Title :
A framework for managing uncertainty in embedded expert systems
Author_Institution :
LETI-DSYS, Centre d´Etudes Nucleaires de Grenoble
fDate :
30 Sep-2 Oct 1991
Abstract :
The uncertainty management system (UMS) shell and its management of uncertainty are described. UMS is an expert system building tool dedicated to real-time embedded applications. This system allows the user to specify knowledge using a set of linguistic approximations, without being conscious of data-processing internally performed. Supported by a development of the axioms of probability, an interval-based framework for managing uncertainty is presented. As generally admitted, an interval number is used to capture features of fuzziness and incompleteness. However, a new parameter, called the degree of dependency, is shown to be naturally induced by M.J. Frank´s (1979) family of triangular norms
Keywords :
expert systems; fuzzy logic; inference mechanisms; probability; real-time systems; data-processing; degree of dependency; expert system building tool; fuzziness; incompleteness; linguistic approximations; probability; real-time embedded applications; triangular norms; uncertainty management system; Airplanes; Condition monitoring; Expert systems; Humans; Knowledge based systems; Navigation; Problem-solving; Real time systems; Sensor systems; Uncertainty;
Conference_Titel :
Developing and Managing Expert System Programs, 1991., Proceedings of the IEEE/ACM International Conference on
Conference_Location :
Washington, DC
Print_ISBN :
0-8186-2250-4
DOI :
10.1109/DMESP.1991.171770
