2662                                 Journal of Software  软件学报 Vol.32, No.9,  September 2021

         [19]    Wohlin C. Guidelines for snowballing in systematic literature studies and a replication in software engineering. In: Proc. of the
             18th Int’l Conf. on Evaluation and Assessment in Software Engineering. New York: ACM, 2014. 1−10.
         [20]    Evans E. Domain-driven Design Reference: Definitions and Pattern Summaries. Dog Ear Publishing, 2014. 15−30.
         [21]    Cohen J. Weightedkappa: Nominalscaleagreementprovision for scaled disagreement or partial credit. Psychological Bulletin, 1968,
             70(4):213.
         [22]    Dybå T, Dingsøyr T. Empirical studies of agile software development: A systematic review. Information and Software Technology,
             2008,50(9-10):833−859.
         [23]    Zhang C, Budgen D. What do we know about the effectiveness of software design patterns? IEEE Trans. on Software Engineering,
             2011,38(5):1213−1231.
         [24]    Cruzes DS,  Dyba  T.  Recommended  steps for the  matic synthesis in software  engineering.  In: Proc. of  the 2011 Int’l Symp. on
             Empirical Software Engineering and Measurement. Banff: IEEE, 2011. 275−284.
         [25]    Roman D, Keller U, Lausen H, DeBruijn J, Lara R, Stollberg M, Polleres A, Feier C, Bussler C, Fensel D. Web service modeling
             ontology. Applied Ontology, 2005,1:77−106.
         [26]    Charmaz K, Belgrave LL. Grounded Theory. The Blackwell Encyclopedia of Sociology, 2007.
         [27]    Osborne JW. Best Practices in Quantitative Methods. Thousand Oaks: SAGE Publications, Inc., 2008. 1−9.
         [28]    Braun V, Clarke V. Using thematic analysis in psychology. Qualitative Research in Psychology, 2006,3(2):77−101.
         [29]    Haywood D. Domain-driven Design using Naked Objects. Pragmatic Bookshelf, 2009.
         [30]    Hippchen B, Giessler P, Steinegger R, Schneider M, Abeck S. Designing microservice-based applications by using a domain-driven
             design approach. Int’l Journal on Advances in Software, 2017,10(3&4):432−445.
         [31]    Bruegge B, Dutoit AH. Object-oriented Software Engineering using UML, patterns, and Java. Learning, 2009,5(6):7.
         [32]    Zandin M. Domain-driven design and microservices. InfoQ, 2016. https://www.infoq.com/news/2016/04/ddd-microservices-evans.
         [33]    Easterbrook S, Singer J, Storey MA, Damian D. Selecting empirical methods for software engineering research. In: Proc. of the
             Guide to Advanced Empirical Software Engineering. London: Springer-Verlag, 2008. 285−311.
         [34]    Vural H, Koyuncu M, Misra S. A case study on measuring the size of microservices. In: Proc. of the Int’l Conf. on Computational
             Science and Its Applications. Cham: Springer-Verlag, 2018. 454−463.
         [35]    Lotz G, Peters T, Zrenner E, Wilke R. A domain model of a clinical reading center-design and implementation. In: Proc. of the
             2010 Annual Int’l Conf. of the IEEE Engineering in Medicine and Biology. Buenos Aires: IEEE, 2010. 4530−4533.
         [36]    Santos ECS, Beder DM, Penteado RAD. A Study of test techniques for integration with domain driven design. In: Proc. of the 2015
             12th Int’l Conf. on Information Technology—New Generations. Las Vegas: IEEE, 2015. 373−378.
         [37]    Landre E, Wesenberg H, Olmheim J. Agile enterprise software development using domain-driven design and test first. In: Proc. of
             the Companion to the 22nd ACM SIGPLAN Conf. on Object-oriented Programming Systems and Applications Companion. New
             York: ACM, 2007. 983−993.
         [38]    Salahat M, Wade S. Pedagogical evaluation of a systemic soft domain-driven design framework. In: Proc. of the UKAIS Int’l Conf.
             on Information Systems. 2012. 48.
         [39]    Danenas P, Garsva G. Domain driven development and feature driven development for development of decision support systems. In:
             Proc. of the Int’l Conf. on Information and Software Technologies. Berlin: Springer-Verlag, 2012. 187−198.
         [40]    Schneider M, Hippchen B, Abeck S, Jacoby M, Herzog R. Enabling IoT platform interoperability using a systematic development
             approach by example. In: Proc. of the 2018 Global Internet of Things Summit. Bilbao: IEEE, 2018. 1−6.
         [41]    Munezero IJ, Mukasa DT, Kanagwa B, Kanagwa, Balikuddembe J. Partitioning microservices: A domain engineering approach. In:
             Proc. of the 2018 IEEE/ACM Symp. on Software Engineering in Africa. Gothenburg: IEEE, 2018. 43−49.
         [42]    Uludağ Ö, Hauder M, Kleehaus M, Schimpfle C, Matthes F. Supporting large-scale agile development with domain-driven design.
             In: Proc. of the Int’l Conf. on Agile Software Development. Cham: Springer-Verlag, 2018. 232−247.
         [43]    Bruyn P D , Huysmans P , Mannaert H . Tailoring an Analysis Approach for Developing Evolvable Software Systems: Experiences
             from Three Case Studies. In: Proc. Of the 18th IEEE Conference on Business Informatics. Paris: IEEE, 2016. 208−217.
         [44]    Rademacher F, Sachweh S, Zündorf A. Towards a UML profile for domain-driven design of microservice architectures. In: Proc. of
             the Int’l Conf. on Software Engineering and Formal Methods. Cham: Springer-Verlag, 2017. 230−245.