Experimental study on effects of vehicle speed variations on effective rolling radius according to the changes in tire pressure
Year 2020,
, 130 - 137, 29.09.2020
Hakan Köylü
Abstract
This study aims to experimentally examine the effects of vehicle speed changes on the vertical resonance frequency of effective rolling radius variations for applying to TPMS (Tire Pressure Monitoring System). For this, the road tests have been conducted at constant vehicle speeds 30, 60, 90km/h for tire pressures 15, 20, 25, 30, 35psi. In these tests, the effective rolling radius changes have been measured. Test results show that the vehicle speed changes cause the resonance frequency to shift at same tire pressure. Therefore, this study shows that the changes in vertical resonance frequency resulting from vehicle speed changes may cause wrong tire pressure information to be taken by TPMS.
Supporting Institution
Scientific Research Foundation of Kocaeli University
Thanks
This study was supported by the Grants from Scientific Research Foundation of Kocaeli University (Project No. 2011/088). Also, in this project, Batuhan Polat, Metin Akyildiz, Murat Ozcu, Ayhan Senturk and Ugur Altiparmakoglu studied as a researcher. The author is pleased to thank the individuals and Kocaeli University who contributed to this study.
References
- Genta, G. Motor Vehicle Dynamics: Modeling and Simulation, World Scientific Publishing, USA. Anghelache, G and Moisescu, R. (2017), The measurement of dynamic radii for passenger car tyre, IOP Conf. Ser.: Mater. Sci. Eng. 252 012014, 1997.
- Persson, N., Ahlqvist, S., Forssell, U., Gustafsson, F. Low Tire Pressure Warning System Using Sensor Fusion," Society of Automotive Engineers Technical Paper, 2001-01-3337, 2001.
- Pohl, A., Ostermayer, G., Reindl, L and Seifert, F. Monitoring the Tire Pressure at Cars Using Passive SAW Sensors. Proceedings of IEEE Ultrasonics Symposium, Toronto, 471 – 474, 1997.
- Elfasakhany, A Tire Pressure Checking Framework: A Review Study, Reliability Engineering and Resilience Vol:1, No:1, 12-28, 2019.
- Sankaranarayanan,V and Güvenç, L Tire Pressure Monitoring, IEEE Control Systems Magazine, December 2007.
- Fileming,B Tire Pressure-Monitoring Systems Rollout, IEEE Vehicular Technology Magazine, September 2009.
- Prashant. G.S., Harshal R. K., Saiprasad N.K., Ayaan A. K. Automatıc Tyre Pressure Monıtorıng System Usıng Wıreless Communication, International journal of Advance Research in Science and Engineering, Vol:3, 471-479.
- Reina, G., Gentile, A. Messina, A. (2015) Tyre pressure monitoring using a dynamical model-based estimator, Vehicle System Dynamics, Vol. 53, No. 4, 568–586, 2017.
- Wang, L., Zhang, Z., Yao, Y., Han, Zongqi, Wang, B., Wang, L Monitoring Method of Indirect TPMS Under Steering Situation, 3rd International Conference on Mechanical, Industrial, and Manufacturing Engineering-MIME, 2016.
- Goharimaneshi, M., Riahi, A., Lashkaripour, A., Akbari, A. A. Tire Inflation Pressure Estimation Using Identification Techniques, International Journal of Software Engineering and Its Applications Vol. 10, No. 7, 135-144, 2016.
- Anghelache, G and Moisescu, R., The measurement of dynamic radii for passenger car tyre, IOP Conf. Ser.: Mater. Sci. Eng. 252 012014, 2017.
- Zhu, B., Han, J., Zhao, J. Tire-Pressure Identification Using Intelligent Tire with Three-Axis Accelerometer, Sensors Vol:19, 2560.
- Pacejka, H.B. Tyre and Vehicle Dynamics-Second Edition, Butterworth Heinemann, United Kingdom, 2006.
- Wong, J.Y. Theory of Ground Vehicles - Second Edition, WILEY, New York, 1993.