Evaluation and Modeling of the Car Speed Control Process using a PID Controller
DOI:
10.47709/brilliance.v1i2.1705Keywords:
Car speed, Speed control, PID controllerDimension Badge Record
Abstract
Car speed is an essential attribute for analysing the utility of a transport mode. The speed relationship between multiple modes of transport is of interest to traffic planners and operators. Nowadays, the cruise control system has become a common feature of modern cars. A car control system helps in providing comfortability to the driver while driving long-distance travel. Using a car control system, travelling on the highways has become easier than before because it reduces the mental and physical stress caused by regularly monitoring the speed of the car and frequently pressing the gas pedal to maintain the speed. This paper is aimed at modelling a car control system and examining its characteristics based on the PID control strategy. Proportional-Integral-Derivative (PID) controller provides a great way to stabilize systems. It has the ability to change the response of the system to be stable and reliable when it is used for controlling systems. This system is actualized with the help of MATLAB for simulation and control purposes. The paper showed that without the use of the PID controller, the speed was stable after 100 seconds, and when the controller was used and self-turned, the speed was approximately stable at 20 seconds, and this shows the effectiveness of using the PID controller.
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References
Hanlin Zhan, Lei Deng, Shengjun Xue (2012), “ Design of Smart Car Speed Control System Based on Fuzzy Algorithm and PID Algorithm " IEEE 7th International Power Electronics and Motion Control Conference - ECCE Asia, Harbin, China, Volume:1, pp. 763-766.
N. Vedam, I. Diaz-Rodriguez, and S. P. Bhattacharyya, “A novel approach to the design of controllers in an automotive cruise control system,” in IECON 2014 - 40th Annual Conference of the IEEE Industrial Electronics Society, 2014, pp. 2927–2932.
D. Kim, S. Moon, J. Park, H. J. Kim, and K. Yi, “Design of an Adaptive Cruise Control / Collision Avoidance with lane change support for vehicle autonomous driving,” in 2009 ICCAS-SICE, 2009, pp. 2938–2943.
A. O. Dwyer, “PI and PID controller tuning rules: an overview and personal perspective,” in 2006 IET Irish Signals and Systems Conference, 2006, pp. 161–166.
H. Jeongheon and R. Skelton, “An LMI optimization approach for structured linear controllers,” in Proceedings of the 42nd IEEE International Conference on Decision and Control, pp. 5143–5148, Maui, HI, USA, 2003.
M. Jaiswal, M. Phadnis, and H. O. D. Ex, “Speed control of DC motor using genetic algorithm based PID controller,” International Journal of Advanced Research in Computer Science and Software Engineering, vol. 3, no. 7, pp. 2277–128, 2013.
E. Vinodh Kumar and J. Jerome, “LQR based optimal tuning of PID controller for trajectory tracking of magnetic levitation system,” in Proceedings of the 2013 International Conference on Design and Manufacturing, IConDM 2013, pp. 254–264, India, July 2013.
K. Osman, M. F. Rahmat, and M. A. Ahmad, “Modelling and controller design for a cruise control system,” in 2009 5th International Colloquium on Signal Processing Its Applications, 2009, pp. 254–258.
M. K. Rout, D. Sain, S. K. Swain, and S. K. Mishra, “PID controller design for cruise control system using genetic algorithm,” in 2016 International Conference on Electrical, Electronics, and Optimization Techniques (ICEEOT), 2016, pp. 4170–4174.
Khairuddin Osman, Mohd. Fuaad Rahmat, Mohd Ashraf Ahmad,"Controller Design for a Cruise Control system," Kuala LumpurMalaysia, 2009.
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Accepted Date: 2022-09-03
Published Date: 2022-09-04
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Copyright (c) 2021 Faraj Ahmed Elzarook Barood, Abdulsalam Eshtaiwi
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