Simulation and the Philosophy of Science: Computationally Intensive Studies of Complex Physical Systems

Dissertation, Indiana University (1999)
  Copy   BIBTEX

Abstract

In its reconstruction of scientific practice, philosophy of science has traditionally placed scientific theories in a central role, and has reduced the problem of mediating between theories and the world to formal considerations. Many applications of scientific theories, however, involve complex mathematical models whose constitutive equations are analytically unsolvable. The study of these applications often consists in developing representations of the underlying physics on a computer, and using the techniques of computer simulation in order to learn about the behavior of these systems. In many instances, these computer simulations are not simple number-crunching techniques. They involve a complex chain of inferences that serve to transform theoretical structures into specific concrete knowledge of physical systems. At the heart of this chain of inferences is the process of building what I call a hierarchy of models. This hierarchy includes a mechanical model, a dynamical model, ad hoc models , a computational model, and finally, a model of the phenomena. ;I argue that this process of transformation is also a process of knowledge creation, and that it has its own epistemology. It is an epistemology that has been ignored by most philosophy of science, which has traditionally concerned itself with the justification of theories, not with their application. I also argue that the complex and motley nature of this epistemology suggests that the end results of simulations often do not bear a simple, straightforward relation to the theories from which they derive. Accordingly, I urge philosophers of science to examine more carefully the process of 'theory articulation.' Theory articulation is a relatively neglected aspect of scientific practice, but it plays a role that is often as crucial, as complex, and as creative as experiment. Finally, I examine in detail the last model in the hierarchy, the model of the phenomena. I argue that these models provide understanding of the systems they model. The character of the understanding they provide, however, is not well accounted for in the philosophical literature on scientific explanation

Categories

Keywords

Reprint years

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 91,386

External links

  • This entry has no external links. Add one.
Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

Simulations, models, and theories: Complex physical systems and their representations.Eric Winsberg - 2001 - Proceedings of the Philosophy of Science Association 2001 (3):S442-.
Scientific Theories of Computational Systems in Model Checking.Nicola Angius & Guglielmo Tamburrini - 2011 - Minds and Machines 21 (2):323-336.
Models and Simulations in the Historical Emergence of the Science of Complexity.Franck Varenne - 2009 - In Ma Aziz-Alaoui & C. Bertelle (eds.), From System Complexity to Emergent Properties. Springer. pp. 3--21.
Model‐Based Reasoning in Distributed Cognitive Systems.Nancy J. Nersessian - 2006 - Philosophy of Science 73 (5):699-709.
Computer Modeling in Climate Science: Experiment, Explanation, Pluralism.Wendy S. Parker - 2003 - Dissertation, University of Pittsburgh
Between Rigor and Reality: Many-Body Models in Condensed Matter Physics.Axel Gelfert - 2015 - In Brigitte Falkenburg & Margaret Morrison (eds.), Why More Is Different: Philosophical Issues in Condensed Matter Physics and Complex Systems. Springer. pp. 201-226.
A practical philosophy of complex climate modelling.Gavin A. Schmidt & Steven Sherwood - 2015 - European Journal for Philosophy of Science 5 (2):149-169.
Testing Scientific Theories Through Validating Computer Models.Michael L. Cohen - 2000 - Dissertation, University of Maryland, College Park
Ontologias para a Modelagem Multiagente de Sistemas Complexos em Ciências Cognitivas.Leonardo Lana de Carvalho, Franck Varenne & Elayne de Moura Bragra - 2014 - Ciências and Cognição 19 (1):58-75.
Agent-Based Models and Simulations in Economics and Social Sciences: from conceptual exploration to distinct ways of experimenting.Denis Phan & Franck Varenne - 2010 - Journal of Artificial Societies and Social Simulation 13 (1).
Bootstrapping knowledge about social phenomena using simulation models.Bruce Edmonds - unknown
Biogeochemical Models in the Environmental Sciences. The Dynamical System Paradigm and the Role of Simulation Modeling.Daniel Haag & Martin Kaupenjohann - 2000 - Hyle 6 (2):117 - 142.
Inverse ontomimetic simulation: A window on complex systems.Claes Andersson - unknown
Layers of Models in Computer Simulations.Thomas Boyer-Kassem - 2014 - International Studies in the Philosophy of Science 28 (4):417-436.
Worldviews, Science and Us.DT Shipworth - unknown

Analytics

Added to PP
2015-02-04

Downloads
1 (#1,889,095)

6 months
1 (#1,516,429)

Historical graph of downloads

Sorry, there are not enough data points to plot this chart.
How can I increase my downloads?

Author's Profile

Eric Winsberg
University of South Florida

Citations of this work

Simulated experiments: Methodology for a virtual world.Winsberg Eric - 2003 - Philosophy of Science 70 (1):105-125.
Franklin, Holmes, and the epistemology of computer simulation.Wendy S. Parker - 2008 - International Studies in the Philosophy of Science 22 (2):165 – 183.
Simulaciones computacionales: un análisis de dos concepciones antagónicas.Juan Manuel Duran - 2017 - Principia: An International Journal of Epistemology (April):125-140.

Add more citations

References found in this work

No references found.

Add more references