智能化生产环境中基于本体的危机管理
    点此下载全文
引用本文:杨阳1,2?覮,曹彦1,2.智能化生产环境中基于本体的危机管理[J].计算技术与自动化,2020,(1):133-139
摘要点击次数: 598
全文下载次数: 0
作者单位
杨阳1,2?覮,曹彦1,2 (1. 南京航空航天大学 计算机科学与技术学院江苏 南京 211106 2. 高安全系统的软件开发与验证技术重点实验室(工业和信息化部)南京航空航天大学江苏 南京 211106) 
中文摘要:智能化生产环境让生产的效率和质量都得到了显著提高。然而,智能化生产化境中复杂的组成结构和交互行为也放大了系统中危机事件的危害程度,进行有效的危机管理具有很强的必要性。由于智能化生产环境中的危机管理是一项知识密集型的任务,文中通过构建危机管理本体来对智能化生产环境中的危机进行管理。首先确定了危机管理的四个阶段,然后根据各个阶段中需要的环境知识对危机管理本体进行层次划分,并确定各本体类,接着对各本体类的属性进行了详细描述,构建出了整体的危机管理本体,最后基于本体并结合案例描述了对应的SWRL推理规则。
中文关键词:ISO 31000:2018  危机管理  本体  SWRL  本体推理
 
Ontology-based Hazard Management in Smart Production Environment
Abstract:Smart production environment has greatly improved the efficiency and quality of production. However,the complex composition structure and interaction behavior in the smart production environment also magnify the damage degree of hazardous events in the system,so it is necessary to conduct effective hazard management. The hazard management in smart production environment is a knowledge-intensive task,in this paper,an ontology is constructed to manage the hazard in the smart production environment. Firstly,we identified the four stages of hazard management. Then,we divided the ontology into different hierarchies according to the environmental knowledge needed in each stage and determined each ontology class. Next,the attributes of each ontology class were described in detail,and the whole hazard management ontology was constructed. Finally,the corresponding SWRL reasoning rules were described based on the ontology and cases.
keywords:ISO 31000:2018  hazard management  ontology  SWRL  ontology reasoning
查看全文   查看/发表评论   下载pdf阅读器