A comparative study of adaptive filters in detecting a naturally degraded bearing within a gearbox

Case Studies in Mechanical Systems and Signal Processing Pub Date : 2016-06-01 DOI:10.1016/j.csmssp.2015.11.001

Faris Elasha , David Mba , Cristobal Ruiz-Carcel

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引用次数: 24

Abstract

The diagnosis of bearing faults at the earliest stage is critical in avoiding future catastrophic failures. Many diagnostic techniques have been developed and applied in for such purposes, however, these traditional diagnostic techniques are not always successful when the bearing fault occurs within a gearbox where the vibration response is complex; under such circumstances it may be necessary to separate the bearing vibration signature.

This paper presents a comparative study of four different techniques for bearing signature separation within a gearbox. The effectiveness of these individual techniques were compared in diagnosing a bearing defect within a gearbox employed for endurance tests of an aircraft control system. The techniques investigated include the least mean square (LMS), self-adaptive noise cancellation (SANC) and the fast block LMS (FBLMS). All three techniques were applied to measured vibration signals taken throughout the endurance test. In conclusion it is shown that the LMS technique detected the bearing fault earliest.

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自适应滤波器检测齿轮箱内自然退化轴承的比较研究

轴承故障的早期诊断对于避免未来的灾难性故障至关重要。许多诊断技术已经开发并应用于此类目的，然而，这些传统的诊断技术并不总是成功的，当轴承故障发生在齿轮箱振动响应复杂;在这种情况下，可能有必要分离轴承振动特征。本文对变速箱内轴承特征分离的四种不同技术进行了比较研究。这些个别技术的有效性进行了比较，在诊断轴承缺陷的变速箱内用于飞机控制系统的耐久性试验。研究的技术包括最小均方(LMS)、自适应噪声消除(SANC)和快速块LMS (FBLMS)。所有三种技术都应用于整个耐久性测试过程中测量的振动信号。结果表明，LMS技术能够较早地检测到轴承故障。

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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Case Studies in Mechanical Systems and Signal Processing

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