Hostname: page-component-586b7cd67f-t7czq Total loading time: 0 Render date: 2024-11-22T05:27:34.182Z Has data issue: false hasContentIssue false

A Theory of Epistemic Risk

Published online by Cambridge University Press:  01 January 2022

Abstract

I propose a general alethic theory of epistemic risk according to which the riskiness of an agent’s credence function encodes her relative sensitivity to different types of graded error. After motivating and mathematically developing this approach, I show that the epistemic risk function is a scaled reflection of expected inaccuracy (a quantity also known as generalized information entropy). This duality between risk and information enables us to explore the relationship between attitudes to epistemic risk, the choice of scoring rules in epistemic utility theory, and the selection of priors in Bayesian epistemology more generally (including the Laplacean principle of indifference).

Type
Articles
Copyright
Copyright © The Philosophy of Science Association

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

*

To contact the author, please write to: California Institute of Technology, MC 101-40, 1200 E. California Blvd., Pasadena, CA 91125; e-mail: [email protected].

I would like to thank Jim Joyce for his invaluable support and guidance in developing this project. I have also received helpful feedback from Sara Aronowitz, Gordon Belot, Daniel Drucker, Frederick Eberhardt, Dmitri Gallow, Rich Gonzalez, Hilary Greaves, Christopher Hitchcock, Simon Huttegger, Sarah Moss, Matt Parker, Richard Pettigrew, Peter Railton, Julia Staffel, Anubav Vasudevan, Brian Weatherson, and audiences at the University of Michigan, University of Chicago, London School of Economics, and California Institute of Technology. Special thanks are also due to two anonymous reviewers from Philosophy of Science for their very helpful comments and feedback. Research for this project was supported by the Social Sciences and Humanities Research Council of Canada.

References

Arrow, K. J. 1965. Aspects of the Theory of Risk Bearing. Helsinki: Yrjõ Jahnsson Sããtiõ.Google Scholar
Arrow, K. J.. 1971. Essays in the Theory of Risk Bearing. Chicago: Markham.Google Scholar
Buchak, L. 2010. “Instrumental Rationality, Epistemic Rationality, and Evidence Gathering.” Philosophical Perspectives 24 (1): 85120..CrossRefGoogle Scholar
Buchak, L.. 2013. Risk and Rationality. Oxford: Oxford University Press.CrossRefGoogle Scholar
Fallis, D. 2007. “Attitudes toward Epistemic Risk and the Value of Experiments.” Studia Logica 86 (2): 215–46..CrossRefGoogle Scholar
Gibbard, A. 2008. Rational Credence and the Value of Truth. Oxford Studies in Epistemology 2. Oxford: Oxford University Press.Google Scholar
Goldman, A. I. 1999. Knowledge in a Social World. Oxford: Clarendon.CrossRefGoogle Scholar
Goldman, A. I.. 2002. Pathways to Knowledge: Private and Public. Oxford: Oxford University Press.CrossRefGoogle Scholar
Greaves, H., and Wallace, D.. 2006. “Justifying Conditionalization: Conditionalization Maximizes Expected Epistemic Utility.” Mind 115 (459): 607–32..CrossRefGoogle Scholar
Grunwald, P., and Dawid, A.. 2004. “Game Theory, Maximum Entropy, Minimum Discrepancy and Robust Bayesian Decision Theory.” Annals of Statistics 32 (4): 1367–433..CrossRefGoogle Scholar
Horowitz, S. 2018. “Epistemic Utility and the ‘Jamesian Goals.’” In Epistemic Consequentialism, ed. Ahlstrom-Vij, H. and Dunn, J.. Oxford: Oxford University Press.Google Scholar
James, W. 1896. “The Will to Believe.” New World 5 (June): 327–47.Google Scholar
Jaynes, E. T. 1957. “Information Theory and Statistical Mechanics.” Pts. 1 and 2. Physical Review 106 (4): 620–30.; 108 (2): 171-90..CrossRefGoogle Scholar
Jaynes, E. T.. 1963/1983. “Brandeis Summer Institute Lectures in Theoretical Physics.” In Papers on Probability, Statistics and Statistical Physics, ed. Rosenkrantz, R.. Dordrecht: Reidel.Google Scholar
Jaynes, E. T.. 2003. Probability Theory: The Logic of Science. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Jefferson, T. 1785/1832. Notes on the State of Virginia. Boston: Lilly & Wait.Google Scholar
Joyce, J. M. 1998. “A Nonpragmatic Vindication of Probabilism.” Philosophy of Science 65 (4): 575603..CrossRefGoogle Scholar
Joyce, J. M.. 2009. “Accuracy and Coherence: Prospects for an Alethic Epistemology of Partial Belief.” In Degrees of Belief, ed. Huber, F. and Shmidt-Petri, C.. Dordrecht: Springer.Google Scholar
Joyce, J. M.. 2015. “Prior Probabilities as Expressions of Epistemic Values.” Unpublished manuscript, University of Michigan, Ann Arbor.Google Scholar
Leitgeb, H., and Pettigrew, R.. 2010. “An Objective Justification of Bayesianism.” Pt. 1, “Measuring Inaccuracy,” and pt. 2, “The Consequences of Minimizing Inaccuracy.” Philosophy of Science 77 (2): 201–35., 236–72.Google Scholar
Levi, I. 1962. “On the Seriousness of Mistakes.” Philosophy of Science 29 (1): 4765..CrossRefGoogle Scholar
Levi, I.. 1974. Gambling with Truth. Cambridge, MA: MIT Press.Google Scholar
Levinstein, B. 2017. “Permissive Rationality and Sensitivity.” Philosophy and Phenomenological Research 94 (2): 342–70..CrossRefGoogle Scholar
Maher, P. 1990. “Why Scientists Gather Evidence.” British Journal for the Philosophy of Science 41 (1): 103–19..CrossRefGoogle Scholar
Maher, P.. 1993. Betting on Theories. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Peirce, C. S. 1879/1967. “Note on the Theory of the Economy of Research.” Technical report, US Coast Survey, US Government Publishing Office. Repr. in Operations Research 15 (4): 643–48..Google Scholar
Pettigrew, R. 2016a. “Accuracy, Risk, and the Principle of Indifference.” Philosophy and Phenomenological Research 92 (1): 3559..CrossRefGoogle Scholar
Pettigrew, R.. 2016b. “Jamesian Epistemology Formalised: An Explication of ‘The Will to Believe.’Episteme 13 (3): 253–68..CrossRefGoogle Scholar
Pratt, J. W. 1964. “Risk Aversion in the Small and in the Large.” Econometrica 32 (1/2): 122–36.CrossRefGoogle Scholar
Pritchard, D. 2007. “Anti-luck Epistemology.” Synthese 158 (3): 277–97..CrossRefGoogle Scholar
Pritchard, D.. 2017. “Epistemic Risk.” Journal of Philosophy 113 (11): 550–71..Google Scholar
Rescher, N. 1976. “Peirce and the Economy of Research.” Philosophy of Science 43 (1): 7198..CrossRefGoogle Scholar
Rothschild, M., and Stiglitz, J. E.. 1970. “Increasing Risk.” Pt. 1, “A Definition.” Journal of Economic Theory 2 (3): 225–43..CrossRefGoogle Scholar
Savage, L. J. 1954. The Foundations of Statistics. New York: Dover.Google Scholar
Savage, L. J.. 1971. “Elicitation of Personal Probabilities and Expectations.” Journal of the American Statistical Association 66 (336): 783801..CrossRefGoogle Scholar
Seidenfeld, T. 1986. “Entropy and Uncertainty.” Philosophy of Science 53 (4): 467–91..CrossRefGoogle Scholar
Selten, R. 1998. “Axiomatic Characterization of the Quadratic Scoring Rule.” Experimental Economics 1 (1): 4361..CrossRefGoogle Scholar
Shannon, C. E. 1948. “A Mathematical Theory of Communication.” Bell Systems Technical Journal 27 (3): 379423.; 27 (4): 623-66..CrossRefGoogle Scholar
van Fraassen, B. C. 1984. “Belief and the Will.” Journal of Philosophy 81 (5): 235–56..CrossRefGoogle Scholar
van Fraassen, B. C.. 1989. Laws and Symmetry. Oxford: Clarendon.CrossRefGoogle Scholar
von Neumann, J., and Morgenstern, O.. 1944. Theory of Games and Economic Behavior. Princeton, NJ: Princeton University Press.Google Scholar
Williamson, J. 2010. In Defense of Objective Bayesianism. Oxford: Oxford University Press.CrossRefGoogle Scholar