Abstract
Railcar asymmetric wheel wear leads to severe wear on one wheel but mild wear on the other wheel. The consequences of the asymmetric wheel include accelerated wear, mechanical failure and downtime, and high financial penalties. Therefore, identifying the asymmetric wheel wear is critical not only for cost effective maintenance but also for safe operations. Fortunately, the increasing amount of various wayside detectors is instrumented along the railway that can monitor the health of railcar components and log plenty of detailed information about railroad operations. One can use this information to identify the asymmetric wheel wear in the early stage. However, most elliptically contoured distributions are effective in describing normal events but not in dealing with the outliers, which mainly locate in the tails of the distribution. Asymmetric wheel wear requires effective anomaly detection that mainly focuses on the extreme values in the tail of a right-skewed distribution. In this paper, we employ the Extreme Value Theory (EVT), which handles the unusually high or low data in the distribution, to derive an extreme value score to identify asymmetric wheel wear. Experiment results show that identification of asymmetric wheel wear can generate huge monetary benefit in terms of reducing average maintenance times of railcars.
Highlights
Rail is one of the essential transportation modes in the United States
We aim to identify the asymmetric wheel wear mainly through Machine Vision (MV) detectors, which report the profile of wheels including flange height, flange width, rim thickness, flange angle, etc
To address the above challenges, we develop a statistical identification model based on Extreme Value Theory (EVT) and perform a novel benefit analysis
Summary
Rail is one of the essential transportation modes in the United States. According to the Association of American Railroads (AAR), America’s railroads are operating over a network of nearly 140000 miles and account for approximately 40% of intercity freight volume that is more than any other mode of transportation (AAR 2016). Safe and efficient railway operation is always the top priority for Federal Railroad Administration (FRA) and corresponding railway accident such as derailment should be prevented. One of the major causes of rail derailments comes from train wheels. The asymmetric wheel wear arises as an important issue during the vehicle/track interaction and it can cause severe wear on one wheel but mild wear on the other wheel (Fröhling 2006). Asymmetric wheel wear has drawn very little attention in the past literature
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