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Maxim O. Kalinin
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2020 – today
- 2023
- [j34]Maxim O. Kalinin, A. F. Suprun, O. D. Ivanova:
Hybrid Method for the Detection of Evasion Attacks Aimed at Machine Learning Systems. Autom. Control. Comput. Sci. 57(8): 983-988 (2023) - [j33]Maxim O. Kalinin, M. D. Soshnev, Artem S. Konoplev:
Protection of Computational Machine Learning Models against Extraction Threat. Autom. Control. Comput. Sci. 57(8): 996-1004 (2023) - [j32]Maxim O. Kalinin, E. I. Tkacheva:
A Decentralized Approach to Intrusion Detection in Dynamic Networks of the Internet of Things Based on Multiagent Reinforcement Learning with Interagent Interaction. Autom. Control. Comput. Sci. 57(8): 1025-1032 (2023) - [j31]Vasiliy M. Krundyshev, Georgi A. Markov, Maxim O. Kalinin, P. V. Sem'yanov, Alexey G. Busygin:
Cyberattack Detection in the Industrial Internet of Things Based on the Computation Model of Hierarchical Temporal Memory. Autom. Control. Comput. Sci. 57(8): 1040-1046 (2023) - [j30]Maxim O. Kalinin
, Evgenii Zavadskii, Alexey G. Busygin:
A Graph-Based Technique for Securing the Distributed Cyber-Physical System Infrastructure. Sensors 23(21): 8724 (2023) - [j29]Maxim O. Kalinin
Security intrusion detection using quantum machine learning techniques. J. Comput. Virol. Hacking Tech. 19(1): 125-136 (2023) - 2022
- [j28]Vasiliy M. Krundyshev, Maxim O. Kalinin:
Mathematical Model of the Spread of Computer Attacks on Critical Information Infrastructure. Autom. Control. Comput. Sci. 56(8): 927-933 (2022) - [j27]Vasiliy M. Krundyshev, Maxim O. Kalinin:
Adaptive Control System for Detecting Computer Attacks on Objects of Critical Information Infrastructure. Autom. Control. Comput. Sci. 56(8): 1040-1048 (2022) - [j26]Maxim O. Kalinin
Application of the Learning Automaton Model for Ensuring Cyber Resiliency. Symmetry 14(10): 2208 (2022) - 2021
- [j25]Maxim O. Kalinin:
Application of Neuro-Fuzzy Inference to Detect Network Scanning. Autom. Control. Comput. Sci. 55(8): 908-917 (2021) - [j24]Maxim O. Kalinin, Vasiliy M. Krundyshev:
Analysis of a Huge Amount of Network Traffic Based on Quantum Machine Learning. Autom. Control. Comput. Sci. 55(8): 1165-1174 (2021) - 2020
- [j23]Maxim O. Kalinin
Development of the Intrusion Detection System for the Internet of Things Based on a Sequence Alignment Algorithm. Autom. Control. Comput. Sci. 54(8): 993-1000 (2020) - [c26]Haejin Cho, Sangwon Lim, Viacheslav Belenko, Maxim O. Kalinin
Application and improvement of sequence alignment algorithms for intrusion detection in the Internet of Things. ICPS 2020: 93-97 - [c25]Maxim O. Kalinin
AI-based Security for the Smart Networks. SIN 2020: 22:1-22:4
2010 – 2019
- 2019
- [j22]Elena B. Aleksandrova
Analysis of Approaches to Group Authentication in Large-Scale Industrial Systems. Autom. Control. Comput. Sci. 53(8): 879-882 (2019) - [j21]Maria A. Poltavtseva, Maxim O. Kalinin
Modeling Big Data Management Systems in Information Security. Autom. Control. Comput. Sci. 53(8): 895-902 (2019) - [j20]Maria A. Poltavtseva, Dmitry P. Zegzhda, Maxim O. Kalinin
Big Data Management System Security Threat Model. Autom. Control. Comput. Sci. 53(8): 903-913 (2019) - [j19]Elena B. Aleksandrova
Organization of the Quantum Cryptographic Keys Distribution System for Transportation Infrastructure Users. Autom. Control. Comput. Sci. 53(8): 969-971 (2019) - [j18]Dmitry P. Zegzhda, Maxim O. Kalinin
Actual Vulnerabilities of Industrial Automation Protocols of an Open Platform Communications Series. Autom. Control. Comput. Sci. 53(8): 972-979 (2019) - [c24]Vasiliy M. Krundyshev
Prevention of false data injections in smart infrastructures. BlackSeaCom 2019: 1-5 - [c23]Maria A. Poltavtseva, Maxim O. Kalinin
Conceptual Data Modeling Using Aggregates to Ensure Large-Scale Distributed Data Management Systems Security. IDC 2019: 41-47 - [c22]Vasiliy M. Krundyshev, Maxim O. Kalinin
Hybrid neural network framework for detection of cyber attacks at smart infrastructures. SIN 2019: 9:1-9:7 - 2018
- [j17]Maxim O. Kalinin
Hierarchical Software-Defined Security Management for Large-Scale Dynamic Networks. Autom. Control. Comput. Sci. 52(8): 906-911 (2018) - [j16]Maxim O. Kalinin
Detection of Threats in Cyberphysical Systems Based on Deep Learning Methods Using Multidimensional Time Series. Autom. Control. Comput. Sci. 52(8): 912-917 (2018) - [j15]T. D. Ovasapyan, Dmitry A. Moskvin, Maxim O. Kalinin
Using Neural Networks to Detect Internal Intruders in VANETs. Autom. Control. Comput. Sci. 52(8): 954-958 (2018) - [j14]Roman Demidov, Alexander I. Pechenkin, Peter D. Zegzhda
Application Model of Modern Artificial Neural Network Methods for the Analysis of Information Systems Security. Autom. Control. Comput. Sci. 52(8): 965-970 (2018) - [j13]Roman Demidov, Peter D. Zegzhda
Threat Analysis of Cyber Security in Wireless Adhoc Networks Using Hybrid Neural Network Model. Autom. Control. Comput. Sci. 52(8): 971-976 (2018) - [j12]Maxim O. Kalinin
Prevention of Attacks on Dynamic Routing in Self-Organizing Adhoc Networks Using Swarm Intelligence. Autom. Control. Comput. Sci. 52(8): 977-983 (2018) - [c21]Maxim O. Kalinin
Role-Based Access Control for Vehicular Adhoc Networks. BlackSeaCom 2018: 1-5 - [c20]Vasiliy M. Krundyshev
Artificial swarm algorithm for VANET protection against routing attacks. ICPS 2018: 795-800 - [c19]Viacheslav Belenko, Vasiliy M. Krundyshev
Synthetic datasets generation for intrusion detection in VANET. SIN 2018: 9:1-9:6 - [c18]Alexey G. Busygin, Artem S. Konoplev, Maxim O. Kalinin
Floating Genesis Block Enhancement for Blockchain Based Routing Between Connected Vehicles and Software-defined VANET Security Services. SIN 2018: 24:1-24:2 - 2017
- [j11]Maxim O. Kalinin
Security evaluation of a wireless ad-hoc network with dynamic topology. Autom. Control. Comput. Sci. 51(8): 899-901 (2017) - [j10]Maxim O. Kalinin
Architectures for building secure vehicular networks based on SDN technology. Autom. Control. Comput. Sci. 51(8): 907-914 (2017) - [c17]Maxim O. Kalinin
Network security architectures for VANET. SIN 2017: 73-79 - 2016
- [j9]Artem S. Konoplev, Maxim O. Kalinin
Access control system for distributed computing networks. Autom. Control. Comput. Sci. 50(8): 664-668 (2016) - [j8]Artem S. Konoplev, Maxim O. Kalinin
Tasks of providing information security in distributed computing networks. Autom. Control. Comput. Sci. 50(8): 669-672 (2016) - [j7]Peter D. Zegzhda
Technology of security services virtualization for high-speed computer networks. Autom. Control. Comput. Sci. 50(8): 734-738 (2016) - [j6]Alexey G. Busygin, Artem S. Konoplev, Maxim O. Kalinin
Approaches to protection of applications based on the TLS protocol against attacks using revoked certificates. Autom. Control. Comput. Sci. 50(8): 743-748 (2016) - [c16]Maxim O. Kalinin
Software defined security for vehicular ad hoc networks. ICTC 2016: 533-537 - [c15]Peter D. Zegzhda
Safe Integration of SIEM Systems with Internet of Things: Data Aggregation, Integrity Control, and Bioinspired Safe Routing. SIN 2016: 81-87 - 2015
- [j5]Peter D. Zegzhda
Automatic security management of computer systems. Autom. Control. Comput. Sci. 49(8): 665-672 (2015) - [j4]Maxim O. Kalinin
Increasing the fault tolerance and availability of software defined networks using network equipment control based on multiobjective optimization by service quality parameters. Autom. Control. Comput. Sci. 49(8): 673-678 (2015) - [j3]Artem S. Konoplev, Maxim O. Kalinin
Access control method in distributed grid computing networks. Autom. Control. Comput. Sci. 49(8): 679-683 (2015) - [j2]N. S. Vert, A. S. Volkova, Dmitry P. Zegzhda, Maxim O. Kalinin
Maintenance of sustainable operation of pipeline-parallel computing systems in the cloud environment. Autom. Control. Comput. Sci. 49(8): 713-720 (2015) - [c14]Alexander Minin, Maxim O. Kalinin
Information security in computer networks with dynamic topology. SIN 2015: 127-130 - 2013
- [c13]Artem S. Konoplev, Maxim O. Kalinin
Security policy verification in grid systems. SIN 2013: 356-358 - 2012
- [c12]Peter D. Zegzhda
Security Modeling of Grid Systems Using Petri Nets. MMM-ACNS 2012: 299-308 - 2010
- [c11]Yaroslav A. Markov, Maxim O. Kalinin
Intellectual Intrusion Detection with Sequences Alignment Methods. MMM-ACNS 2010: 217-228 - [c10]Dmitry P. Zegzhda, Peter D. Zegzhda
Clarifying Integrity Control at the Trusted Information Environment. MMM-ACNS 2010: 337-344 - [c9]Tatiana V. Stepanova, Maxim O. Kalinin
Homogeneity analysis of power consumption for information security purposes. SIN 2010: 113-117 - [c8]Maxim O. Kalinin
Permanent protection of information systems with method of automated security and integrity control. SIN 2010: 118-123
2000 – 2009
- 2008
- [c7]Dmitry P. Zegzhda, Maxim O. Kalinin, Alexander Vovk:
"Linux over OSMOS": the Secure Hybrid Operating System. Enterprise Information Systems and Web Technologies 2008: 47-54 - [c6]Dmitry P. Zegzhda, Maxim O. Kalinin, Olga Savelyeva:
The Use of Conference Control to Design a Protected Videoconference System. Enterprise Information Systems and Web Technologies 2008: 55-60 - [c5]Dmitry P. Zegzhda, Maxim O. Kalinin:
Security Assurance for the Attribute-Based Access Control Systems. Enterprise Information Systems and Web Technologies 2008: 147-154 - 2007
- [c4]Dmitry P. Zegzhda, Maxim O. Kalinin:
Logical Security Evaluation of Real-World Operating Systems. Enterprise Information Systems and Web Technologies 2007: 234-241 - 2006
- [j1]Il-Gon Kim, Miyoung Kang, Jin-Young Choi, Peter D. Zegzhda, Maxim O. Kalinin, Dmitry P. Zegzhda, Inhye Kang:
Formal Verification of Security Model Using SPR Tool. Comput. Artif. Intell. 25(5): 353-368 (2006) - 2005
- [c3]Peter D. Zegzhda
Vulnerabilities Detection in the Configurations of MS Windows Operating System. MMM-ACNS 2005: 339-351 - [c2]Peter D. Zegzhda, Dmitry P. Zegzhda, Maxim O. Kalinin:
Detection of the Operating System Configuration Vulnerabilities with Safety Evaluation Facility. WOSIS 2005: 263-276 - 2003
- [c1]Peter D. Zegzhda
Logical Resolving for Security Evaluation. MMM-ACNS 2003: 147-156
Coauthor Index
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