Abstract
The paper presents a way of achieving the necessary architectural understanding in conceptual solving of the project tasks in designing the software intensive systems (SISs). This way should be implemented in the context of automated design thinking, and it is based on discovering of the part-whole relations, their registering in the project ontology and reflecting the initial statement of the perceived task into its graphical architectural description. The suggested way is implemented by designers in the instrumental environment WIQA (Working In Questions and Answers) supporting the conceptual designing of the SISs. Discovering and registering the indicated type of relations are functions that are embedded in the toolkit WIQA, the graphical subsystem of which provides building the architectural prototypes.
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References
Reports of Standish Group (2017). www.standishgroup.com/outline
Clarke, P., O’Connor, R.V.: The situational factors that affect the software development process: towards a comprehensive reference framework. J. Inf. Softw. Technol. 54(5), 433–447 (2012)
Häger, F., Kowark T., Krüger, J., Vetterli Ch., Übernickel, F., Uflacker, M.: DT@Scrum: integrating design thinking with software development processes. In: Design Thinking. Understanding Innovation, pp. 263–289 (2014)
Sosnin, P.: Experience-Based Human-Computer Interactions: Emerging Research and Opportunities. IGI-Global, Hershey (2017)
Young, R.M.: Mental Space. Process Press (1994)
Heape, C.: The design space: the design process as the construction, exploration and expansion of a conceptual space. Ph.D. diss. The University of Southern Denmark, Sønderborg, Denmark (2007)
Dorst, K.: The nature of design thinking. In: DTRS8 Interpreting Design Thinking, Proceeding of Design Thinking Research Symposium, pp. 131–139 (2010)
Charmaz, K.: Constructing Grounded Theory, 2nd edn. Sage, London (2014)
Gärdenfors, P.: Semantics based on conceptual spaces. In: Banerjee, M., Seth, A. (eds.) Logic and Its Applications. LNCS (LNAI), vol. 6521, pp. 1–11. Springer, Heidelberg (2011)
Dove, G., Hansen, N.B., Halskov, K.: An argument for design space reflection. In: Proceedings of the 9th Nordic Conference on Human-Computer Interaction (2016)
Introduction to Design Thinking (2017). https://experience.sap.com/skillup/introduction-to-design-thinking/
Krysin, L.P.: Slovo v sovremennykh tekstakh i slovaryakh. Dostupno po adresu (2017). https://www.e-reading.club/chapter.php/137738/39/Krysin_-_Slovo_v_sovremennyh_tekstah_i_slovaryah.html
Rakhilina, Ye.V.: Kognitivnyy analiz predmetnykh imen: semantika i sochetayemost’. Russkiye slovari, 416 (2008). http://rakhilina.ru/files/01_Rah_single.pdf
Girju, R., Badulescu, A., Moldovan, D.: Automatic Discovery of Part-Whole Relations. http://www.hlt.utdallas.edu/~adriana/Publications/PartWhole_CL2006.pdf
Acknowledgments
This work was supported by the Russian Fund for Basic Research (RFBR), Grants #18- 07-00989a, #18-47-730016p-a, #18-47-732012 p_мк and the State Contract №2.1534.2017/4.6.
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Sosnin, P., Kulikova, A. (2019). Discovering of Part-Whole Relations Used in Architectural Prototyping of Project Tasks. In: Abraham, A., Kovalev, S., Tarassov, V., Snasel, V., Sukhanov, A. (eds) Proceedings of the Third International Scientific Conference “Intelligent Information Technologies for Industry” (IITI’18). IITI'18 2018. Advances in Intelligent Systems and Computing, vol 874. Springer, Cham. https://doi.org/10.1007/978-3-030-01818-4_16
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