ISSN 0021-3454 (print version)
ISSN 2500-0381 (online version)
Menu

8
Issue
vol 63 / August, 2020
Article

DOI 10.17586/0021-3454-2018-61-11-972-977

UDC 004.514

MODEL-ORIENTED APPROACH TO DESIGNING USER INTERFACES FOR INTELLIGENT SYSTEMS

A. E. Zyanchurin
St. Petersburg Institute for Informatics and Automation of the RAS, Laboratory of Information Technologies in Systems Analysis and Modeling; Post-Graduate Student


Read the full article 

Abstract. A model-oriented approach to the design of user interfaces for expert systems is proposed. Several provisions are given to substantiate the necessity of using declarative-procedural languages to describe user interfaces using a model-oriented approach to system design. A conceptual model of user interface for expert system is developed to describe the basic properties and components of the interface. A concept of dynamic reconfiguration of the user interface for the state of the computing process is presented. The proposed approach is considered as an initial step in formation of a new methodology for designing user interfaces using languages with visual notation
Keywords: expert systems, adaptive user interface, knowledge representation languages, cognitive image, model-oriented approach

References:
  1. Okhtilev M.Yu. Osnovy teorii avtomatizirovannogo analiza izmeritel’noy informatsii v real’nom vremeni. Sintez sistemy analiza (Fundamentals of the Theory of Automated Analysis of Measurement Information in Real Time. Synthesis of Analysis System), St. Petersburg, 1999, 161 р. (in Russ.)
  2. Pospelov D.A., ed., Iskusstvennyy intellekt: Spravochnik. Kn. 2. Modeli i metody (Artificial Intelligence: Reference book. Book 2. Models and Methods), Moscow, 1990, 304 р. (in Russ.)
  3. Narin’yani A.S. Information Technologies (Informacionnye Tehnologii), 1997, рр. 17–22. (in Russ.)
  4. Tyugu E.Kh. Kontseptual’noye programmirovaniye (Conceptual Programming), Moscow, 1984, 256 р. (in Russ.)
  5. Peregudov F.I., Tarasenko F.P. Osnovy sistemnogo analiza (Basics of System Analysis), Tomsk, 1997, 396 р. ISBN 5-89503-004-1 (in Russ.).
  6. Schriber T.J. Simulation Using GPSS, NY, Wiley,1974.
  7. Boyev V.D. Modelirovaniye sistem. Instrumental’nyye sredstva GPSS (World Systems Modeling. GPSS World Tools), St. Petersburg, 2004, 368 р. (in Russ.)
  8. IEEE Std 1076-2008 IEEE Standard VHDL Language Reference Manual Approved: 26 September 2008 IEEE SA-Standards Board.
  9. Borgest N.M. Ontologiya proyektirovaniya: teoreticheskiye osnovy. Chast’ 1. Ponyatiya i printsipy (Design ontology: Theoretical Bases. Part 1. Concepts and Principles), Samara, 2010, 92 р. (in Russ.)
  10. Shil’nikov P.S. Predstavleniye dannykh KIP (Presentation of TRC data), Moscow, 2005, 150 р. (in Russ.)
  11. Norenkov I.P. Osnovy avtomatizirovannogo proyektirovaniya (Bases of the Automated Design), Moscow, 2002, 336 р. ISBN 5-7038-2090-1 (in Russ.)
  12. Cooper A., Reimann R., and Cronin D. About Face 3: The Essentials of Interaction Design, Wiley Publishing, 2007, 688 р.
  13. Malyshev A.V., Gorodetskiy V.I., Karsayev O.V., Samoylov V.V., Tikhomirov V.V., Man’kov E.V. Trudy SPIIRAN (SPIIRAS Proceedings), 2006, no. 3(1).
  14. Gorodetskiy V.I., Troitskiy D.V. Trudy SPIIRAN (SPIIRAS Proceedings), 2009, no. 8, pp. 93–127. (in Russ.)