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  1. Critical Decisions under Uncertainty: Representation and Structure.Benjamin Kuipers, Alan J. Moskowitz & Jerome P. Kassirer - 1988 - Cognitive Science 12 (2):177-210.
    How do people make difficult decisions in situations involving substantial risk and uncertainty? In this study, we presented a difficult medical decision to three expert physicians in a combined “thinking aloud” and “cross examination” experiment. Verbatim transcripts were analyzed using script analysis to observe the process of constructing and making the decision, and using referring phrase analysis to determine the representation of knowledge of likelihoods. These analyses are compared with a formal decision analysis of the same problem to highlight similarities (...)
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  • A logic to reason about likelihood.Joseph Y. Halpern & Michael O. Rabin - 1987 - Artificial Intelligence 32 (3):379-405.
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  • A method for managing evidential reasoning in a hierarchical hypothesis space.Jean Gordon & Edward H. Shortliffe - 1985 - Artificial Intelligence 26 (3):323-357.
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  • Diagnosing multiple faults.Johan de Kleer & Brian C. Williams - 1987 - Artificial Intelligence 32 (1):97-130.
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  • The epistemology of a rule-based expert system —a framework for explanation.William J. Clancey - 1983 - Artificial Intelligence 20 (3):215-251.
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  • Heuristic classification.William J. Clancey - 1985 - Artificial Intelligence 27 (3):289-350.
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  • Prototypical knowledge for expert systems.Janice S. Aikins - 1983 - Artificial Intelligence 20 (2):163-210.
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  • Categorical and probabilistic reasoning in medicine revisited.Peter Szolovits & Stephen G. Pauker - 1993 - Artificial Intelligence 59 (1-2):167-180.
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  • Using empirical analysis to refine expert system knowledge bases.Peter Politakis & Sholom M. Weiss - 1984 - Artificial Intelligence 22 (1):23-48.
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  • On the independence assumption underlying subjective bayesian updating.E. P. D. Pednault, S. W. Zucker & L. V. Muresan - 1981 - Artificial Intelligence 16 (2):213-222.
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  • Extracting the coherent core of human probability judgement: a research program for cognitive psychology.Daniel Osherson, Eldar Shafir & Edward E. Smith - 1994 - Cognition 50 (1-3):299-313.
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  • A Source of Bayesian Priors.Daniel Osherson, Edward E. Smith, Eldar Shafir, Antoine Gualtierotti & Kevin Biolsi - 1995 - Cognitive Science 19 (3):377-405.
    Establishing reasonable, prior distributions remains a significant obstacle for the construction of probabilistic expert systems. Human assessment of chance is often relied upon for this purpose, but this has the drawback of being inconsistent with axioms of probability. This article advances a method for extracting a coherent distribution of probability from human judgment. The method is based on a psychological model of probabilistic reasoning, followed by a correction phase using linear programming.
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  • Three paradoxes of medical diagnosis.G. William Moore & Grover M. Hutchins - 1981 - Metamedicine 2 (2):197-215.
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  • Three paradoxes of medical diagnosis.G. William Moore & Grover M. Hutchins - 1987 - Theoretical Medicine and Bioethics 2 (2):197-215.
    Sadegh-zadeh [23] has proposed a theory of the relativity of medical diagnosis in terms of the time at which a diagnosis is accepted, the patient to whom the diagnosis applies, the physician who renders the diagnosis, the medical knowledge used, the diagnostic method applied, and the set of patient observations. Use of classical formal logic as the diagnostic method may result in three paradoxes: the paradoxes of consistency, completeness, and justifiable ignorance. These paradoxes may be resolved by the addition of (...)
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