Modeling complexity: cognitive constraints and computational model-building in integrative systems biology

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History and Philosophy of the Life Sciences 40 (1):17 (2018)
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Abstract

Modern integrative systems biology defines itself by the complexity of the problems it takes on through computational modeling and simulation. However in integrative systems biology computers do not solve problems alone. Problem solving depends as ever on human cognitive resources. Current philosophical accounts hint at their importance, but it remains to be understood what roles human cognition plays in computational modeling. In this paper we focus on practices through which modelers in systems biology use computational simulation and other tools to handle the cognitive complexity of their modeling problems so as to be able to make significant contributions to understanding, intervening in, and controlling complex biological systems. We thus show how cognition, especially processes of simulative mental modeling, is implicated centrally in processes of model-building. At the same time we suggest how the representational choices of what to model in systems biology are limited or constrained as a result. Such constraints help us both understand and rationalize the restricted form that problem solving takes in the field and why its results do not always measure up to expectations.

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10.1007/s40656-017-0183-9

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Author Profiles

Miles MacLeod
University of Twente
Nancy Nersessian
Georgia Institute of Technology

Citations of this work

Mesoscopic modeling as a cognitive strategy for handling complex biological systems.Miles MacLeod & Nancy J. Nersessian - 2019 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 78:101201.

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References found in this work

Science in the age of computer simulation.Eric B. Winsberg - 2010 - Chicago: University of Chicago Press.

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