Reproducibility and the Concept of Numerical Solution

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Minds and Machines 29 (1):19-36 (2019)
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Abstract

In this paper, we show that reproducibility is a severe problem that concerns simulation models. The reproducibility problem challenges the concept of numerical solution and hence the conception of what a simulation actually does. We provide an expanded picture of simulation that makes visible those steps of simulation modeling that are numerically relevant, but often escape notice in accounts of simulation. Examining these steps and analyzing a number of pertinent examples, we argue that numerical solutions are importantly different from usual mathematical solutions. They are do not merely approximate the latter, but introduce new problems, including issues of artificiality, stability, and well-posedness. Consequently, simulation modelling can attain reproducibility only to a certain degree because it is working with numerical solutions.

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10.1007/s11023-019-09492-9

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Johannes Lenhard
RPTU, Kaiserslautern

Citations of this work

Numerical instability and dynamical systems.Vincent Ardourel & Julie Jebeile - 2021 - European Journal for Philosophy of Science 11 (2):1-21.

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References found in this work

Sanctioning Models: The Epistemology of Simulation.Eric Winsberg - 1999 - Science in Context 12 (2):275-292.
Simulated experiments: Methodology for a virtual world.Winsberg Eric - 2003 - Philosophy of Science 70 (1):105-125.
Computer Simulations in Science.Eric Winsberg - forthcoming - Stanford Encyclopedia of Philosophy.

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