A deep view-point language and framework for projective modeling

Zachman, 1987, A framework for information systems architecture, IBM Syst. J., 26, 276, 10.1147/sj.263.0276 Lankhorst, 2013, Enterprise architecture at work Linington, 2011 Atkinson, 2015, Fundamental realization strategies for multi-view specification environments, 40, 10.1109/EDOC.2015.17 Atkinson, 2010, Orthographic software modeling: A practical approach to view-based development, 206, 10.1007/978-3-642-14819-4_15 Iacob, 2012 ISO/IEC, 1997 Frank, 2014, Multilevel modeling: Toward a new paradigm of conceptual modeling and information systems design, Bus. Inf. Syst. Eng., 6, 319, 10.1007/s12599-014-0350-4 Atkinson, 2017, A deep view-point language for projective modeling, 133, 10.1109/EDOC.2017.26 IEEE Architecture Working Group, 2000, 1 ISO/IEC/IEEE, 2011, 1 C. Atkinson, C. Tunjic, Towards orthographic viewpoints for enterprise architecture modeling, in: 2014 IEEE 18th International Enterprise Distributed Object Computing Conference Workshops and Demonstrations, EDOCW, 2014, pp. 347–355. Atkinson, 2001, The essence of multilevel metamodeling, 19 Atkinson, 2002, Rearchitecting the UML infrastructure, ACM Trans. Model. Comput. Simul., 12, 290, 10.1145/643120.643123 Kühne, 2006, Matters of (meta-) modeling, Softw. Syst. Model., 5 R. Gerbig, Deep, seamless, multi-format, multi-notation definition and use of domain-specific languages (Ph.D. thesis), URL https://ub-madoc.bib.uni-mannheim.de/42010/. Kennel, 2012 C. Atkinson, R. Gerbig, Melanie: multi-level modeling and ontology engineering environment, in: Proceedings of the 2nd International Master Class on Model-Driven Engineering: Modeling Wizards (Lml), 2012, pp. 5–6. http://dx.doi.org/10.1145/2448076.2448083. Atkinson, 2013, Enhancing classic transformation languages to support multi-level modeling, Softw. Syst. Model., 1 Kramer, 2013, View-centric engineering with synchronized heterogeneous models Atkinson, 2012, Symbiotic general-purpose and domain-specific languages, 1269, 10.1109/ICSE.2012.6227102 C. Atkinson, C. Tunjic, Towards a configuration framework for orthographic-software-modeling environments, in: Proceedings of the 4th Workshop on View-Based, Aspect-Oriented and Orthographic Software Modelling - VAO ’16, 2016. Codd, 1993 Inmon, 1996 U. Frank, Multi-perspective enterprise modeling (MEMO) – conceptual framework and modeling languages, in: Proceedings of the 35 Annual Hawaii International Conference on System Sciences (HICSS), 00, c, pp. 1258–1267. http://dx.doi.org/10.1109/HICSS.2002.993989. OMG, 2011 Foster, 2007, Combinators for bidirectional tree transformations: A linguistic approach to the view-update problem, ACM Trans. Program. Lang. Syst., 29, 10.1145/1232420.1232424 Tunjic, 2015, Synchronization of projective views on a single-underlying-model, 55, 10.1145/2802059.2802066 Diskin, 2011, From state- to delta-based bidirectional model transformations: the asymmetric case, J. Object Technol., 10, 6:1, 10.5381/jot.2011.10.1.a6 Bancilhon, 1981, Update semantics of relational views, ACM Trans. Database Syst., 6, 557, 10.1145/319628.319634 Diskin, 2010, From state-to delta-based bidirectional model transformations, 61, 10.1007/978-3-642-13688-7_5 Davis, 2015 Meier, 2019, Single underlying models for projectional, multi-view environments, 119 Meier, 2018, Model consistency ensured by metamodel integration, 408 Budinsky, 2003, 1 Atkinson, 2013, A prototype implementation of an orthographic software modeling environment, 1 Tunjic, 2018, Supporting the model-driven organization vision through deep, orthographic modeling, Enterprise Modelling and Information Systems Architectures-an International Journal, 13, 1