Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Handling Uncertainties in Knowledge Modeling and Acquisition for the Development of a Knowledge‐Based System
Knowledge acquisition is perhaps the most important phase in the development of knowledge‐based systems (KBSs). Problems associated with knowledge acquisition include creating an explicit model of handling uncertainty for solving models in a complex domain. This article illustrates how knowledge modeling facilitates the acquisition of knowledge that is vague and uncertain. A hierarchical model is adopted for knowledge acquisition. The domain of the problem, i.e., damage assessment and vulnerability analysis of structures subjected to cyclones, is characterized by the presence of uncertainties in various forms. A KBS based on the hierarchical knowledge model has been developed that has the flexibility to handle the uncertainties using probabilistic and fuzzy set approaches depending on the nature of uncertainty. The hierarchical model for handling complexities and uncertainties in knowledge, the knowledge‐acquisition strategy, the inference mechanism, and the representation used are described. Two typical sessions, one for damage assessment and another for vulnerability analysis, are presented to demonstrate the working of the KBS and its efficacy in handling uncertain information.
Handling Uncertainties in Knowledge Modeling and Acquisition for the Development of a Knowledge‐Based System
Knowledge acquisition is perhaps the most important phase in the development of knowledge‐based systems (KBSs). Problems associated with knowledge acquisition include creating an explicit model of handling uncertainty for solving models in a complex domain. This article illustrates how knowledge modeling facilitates the acquisition of knowledge that is vague and uncertain. A hierarchical model is adopted for knowledge acquisition. The domain of the problem, i.e., damage assessment and vulnerability analysis of structures subjected to cyclones, is characterized by the presence of uncertainties in various forms. A KBS based on the hierarchical knowledge model has been developed that has the flexibility to handle the uncertainties using probabilistic and fuzzy set approaches depending on the nature of uncertainty. The hierarchical model for handling complexities and uncertainties in knowledge, the knowledge‐acquisition strategy, the inference mechanism, and the representation used are described. Two typical sessions, one for damage assessment and another for vulnerability analysis, are presented to demonstrate the working of the KBS and its efficacy in handling uncertain information.
Handling Uncertainties in Knowledge Modeling and Acquisition for the Development of a Knowledge‐Based System
Murlidharan, T. L. (Autor:in) / Rao, K. Balaji (Autor:in) / Durgaprasad, J. (Autor:in) / Rao, T. V. S. R. Appa (Autor:in)
Computer‐Aided Civil and Infrastructure Engineering ; 14 ; 141-154
01.03.1999
14 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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