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Journal of Applied Sciences

Year: 2013 | Volume: 13 | Issue: 6 | Page No.: 819-827
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Authors

Enyan Wang

Xiangyang Li

Keywords

Research Article

Construction of a Hierarchical, Collaborative, Ontology-based Emergency Planning System

Enyan Wang and Xiangyang Li
The process of emergency decision-making during a catastrophe is subject to uncertainty. This process is sufficiently complicated that it requires substantial knowledge, information support and multi-subject collaboration. Based on system science theory, the study analyzed the characteristics of emergency decision-making during catastrophes and discussed the internal architecture of the resulting system for the development of an emergency plan. In addition, the study combined general intelligent planning with an advanced knowledge-engineering approach. Furthermore, the hierarchical collaborative feature of the emergency plan was based on an ontology emergency knowledgebase. Moreover, this study defined ontology notations for general emergency planning based on the emergency domain and plan ontologies. In conclusion, the study provides a basic framework for multi-layer, multi-subject and multi-task emergency planning during catastrophes.
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