The Experts below are selected from a list of 90 Experts worldwide ranked by ideXlab platform
Mary-anne Williams - One of the best experts on this subject based on the ideXlab platform.
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KES - A practical approach to revising prioritized knowledge bases
1999Co-Authors: Salem Benferhat, Didier Dubois, Henri Prade, Mary-anne WilliamsAbstract:This paper investigates simple syntactic methods to revise prioritized belief bases, that are semantically meaningful in the frameworks of possibility theory and of Spohn's (1988) ordinal conditional functions. Here, revising prioritized belief bases amounts to conditioning a distribution function on interpretations. Different types of scales for priorities are discussed: finite vs. infinite, numerical vs. ordinal. Syntactic revision is envisaged as a process which transforms prioritized belief bases into a new prioritized belief base, and thus allows for the Subsequent Iteration.
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A practical approach to fusing prioritized knowledge bases
Lecture Notes in Computer Science, 1999Co-Authors: Salem Benferhat, Didier Dubois, Henri Prade, Mary-anne WilliamsAbstract:This paper investigates simple well behaved syntactic methods to fuse prioritized knowledge bases which are semantically meaningful in the frameworks of possibility theory and of Spohn's ordinal conditional functions. Different types of scales for priorities are discussed: finite vs. infinite, numerical vs. ordinal. Syntactic fusion is envisaged here as a process which combines prioritized knowledge bases into a new prioritized knowledge base, and thus allows for Subsequent Iteration. Several fusion operations are proposed, according to whether or not the sources are dependent, or conflicting, or sharing the same scale.
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EPIA - A Practical Approach to Fusing Prioritized Knowledge Bases
Progress in Artificial Intelligence, 1999Co-Authors: Salem Benferhat, Didier Dubois, Henri Prade, Mary-anne WilliamsAbstract:This paper investigates simple well behaved syntactic methods to fuse prioritized knowledge bases which are semantically meaningful in the frameworks of possibility theory and of Spohn's ordinal conditional functions. Different types of scales for priorities are discussed: finite vs. infinite, numerical vs. ordinal. Syntactic fusion is envisaged here as a process which combines prioritized knowledge bases into a new prioritized knowledge base, and thus allows for Subsequent Iteration. Several fusion operations are proposed, according to whether or not the sources are dependent, or conflicting, or sharing the same scale.
Salem Benferhat - One of the best experts on this subject based on the ideXlab platform.
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KES - A practical approach to revising prioritized knowledge bases
1999Co-Authors: Salem Benferhat, Didier Dubois, Henri Prade, Mary-anne WilliamsAbstract:This paper investigates simple syntactic methods to revise prioritized belief bases, that are semantically meaningful in the frameworks of possibility theory and of Spohn's (1988) ordinal conditional functions. Here, revising prioritized belief bases amounts to conditioning a distribution function on interpretations. Different types of scales for priorities are discussed: finite vs. infinite, numerical vs. ordinal. Syntactic revision is envisaged as a process which transforms prioritized belief bases into a new prioritized belief base, and thus allows for the Subsequent Iteration.
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A practical approach to fusing prioritized knowledge bases
Lecture Notes in Computer Science, 1999Co-Authors: Salem Benferhat, Didier Dubois, Henri Prade, Mary-anne WilliamsAbstract:This paper investigates simple well behaved syntactic methods to fuse prioritized knowledge bases which are semantically meaningful in the frameworks of possibility theory and of Spohn's ordinal conditional functions. Different types of scales for priorities are discussed: finite vs. infinite, numerical vs. ordinal. Syntactic fusion is envisaged here as a process which combines prioritized knowledge bases into a new prioritized knowledge base, and thus allows for Subsequent Iteration. Several fusion operations are proposed, according to whether or not the sources are dependent, or conflicting, or sharing the same scale.
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EPIA - A Practical Approach to Fusing Prioritized Knowledge Bases
Progress in Artificial Intelligence, 1999Co-Authors: Salem Benferhat, Didier Dubois, Henri Prade, Mary-anne WilliamsAbstract:This paper investigates simple well behaved syntactic methods to fuse prioritized knowledge bases which are semantically meaningful in the frameworks of possibility theory and of Spohn's ordinal conditional functions. Different types of scales for priorities are discussed: finite vs. infinite, numerical vs. ordinal. Syntactic fusion is envisaged here as a process which combines prioritized knowledge bases into a new prioritized knowledge base, and thus allows for Subsequent Iteration. Several fusion operations are proposed, according to whether or not the sources are dependent, or conflicting, or sharing the same scale.
Didier Dubois - One of the best experts on this subject based on the ideXlab platform.
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KES - A practical approach to revising prioritized knowledge bases
1999Co-Authors: Salem Benferhat, Didier Dubois, Henri Prade, Mary-anne WilliamsAbstract:This paper investigates simple syntactic methods to revise prioritized belief bases, that are semantically meaningful in the frameworks of possibility theory and of Spohn's (1988) ordinal conditional functions. Here, revising prioritized belief bases amounts to conditioning a distribution function on interpretations. Different types of scales for priorities are discussed: finite vs. infinite, numerical vs. ordinal. Syntactic revision is envisaged as a process which transforms prioritized belief bases into a new prioritized belief base, and thus allows for the Subsequent Iteration.
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A practical approach to fusing prioritized knowledge bases
Lecture Notes in Computer Science, 1999Co-Authors: Salem Benferhat, Didier Dubois, Henri Prade, Mary-anne WilliamsAbstract:This paper investigates simple well behaved syntactic methods to fuse prioritized knowledge bases which are semantically meaningful in the frameworks of possibility theory and of Spohn's ordinal conditional functions. Different types of scales for priorities are discussed: finite vs. infinite, numerical vs. ordinal. Syntactic fusion is envisaged here as a process which combines prioritized knowledge bases into a new prioritized knowledge base, and thus allows for Subsequent Iteration. Several fusion operations are proposed, according to whether or not the sources are dependent, or conflicting, or sharing the same scale.
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EPIA - A Practical Approach to Fusing Prioritized Knowledge Bases
Progress in Artificial Intelligence, 1999Co-Authors: Salem Benferhat, Didier Dubois, Henri Prade, Mary-anne WilliamsAbstract:This paper investigates simple well behaved syntactic methods to fuse prioritized knowledge bases which are semantically meaningful in the frameworks of possibility theory and of Spohn's ordinal conditional functions. Different types of scales for priorities are discussed: finite vs. infinite, numerical vs. ordinal. Syntactic fusion is envisaged here as a process which combines prioritized knowledge bases into a new prioritized knowledge base, and thus allows for Subsequent Iteration. Several fusion operations are proposed, according to whether or not the sources are dependent, or conflicting, or sharing the same scale.
Henri Prade - One of the best experts on this subject based on the ideXlab platform.
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KES - A practical approach to revising prioritized knowledge bases
1999Co-Authors: Salem Benferhat, Didier Dubois, Henri Prade, Mary-anne WilliamsAbstract:This paper investigates simple syntactic methods to revise prioritized belief bases, that are semantically meaningful in the frameworks of possibility theory and of Spohn's (1988) ordinal conditional functions. Here, revising prioritized belief bases amounts to conditioning a distribution function on interpretations. Different types of scales for priorities are discussed: finite vs. infinite, numerical vs. ordinal. Syntactic revision is envisaged as a process which transforms prioritized belief bases into a new prioritized belief base, and thus allows for the Subsequent Iteration.
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A practical approach to fusing prioritized knowledge bases
Lecture Notes in Computer Science, 1999Co-Authors: Salem Benferhat, Didier Dubois, Henri Prade, Mary-anne WilliamsAbstract:This paper investigates simple well behaved syntactic methods to fuse prioritized knowledge bases which are semantically meaningful in the frameworks of possibility theory and of Spohn's ordinal conditional functions. Different types of scales for priorities are discussed: finite vs. infinite, numerical vs. ordinal. Syntactic fusion is envisaged here as a process which combines prioritized knowledge bases into a new prioritized knowledge base, and thus allows for Subsequent Iteration. Several fusion operations are proposed, according to whether or not the sources are dependent, or conflicting, or sharing the same scale.
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EPIA - A Practical Approach to Fusing Prioritized Knowledge Bases
Progress in Artificial Intelligence, 1999Co-Authors: Salem Benferhat, Didier Dubois, Henri Prade, Mary-anne WilliamsAbstract:This paper investigates simple well behaved syntactic methods to fuse prioritized knowledge bases which are semantically meaningful in the frameworks of possibility theory and of Spohn's ordinal conditional functions. Different types of scales for priorities are discussed: finite vs. infinite, numerical vs. ordinal. Syntactic fusion is envisaged here as a process which combines prioritized knowledge bases into a new prioritized knowledge base, and thus allows for Subsequent Iteration. Several fusion operations are proposed, according to whether or not the sources are dependent, or conflicting, or sharing the same scale.
Vedant Gupta - One of the best experts on this subject based on the ideXlab platform.
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FOURTH VERSUS FIFTH GENERATION TROPONIN IN THE PREDICTION OF IN-HOSPITAL MORTALITY
Journal of the American College of Cardiology, 2019Co-Authors: Levi May, Andrew Parks, Marc Paranzino, Andin Mullis, Nathan Kusterer, Steve W. Leung, Vincent L. Sorrell, Vedant GuptaAbstract:Cardiac Troponin (cTn) is the most commonly used cardiac biomarker for assessment of myocardial injury with each Subsequent Iteration becoming more sensitive at the cost of specificity for acute coronary syndromes (ACS). Elevated cTn has been associated with increased all-cause mortality in non-ACS
