MODERN METHODS OF ENSURING INFORMATION PROTECTION IN CYBERSECURITY SYSTEMS USING ARTIFICIAL INTELLIGENCE AND BLOCKCHAIN TECHNOLOGY

This scientific work is devoted to the development and improvement of information protection methods to counteract unauthorized access to information activity facilities and their telecommunication networks. The conclusions of the study indicate the need to implement innovative solutions to increase...

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প্রধান লেখক: Harasymchuk, Oleh, Opirskyy, Ivan, Partyka, Olha, Susukailo, Vitalii, Piskozub, Andrian, Sabodashko, Dmytro, Vasylyshyn, Sviatoslav, Obshta, Anatoliy, Kurii, Yevhenii, Zhuravchak, Danyil, Tyshyk, Ivan, Partyka, Andrii, Haraniuk, Petro, Kret, Taras, Yuzevych, Volodymyr, Otenko, Viktor, Nakonechnyy, Yuriy, Dzianyi, Nazarii, Bortnik, Leonid, Stakhiv, Marta, Lukovskyy, Taras, Horpenyuk, Andriy, Voytusik, Stepan, Kuten, Roman, Kolbasynskyi, Ivan, Besaha, Khrystyna, Furdas, Yurii, Isakov, Oleksandr, Andriiv, Roman, Tsebak, Oleh
বিন্যাস: Online
ভাষা:ইংরেজি
প্রকাশিত: PC TECHNOLOGY CENTER 2025
বিষয়গুলি:
অনলাইন ব্যবহার করুন:https://directory.doabooks.org/handle/20.500.12854/151108.2
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author Harasymchuk, Oleh
Opirskyy, Ivan
Partyka, Olha
Susukailo, Vitalii
Piskozub, Andrian
Sabodashko, Dmytro
Vasylyshyn, Sviatoslav
Obshta, Anatoliy
Kurii, Yevhenii
Zhuravchak, Danyil
Tyshyk, Ivan
Partyka, Andrii
Haraniuk, Petro
Kret, Taras
Yuzevych, Volodymyr
Otenko, Viktor
Nakonechnyy, Yuriy
Dzianyi, Nazarii
Bortnik, Leonid
Stakhiv, Marta
Lukovskyy, Taras
Horpenyuk, Andriy
Voytusik, Stepan
Kuten, Roman
Kolbasynskyi, Ivan
Besaha, Khrystyna
Furdas, Yurii
Isakov, Oleksandr
Andriiv, Roman
Tsebak, Oleh
author_browse Andriiv, Roman
Besaha, Khrystyna
Bortnik, Leonid
Dzianyi, Nazarii
Furdas, Yurii
Haraniuk, Petro
Harasymchuk, Oleh
Horpenyuk, Andriy
Isakov, Oleksandr
Kolbasynskyi, Ivan
Kret, Taras
Kurii, Yevhenii
Kuten, Roman
Lukovskyy, Taras
Nakonechnyy, Yuriy
Obshta, Anatoliy
Opirskyy, Ivan
Otenko, Viktor
Partyka, Andrii
Partyka, Olha
Piskozub, Andrian
Sabodashko, Dmytro
Stakhiv, Marta
Susukailo, Vitalii
Tsebak, Oleh
Tyshyk, Ivan
Vasylyshyn, Sviatoslav
Voytusik, Stepan
Yuzevych, Volodymyr
Zhuravchak, Danyil
author_facet Harasymchuk, Oleh
Opirskyy, Ivan
Partyka, Olha
Susukailo, Vitalii
Piskozub, Andrian
Sabodashko, Dmytro
Vasylyshyn, Sviatoslav
Obshta, Anatoliy
Kurii, Yevhenii
Zhuravchak, Danyil
Tyshyk, Ivan
Partyka, Andrii
Haraniuk, Petro
Kret, Taras
Yuzevych, Volodymyr
Otenko, Viktor
Nakonechnyy, Yuriy
Dzianyi, Nazarii
Bortnik, Leonid
Stakhiv, Marta
Lukovskyy, Taras
Horpenyuk, Andriy
Voytusik, Stepan
Kuten, Roman
Kolbasynskyi, Ivan
Besaha, Khrystyna
Furdas, Yurii
Isakov, Oleksandr
Andriiv, Roman
Tsebak, Oleh
author_sort Harasymchuk, Oleh
collection Directory of Open Access Books
description This scientific work is devoted to the development and improvement of information protection methods to counteract unauthorized access to information activity facilities and their telecommunication networks. The conclusions of the study indicate the need to implement innovative solutions to increase the level of security in modern cyberspace. An improved algorithm for determining and transferring node hosts in the Blockchain system is proposed, which uses floating hosts to increase the adaptability of the network to external attacks. This allows to automatically close ports during scanning, making it difficult for attackers to access the system and increasing the overall level of network protection. A study of GPT models has shown their high efficiency in detecting cyberattacks on information activity facilities and their telecommunication networks. GPT-4.0 has demonstrated increased efficiency in processing and detecting various types of attacks compared to GPT-3.5, which provides faster response time and improves the overall level of security. The developed method of collecting event logs from decoys based on Blockchain provides high fault tolerance and reliability of logs, which is critically important for protecting information objects and telecommunication networks. The decentralized nature of Blockchain prevents unauthorized editing of information, creating a reliable system for storing attack data. The developed model of a dynamic system of active traps based on software decoys using Blockchain technology integrates decentralized and automatically updated attributes of traps. This increases the effectiveness of network protection, reduces the load on the infrastructure and the response time of services during attacks, which increases the channel throughput and data transfer rate. The developed mathematical description of the calculation of dynamic attributes of software decoys takes into account the capabilities of Blockchain Solana, which made it possible to model and optimize the distribution of network resources. This increased the effectiveness of protection and ensured a quick response of services during external attacks. The method of using Blockchain-based software decoys obtained in the work increases the resources required by the attacker to carry out an attack, which increases the response time of cybersecurity specialists. The use of dynamic Blockchain-based software decoys demonstrates better performance compared to static and other dynamic analogues, increasing the overall level of computer network security. The proposed cybercrime research system detects known attacks 31% faster and is able to detect unknown attacks thanks to training the Isolation Forest model. The time for analyzing cybercrimes has been significantly reduced thanks to the use of the GPT model, which provides an effective and fast response to threats.
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spelling doab-20.500.12854ir-151108.22025-08-29T11:50:56Z MODERN METHODS OF ENSURING INFORMATION PROTECTION IN CYBERSECURITY SYSTEMS USING ARTIFICIAL INTELLIGENCE AND BLOCKCHAIN TECHNOLOGY Harasymchuk, Oleh Opirskyy, Ivan Partyka, Olha Susukailo, Vitalii Piskozub, Andrian Sabodashko, Dmytro Vasylyshyn, Sviatoslav Obshta, Anatoliy Kurii, Yevhenii Zhuravchak, Danyil Tyshyk, Ivan Partyka, Andrii Haraniuk, Petro Kret, Taras Yuzevych, Volodymyr Otenko, Viktor Nakonechnyy, Yuriy Dzianyi, Nazarii Bortnik, Leonid Stakhiv, Marta Lukovskyy, Taras Horpenyuk, Andriy Voytusik, Stepan Kuten, Roman Kolbasynskyi, Ivan Besaha, Khrystyna Furdas, Yurii Isakov, Oleksandr Andriiv, Roman Tsebak, Oleh Harasymchuk, Oleh Concept of a multi-loop security system socio-cyber-physical systems post-quantum secu rity mechanisms thema EDItEUR::U Computing and Information Technology::UY Computer science::UYQ Artificial intelligence This scientific work is devoted to the development and improvement of information protection methods to counteract unauthorized access to information activity facilities and their telecommunication networks. The conclusions of the study indicate the need to implement innovative solutions to increase the level of security in modern cyberspace. An improved algorithm for determining and transferring node hosts in the Blockchain system is proposed, which uses floating hosts to increase the adaptability of the network to external attacks. This allows to automatically close ports during scanning, making it difficult for attackers to access the system and increasing the overall level of network protection. A study of GPT models has shown their high efficiency in detecting cyberattacks on information activity facilities and their telecommunication networks. GPT-4.0 has demonstrated increased efficiency in processing and detecting various types of attacks compared to GPT-3.5, which provides faster response time and improves the overall level of security. The developed method of collecting event logs from decoys based on Blockchain provides high fault tolerance and reliability of logs, which is critically important for protecting information objects and telecommunication networks. The decentralized nature of Blockchain prevents unauthorized editing of information, creating a reliable system for storing attack data. The developed model of a dynamic system of active traps based on software decoys using Blockchain technology integrates decentralized and automatically updated attributes of traps. This increases the effectiveness of network protection, reduces the load on the infrastructure and the response time of services during attacks, which increases the channel throughput and data transfer rate. The developed mathematical description of the calculation of dynamic attributes of software decoys takes into account the capabilities of Blockchain Solana, which made it possible to model and optimize the distribution of network resources. This increased the effectiveness of protection and ensured a quick response of services during external attacks. The method of using Blockchain-based software decoys obtained in the work increases the resources required by the attacker to carry out an attack, which increases the response time of cybersecurity specialists. The use of dynamic Blockchain-based software decoys demonstrates better performance compared to static and other dynamic analogues, increasing the overall level of computer network security. The proposed cybercrime research system detects known attacks 31% faster and is able to detect unknown attacks thanks to training the Isolation Forest model. The time for analyzing cybercrimes has been significantly reduced thanks to the use of the GPT model, which provides an effective and fast response to threats. Published 2025-08-29T11:50:54Z 2025-02-11T13:52:25Z 2025-08-29T11:50:54Z 2025-01-31 book 978-617-8360-12-2 https://directory.doabooks.org/handle/20.500.12854/151108.2 eng image/jpeg Attribution-NonCommercial-NoDerivatives 4.0 International https://monograph.com.ua/catalog/book/978-617-8360-12-2 PC TECHNOLOGY CENTER 10.15587/978-617-8360-12-2 10.15587/978-617-8360-12-2 105e2329-8f11-44ef-beca-adf5b71eb8f4 978-617-8360-12-2 119 Kharkiv. Ukraine open access
spellingShingle Concept of a multi-loop security system
socio-cyber-physical systems
post-quantum secu rity mechanisms
thema EDItEUR::U Computing and Information Technology::UY Computer science::UYQ Artificial intelligence
Harasymchuk, Oleh
Opirskyy, Ivan
Partyka, Olha
Susukailo, Vitalii
Piskozub, Andrian
Sabodashko, Dmytro
Vasylyshyn, Sviatoslav
Obshta, Anatoliy
Kurii, Yevhenii
Zhuravchak, Danyil
Tyshyk, Ivan
Partyka, Andrii
Haraniuk, Petro
Kret, Taras
Yuzevych, Volodymyr
Otenko, Viktor
Nakonechnyy, Yuriy
Dzianyi, Nazarii
Bortnik, Leonid
Stakhiv, Marta
Lukovskyy, Taras
Horpenyuk, Andriy
Voytusik, Stepan
Kuten, Roman
Kolbasynskyi, Ivan
Besaha, Khrystyna
Furdas, Yurii
Isakov, Oleksandr
Andriiv, Roman
Tsebak, Oleh
MODERN METHODS OF ENSURING INFORMATION PROTECTION IN CYBERSECURITY SYSTEMS USING ARTIFICIAL INTELLIGENCE AND BLOCKCHAIN TECHNOLOGY
title MODERN METHODS OF ENSURING INFORMATION PROTECTION IN CYBERSECURITY SYSTEMS USING ARTIFICIAL INTELLIGENCE AND BLOCKCHAIN TECHNOLOGY
title_full MODERN METHODS OF ENSURING INFORMATION PROTECTION IN CYBERSECURITY SYSTEMS USING ARTIFICIAL INTELLIGENCE AND BLOCKCHAIN TECHNOLOGY
title_fullStr MODERN METHODS OF ENSURING INFORMATION PROTECTION IN CYBERSECURITY SYSTEMS USING ARTIFICIAL INTELLIGENCE AND BLOCKCHAIN TECHNOLOGY
title_full_unstemmed MODERN METHODS OF ENSURING INFORMATION PROTECTION IN CYBERSECURITY SYSTEMS USING ARTIFICIAL INTELLIGENCE AND BLOCKCHAIN TECHNOLOGY
title_short MODERN METHODS OF ENSURING INFORMATION PROTECTION IN CYBERSECURITY SYSTEMS USING ARTIFICIAL INTELLIGENCE AND BLOCKCHAIN TECHNOLOGY
title_sort modern methods of ensuring information protection in cybersecurity systems using artificial intelligence and blockchain technology
topic Concept of a multi-loop security system
socio-cyber-physical systems
post-quantum secu rity mechanisms
thema EDItEUR::U Computing and Information Technology::UY Computer science::UYQ Artificial intelligence
topic_facet Concept of a multi-loop security system
socio-cyber-physical systems
post-quantum secu rity mechanisms
thema EDItEUR::U Computing and Information Technology::UY Computer science::UYQ Artificial intelligence
url https://directory.doabooks.org/handle/20.500.12854/151108.2
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