Semantic reasoning for intelligent emergency response applications

Anna Hristoskova, F. Ongenae, F. Turck
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引用次数: 10

Abstract

Emergency response applications require the processing of large amounts of data, generated by a diverse set of sensors and devices, in order to provide for an accurate and concise view of the situation at hand. The adoption of semantic technologies allows for the definition of a formal domain model and intelligent data processing and reasoning on this model based on generated device and sensor measurements. This paper presents a novel approach to emergency response applications, such as fire fighting, integrating a formal semantic domain model into an event-based decision support system, which supports reasoning on this model. The developed model consists of several generic ontologies describing concepts and properties which can be applied to diverse context-aware applications. These are extended with emergency response specific ontologies. Additionally, inference on the model performed by a reasoning engine is dynamically synchronized with the rest of the architectural components. This allows to automatically trigger events based on predefined conditions. The proposed ontology and developed reasoning methodology is validated on two scenarios, i.e. (i) the construction of an emergency response incident and corresponding scenario and (ii) monitoring of the state of a fire fighter during an emergency response.
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智能应急响应应用的语义推理
应急响应应用程序需要处理由各种传感器和设备产生的大量数据,以便对手头的情况提供准确和简明的看法。语义技术的采用允许定义正式的领域模型,并基于生成的设备和传感器测量值对该模型进行智能数据处理和推理。本文提出了一种将形式化语义域模型集成到基于事件的决策支持系统中的应急响应应用的新方法,该方法支持在该模型上进行推理。开发的模型由几个描述概念和属性的通用本体组成,这些概念和属性可以应用于不同的上下文感知应用程序。它们被扩展为特定于应急响应的本体。此外,由推理引擎对模型执行的推理与架构组件的其余部分动态同步。这允许基于预定义条件自动触发事件。提出的本体和开发的推理方法在两种情况下得到验证,即(i)构建紧急响应事件和相应的情景,以及(ii)在紧急响应期间监测消防员的状态。
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