Title :
Nonadditive probability, finite-set statistics, and information fusion
Author_Institution :
Loral Defense Syst., Eagan, MN, USA
Abstract :
Information fusion is the name given to military expert-systems problems. In this paper we summarize recent work proposing a fully probabilistic theoretical unification for much of information fusion based on the theory of random sets. Our approach unifies detection, localization, classification, and prior knowledge with respect to these. It also unifies precise data together with imprecise data and propositional or vague/fuzzy evidence, as well as certain associated methodologies (e.g., fuzzy logic, rules). Underlying our approach is the discovery that classical single-sensor, single-target point-variate statistics can be directly generalized to a multisensor, multitarget statistics of finite-set variates. We describe “finite-set statistics” and its application to multisensor estimation using diverse data forms. We also point out relationships with current theoretical statistics
Keywords :
estimation theory; expert systems; fuzzy logic; fuzzy set theory; information theory; probability; sensor fusion; statistical analysis; classification; expert systems; finite-set statistics; fuzzy evidence; fuzzy logic; information fusion; multisensor estimation; multitarget statistics; nonadditive probability; propositional evidence; random set theory; sensor management; single-target point-variate statistics; Contracts; Expert systems; Fuzzy logic; Intelligent sensors; Probability; Sensor fusion; Set theory; Statistics; Target tracking; Topology;
Conference_Titel :
Decision and Control, 1995., Proceedings of the 34th IEEE Conference on
Conference_Location :
New Orleans, LA
Print_ISBN :
0-7803-2685-7
DOI :
10.1109/CDC.1995.480631
