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Cogent Engineering Volume 5, 2018 - Issue 1
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Research Article

Usability evaluation of the domain specific language for spatial simulation scenarios

Luís Moreira de Sousa ISRIC - World Soil Information , Droevendaalsesteeg 3, Building 101, 6708 PBWageningen, The Netherlands.Correspondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-5851-2071View further author information
ORCID Icon &
Alberto Rodrigues da Silva INESC-ID, Instituto Superior Técnico, Universidade de Lisboa , Rua Alves Redol, 9 1000-029Lisboa, Portugal.View further author information
|
Stefania Tomasiello CORISA, University of Salerno , ItalyView further author information
(Reviewing Editor)
Article: 1436889 | Received 17 Nov 2017, Accepted 29 Jan 2018, Published online: 15 Feb 2018

References

  • Berryman, M. (2008). Review of software platforms for agent based models . Science And Technology.
  • Challenger, M. , Kardas, G. , & Tekinerdogan, B. (2015). A systematic approach to evaluating domain-specific modeling language environments for multi-agent systems. Software Quality Journal , 1–41.
  • Cowles, M. , & Davis, C. (1982). On the Origins of the.05 Level of Statistical Significance. American Psycologist , 37 (5), 553–558.
  • de Sousa, L. M. , & Silva, A. R. (2011). Review of spatial simulation tools for geographic information systems. In Proceedings of the Third International Conference on Advances in System Simulation (SIMUL 2011) . ThinkMind.
  • de Sousa, L.M. , & Silva, A.R. (2015). Showcasing a domain specific language for spatial simulation scenarios with case studies. In Proceedings of the LV European Regional Science Association Congress - ERSA .
  • de Sousa, L. M. , & Silva, A. R. (2016). A Domain Specific Language for Spatial Simulation Scenarios. GeoInformatica , 20 (1), 117–149.
  • Degenne, P. , Lo Seen, D. , Parigot, D. , Forax, R. , Tran, A. , Ait Lahcen, A. , Curé, O. , & Jeansoulin, R. (2009). Design of a Domain Specific Language for modelling processes in landscapes. Ecological Modelling , 220 , 3527–3535.
  • Ermentrout, G. B. , & Edelstein-Keshet, L. (1993). Cellular Automata Approaches to Biological Modeling. Journal of Theoretical Biology , 160 , 97–133.
  • Ewais, A. , & De Troyer, O. (2014). A Usability Evaluation of Graphical Modelling Languages for Authoring Adaptive 3D Virtual Learning Environments. In CSEDU , 1 , 459–466.
  • Franklin, S. , & Grasser, A. (1997). Is it an agent or just a program? A taxonomy for autonomous agents. In Intelligent Agents III: Agent Theories, Architectures, and Languges (pp. 21–35). Berlin: Springer-Verlag.
  • Grignard, A. , Taillandier, P. , Gaudou, B. , Vo, D. , Huynh, N. Q. , & Drogoul, A. (2013). GAMA 1.6: Advancing the art of complex agent-based modeling and simulation. G. Boella , E. Elkind , B. T. R. Savarimuthu , & F. Dignum (Eds.), In PRIMA 2013: Principles and Practice of Multi-Agent Systems ( Vol. 8291 of Lecture Notes in Computer Science, pp. 117–131). Berlin Heidelberg: Springer. doi: 10.1007/978-3-642-44927-7\_9
  • Heumann, C. , Schomaker, M. , & et al. (2016). Introduction to statistics and data analysis: With exercises, solutions and applications. In R. Chap (Ed.), Association of two variables (pp. 67–96). Springer.
  • Luke, S. , Cioffi-Revilla, C. , Panait, L. , Sullivan, K. , & Balan, G. (2005). “MASON: A Multi-Agent Simulation Environment.” Simulation: Transactions of the society for Modeling and Simulation. International , 82 (7), 517–527.
  • Mohagheghi, P. , Gilani, W. , Stefanescu, A. , Fernandez, M. , Nordmoen, B. , & Fritzsche, M. (2013). Where does model-driven engineering help? Experiences from three industrial cases. Software & Systems Modeling , 12 (3), 619–639.
  • Morais, F. , & Silva, A. R. (2015). Assessing the quality of user-interface modeling languages. In Proceedings of ICEIS’2015 Conference . SCITEPRESS.
  • Railsback, S. F. , Steven, L. L. , & Jackson, J. K. (2006). Agent-based simulation platforms: Review and development recommendations. Simulation , 82 (9), 609–623.
  • Sauro, J. , & Dumas, J. S. (2009). Comparison of three one-question, post-task usability questionnaires. In Proceedings of the SIGCHI Conference on Human Factors in Computing Systems, CHI ’09 (pp. 1599–1608). New York, NY: ACM. doi:10.1145/1518701.1518946
  • Selic, B. (2003). The pragmatics of model-driven development. IEEE Software , 20 (5), 19–25.
  • Selic, B. (2008). Personal reflections on automation, programming culture, and model-based software engineering. Automated Software Engineering , 15 (3–4), 379–391.
  • Silva, A. R. (2015). Model-driven engineering: A survey supported by a unified conceptual model . Computer Languages, Systems & Structures. Retrieved from http://www.sciencedirect.com/science/article/pii/S1477842415000408
  • Wilson, S. W. (1991). The animat path to AI. In J. A. Meyer & S. Wilson (Eds.), From animals to animats (pp. 15–21). Cambridge, MA: MIT Press.

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