不平衡对轮胎压力振动监测系统分类精度的影响

Q2 Engineering

SDHM Structural Durability and Health Monitoring Pub Date : 2021-01-01 DOI:10.32604/sdhm.2021.06656

P. Anoop, P. Nair, V. Sugumaran

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引用次数: 3

摘要

轮胎压力监测系统(TPMS)安装在汽车上以监测轮胎的压力。轮胎压力是关系到乘车人舒适度和人身安全的重要参数。目前已经研究和报道了许多用于TPMS的方法。其中，利用机器学习技术的基于振动的间接TPMS是最近的一种。文献报道了完美平衡车轮的结果。然而，如果有一个小的不平衡，这是很常见的汽车车轮，将对分类精度有什么影响?这是当前的问题。本文试图研究轮毂不平衡对间接TPMS系统分类精度的影响。充气的轮胎被认为具有不同的压力值，以表示穿孔，正常，压力下和超压条件。利用机器学习技术对每种情况下的振动信号进行采集和处理。这个过程是用完全平衡的轮子和已知的不平衡的轮子进行的。并对结果进行了比较和介绍。

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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Influence of Unbalance on Classification Accuracy of Tyre Pressure Monitoring System Using Vibration Signals

Tyre Pressure Monitoring Systems (TPMS) are installed in automobiles to monitor the pressure of the tyres. Tyre pressure is an important parameter for the comfort of the travelers and the safety of the passengers. Many methods have been researched and reported for TPMS. Amongst them, vibration-based indirect TPMS using machine learning techniques are the recent ones. The literature reported the results for a perfectly balanced wheel. However, if there is a small unbalance, which is very common in automobile wheels, ‘What will be the effect on the classification accuracy?’ is the question on hand. This paper attempts to study the effect of unbalance of the wheel on the classification accuracy of an indirect TPMS system. The tyres filled with air are considered with different pressure values to represent puncture, normal, under pressure and overpressure conditions. The vibration signals of each condition were acquired and processed using machine learning techniques. The procedure is carried out with perfectly balanced wheels and known unbalanced wheels. The results are compared and presented.

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来源期刊

SDHM Structural Durability and Health Monitoring Engineering-Building and Construction

CiteScore

2.40

自引率

0.00%

发文量

期刊介绍： In order to maintain a reasonable cost for large scale structures such as airframes, offshore structures, nuclear plants etc., it is generally accepted that improved methods for structural integrity and durability assessment are required. Structural Health Monitoring (SHM) had emerged as an active area of research for fatigue life and damage accumulation prognostics. This is important for design and maintains of new and ageing structures.