Statistical Damage Classification Under Changing Environmental and Operational Conditions

规范化(社会学) 自回归模型 计算机科学 人工神经网络 振动 统计假设检验 统计推断 数据库规范化 时间序列 人工智能 模式识别(心理学) 机器学习 统计 数学 人类学 社会学 量子力学 物理
作者
Hoon Sohn,Keith Worden,Charles R. Farrar
出处
期刊:Journal of Intelligent Material Systems and Structures [SAGE Publishing]
卷期号:13 (9): 561-574 被引量:288
标识
DOI:10.1106/104538902030904
摘要

Stated in its most basic form, the objective of damage diagnosis is to ascertain simply if damage is present or not based on measured dynamic characteristics of a system to be monitored. In reality, structures are subject to changing environmental and operational conditions that affect measured signals, and environmental and operational variations of the system can often mask subtle changes in the system’s vibration signal caused by damage. In this paper, a unique combination of time series analysis, neural networks, and statistical inference techniques is developed for damage classification explicitly taking into account these ambient variations of the system. First, a time prediction model called an autoregressive and autoregressive with exogenous inputs (AR-ARX) model is developed to extract damage-sensitive features. Then, an autoassociative neural network is employed for data normalization, which separates the effect of damage on the extracted features from those caused by the environmental and vibration variations of the system. Finally, a hypothesis testing technique called a sequential probability ratio test is performed on the normalized features to automatically infer the damage state of the system. The usefulness of the proposed approach is demonstrated using a numerical example of a computer hard disk and an experimental study of an eight degree-of-freedom spring-mass system.
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