An ontological approach to knowledge management for sustainable nuclear decommissioning

International Journal of Nuclear Knowledge Management Pub Date : 2014-01-30 DOI:10.1504/IJNKM.2014.058924

S. Wallbridge, A. Lowe, J. Keane, G. Nenadic, J. Cooper

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引用次数: 1

Abstract

Nuclear decommissioning design and operational knowledge may remain relevant over many decades. Designing sustainable operations today requires meaningful simulation of future events, which in turn relies on the accurate representation of all relevant current knowledge. In decommissioning, human agents may be as important for maintaining operational safety as technical systems, so simulations must represent not just technical but tacit knowledge (embedded in practice) and the contextual and perceptual aspects of knowledge – i.e. how the meaning of data changes with the circumstances and viewpoint of stakeholders. We propose that this detail may be captured by ontological knowledge systems, which are augmenting traditional archives, databases or operational flowcharts in other highly interlinked, multidisciplinary, dynamic and highly specialised fields. Using the example of waste transport modelling, this study discusses how a coherent ontology unifying knowledge, physics and simulations could facilitate the design, assessment and communication of sustainable decommissioning.

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可持续核退役知识管理的本体论方法

核退役设计和操作知识可能在几十年内仍然具有相关性。今天设计可持续经营需要对未来事件进行有意义的模拟，这反过来又依赖于所有相关当前知识的准确表示。在退役过程中，人类代理人对于维护操作安全可能与技术系统一样重要，因此模拟不仅必须代表技术，还必须代表隐性知识(嵌入实践中)以及知识的背景和感知方面——即数据的含义如何随着环境和利益相关者的观点而变化。我们建议可以通过本体知识系统捕获这些细节，这些系统可以在其他高度相互关联的、多学科的、动态的和高度专业化的领域中增强传统的档案、数据库或操作流程图。本研究以废物运输建模为例，讨论了统一知识、物理和模拟的连贯本体如何促进可持续退役的设计、评估和交流。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Nuclear Knowledge Management

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