Multidisciplinary development of a simulation of industrial plant disasters designed for improving safety through training and new procedures

Int. J. Simul. Process. Model. Pub Date : 2019-07-16 DOI:10.1504/IJSPM.2019.10022675

M. Frascio, K. Cortese, K. Sinelshchikov, F. Longo

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引用次数: 1

Abstract

Industrial accidents are an unfortunate reality, therefore there are just a limited number of situational training exercises to cope with the management of these kinds of emergencies. The authors propose a simulation approach for developing innovative response procedures during industrial crises integrated with start system triage model. The proposed simulator is based on an interoperable architecture using the new MS2G paradigm and it designed for being federated by IEEE 1516 HLA with other systems. The paper presents its use as test-bed on a specific case study conducting experiments over the SPIDER virtual platform developed by simulation team. In facts these experiments were based on two university classes that performed tests and training experiences on multiple target functions including mission time, detection, classification and securing of injured people. The analysis included also use of innovative procedures based on autonomous systems. The obtained results highlighted improvements on the learning curves with respect to specific target functions. These results confirm the potential of this approach as a training strategy that combines medical skills with engineering to improve reaction capabilities and situation awareness during industrial crises.

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工业工厂灾害模拟的多学科发展，旨在通过培训和新程序提高安全性

工业事故是一个不幸的现实，因此只有有限的情景训练演习，以应付这类紧急情况的管理。作者提出了一种模拟方法，用于开发工业危机期间与启动系统分类模型相结合的创新响应程序。所提出的模拟器是基于一个可互操作的架构，使用新的MS2G范式，并设计用于IEEE 1516 HLA与其他系统的联合。本文介绍了在仿真团队开发的SPIDER虚拟平台上进行实验的具体案例研究。事实上，这些实验是基于两个大学班级进行的，这些班级就任务时间、探测、分类和保护受伤人员等多种目标功能进行了测试和培训。分析还包括基于自主系统的创新程序的使用。所获得的结果突出了相对于特定目标函数的学习曲线的改进。这些结果证实了这种方法作为一种培训策略的潜力，它将医学技能与工程技术相结合，以提高工业危机期间的反应能力和态势意识。

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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Int. J. Simul. Process. Model.

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