Cognitive Maps as a Tool of Estimating Software Quality Based on Standard Requirements

The article shows the use of cognitive maps to estimate and upgrade software quality according to standard GOST R ISO/MEK 25010 – 2015. Expediency of using cognitive map for visualization and formal analysis of interaction between quality characteristics was substantiated and the role of hierarchy analysis method (MAI) in expert appraisal aggregation was shown. The goal of raising software quality was formulated in order to maintain functional suitability at the rate of 0.9 and detail calculations were provided both in static and dynamic model of cognitive map with regard to controlled factors, such as team skills and architecture complexity. At the same time results of using MAI was discussed to identify weight figures, which could help evaluate each factor in the final level of quality. The analysis was verified by current research in the field of cognitive modeling and quality management.

1. Gordienko V. V., Lisitsin A. L. Tekhnicheskie i organizatsionnye metody borby s vnutrennimi ugrozami utechki informatsii organizatsiy i predpriyatiy [Technical and Organizational Methods of Struggling with Internal Threats of Information Leakage in Organizations and Enterprises]. AUDITORIUM, 2019, No. 4 (24), pp. 69–76. (In Russ.).

2. Zakharova A. A. Nechetkie kognitivnye modeli v upravlenii slabostrukturirovannymi sotsialno-ekonomicheskimi sistemami [Fuzzy Cognitive Models in Managing Semi-Structured Social and Economic Systems]. Informatsionnye modeli i tekhnologii [Information Models and Technologies], 2019, Vol. 21, No. 3, pp. 45–56. (In Russ.).

3. Mikryukov A. A. Aktualnye zadachi tsifrovoy transformatsii ekonomiki RF [Acute Goals of Digital Economy Transformation in RF]. Innovatsii i investitsii [Innovation and Investment], 2018, No. 4, pp. 65–68. (In Russ.).

4. Mikryukov A. A. Kognitivnye tekhnologii v sistemakh podderzhki prinyatiya resheniy v tsifrovoy ekonomike [Cognitive Technologies in Systems of Decision-Making Support in Digital Economy]. Innovatsii i investitsii [Innovation and Investment], 2018, No. 6, pp. 127–131. (In Russ.).

5. Mikryukov A. A., Mazurov M. E. Kognitivnaya model stsenarnogo prognozirovaniya osnovnykh vektorov internatsionalizatsii deyatelnosti universiteta [Cognitive Model of Scenario Forecasting of Key Vectors in University Work Internationalization]. Neyroinformatika2020: sbornik nauchnykh trudov. XXII Mezhdunarodnaya nauchno-tekhnicheskaya konferentsiya [Neuro-Information Science-2020: collection of academic works. The 22nd International Conference]. Moscow, 2020, pp. 232–241. (In Russ.).

6. Permyakova N. V., Ekhlakov Yu. P. Nechetkaya model otsenki reytinga riskoobrazuyushchikh faktorov programmnogo proekta [Fuzzy Model of Rating Estimation of Risk-Causing Factors in Program Project]. Aktualnye problemy elektronnogo priborostroeniya (APEP-2016): materialy XIII Mezhdunarodnoy nauchno-tekhnicheskoy konferentsii, 3–6 oktyabrya 2016 g. [Acute Problems of E-Machine-Building (APEP-2016): materials of the 13th International Conference, 3–6 October, 2016]. Novosibirsk, Publishing house of the Tomsk State University of Management Systems and radio-Electronics, 2016, Vol. 8, pp. 67–71. (In Russ.).

7. Permyakova N. V., Usacheva P. I., Renner V. O. Kognitivnoe modelirovanie v upravlenii riskami programmnykh proektov [Cognitive Modeling in Risk Management of Program Projects]. Elektronnye sredstva i sistemy upravleniya: materialy XII Mezhdunarodnoy nauchnoprakticheskoy konferentsii, 16–18 noyabrya 2016 g. [E-Means and Systems of Management: materials of the 12th International Conference, 16–18 November, 2016]. Tomsk, Publishing house of the Tomsk State University of Management Systems and radio-Electronics, 2016, pp. 108–110. (In Russ.).

8. Ryabinin I. R., Solovev A. V., Kuznetsov A. V. Nechetkie kognitivnye karty v analize nadezhnosti sistem [Fuzzy Cognitive Maps in Analyzing System Reliability]. Nadezhnost [Reliability], 2018, No. 2, pp. 22–29. (In Russ.).