An Information-Theoretic Approach for Indirect Train Traffic Monitoring Using Building Vibration

An Information-Theoretic Approach for Indirect Train Traffic Monitoring Using Building Vibration

This paper introduces an indirect train traffic monitoring method to detect and infer real-time train events based on the vibration response of a nearby building. Monitoring and characterizing traffic events are important for cities to improve the efficiency of transportation systems (e.g., train pa...

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Bibliographic Details
Main Authors: Susu Xu, Lin Zhang, Pei Zhang, Hae Young Noh
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-05-01
Series:Frontiers in Built Environment
Subjects:
train traffic monitoring
building vibration
information theory
causal analysis
wavelet analysis
indirect sensing
Online Access:http://journal.frontiersin.org/article/10.3389/fbuil.2017.00022/full
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spelling doaj-1afb104e7fcb41c581ad83eed6aca1172020-11-24T23:30:51ZengFrontiers Media S.A.Frontiers in Built Environment2297-33622017-05-01310.3389/fbuil.2017.00022223092An Information-Theoretic Approach for Indirect Train Traffic Monitoring Using Building VibrationSusu Xu0Lin Zhang1Pei Zhang2Hae Young Noh3Department of Civil and Environmental Engineering, Carnegie Mellon University, Pittsburgh, PA, USATsinghua-Berkeley Shenzhen Institute, Tsinghua University, Shenzhen, ChinaDepartment of Electrical and Computer Engineering, Carnegie Mellon University, Silicon Valley, CA, USADepartment of Civil and Environmental Engineering, Carnegie Mellon University, Pittsburgh, PA, USAThis paper introduces an indirect train traffic monitoring method to detect and infer real-time train events based on the vibration response of a nearby building. Monitoring and characterizing traffic events are important for cities to improve the efficiency of transportation systems (e.g., train passing, heavy trucks, and traffic). Most prior work falls into two categories: (1) methods that require intensive labor to manually record events or (2) systems that require deployment of dedicated sensors. These approaches are difficult and costly to execute and maintain. In addition, most prior work uses dedicated sensors designed for a single purpose, resulting in deployment of multiple sensor systems. This further increases costs. Meanwhile, with the increasing demands of structural health monitoring, many vibration sensors are being deployed in commercial buildings. Traffic events create ground vibration that propagates to nearby building structures inducing noisy vibration responses. We present an information-theoretic method for train event monitoring using commonly existing vibration sensors deployed for building health monitoring. The key idea is to represent the wave propagation in a building induced by train traffic as information conveyed in noisy measurement signals. Our technique first uses wavelet analysis to detect train events. Then, by analyzing information exchange patterns of building vibration signals, we infer the category of the events (i.e., southbound or northbound train). Our algorithm is evaluated with an 11-story building where trains pass by frequently. The results show that the method can robustly achieve a train event detection accuracy of up to a 93% true positive rate and an 80% true negative rate. For direction categorization, compared with the traditional signal processing method, our information-theoretic approach reduces categorization error from 32.1 to 12.1%, which is a 2.5× improvement.http://journal.frontiersin.org/article/10.3389/fbuil.2017.00022/fulltrain traffic monitoringbuilding vibrationinformation theorycausal analysiswavelet analysisindirect sensing
collection DOAJ
language English
format Article
sources DOAJ
author Susu Xu
Lin Zhang
Pei Zhang
Hae Young Noh
spellingShingle Susu Xu
Lin Zhang
Pei Zhang
Hae Young Noh
An Information-Theoretic Approach for Indirect Train Traffic Monitoring Using Building Vibration
Frontiers in Built Environment
train traffic monitoring
building vibration
information theory
causal analysis
wavelet analysis
indirect sensing
author_facet Susu Xu
Lin Zhang
Pei Zhang
Hae Young Noh
author_sort Susu Xu
title An Information-Theoretic Approach for Indirect Train Traffic Monitoring Using Building Vibration
title_short An Information-Theoretic Approach for Indirect Train Traffic Monitoring Using Building Vibration
title_full An Information-Theoretic Approach for Indirect Train Traffic Monitoring Using Building Vibration
title_fullStr An Information-Theoretic Approach for Indirect Train Traffic Monitoring Using Building Vibration
title_full_unstemmed An Information-Theoretic Approach for Indirect Train Traffic Monitoring Using Building Vibration
title_sort information-theoretic approach for indirect train traffic monitoring using building vibration
publisher Frontiers Media S.A.
series Frontiers in Built Environment
issn 2297-3362
publishDate 2017-05-01
description This paper introduces an indirect train traffic monitoring method to detect and infer real-time train events based on the vibration response of a nearby building. Monitoring and characterizing traffic events are important for cities to improve the efficiency of transportation systems (e.g., train passing, heavy trucks, and traffic). Most prior work falls into two categories: (1) methods that require intensive labor to manually record events or (2) systems that require deployment of dedicated sensors. These approaches are difficult and costly to execute and maintain. In addition, most prior work uses dedicated sensors designed for a single purpose, resulting in deployment of multiple sensor systems. This further increases costs. Meanwhile, with the increasing demands of structural health monitoring, many vibration sensors are being deployed in commercial buildings. Traffic events create ground vibration that propagates to nearby building structures inducing noisy vibration responses. We present an information-theoretic method for train event monitoring using commonly existing vibration sensors deployed for building health monitoring. The key idea is to represent the wave propagation in a building induced by train traffic as information conveyed in noisy measurement signals. Our technique first uses wavelet analysis to detect train events. Then, by analyzing information exchange patterns of building vibration signals, we infer the category of the events (i.e., southbound or northbound train). Our algorithm is evaluated with an 11-story building where trains pass by frequently. The results show that the method can robustly achieve a train event detection accuracy of up to a 93% true positive rate and an 80% true negative rate. For direction categorization, compared with the traditional signal processing method, our information-theoretic approach reduces categorization error from 32.1 to 12.1%, which is a 2.5× improvement.
topic train traffic monitoring
building vibration
information theory
causal analysis
wavelet analysis
indirect sensing
url http://journal.frontiersin.org/article/10.3389/fbuil.2017.00022/full
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