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Tire-Road Friction Coefficient Estimation Method Design for Intelligent Tires Equipped with Three-Axis Accelerometer

Journal Article
10-05-03-0017
ISSN: 2380-2162, e-ISSN: 2380-2170
DOI: https://doi.org/10.4271/10-05-03-0017
Published May 05, 2021 by SAE International in United States
Tire-Road Friction Coefficient Estimation Method Design for Intelligent Tires Equipped with Three-Axis Accelerometer
Sector:
Citation: Zou, Z., Zhang, X., Zou, Y., and Lenzo, B., "Tire-Road Friction Coefficient Estimation Method Design for Intelligent Tires Equipped with Three-Axis Accelerometer," SAE Int. J. Veh. Dyn., Stab., and NVH 5(3):249-258, 2021, https://doi.org/10.4271/10-05-03-0017.
Language: English

References

  1. Khaleghian , S. , Emami , A. , and Taheri , S. A Technical Survey on Tire Road Friction Estimation Friction 5 2 2017 123 146
  2. Pohl , A. , Steindl , R. , and Reindl , L. The ‘Intelligent Tire’ Utilizing Passive SAW Sensors Measurement of Tire Friction IEEE Transactions on Instrumentation and Measurement 48 6 1999 1041 1046
  3. Matsuzaki , R. and Todoroki , A. Wireless Strain Monitoring of Tires Using Electrical Capacitance Changes with an Oscillating Circuit Sensors and Actuators A: Physical 119 2 2005 323 331
  4. Yilmazoglu , O. , Brandt , M. , Sigmund , J. et al. Integrated InAs/GaSb 3D Magnetic Field Sensors for ‘The Intelligent Tire’ Sensors and Actuators A: Physical 94 1-2 2001 59 63
  5. Tuononen , A.J. Optical Position Detection to Measure Tyre Carcass Deflections Vehicle System Dynamics 46 6 2008 471 481
  6. Zang , M. , Gao , W. , and Lei , Z. A Contact Algorithm for 3D Discrete and Finite Element Contact Problems Based on Penalty Function Method Computational Mechanics 48 5 2011 541 550
  7. Khaleghian , S. , Ghasemalizadeh , O. , and Taheri , S. Estimation of the Tire Contact Patch Length and Normal Load Using Intelligent Tires and Its Application in Small Ground Robot to Estimate the Tire-Road Friction Tire Science & Technology 44 4 2016 248 261
  8. Singh , K.B. , Ali Arat , M. , and Taheri , S. An Intelligent Tire Based Tire-Road Friction Estimation Technique and Adaptive Wheel Slip Controller for Antilock Brake System Journal of Dynamic Systems Measurement & Control 135 3 2013 031002
  9. Niskanen , A.J. and Tuononen , A.J. Accelerometer Tyre to Estimate the Aquaplaning State of the Tyre-Road Contact 2015 IEEE Intelligent Vehicles Symposium (IV) Seoul, Korea 2015
  10. Xia , K. and Yang , Y. Three-Dimensional Finite Element Modeling of Tire/Ground Interaction International Journal for Numerical & Analytical Methods in Geomechanics 36 4 2012 498 516
  11. Cao , P. , Feng , D. , Jin , F. et al. Tire-Pavement Contact Stress with 3D Finite-Element Model-Part 2: All-Steel Tire on Heavy Vehicles Journal of Testing & Evaluation 44 2 2016 801 811
  12. Kennedy , R. and Padovan , J. Finite Element Analysis of a Steady-State Rotating Tire Subjected to Point Load or Ground Contact Tire Science & Technology 15 4 1987 243 260
  13. Korunović , N. , Trajanović , M. , Stojković , M. et al. Finite Element Analysis of a Tire Steady Rolling on the Drum and Comparison with Experiment Strojniški vestnik-Journal of Mechanical Engineering 57 12 2011 888 897
  14. Kao , B.G. Tire Transient Analysis with an Explicit Finite Element Program Tire Science & Technology 25 4 1997 230 244
  15. Kabe , K. and Koishi , M. Tire Cornering Simulation Using an Explicit Finite Element Analysis Code Journal of Applied Polymer Science 78 8 1998 1566 1572
  16. Cho , J.R. , Kim , K.W. , Jeon , D.H. et al. Transient Dynamic Response Analysis of 3-D Patterned Tire Rolling over Cleat European Journal of Mechanics A Solids 24 3 2005 519 531
  17. Guo , K. , Chen , P. , Xu , N. , Yang , C. et al. Tire Side Force Characteristics with the Coupling Effect of Vertical Load and Inflation Pressure SAE Int. J. Veh. Dyn., Stab., and NVH 3 1 2018 19 30 https://doi.org/10.4271/10-03-01-0002
  18. Khaleghian , S. , Ghasemalizadeh , O. , Taheri , S. , and Flintsch , G. A Combination of Intelligent Tire and Vehicle Dynamic Based Algorithm to Estimate the Tire-Road Friction SAE Int. J. Passeng. Cars - Mech. Syst. 12 2 2019 81 97 https://doi.org/10.4271/06-12-02-0007
  19. Niskanen , A.J. and Tuononen , A.J. Three 3-Axis Accelerometers on the Inner Liner of a Tyre for Finding the Tyre-Road Contact Friction Indicators Proceedings of AVEC International Symposium on Advanced Vehicle Control Tokyo, Japan 2014
  20. Ojala , J. Using ABAQUS in Tire Development Process 2005 ABAQUS Worldwide User Conference Stockholm, Sweden 2005
  21. Balaramakrishna , N. et al. A Study on the Estimation of Swift Model Parameters by Finite Element Analysis Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering 223 10 2009 1283 1300
  22. Harper , M. , Tardiff , J. , Haakenson , D. , Joandrea , M. et al. Tire Tread Performance Modification Utilizing Polymeric Additives SAE Int. J. Veh. Dyn., Stab., and NVH 1 2 2017 179 189 https://doi.org/10.4271/2017-01-1502
  23. Erdogan , G. , Hong , S. , Borrelli , F. , and Hedrick , K. Tire Sensors for the Measurement of Slip Angle and Friction Coefficient and Their Use in Traction Control Systems SAE Int. J. Passeng. Cars - Mech. Syst. 4 1 2011 44 58 https://doi.org/10.4271/2011-01-0095
  24. Sams , T. The Effect of Structural Damping Foam on Tire Vibration SAE Int. J. Veh. Dyn., Stab., and NVH 4 2020 83 96 https://doi.org/10.4271/10-04-02-0006
  25. Hong , S. , Erdogan , G. , Hedrick , K. et al. Tyre-Road Friction Coefficient Estimation Based on Tyre Sensors and Lateral Tyre Deflection: Modelling, Simulations and experiments Vehicle System Dynamics 51 5 2013 627 647
  26. Matsuzaki , R. , Kamai , K. , and Seki , R. Intelligent Tires for Identifying Coefficient of Friction of Tire/Road Contact Surfaces Using Three-Axis Accelerometer Smart Materials and Structures 24 2 2014 025010

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