Ситуационно-ориентированные базы данных: формирование персонализированных графических документов для поддержки учебного проектирования
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Научный журнал Моделирование, оптимизация и информационные технологииThe scientific journal Modeling, Optimization and Information Technology
Online media
issn 2310-6018

Situation-oriented databases: the formation of personalized graphic documents for educational design support

idMironov V.V. idGusarenko A.S. idTuguzbaev G.A.

UDC 004.65
DOI: 10.26102/2310-6018/2020.29.2.013

  • Abstract
  • List of references
  • About authors

There is considered the task of creating personalized blanks for project documents in office graphics formats. Personalized blanks are understood as documents filled with specific design data in order to free the developer from routine actions during subsequent design. Two levels of graphic personalization complexity are noted: parametric and structural. The formation of personalized blanks is carried out in two stages: template development; template personalization. At the first stage, a blank template with preliminary marking of personalization points is manually developed in the environment of a graphical editor. At the second stage, software processing of the template is performed, in which personalization points are found in the template and personal data from the database is placed in them. Personalization based on situationally-oriented databases is discussed — an integrator of heterogeneous data based on an information processor controlled by a built-in highly abstract hierarchical situational model. Access to heterogeneous data is specified in the situational model in the form of virtual documents that are mapped onto heterogeneous real data. The features of mapping a virtual document to documents in VDX and FODG, as well as VSDX and ODG are considered. If in the first case, mapping to an XML file is required, then in the second to a ZIP archive, in the folders of which XML files are located. Fragments of situational models are considered that provide personalization based on: searching nodes containing identification tags in the XML document tree and replacing them with database data. Compared to the traditional approach, this gives a simpler task definition. The practical use of the results for information support of educational design in the discipline of "database" is discussed. There is a decrease in the complexity of the routine part of the project, an increase in the possibilities of creative activity in the process of educational design.

1. Baswara S.Y., Widhiastuti R., Dewi L.C. Learning Model Based on Information Technology in an Accounting Education Courses Based on Technology at Faculty of Economics in Universitas Negeri Semarang. KnE Social Sciences. 2020;4(6):1280-1285. Available at: https://doi.org/10.18502/kss.v4i6.6678. (accessed 20.01.2020).

2. Yu Z., Xiong Z. Comparative Analyses for the Performance of Rational Rose and Visio in Software Engineering Teaching. Journal of Physics: Conference Series. IOP Publishing. 2018;1087(6):062041. DOI:10.1088/1742-6596/1087/6/062041

3. Medoh C., Telukdarie A. Business Process Modelling Tool Selection: A review. 2017 IEEE International Conference on Industrial Engineering and Engineering Management (IEEM). IEEE. 2017:524-528.

4. Sarvepalli A., Godin J. Business Process Management in the Classroom. Journal of Cases on Information Technology (JCIT). 2017;19(2):17-28.

5. He L., Lian J. Instructional Design of Practice Course of Logistics System Planning and Design Based on Visio. 2018 9th International Conference on Information Technology in Medicine and Education (ITME). IEEE, 2018:526-530.

6. David J Parker. Mastering Data Visualization with Microsoft Visio Professional 2016. Packt Publishing Ltd. 2016.

7. Chernykh K.V., Kozhukhova A.V., Tomacheva L.V. Using the Software Package Openoffice.org in the Professional Work of an Engineer. Prikladnyye Informatsionnyye Sistemy v Tekhnologii Telefonnogo Transporta (Mashinostroyeniye). 2019:5-8.

8. Xu Y., Zhang M., Gao Z. The Construction of Distance Education Personalized Learning Platform Based on Educational Data Mining. Advances in Intelligent Systems and Computing. 2020;(1017):1076-1085

9. Liu D. Y.-T., Atif A., Froissard J.-C., Richards D. An Enhanced Learning Analytics Plugin for Moodle: Student Engagement and Personalised Intervention. ASCILITE 2015 — Australasian Society for Computers in Learning and Tertiary Education, Conference Proceedings. 2019;180-189.

10. Lee D.H., Cho S.H., Kim Y. A Design and Development of the Learning Contents Management Based on the Personalized Online Learning. International Journal on Advanced Science, Engineering and Information Technology. 2018;8(4):1321-1326.

11. Mironov V.V., Gusarenko A.S., Yusupova N.I. situation-oriented Databases: Current State and Prospects for Research. Vestnik UGATU. 2015;19(2):188-199

12. Mironov V.V., Gusarenko A.S., Yusupova N.I. The Invariance of the Virtual Data in the Situationally Oriented Database when Displayed on Heterogeneous Data Storages. Herald of Computer and Information Technologies. 2017;1(151):29-36.

13. Mironov V.V., Gusarenko A.S., Yusupova N.I. Structuring Virtual Multi-documents in Situationally-oriented Databases by Means of Entry-elements. SPIIRAS Proceedings. 2017;4(53):225-242.

14. Mironov V.V., Gusarenko A.S., Yusupova N.I. Displaying Virtual XML-documents on MySQL Tables in the Situation-oriented Databases, “Distributed Approach”. Journal of Information Technologies and Computing Systems. 2017;1:77-89.

15. Mironov V.V., Gusarenko A.S., Yusupova N.I. Integration of Virtual Multidocument Mappings into Real Data Sources in Situational-oriented Databases. Applied Informatics. 2018;13(3):47-60.

16. Gusarenko A. S. Improvement of Situation-oriented Database Model for Interaction with MySQL. Journal of Instrument Egineering. 2016:59(5):355-363.

17. Mironov V.V., Gusarenko A.S., Yusupova N.I. Situation-oriented Databases: Document Management on the Base of Embedded Dynamic Model. CEUR Workshop Proceedings (CEUR-WS.org): Selected Papers of the XI International Scientific-Practical Conference Modern Information Technologies and IT-Education (SITITO 2016). 2016;1761:238-247.

18. Mironov V.V., Gusarenko A.S., Yusupova N.I. Stream Handling Large Volume Documents in Situationally-oriented Databases, International Scientific Journal INDUSTRY 4.0. Scientific Technical Union of Mechanical Engineering “INDUSTRY 4.0”. 2018;3(5):240- 244.

19. Mironov V.V., Gusarenko A.S., Yusupova N.I. Situation-oriented Databases: Polyglot Persistence Based on Rest Microservices. Applied Informatics. 2019;14(5):86-97.

20. Mironov V.V., Gusarenko A.S., Yusupova N.I. Application of Web Services Based on Situation-oriented Database for Monitoring the Viewing of the Educational Video-content. Modeling, Optimization and Information Technology. 2019;7(3):20. Available at: https://moit.vivt.ru/wp-content/uploads/2019/09/MironovSoavtori_3_19_1.pdf (In Russ) DOI: 10.26102/2310-6018/2019.26.3.031. (accessed 20.01.2020).

Mironov Valeriy Viktorovich
Doctor of Technical Sciences
Email: mironov@ugatu.su


Ufa State Aviation Technical University

Ufa, Russian Federation

Gusarenko Artem Sergeevich
candidate of technical sciences
Email: gusarenko@ugatu.su


Ufa State Aviation Technical University

Ufa, Russian Federation

Tuguzbaev Gayaz Akhtyamovich

Email: tuguzbaev.g@ugatu.su


Ufa State Aviation Technical University

Ufa, Russian Federation

Keywords: personalized documents, situation-oriented database, hierarchical situational model, virtual document, vdx, vsdx, odg

For citation: Mironov V.V. Gusarenko A.S. Tuguzbaev G.A. Situation-oriented databases: the formation of personalized graphic documents for educational design support. Modeling, Optimization and Information Technology. 2020;8(2). Available from: https://moit.vivt.ru/wp-content/uploads/2020/05/MironovSoavtors_2_20_1.pdf DOI: 10.26102/2310-6018/2020.29.2.013 (In Russ).


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