A Strain-Based Method to Detect Tires’ Loss of Grip and Estimate Lateral Friction Coefficient from Experimental Data by Fuzzy Logic for Intelligent Tire Development

A Strain-Based Method to Detect Tires’ Loss of Grip and Estimate Lateral Friction Coefficient from Experimental Data by Fuzzy Logic for Intelligent Tire Development

Tires are a key sub-system of vehicles that have a big responsibility for comfort, fuel consumption and traffic safety. However, current tires are just passive rubber elements which do not contribute actively to improve the driving experience or vehicle safety. The lack of information from the tire...

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Main Authors: Jorge Yunta, Daniel Garcia-Pozuelo, Vicente Diaz, Oluremi Olatunbosun
Format: Article
Language:English
Published: MDPI AG 2018-02-01
Series:Sensors
Subjects:
intelligent tires
strain gauges
fuzzy logic
tire slip
lateral friction coefficient
Online Access:http://www.mdpi.com/1424-8220/18/2/490
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spelling doaj-3543d1704d674b2484096ad57306a7f62020-11-25T00:51:37ZengMDPI AGSensors1424-82202018-02-0118249010.3390/s18020490s18020490A Strain-Based Method to Detect Tires’ Loss of Grip and Estimate Lateral Friction Coefficient from Experimental Data by Fuzzy Logic for Intelligent Tire DevelopmentJorge Yunta0Daniel Garcia-Pozuelo1Vicente Diaz2Oluremi Olatunbosun3Department of Mechanical Engineering, Research Institute of Vehicle Safety (ISVA), Universidad Carlos III de Madrid, Avd. De la Universidad, 28911 Leganés (Madrid), SpainDepartment of Mechanical Engineering, Research Institute of Vehicle Safety (ISVA), Universidad Carlos III de Madrid, Avd. De la Universidad, 28911 Leganés (Madrid), SpainDepartment of Mechanical Engineering, Research Institute of Vehicle Safety (ISVA), Universidad Carlos III de Madrid, Avd. De la Universidad, 28911 Leganés (Madrid), SpainSchool of Mechanical Engineering, University of Birmingham, B15 2TT Edgbaston, UKTires are a key sub-system of vehicles that have a big responsibility for comfort, fuel consumption and traffic safety. However, current tires are just passive rubber elements which do not contribute actively to improve the driving experience or vehicle safety. The lack of information from the tire during driving gives cause for developing an intelligent tire. Therefore, the aim of the intelligent tire is to monitor tire working conditions in real-time, providing useful information to other systems and becoming an active system. In this paper, tire tread deformation is measured to provide a strong experimental base with different experiments and test results by means of a tire fitted with sensors. Tests under different working conditions such as vertical load or slip angle have been carried out with an indoor tire test rig. The experimental data analysis shows the strong relation that exists between lateral force and the maximum tensile and compressive strain peaks when the tire is not working at the limit of grip. In the last section, an estimation system from experimental data has been developed and implemented in Simulink to show the potential of strain sensors for developing intelligent tire systems, obtaining as major results a signal to detect tire’s loss of grip and estimations of the lateral friction coefficient.http://www.mdpi.com/1424-8220/18/2/490intelligent tiresstrain gaugesfuzzy logictire sliplateral friction coefficient
collection DOAJ
language English
format Article
sources DOAJ
author Jorge Yunta
Daniel Garcia-Pozuelo
Vicente Diaz
Oluremi Olatunbosun
spellingShingle Jorge Yunta
Daniel Garcia-Pozuelo
Vicente Diaz
Oluremi Olatunbosun
A Strain-Based Method to Detect Tires’ Loss of Grip and Estimate Lateral Friction Coefficient from Experimental Data by Fuzzy Logic for Intelligent Tire Development
Sensors
intelligent tires
strain gauges
fuzzy logic
tire slip
lateral friction coefficient
author_facet Jorge Yunta
Daniel Garcia-Pozuelo
Vicente Diaz
Oluremi Olatunbosun
author_sort Jorge Yunta
title A Strain-Based Method to Detect Tires’ Loss of Grip and Estimate Lateral Friction Coefficient from Experimental Data by Fuzzy Logic for Intelligent Tire Development
title_short A Strain-Based Method to Detect Tires’ Loss of Grip and Estimate Lateral Friction Coefficient from Experimental Data by Fuzzy Logic for Intelligent Tire Development
title_full A Strain-Based Method to Detect Tires’ Loss of Grip and Estimate Lateral Friction Coefficient from Experimental Data by Fuzzy Logic for Intelligent Tire Development
title_fullStr A Strain-Based Method to Detect Tires’ Loss of Grip and Estimate Lateral Friction Coefficient from Experimental Data by Fuzzy Logic for Intelligent Tire Development
title_full_unstemmed A Strain-Based Method to Detect Tires’ Loss of Grip and Estimate Lateral Friction Coefficient from Experimental Data by Fuzzy Logic for Intelligent Tire Development
title_sort strain-based method to detect tires’ loss of grip and estimate lateral friction coefficient from experimental data by fuzzy logic for intelligent tire development
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2018-02-01
description Tires are a key sub-system of vehicles that have a big responsibility for comfort, fuel consumption and traffic safety. However, current tires are just passive rubber elements which do not contribute actively to improve the driving experience or vehicle safety. The lack of information from the tire during driving gives cause for developing an intelligent tire. Therefore, the aim of the intelligent tire is to monitor tire working conditions in real-time, providing useful information to other systems and becoming an active system. In this paper, tire tread deformation is measured to provide a strong experimental base with different experiments and test results by means of a tire fitted with sensors. Tests under different working conditions such as vertical load or slip angle have been carried out with an indoor tire test rig. The experimental data analysis shows the strong relation that exists between lateral force and the maximum tensile and compressive strain peaks when the tire is not working at the limit of grip. In the last section, an estimation system from experimental data has been developed and implemented in Simulink to show the potential of strain sensors for developing intelligent tire systems, obtaining as major results a signal to detect tire’s loss of grip and estimations of the lateral friction coefficient.
topic intelligent tires
strain gauges
fuzzy logic
tire slip
lateral friction coefficient
url http://www.mdpi.com/1424-8220/18/2/490
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