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A methodology for developing simulation models of complex systems

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  • Aumann, Craig A.

Abstract

While the complexity of ecological simulation models has increased along with advances in computer hardware, recent reviews have concluded that such complex models have generally not fulfilled their potential for advancing ecological understanding. This state of affairs is partially the result of little attention being given to methodological issues for developing simulation models. This paper presents one methodology for developing models of complex systems. The first part of this methodology places the modeling process in the context of general research planning and thus emphasizes the process of synthesis—combining the constituent pieces of knowledge into a unified description of the entities and processes comprising the system to be modeled. The second methodological step involves operationalizing this synthetic description into a composition of smaller models specified over three scalar hierarchical levels. The hierarchical structure of the decomposition also structures the explanations given about system behaviors in that the “mechanism” for a behavior arises at the lower levels while its “purpose” is found at higher levels. The third part of the methodology involves using model assessment to explicitly establish the veracity of the links between the implemented model, the model design specification, and the synthesis. The veracity of these links are established by demonstrating: (i) that the model has been built correctly relative to the model design (verification), (ii) that the right model has been built as judged by the behaviors of the model components across the hierarchical levels (validation), and (iii) that the assessment criteria used are credible for judging model adequacy for the stated modeling objectives (critique). By creating confidence in the mapping between the model implementation and synthesis, the assessment process enables confidence in the explanations given for model behaviors and the theoretical understanding expressed in the synthesis. Alternatively, the failure of the model to satisfy assessment criteria may necessitate a reformulation of the understanding on which the model is based. Regardless of which possibility occurs, because the reasons for model behaviors can be mapped back to the synthesis, ecological understanding is advanced.

Suggested Citation

  • Aumann, Craig A., 2007. "A methodology for developing simulation models of complex systems," Ecological Modelling, Elsevier, vol. 202(3), pages 385-396.
    • Handle: RePEc:eee:ecomod:v:202:y:2007:i:3:p:385-396
    DOI: 10.1016/j.ecolmodel.2006.11.005
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    1. Kleijnen, Jack P. C., 1995. "Verification and validation of simulation models," European Journal of Operational Research, Elsevier, vol. 82(1), pages 145-162, April.
    2. Cartwright,Nancy, 1999. "The Dappled World," Cambridge Books, Cambridge University Press, number 9780521643368.
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    6. Ginzburg, Lev R. & Jensen, Christopher X.J. & Yule, Jeffrey V., 2007. "Aiming the “unreasonable effectiveness of mathematics” at ecological theory," Ecological Modelling, Elsevier, vol. 207(2), pages 356-362.
    7. Luedeling, Eike & Smethurst, Philip J. & Baudron, Frédéric & Bayala, Jules & Huth, Neil I. & van Noordwijk, Meine & Ong, Chin K. & Mulia, Rachmat & Lusiana, Betha & Muthuri, Catherine & Sinclair, Ferg, 2016. "Field-scale modeling of tree–crop interactions: Challenges and development needs," Agricultural Systems, Elsevier, vol. 142(C), pages 51-69.
    8. Augusiak, Jacqueline & Van den Brink, Paul J. & Grimm, Volker, 2014. "Merging validation and evaluation of ecological models to ‘evaludation’: A review of terminology and a practical approach," Ecological Modelling, Elsevier, vol. 280(C), pages 117-128.
    9. Lorena Cadavid & Luisa Díez-Echavarría & Alejandro Valencia, 2017. "Spin-Off Activities At Higher Educational Institutions: Performance Implications From A Modeling Perspective," Journal of Developmental Entrepreneurship (JDE), World Scientific Publishing Co. Pte. Ltd., vol. 22(02), pages 1-21, June.
    10. Bartsev, Sergey I. & Degermendzhi, Andrey G. & Erokhin, Dmitry V., 2008. "Principle of the worst scenario in the modelling past and future of biosphere dynamics," Ecological Modelling, Elsevier, vol. 216(2), pages 160-171.
    11. Troost, Christian & Huber, Robert & Bell, Andrew R. & van Delden, Hedwig & Filatova, Tatiana & Le, Quang Bao & Lippe, Melvin & Niamir, Leila & Polhill, J. Gareth & Sun, Zhanli & Berger, Thomas, 2023. "How to keep it adequate: A protocol for ensuring validity in agent-based simulation," EconStor Open Access Articles and Book Chapters, ZBW - Leibniz Information Centre for Economics, vol. 159, pages 1-21.
    12. Santos, Mário & Bastos, Rita & Cabral, João Alexandre, 2013. "Converting conventional ecological datasets in dynamic and dynamic spatially explicit simulations: Current advances and future applications of the Stochastic Dynamic Methodology (StDM)," Ecological Modelling, Elsevier, vol. 258(C), pages 91-100.
    13. Ives, M.C. & Scandol, J.P. & Greenville, J., 2013. "A bio-economic management strategy evaluation for a multi-species, multi-fleet fishery facing a world of uncertainty," Ecological Modelling, Elsevier, vol. 256(C), pages 69-84.
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