Daniel Kuzio , Radosław Zimroz , Agnieszka Wyłomańska
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引用次数: 0
摘要
本文讨论了评估机器健康指数(HI)数据预报质量所面临的挑战。机器健康预测领域的许多现有解决方案都涉及对预测质量进行可视化评估,以粗略衡量预测样本与实际样本之间的相似性,但缺乏精确的衡量标准或决策。在本文中,我们介绍了一种具有多种变体和标准的通用程序。总体概念是将预测数据与真实的 HI 时间序列进行比较,但每个程序变体都有通过统计分析确定的特定模式。此外,还采用了统计学上确定的阈值,将结果划分为可靠或不可靠的预后。这些标准既包括简单的测量方法(MSE、MAPE),也包括更先进的测量方法(空间定量包含因子、Kupiec POF 和 TUFF 统计)。根据所选标准的不同,模式和决策过程也各不相同。为了说明其有效性,我们对文献中的 HI 数据应用了所建议的程序,包括预警(线性退化)和临界(指数退化)两个阶段。虽然该方法产生的是二元输出,但有可能扩展到多类分类。此外,有经验的用户还可以使用以百分比表示的质量度量进行更深入的分析。
A procedure for assessing of machine health index data prediction quality
The paper discusses the challenge of evaluating the prognosis quality of machine health index (HI) data. Many existing solutions in machine health forecasting involve visual assessing of the quality of predictions to roughly gauge the similarity between predicted and actual samples, lacking precise measures or decisions. In this paper, we introduce a universal procedure with multiple variants and criteria. The overarching concept involves comparing predicted data with true HI time series, but each procedure variant has a specific pattern determined through statistical analysis. Additionally, a statistically established threshold is employed to classify the result as either a reliable or non-reliable prognosis. The criteria include both simple measures (MSE, MAPE) and more advanced ones (Space quantiles-inclusion factor, Kupiec’s POF, and TUFF statistics). Depending on the criterion chosen, the pattern and decision-making process vary. To illustrate effectiveness, we apply the proposed procedure to HI data sourced from the literature, covering both warning (linear degradation) and critical (exponential degradation) stages. While the method yields a binary output, there is potential for extension to a multi-class classification. Furthermore, experienced users can use the quality measure expressed in percentage for more in-depth analysis.
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Contributions are invited on novel achievements in all fields of measurement and instrumentation science and technology. Authors are encouraged to submit novel material, whose ultimate goal is an advancement in the state of the art of: measurement and metrology fundamentals, sensors, measurement instruments, measurement and estimation techniques, measurement data processing and fusion algorithms, evaluation procedures and methodologies for plants and industrial processes, performance analysis of systems, processes and algorithms, mathematical models for measurement-oriented purposes, distributed measurement systems in a connected world.
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