Abstract
We argue that indeterminate probabilities are not only rationally permissible for a Bayesian agent, but they may even be rationally required. Our first argument begins by assuming a version of interpretivism: your mental state is the set of probability and utility functions that rationalize your behavioral dispositions as well as possible. This set may consist of multiple probability functions. Then according to interpretivism, this makes it the case that your credal state is indeterminate. Our second argument begins with our describing a world that plausibly has indeterminate chances. Rationality requires a certain alignment of your credences with corresponding hypotheses about the chances. Thus, if you hypothesize the chances to be indeterminate, your will inherit their indeterminacy in your corresponding credences. Our third argument is motivated by a dilemma. Epistemic rationality requires you to stay open-minded about contingent matters about which your evidence has not definitively legislated. Practical rationality requires you to be able to act decisively at least sometimes. These requirements can conflict with each other-for thanks to your open-mindedness, some of your options may have undefined expected utility, and if you are choosing among them, decision theory has no advice to give you. Such an option is playing Nover and Hájek’s Pasadena Game, and indeed any option for which there is a positive probability of playing the Pasadena Game. You can serve both masters, epistemic rationality and practical rationality, with an indeterminate credence to the prospect of playing the Pasadena game. You serve epistemic rationality by making your upper probability positive-it ensures that you are open-minded. You serve practical rationality by making your lower probability 0-it provides guidance to your decision-making. No sharp credence could do both.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bernstein A. R., Wattenberg F. (1969) Non-standard measure theory. In: Luxemburg W. A. J. (eds) Applications of model theory of algebra, analysis, and probability. Holt, Rinehard and Winston, New York
Easwaran K. (2008) Strong and weak expectations. Mind 117(467): 633–641
Edwards W., Lindman H., Savage L. J. (1963) Bayesian statistical inference for psychological research. Psychological Review 70: 193–242
Ellsberg D. (1961) Risk, ambiguity and the savage axioms. Quarterly Journal of Economics 75: 643–669
Eriksson L., Hájek A. (2007) What are degrees of belief?. Studia Logica 86(2): 183–213
Fine T. L. (2008) Evaluating the Pasadena, Altadena, and St Petersburg gambles. Mind 117(467): 613–632
Hájek A. (2003) What conditional probability could not be. Synthese 137(3): 273–323
Hájek A., Nover H. (2006) Perplexing expectations. Mind 115: 703–720
Hájek A., Nover H. (2008) Complex expectations. Mind 117: 643–664
Hardin R. (1982) Collective action. The Johns Hopkins University Press, Baltimore
Jeffrey R. (1983) The logic of decision (2nd ed.). University of Chicago Press, Chicago
Jeffrey R. (1992) Probability and the art of judgment. Cambridge University Press, Cambridge
Kadane J. B., Schervish M. J., Seidenfeld T. (1996) Reasoning to a foregone conclusion. Journal of the American Statistical Association 91(435): 1228–1235
Levi I. (1982) Conflict and social agency. Journal of Philosophy 79: 231–241
Levi I. (2000) Imprecise and indeterminate probabilities. Risk, Decision and Policy 5: 111–122
Lewis D. (1974) Radical interpretation. Synthese 23: 331–344
Lewis D. (1980) A Subjectivist’s guide to objective chance. In: Jeffrey R. C. (eds) Studies in inductive logic and probability. University of California Press, Berkeley
Lewis D. (1994) Humean supervenience debugged. Mind 103: 473–490
Nover H., Hájek A. (2004) Vexing expectations. Mind 113: 237–249
Papamarcou A., Fine T. L. (1986) A note on undominated lower probabilities. The Annals of Probability 14(2): 710–723
Seidenfeld T., Schervish M. J., Kadane J. B. (1989) On the shared preferences of two Bayesian decision makers. The Journal of Philosophy 86: 225–244
Seidenfeld T., Wasserman L. (1993) Dilation for sets of probabilities. The Annals of Statistics 21(3): 1139–1154
Smithson M. (1999) Conflict aversion: preference for ambiguity vs. conflict in sources and evidence. Organizational Behavior and Human Decision Processes 79: 179–198
Sorensen R. (2001) Vagueness and contradiction. Oxford University Press, Oxford
Walley P. (1991) Statistical reasoning with imprecise probabilities. Chapman Hall, London
Walley P., Fine T. L. (1982) Towards a frequentist theory of upper and lower probability. Annals of Statistics 10: 741–761
Williamson T. (1994) Vagueness. Routledge, London
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Hájek, A., Smithson, M. Rationality and indeterminate probabilities. Synthese 187, 33–48 (2012). https://doi.org/10.1007/s11229-011-0033-3
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11229-011-0033-3