Design and Kinematics Analysis of Suspension System for ABAY Vehicle

Report and Opinion Journal 13 (10):12-24 (2021)
  Copy   BIBTEX

Abstract

The main objective of the suspension of a vehicle is to maximize the contact between the vehicle tires and the road surface, provide steering stability and provide safe vehicle control in all conditions, evenly support the weight of the vehicle, transfer the loads to springs, and guaranteeing the comfort of the driver by absorbing and dampening shock. This paper discusses the kinematic design of a double a-arm Suspension system for ABAY Vehicle. The hardpoint's location can be determined using this procedure to simulate motion in any kinematic simulation software. Here, Optimum Kinematics is used as kinematic simulation software. The method illustrated deals with the basics of Kinematics which helps to predict the characteristics of the suspension even before simulating it in the kinematic simulation software.

Categories

Add categories

Keywords

Reprint years

Other Versions

No versions found

Links

PhilArchive

External links

  • This entry has no external links. Add one.
Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

Enhancing Ride Comfort of Quarter Car Semi-active Suspension System Through State-Feedback Controller.Muhamad Amin Zul Ifkar Mohd Fauzi, Fitri Yakub, Sheikh Ahmad Zaki Shaikh Salim, Hafizal Yahaya, Pauziah Muhamad, Zainudin A. Rasid, Hoong Thiam Toh & Mohamad Sofian Abu Talip - 2018 - Proceedings of the Second International Conference on the Future of Asean (Icofa) 2017 – Volume 2: Science and Technology:827-837.
H ∞ and μ-synthesis Design of Quarter Car Active Suspension System.Mustefa Jibril - 2020 - International Journal of Scientific Research and Engineering Development 3 (1):608-619.
Body Travel Performance Improvement of Space Vehicle Electromagnetic Suspension System using LQG and LQI Control Methods.Mustefa Jibril - 2020 - Researcher 12 (5):70-75.
Comparison of Neural Network NARMA-L2 Model Reference and Predictive Controllers for Electromagnetic Space Vehicle Suspension System.Mustefa Jibril, Mesay Tadesse & Nurye Hassen - 2021 - Journal of Engineering and Applied Sciences 16 (10):313-317.
Comparison of H∞ and μ-synthesis Control Design for Quarter Car Active Suspension System using Simulink.Mustefa Jibril - 2020 - International Journal of Scientific Research and Engineering Development 3 (1):596-607.
Quarter car active suspension system design using optimal and robust control method.Mustefa Jibril - 2020 - International Research Journal of Modernization in Engineering Technology and Science 2 (3):197-207.
Comparison of neural network NARMA-L2 model reference and predictive controllers for nonlinear quarter car active suspension system.Mustefa Jibril - 2020 - International Research Journal of Modernization in Engineering Technology and Science 2 (3):178-188.
Design and Performance Assessment of Adaptive Harmonic Control for a Half-Car Active Suspension System.Maria-Geanina Unguritu, Teodor-Constantin Nichițelea & Dan Selișteanu - 2022 - Complexity 2022:1-14.
Performance investigation of H∞ controller for quarter car semi-active suspension system using simulink.Mustefa Jibril - 2020 - International Research Journal of Modernization in Engineering Technology and Science 2 (3):189-196.
Improvement on Ride Comfort of Quarter-Car Active Suspension System Using Linear Quadratic Regulator.Sharifah Munawwarah Syed Mohd Putra, Fitri Yakub, Mohamed Sukri Mat Ali, Noor Fawazi Mohd Noor Rudin, Zainudin A. Rasid, Aminudin Abu & Mohd Zamzuri Ab Rashid - 2018 - Proceedings of the Second International Conference on the Future of Asean (Icofa) 2017 – Volume 2: Science and Technology:431-441.

Analytics

Added to PP
2021-10-23

Downloads
3,066 (#3,253)

6 months
411 (#4,136)

Historical graph of downloads
How can I increase my downloads?

Author's Profile

Mustefa Jibril
Dire Dawa University

Citations of this work

No citations found.

Add more citations

References found in this work

No references found.

Add more references