Principal Components Analysis and Track Quality Index: A Machine Learning Approach

Lasisi, Ahmed; Attoh-Okine, Nii; University of Delaware. Department of Civil and Environmental Engineering; University of Nevada. University Transportation Center on Improving Rail Transportation Infrastructure Sustainability and Durability

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Principal Components Analysis and Track Quality Index: A Machine Learning Approach

2019-05-01
By Lasisi, Ahmed ; Attoh-Okine, Nii

[PDF-1.18 MB]

English

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Creators:

Lasisi, Ahmed ; Attoh-Okine, Nii

Lasisi, Ahmed ; Attoh-Okine, Nii Less -
Corporate Creators:

University of Delaware. Department of Civil and Environmental Engineering ; University of Nevada. University Transportation Center on Improving Rail Transportation Infrastructure Sustainability and Durability

University of Delaware. Department of Civil and Environmental Engineering ; University of Nevada. University Transportation Center on Improving Rail Transportation Infrastructure Sustainability and Durability Less -
Corporate Contributors:

United States. Department of Transportation. University Transportation Centers (UTC) Program ; United States. Department of Transportation. Office of the Assistant Secretary for Research and Technology

United States. Department of Transportation. University Transportation Centers (UTC) Program ; United States. Department of Transportation. Office of the Assistant Secretary for Research and Technology Less -
Subject/TRT Terms:

[+]

Data Science Defects Forecasting Geometry Machine Learning Maintenance Of Way Rail Infrastructure Railroad Tracks Ride Quality Safety Track Quality Index Validation
Resource Type:

Tech Report
Geographical Coverage:

United States
Edition:

Final Report 3
Corporate Publisher:

University of Nevada. University Transportation Center on Improving Rail Transportation Infrastructure Sustainability and Durability
Abstract:

Track geometry data exhibits classical big data attributes: value, volume, velocity, veracity and variety. Track Quality Indices-TQI are used to obtain average-based assessment of track segments and schedule track maintenance. TQI is expressed in terms of track parameters like gage, cross level, etc. Though each of these parameters is objectively important but understanding what they collectively convey for a given track segment often becomes challenging. Several railways including passenger and freight have developed single indices that combines different track parameters to assess overall track quality. Some of these railways have selected certain parameters whilst dropping others. Using track geometry data from a sample mile track, the authors demonstrate how to combine track geometry parameters into a low dimensional form (TQI) that simplifies the track properties without losing much variability in the data. This led us to principal components. To validate the use of principal components as TQI, the authors employed a two-phase approach. First phase was to identify a classic machine learning technique that works well with track geometry data. The second step was to train the identified machine learning technique on the sample mile-track data using combined TQIs and principal components as defect predictors. The performance of the predictors was compared using true and false positive rates. The results show that three principal components were better at predicting defects and revealing salient characteristics in track geometry data than combined TQIs even though there were some correlations that are potentially useful for track maintenance.
Format:

PDF
Funding:

69A3551747132
Collection(s):

University Transportation Centers US Transportation Collection
Main Document Checksum:

[+]

urn:sha256:7021ae5ae18f91c1c641106e8eb0ea7d545d7b1f081d06f1db30315f9a820053
Download URL:

https://rosap.ntl.bts.gov/view/dot/58610/dot_58610_DS1.pdf
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Principal Components Analysis and Track Quality Index: A Machine Learning Approach

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