Design for Reliability of Robotic Systems Based on the Prognostic Approach

2019 23rd International Conference on Mechatronics Technology (ICMT) Pub Date : 2019-10-01 DOI:10.1109/ICMECT.2019.8932106

F. Aggogeri, Nicola Pellegrini, Claudio Taesi, M. Tiboni

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引用次数: 1

Abstract

This work presents an iterative methodology for reliability design of production equipment based on the diagnostic and prognostic approach. The proposed method starts with the FMECA analysis in order to identify the main critical components of mechanical systems (e.g. robotic cells, robots, automatic machines). The mitigation actions are selected evaluating a design review of the project or imposing a maintenance strategy by critical component. This selection is defined by the calculated risk (e.g. risk priority number) and the life cycle cost assessment of the production equipment. The analysis of failure causes may support in evaluating preventive or predictive techniques focused on physical or data driven models. The use of a general database that collects and shares information from systems/components already installed in the field permits to analyse life and performance data in real time in an integrated closed loop. This research is a part of PROGRAMS: PROGnostics based Reliability Analysis for Maintenance Scheduling, H2020-FOF-09-2017-767287.

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基于预测方法的机器人系统可靠性设计

这项工作提出了一种基于诊断和预测方法的生产设备可靠性设计的迭代方法。提出的方法从FMECA分析开始，以确定机械系统的主要关键部件(例如机器人单元，机器人，自动机器)。选择缓解措施，评估项目的设计审查或通过关键组件实施维护策略。这种选择是由计算的风险(如风险优先级)和生产设备的生命周期成本评估来定义的。对故障原因的分析可能有助于评估侧重于物理或数据驱动模型的预防或预测技术。使用通用数据库收集和共享已安装在现场的系统/组件的信息，可以在集成闭环中实时分析寿命和性能数据。本研究是项目的一部分:基于预测的维护计划可靠性分析，H2020-FOF-09-2017-767287。

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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2019 23rd International Conference on Mechatronics Technology (ICMT)

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