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System Level Design of a Self-Stabilizing Two-Wheeler Suspension Concept
Technical Paper
2019-28-0127
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Two-wheeler represent one of the most used mode of transport in countries like India. The data from NCRB shows that most injuries to two-wheeler motorists are after being thrown off the vehicle. A self-stabilized combined with enclosure prevents serious injury in case of a skidding of the two-wheeler. The primary objective of the work is to create a suspension system for the enclosed self-balancing two-wheeler such that it can withstand the load of the vehicle itself and the extra payload. Ride comfort was primary objective of the work.
The suspension system was modeled from the first principles, solved using MATLABTM SIMULINKTM and kinematics simulation was performed to learn the behavior of the system in MSC ADAMSTM. Dynamic simulations were also carried out to check if the forces were under permissible levels for overall design. The parameters considered for the work were hard-points, suspension stiffness and damping. With manual parameter iterations, suspension parameters were tuned for optimal suspension travel, load transmission and power transmission to ground.
The work presents a concept for suspension system verified for kinematics and dynamic performance of the suspension.
Authors
Citation
Sankarasubramanian, H. and Prabhahar, D., "System Level Design of a Self-Stabilizing Two-Wheeler Suspension Concept," SAE Technical Paper 2019-28-0127, 2019, https://doi.org/10.4271/2019-28-0127.Data Sets - Support Documents
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References
- SIAM http://www.siamindia.com/statistics.aspx?mpgid=8&pgidtrail=14 2019
- NCRB 2016
- Cossalter , V. Motorcycle Dynamics Vittore Cossalter 9781430308614 2006
- Gao , W. , Zhang , N. , and Du , H.P. A Half-Car Model for Dynamic Analysis of Vehicles with Random Parameters Proceedings of the 5th Australasian Congress on Applied Mechanics 2007 595
- Karanam , V.M. , Chatterjee , A. , and Ghosal , A. 2011