This paper has presented a control system for vehicle dynamics and mass estimation. The objective of this paper is to use a single-tyre model of slip control integrated with extended Kalman filter (EKF) to estimate the states of a vehicle such as the forward velocity, wheel slip, coefficient of friction of the road surface and the mass that cannot be measured directly. In order to do this, the dynamics of a vehicle moving with a forward velocity were obtained using a single-tyre model. The dynamic equations in continuous time were transformed into their equivalent discrete time form. A two degree of freedom proportional integral and derivative (2DOFPID) control algorithm was implemented for the control loop. An estimator was designed using the extended Kalman filter algorithm to carry out the estimation based on noisy measurement of wheel rotational speed. The entire system was modeled using Matlab/Simulink blocks. Simulations were performed to determine the effectiveness of the estimator. The simulation results showed that the extended Kalman filter effectively estimated the states of a single-tyre model of a vehicle represented by a slip control system. Though the results obtained seemed promising but will be improved if the covariance matrices are calculated with adequate information and are better tuned.
| Published in | International Journal of Industrial and Manufacturing Systems Engineering (Volume 2, Issue 4) |
| DOI | 10.11648/j.ijimse.20170204.12 |
| Page(s) | 42-47 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Control System, Vehicle Dynamics, Mass, Extended Kalman Filter, Estimation
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APA Style
Paulinus Chinaenye Eze, Chinonso Francis Ubaonu, Bonaventure Onyeka Ekengwu, Chidiebere Alison Ugoh, Inaibo Dein Samuel. (2017). Design of Control System for Vehicle Dynamics and Mass Estimation. International Journal of Industrial and Manufacturing Systems Engineering, 2(4), 42-47. https://doi.org/10.11648/j.ijimse.20170204.12
ACS Style
Paulinus Chinaenye Eze; Chinonso Francis Ubaonu; Bonaventure Onyeka Ekengwu; Chidiebere Alison Ugoh; Inaibo Dein Samuel. Design of Control System for Vehicle Dynamics and Mass Estimation. Int. J. Ind. Manuf. Syst. Eng. 2017, 2(4), 42-47. doi: 10.11648/j.ijimse.20170204.12
AMA Style
Paulinus Chinaenye Eze, Chinonso Francis Ubaonu, Bonaventure Onyeka Ekengwu, Chidiebere Alison Ugoh, Inaibo Dein Samuel. Design of Control System for Vehicle Dynamics and Mass Estimation. Int J Ind Manuf Syst Eng. 2017;2(4):42-47. doi: 10.11648/j.ijimse.20170204.12
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Download@article{10.11648/j.ijimse.20170204.12,
author = {Paulinus Chinaenye Eze and Chinonso Francis Ubaonu and Bonaventure Onyeka Ekengwu and Chidiebere Alison Ugoh and Inaibo Dein Samuel},
title = {Design of Control System for Vehicle Dynamics and Mass Estimation},
journal = {International Journal of Industrial and Manufacturing Systems Engineering},
volume = {2},
number = {4},
pages = {42-47},
doi = {10.11648/j.ijimse.20170204.12},
url = {https://doi.org/10.11648/j.ijimse.20170204.12},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijimse.20170204.12},
abstract = {This paper has presented a control system for vehicle dynamics and mass estimation. The objective of this paper is to use a single-tyre model of slip control integrated with extended Kalman filter (EKF) to estimate the states of a vehicle such as the forward velocity, wheel slip, coefficient of friction of the road surface and the mass that cannot be measured directly. In order to do this, the dynamics of a vehicle moving with a forward velocity were obtained using a single-tyre model. The dynamic equations in continuous time were transformed into their equivalent discrete time form. A two degree of freedom proportional integral and derivative (2DOFPID) control algorithm was implemented for the control loop. An estimator was designed using the extended Kalman filter algorithm to carry out the estimation based on noisy measurement of wheel rotational speed. The entire system was modeled using Matlab/Simulink blocks. Simulations were performed to determine the effectiveness of the estimator. The simulation results showed that the extended Kalman filter effectively estimated the states of a single-tyre model of a vehicle represented by a slip control system. Though the results obtained seemed promising but will be improved if the covariance matrices are calculated with adequate information and are better tuned.},
year = {2017}
}
TY - JOUR T1 - Design of Control System for Vehicle Dynamics and Mass Estimation AU - Paulinus Chinaenye Eze AU - Chinonso Francis Ubaonu AU - Bonaventure Onyeka Ekengwu AU - Chidiebere Alison Ugoh AU - Inaibo Dein Samuel Y1 - 2017/10/31 PY - 2017 N1 - https://doi.org/10.11648/j.ijimse.20170204.12 DO - 10.11648/j.ijimse.20170204.12 T2 - International Journal of Industrial and Manufacturing Systems Engineering JF - International Journal of Industrial and Manufacturing Systems Engineering JO - International Journal of Industrial and Manufacturing Systems Engineering SP - 42 EP - 47 PB - Science Publishing Group SN - 2575-3142 UR - https://doi.org/10.11648/j.ijimse.20170204.12 AB - This paper has presented a control system for vehicle dynamics and mass estimation. The objective of this paper is to use a single-tyre model of slip control integrated with extended Kalman filter (EKF) to estimate the states of a vehicle such as the forward velocity, wheel slip, coefficient of friction of the road surface and the mass that cannot be measured directly. In order to do this, the dynamics of a vehicle moving with a forward velocity were obtained using a single-tyre model. The dynamic equations in continuous time were transformed into their equivalent discrete time form. A two degree of freedom proportional integral and derivative (2DOFPID) control algorithm was implemented for the control loop. An estimator was designed using the extended Kalman filter algorithm to carry out the estimation based on noisy measurement of wheel rotational speed. The entire system was modeled using Matlab/Simulink blocks. Simulations were performed to determine the effectiveness of the estimator. The simulation results showed that the extended Kalman filter effectively estimated the states of a single-tyre model of a vehicle represented by a slip control system. Though the results obtained seemed promising but will be improved if the covariance matrices are calculated with adequate information and are better tuned. VL - 2 IS - 4 ER -
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