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A. M. Skorobogatov, O. N. Apanasyuk, Y. V. Shirokov A Model for Accounting for Changes in Metadata States |
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Abstract.
The paper deals with the problem of long-term preservation of the original authenticity of information in databases and the possibilities of analyzing information over long periods of time. Overtime, the terminological systems of databases are regularly updated and, as a result, the conceptual apparatus for describing such data may change. In order to reduce the likelihood of possible errors due to changes in terminology and interpretation of data in different periods of time, it is necessary to take into account changes in the state of terminology systems (metadata). A model for accounting for changes in metadata is proposed, implemented in the radioecological database for the areas of location of radioactive waste disposal facilities, disposal and conservation sites for special radioactive waste.
Keywords:
metadata, long-term data retention, metadata events.
DOI 10.14357/20718632250203
EDN AXTOYZ
PP. 25-37.
References
1. Blokhin P.A., Kuznetsov I.V., Panchenko S.V., Skorobogatov A.M. Radioecological data database on the areas of location of radioactive waste disposal sites, disposal and conservation facilities for special radioactive waste. Certificate of state registration of the database No 2024624404 Russian Federation : appl. 24.09.2024 No 2024623985 : publ. 14.10.2024 ; the applicant is the Russian Federation, on behalf of which the State Atomic Energy Corporation "Rosatom" acts. (In Russ.). EDN: DTYQDJ. 2. Skorobogatov A.M., Panchenko S.V.,Apanasyuk O.N., Bulantseva T.A. Structure of the database for assessing the long-term safety of radioactive waste storage sites. Informacionnye tekhnologii i vychislitel'nye sistemy = Information Technologies and Computing Systems. 2022;(2):46–58. (In Russ.). DOI: 10.14357/20718632220206. EDN: DACLAH. 3. Tannenbaum A. Metadata solutions: using metamodels, repositories, XML, and enterprise portals to generate information on demand. Boston: Addison Wesley Professional; 2002. 490 p. ISBN: 978-0201719765. ISBN: 0201719762. 4. Borozdina A.G. Determining the terms composition used to describe the requirements for metadata for records. Vestnik VNIIDAD = Herald of VNIIDAD. 2022;(4):60–67. (In Russ.). DOI: 10.55970/26191601_2022_4_60. EDN: JGSLAC. 5. Ponin F.N. Methodology of designing and creating databases for modern software. Universum: Technical sciences: electronic scientific journal. 2024;(1). (In Russ.). DOI: 10.32743/Unitech.2024.118.1.16666. Available from: https://7universum.com/ru/tech/archive/item/16666 (Accessed February 04, 2025). 6. Draese O., Bitincka D., Bitincka L. Sobolewski J. “Generating search query autocomplete suggestions based on metadata derived from event data”. Patent No. US12216645 USA, IPC G06F 16/242:, publ. February 04, 2025. Available from: https://patentscope.wipo.int/search/en/detail.jsf?docId=US447719686&_cid=P22-M85P1Q-58997-2 (Accessed March 12, 2025). 7. Solovyev A.V. Solving the problem of interpreting digital data for long-term keeping. Trudy Instituta sistemnogo analiza Rossiyskoy akademii nauk = Proceedings of the Instittute for Systems Analysis Russian Academy of Sciences. 2021;71(2):43-49. (In Russ.). DOI: 10.14357/20790279210206. EDN: FTJKQD. 8. Lysanov S.V., Bashirov S.R., Tokarev R.R. Method and system for managing metadata in high-load cloud environments. Patent No. 2829567 C1 RF, IPC G06F 16/14, No. 2024116388, stated 14.06.2024. publ. 31.10.2024, appl. “Obshchestvo s ogranichennoj otvetstvennostyu "Oblachnye tekhnologii". (In Russ.). EDN: CBFGPY. 9. Solovyev A.V. The problem of defining an electronic document for long-term storage. Informacionnye tekhnologii i vychislitel'nye sistemy = Information Technologies and Computing Systems. 2022;(1):47–54. (In Russ.). DOI: 10.14357/20718632220106. EDN: LWGSPM. 10. Solovyev A.V. Development of a mathematical model of metadata of an electronic document for long-term storage. Trudy Instituta sistemnogo analiza Rossiyskoy akademii nauk = Proceedings of the Instittute for Systems Analysis Russian Academy of Sciences. 2022:72(3):105–112. (In Russ.). DOI:10.14357/20790279220311. EDN: KWWYFD. 11. Solovyev A.V. Digital twins and the task of ensuring longterm keeping of documents. Informacionnye tekhnologii i vychislitel'nye sistemy = Information Technologies and Computing Systems. 2024. Т. 4. С. 17–25. (In Russ.). DOI: 10.14357/20718632240402. EDN: UEJFZA. 12. Tokmakov G.P. Structural and functional model of the subject area situation level and its metastructure. Automation of Control Processes. 2023:(1):25-41. (In Russ.). DOI: 10.35752/1991-2927_2023_1_71_25. EDN: AAKTOV. 13. Aleksakhin A.I., Glagolev A.V., Drozhko E.G., et al. Reservoir-9 is a repository for liquid radioactive waste and its impact on the geological environment. Ed. by E.G. Drozhko, B.G. Samsonov. Project: Glagolenko Yu.V., Glinsky M.L, Rosatom, Public Council of the Federal Atomic Energy Agency. Moscow: Rosatom, et al.; 2007. 255 p. (In Russ.). ISBN: 978-5-9901363-1-1. EDN: QKHIZN.
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