levonevskiy |
7 |
41. |
A. G. Lomako |
7 |
42. |
S. I. Nikolenko |
7 |
43. |
V. Yu. Osipov |
7 |
44. |
A. L. Ronzhin |
7 |
45. |
S. B. Roudnitsky |
7 |
46. |
V. I. Salukhov |
7 |
47. |
A. V. Timofeev |
7 |
48. |
K. V. Frolenkov |
7 |
49. |
A. D. Khomonenko |
7 |
|
20 most published authors of the journal |
|
Most cited authors of the journal |
1. |
A. L. Tulupyev |
299 |
2. |
A. A. Filchenkov |
184 |
3. |
I. V. Kotenko |
135 |
4. |
T. V. Tulupyeva |
122 |
5. |
A. E. Pashchenko |
111 |
6. |
A. V. Sirotkin |
94 |
7. |
A. A. Azarov |
68 |
8. |
A.V. Suvorova |
65 |
9. |
I. B. Saenko |
59 |
10. |
A. A. Karpov |
55 |
11. |
M. Yu. Medvedev |
54 |
12. |
V. Kh. Pshikhopov |
54 |
13. |
A. A. Chechulin |
51 |
14. |
R. M. Yusupov |
41 |
15. |
R. V. Mescheriakov |
40 |
16. |
E. A. Magid |
38 |
17. |
F. Matsuno |
35 |
18. |
A. A. Branitskiy |
34 |
19. |
I. S. Kipyatkova |
34 |
20. |
D. S. Levshun |
31 |
21. |
V. F. Musina |
31 |
22. |
S. A. Potryasaev |
29 |
23. |
K. A. Batenkov |
28 |
24. |
R. O. Lavrenov |
28 |
25. |
M. M. Svinin |
28 |
26. |
J. Suthakorn |
28 |
27. |
A. A. Musaev |
27 |
28. |
A. S. Geida |
25 |
29. |
V. V. Arkhipov |
22 |
30. |
M. V. Kolomeec |
22 |
31. |
V. A. Kostjukov |
22 |
32. |
V. B. Naumov |
22 |
33. |
I. V. Lysenko |
22 |
34. |
O. O. Basov |
21 |
35. |
D. N. Biryukov |
21 |
36. |
M. V. Mentyukov |
19 |
37. |
J. Savage |
19 |
38. |
D. M. Stolyarov |
19 |
39. |
I. G. Khanykov |
19 |
40. |
A. E. Andreev |
18 |
41. |
A. S. Gorobtsov |
18 |
42. |
A. E. Markov |
18 |
43. |
A. V. Skorikov |
18 |
44. |
P. S. Tarasov |
18 |
|
20 most cited authors of the journal |
|
Most cited articles of the journal |
1. |
Group control of autonomous robots motion in uncertain environment via unstable modes V. Kh. Pshikhopov, M. Yu. Medvedev Tr. SPIIRAN, 2018, 60, 39–63 |
32 |
2. |
Analysis and Classification of Methods for Network Attack Detection A. A. Branitskiy, I. V. Kotenko Tr. SPIIRAN, 2016, 45, 207–244 |
30 |
3. |
Development and implementation of spline-based path planning algorithm in ROS/Gazebo environment R. O. Lavrenov, E. A. Magid, F. Matsuno, M. M. Svinin, J. Suthakorn Tr. SPIIRAN, 2019, 18:1, 57–84 |
28 |
4. |
Artificial intelligence and autonomous devices in legal context: on development of the first Russian law on robotics V. V. Arkhipov, V. B. Naumov Tr. SPIIRAN, 2017, 55, 46–62 |
22 |
5. |
Algebraic Bayesian networks secondary structure analysis features A. A. Fil'chenkov, A. L. Tulupyev, A. V. Sirotkin Tr. SPIIRAN, 2010, 12, 97–118 |
20 |
6. |
A representation for local and global structures of an algebraical Bayesian network in java applications A. L. Tulupyev, D.M. Stolyarov, M.V. Mentyukov Tr. SPIIRAN, 2007, 5, 71–99 |
19 |
7. |
Features of solving the inverse dynamic method equations for the synthesis of stable walking robots controlled motion A. S. Gorobtsov, A. E. Andreev, A. E. Markov, A. V. Skorikov, P. S. Tarasov Tr. SPIIRAN, 2019, 18:1, 85–122 |
18 |
8. |
Design and analysis of 7-dof human-link manipulator based on hybrid intelligent controller Y. I. AL Mashhadany Tr. SPIIRAN, 2020, 19:4, 774–802 |
17 |
9. |
Modeling short-term and long-term dependencies of the speech signal for paralinguistic emotion classification O. V. Verkholyak, H. Kaya, A. A. Karpov Tr. SPIIRAN, 2019, 18:1, 30–56 |
16 |
10. |
Minimal joint graph structure synthesis A. A. Fil'chenkov, A. L. Tulupyev Tr. SPIIRAN, 2009, 11, 104–129 |
16 |
11. |
Assessment of cyber physical system risks with domain specific modelling and simulation A. A. Teilans, A. V. Romanovs, Yu. A. Merkuryev, P. P. Dorogovs, A. Ya. Kleins, S. A. Potryasaev Tr. SPIIRAN, 2018, 59, 115–139 |
14 |
12. |
Optimization of Piecewise Constant Approximation for Segmented Image M. V. Kharinov, I. G. Khanykov Tr. SPIIRAN, 2015, 40, 183–202 |
14 |
13. |
Social Psychological Factors That Influence the Information System Users Vulnerability Degree in Regard of Socio-Engineering Attacks T. V. Tulupyeva, A. L. Tulupyev, A. E. Pashchenko, M. V. Stepashkin, A. A. Azarov Tr. SPIIRAN, 2010, 12, 200–214 |
14 |
14. |
Architecture of the parallel Big Data Processing system for security monitoring of Internet of Things networks I. V. Kotenko, I. B. Saenko, A. G. Kushnerevich Tr. SPIIRAN, 2018, 59, 5–30 |
13 |
15. |
Method of information interaction for distributed control systems of robots with modular architecture V. P. Andreev, P. F. Pletenev Tr. SPIIRAN, 2018, 57, 134–160 |
13 |
16. |
Combined Design Technique for Secure Embedded Devices Exemplified by a Perimeter Protection System V. Desnitsky, A. A. Chechulin, I. V. Kotenko, D. S. Levshun, M. V. Kolomeec Tr. SPIIRAN, 2016, 48, 5–31 |
13 |
17. |
The Algebraic Bayesian Network Minimal Join Graphs Cycles Analysis A. A. Fil'chenkov, A. L. Tulupyev Tr. SPIIRAN, 2011, 17, 151–173 |
13 |
18. |
Minimal join graph set synthesis self-managing cliques algorithm A. A. Fil'chenkov Tr. SPIIRAN, 2010, 12, 119–133 |
13 |
19. |
An analytic survey of end-to-end speech recognition systems N. M. Markovnikov, I. S. Kipyatkova Tr. SPIIRAN, 2018, 58, 77–110 |
12 |
20. |
Controlling a quasistatic gait of an exoskeleton on the basis of the expert system L. Yu. Vorochaeva, A. S. Yatsun, S. F. Jatsun Tr. SPIIRAN, 2017, 52, 70–94 |
12 |
21. |
Minimal join graph set synthesis self-managed possession cliques algorithm A. A. Fil'chenkov Tr. SPIIRAN, 2010, 14, 150–169 |
12 |
22. |
Super-short time series’ parameters estimate on the base of granular data about record intervals between episodes A.V. Suvorova, A. E. Pashchenko, T. V. Tulupyeva Tr. SPIIRAN, 2010, 12, 170–181 |
12 |
23. |
Technique of informative features selection in geoacoustic emission signals Yu. I. Senkevich, Yu. V. Marapulets, O. O. Lukovenkova, A. A. Solodchuk Tr. SPIIRAN, 2019, 18:5, 1066–1092 |
11 |
24. |
A motion-planning system for a domestic service robot M. Negrete, J. Savage, L. Contreras-Toledo Tr. SPIIRAN, 2018, 60, 5–38 |
11 |
25. |
Improvements in Serbian speech recognition using sequence-trained deep neural networks E. Pakoci, B. Popović, D. Pekar Tr. SPIIRAN, 2018, 58, 53–76 |
11 |
26. |
Assessment of cyber-resilience of computer networks based on simulation of cyber attacks by the stochastic networks conversion method I. V. Kotenko, I. B. Saenko, M. A. Kotsynyak, O. S. Lauta Tr. SPIIRAN, 2017, 55, 160–184 |
11 |
27. |
Variants of deep artificial neural networks for speech recognition systems I. S. Kipyatkova, A. A. Karpov Tr. SPIIRAN, 2016, 49, 80–103 |
11 |
28. |
Apple leaf disease classification using image dataset: a multilayer convolutional neural network approach A. Mahamudul Hashan, R. Md Rakib Ul Islam, K. Avinash Informatics and Automation, 2022, 21:4, 710–728 |
10 |
29. |
Effective functioning of a mixed heterogeneous team in a collaborative robotic system R. Galin, A. Shiroky, E. Magid, R. Meshcheryakov, М. Mamchenko Informatics and Automation, 2021, 20:6, 1224–1253 |
10 |
30. |
Sign-based approach to the task of role distribution in the coalition of cognitive agents G. A. Kiselev, A. I. Panov Tr. SPIIRAN, 2018, 57, 161–187 |
10 |
31. |
Regression diagnostics in the rate analysis based on data about the last episodes D. Zelterman, A. E. Pashchenko, A.V. Suvorova, V. F. Musina, T. V. Tulupyeva, A. L. Tulupyev, L. Grau, R. Heimer Tr. SPIIRAN, 2011, 17, 33–46 |
10 |
32. |
Information models of the components of complex “Informative system – personnel”, which is under threat of socioengineering attack A. L. Tulupyev, A. E. Pashchenko, A. A. Azarov Tr. SPIIRAN, 2010, 14, 50–57 |
10 |
33. |
Algebraic Bayesian networks minimal join graphcliques comparative analysis A. A. Fil'chenkov, A. L. Tulupyev, A. V. Sirotkin Tr. SPIIRAN, 2010, 13, 87–105 |
10 |
34. |
Analytical review of approaches to the distribution of tasks for mobile robot teams based on soft computing technologies O. Darintsev, A. Migranov Informatics and Automation, 2022, 21:4, 729–757 |
9 |
35. |
Method for optimizing of mobile robot trajectory in repeller sources field V. Kostjukov, M. Medvedev, V. Pshikhopov Informatics and Automation, 2021, 20:3, 690–726 |
9 |
36. |
Accurate and boundary estimate of communication network connectivity probability based on model state complete enumeration method K. A. Batenkov Tr. SPIIRAN, 2019, 18:5, 1093–1118 |
9 |
37. |
Predictive assessment of operator's hand trajectory with the copying type of control for solution of the inverse dynamic problem V. I. Petrenko, F. B. Tebueva, M. M. Gurchinskiy, V. O. Antonov, A. S. Pavlov Tr. SPIIRAN, 2019, 18:1, 123–147 |
9 |
38. |
Feedback liniarization method for problem of control of a part of variables in uncontrolled disturbances V. I. Vorotnikov, A. V. Vokhmyanina Tr. SPIIRAN, 2018, 61, 61–93 |
9 |
39. |
Analysis of transformation trends in enterprise management principles in the era of Industry 4.0 technology D. A. Ivanov, M. A. Ivanova, B. V. Sokolov Tr. SPIIRAN, 2018, 60, 97–127 |
9 |
40. |
System functioning efficiency and other system operational properties: research problems, evaluation method A. A. Ashimov, A. S. Geida, I. V. Lysenko, R. M. Yusupov Tr. SPIIRAN, 2018, 60, 241–270 |
9 |
41. |
Dynamic method of searching anthropogenic objects in use of seabed with autonomous underwater vehicles G. G. Bezruk, L. A. Martynova, I. B. Saenko Tr. SPIIRAN, 2018, 58, 203–226 |
9 |
42. |
Efficiency of information systems and technologies: features of estimation R. M. Yusupov, A. A. Musaev Tr. SPIIRAN, 2017, 51, 5–34 |
9 |
43. |
The status functions method for processing and interpretation of the measurement data of interactions in the educational environment I. V. Veshneva, T. B. Chistyakova, A. A. Bolshakov Tr. SPIIRAN, 2016, 49, 144–166 |
9 |
44. |
The Appearance of Anticipating Cyber Threats Risk Prevention Systems D. N. Biryukov, A. G. Lomako, Yu. G. Rostovtsev Tr. SPIIRAN, 2015, 39, 5–25 |
9 |
45. |
Likelihood and relational methods for representing “informational system – personnel – critical documents” complex model. A. A. Azarov, T. V. Tulupyeva, A. A. Fil'chenkov, A. L. Tulupyev Tr. SPIIRAN, 2012, 20, 57–71 |
9 |
46. |
Psychological defense as a factor of user's vulnerability in a socio-engineering attacks context T. V. Tulupyeva, A. L. Tulupyev, A. A. Azarov, A. E. Pashchenko Tr. SPIIRAN, 2011, 18, 74–92 |
9 |
47. |
Join graph edges in context of algebraic Bayesian network minimal join graph cliques comparative analysis A. A. Fil'chenkov, A. L. Tulupyev, A. V. Sirotkin Tr. SPIIRAN, 2010, 14, 132–149 |
9 |
48. |
An approach to comparison of threatening behavior parameters between social groups based upon incomplete and imprecise date A. L. Tulupyev, T. V. Tulupyeva, A. E. Pashchenko, A.V. Suvorova Tr. SPIIRAN, 2009, 9, 252–261 |
9 |
49. |
Algebraic Bayesian networks: an implementation of probabilistic-logic inference in a system of Java-programs A. L. Tulupyev Tr. SPIIRAN, 2009, 8, 191–232 |
9 |
|
20 most cited articles of the journal |
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Most requested articles of the journal |
|
|
1. |
Analysis and Classification of Methods for Network Attack Detection A. A. Branitskiy, I. V. Kotenko Tr. SPIIRAN, 2016, 45, 207–244 | 23 |
2. |
Differential ranging method of locating satellite communication system earth stations using repeater on an unmanned aerial vehicle K. L. Ovcharenko, I. Yu. Eremeev, K. V. Sazonov, S. S. Semenjuk, A. N. Abakumov Tr. SPIIRAN, 2019, 18:1, 176–201 | 19 |
3. |
Technique Providing Stability of Information Technology Development in the Organization A. A. Kuzkin Tr. SPIIRAN, 2014, 37, 95–115 | 17 |
4. |
Structure and database of software for speech quality and intelligibility assessment in the process of rehabilitation after surgery in the treatment of cancers of the oral cavity and oropharynx, maxillofacial area R. V. Mescheriakov, E. Yu. Kostyuchenko, L. N. Balatskaya, E. L. Choinzonov Tr. SPIIRAN, 2014, 32, 116–124 | 14 |
5. |
Simulation of the Subject-Object Interaction in Network Infrastructures V. A. Ovcharov Tr. SPIIRAN, 2015, 39, 42–61 | 14 |
6. |
Anomaly and cyber attack detection technique based on the integration of fractal analysis and machine learning methods I. Kotenko, I. Saenko, O. Lauta, A. Kriebel Informatics and Automation, 2022, 21:6, 1328–1358 | 14 |
7. |
Periodogram estimating the spectral power density based upon signals' binary-sign stochastic quantization using window functions V. Yakimov Informatics and Automation, 2021, 20:2, 341–370 | 12 |
8. |
Enhancing video anomaly detection with improved UNET and cascade sliding window technique S. R. Krishnan, P. Amudha Informatics and Automation, 2024, 23:6, 1899–1930 | 11 |
9. |
Multiagent systems and its development tools O. V. Karsaev, V. G. Konyushiy Tr. SPIIRAN, 2009, 8, 234–254 | 10 |
10. |
Algorithm of constituency tree from dependency tree construction for a russian-language sentence A. Poletaev, I. Paramonov, E. Boychuk Informatics and Automation, 2023, 22:6, 1323–1353 | 10 |
|
Total publications: |
1321 |
Scientific articles: |
1309 |
Authors: |
1523 |
Citations: |
2004 |
Cited articles: |
604 |
|
Scopus Metrics |
|
2023 |
CiteScore |
1.600 |
|
2023 |
SNIP |
0.506 |
|
2023 |
SJR |
0.239 |
|
2022 |
SJR |
0.207 |
|
2021 |
SJR |
0.151 |
|
2020 |
SJR |
0.242 |
|
2019 |
SJR |
0.226 |
|
2018 |
CiteScore |
0.570 |
|
2018 |
SJR |
0.168 |
|
2017 |
CiteScore |
0.580 |
|
2017 |
SNIP |
0.633 |
|
2017 |
SJR |
0.157 |
|