Borel and the St. Petersburg martingale.
Bru, Bernard, Bru, Marie-France, Chung, Kai Lai (2009)
Journal Électronique d'Histoire des Probabilités et de la Statistique [electronic only]
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Displaying similar documents to “Borel, probability and La Revue du Mois.”
Borel and the St. Petersburg martingale.
From Borel's remarks to subjective probability studies.
Gauvrit, Nicolas (2009)
Journal Électronique d'Histoire des Probabilités et de la Statistique [electronic only]
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Commentary on Lévy's lecture notes to the Ecole Polytechnique (1919).
Barbut, Marc, Mazliak, Laurent (2008)
Journal Électronique d'Histoire des Probabilités et de la Statistique [electronic only]
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How Paul Lévy saw Jean Ville and martingales.
Mazliak, Laurent (2009)
Journal Électronique d'Histoire des Probabilités et de la Statistique [electronic only]
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The education of Jean André Ville.
Shafer, Glenn (2009)
Journal Électronique d'Histoire des Probabilités et de la Statistique [electronic only]
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Existence of Borel lifting
K. Musiał (1973)
Colloquium Mathematicae
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Borel-Wadge degrees
Alessandro Andretta, Donald A. Martin (2003)
Fundamenta Mathematicae
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Two sets of reals are Borel equivalent if one is the Borel pre-image of the other, and a Borel-Wadge degree is a collection of pairwise Borel equivalent subsets of ℝ. In this note we investigate the structure of Borel-Wadge degrees under the assumption of the Axiom of Determinacy.
Normal numbers and the Borel hierarchy
Verónica Becher, Pablo Ariel Heiber, Theodore A. Slaman (2014)
Fundamenta Mathematicae
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We show that the set of absolutely normal numbers is Π⁰₃-complete in the Borel hierarchy of subsets of real numbers. Similarly, the set of absolutely normal numbers is Π⁰₃-complete in the effective Borel hierarchy.
Coordinatewise decomposition of group-valued Borel functions
Benjamin D. Miller (2007)
Fundamenta Mathematicae
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Answering a question of Kłopotowski, Nadkarni, Sarbadhikari, and Srivastava, we characterize the Borel sets S ⊆ X × Y with the property that every Borel function f: S → ℂ is of the form f(x,y) = u(x) + v(y), where u: X → ℂ and v: Y → ℂ are Borel.
Recent developments in the theory of Borel reducibility
Greg Hjorth, Alexander S. Kechris (2001)
Fundamenta Mathematicae
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Let E₀ be the Vitali equivalence relation and E₃ the product of countably many copies of E₀. Two new dichotomy theorems for Borel equivalence relations are proved. First, for any Borel equivalence relation E that is (Borel) reducible to E₃, either E is reducible to E₀ or else E₃ is reducible to E. Second, if E is a Borel equivalence relation induced by a Borel action of a closed subgroup of the infinite symmetric group that admits an invariant metric, then either E is reducible...
Descriptive Kakutani equivalence
Benjamin Miller, Christian Rosendal (2010)
Journal of the European Mathematical Society
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Turning Borel sets into clopen sets effectively
Vassilios Gregoriades (2012)
Fundamenta Mathematicae
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We present the effective version of the theorem about turning Borel sets in Polish spaces into clopen sets while preserving the Borel structure of the underlying space. We show that under some conditions the emerging parameters can be chosen in a hyperarithmetical way and using this we obtain some uniformity results.
Bimeasurable functions
R. Purves (1966)
Fundamenta Mathematicae
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Questions
Alexey Ostrovsky (2005)
Acta Universitatis Carolinae. Mathematica et Physica
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