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Analytical Modeling and Multi-Objective Optimization of the Articulated Vehicle Steering System
Technical Paper
2022-01-0879
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
The articulated steering system is widely used in engineering vehicles due to its high mobility and low steering radius. The design parameters have a vital impact on the selection of the steering system assemblies, such as the operation stroke, pressure, and force of the hydraulic cylinders during the steering process, which will affect the system weight. The system energy consumption is also relevant to the geometry parameters. According to the kinetic analysis of the steering system and dynamic analysis of the steering process, the kinetic model of an engineering vehicle steering system is built, and the length and pressure variation of the cylinder is calculated and validated by the field test. The influence of the factors is analyzed based on the established model. To lower the system weight, needed pressure, and force, the multi-objective particle swarm optimization method is initiated to optimize the geometry parameter of the articulated steering system. After optimization, the weight of the system is decreased by 0.61kg, and the maximum force and pressure are decreased by 9.47% and 9.54% respectively.
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Citation
Peng, D., Chen, L., and Tan, G., "Analytical Modeling and Multi-Objective Optimization of the Articulated Vehicle Steering System," SAE Technical Paper 2022-01-0879, 2022, https://doi.org/10.4271/2022-01-0879.Also In
References
- Watanabe , K. and Kitano , M. Study on Steerability of Articulated Tracked Vehicles - Part 1. Theoretical and Experimental Analysis Journal of Terramechanics 23 2 1986 69 83
- Alshaer , B.J. , Darabseh , T.T. , and Momani , A.Q. Modelling and Control of an Autonomous Articulated Mining Vehicle Navigating a Predefined Path International Journal of Heavy Vehicle Systems 21 2 2014 152 168
- Nayl , T. , Nikolakopoulos , G. , and Gustafsson , T. Effect of Kinematic Parameters On MPC Based On-Line Motion Planning for an Articulated Vehicle Robotics and Autonomous Systems 70 2015 16 24
- Nayl , T. , Nikolakopoulos , G. , Gustafsson , T. , Kominiak , D. et al. Design and Experimental Evaluation of a Novel Sliding Mode Controller for an Articulated Vehicle Robotics and Autonomous Systems 103 2018 213 221
- Xu , T. , Shen , Y. , Xie , J. , and Zhang , W. Study of Hydraulic Steering Process for Intelligent Autonomous Articulated Vehicle SAE Technical Paper 2018-01-0133 2018 https://doi.org/10.4271/2018-01-0133
- Zhang , Y. , Khajepour , A. , Hashemi , E. , Qin , Y. et al. Reconfigurable Model Predictive Control for Articulated Vehicle Stability with Experimental Validation IEEE Transactions on Transportation Electrification 6 1 2020 308 317
- DudziĆski , P.A. Problems of Turning Process in Articulated Terrain Vehicles Journal of Terramechanics 23 4 1983 243 256
- Wang , J. Mechanical Analysis of Insitu Steering of Articulated Loader Coal Mine Machinery 30 3 2009 36 42
- He , Y. , Khajepour , A. , McPhee , J. , and Wang , X. Dynamic Modelling and Stability Analysis of Articulated Frame Steer Vehicles International Journal of Heavy Vehicle Systems 12 1 2005 28 59
- Azad , N.L. , Khajepour , A. , and McPhee , J. Robust State Feedback Stabilization of Articulated Steer Vehicles User Modeling and User-Adapted Interaction 45 3 2007 249 275
- Yin , Y. , Rakheja , S. , Yang , J. , and Boileau , P. Analysis of a Flow Volume Regulated Frame Steering System and Experimental Verifications SAE Technical Paper 2015-01-2740 2015 https://doi.org/10.4271/2015-01-2740
- Yin , Y. , Rakheja , S. , Yang , J. , and Boileau , P.-E. Effect of Articulated Frame Steering on the Transient Yaw Responses of the Vehicle Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering 232 3 2018 384 399
- Pazooki , A. , Rakheja , S. , and Cao , D. Kineto-Dynamic Directional Response Analysis of an Articulated Frame Steer Vehicle International Journal of Vehicle Design 65 1 2014 1 30
- Thulasiraman , B.K.S. , Sadali , N.G. , Arumugam , G. , and Neelamegan , I. Steering Linkage Optimization of Articulated Construction Equipment India Roorkee 2013-01-01 2013
- Yin , Y. , Rakheja , S. , and Boileau , P.-E. Multi-Performance Analyses and Design Optimisation of Hydro-Pneumatic Suspension System for an Articulated Frame-Steered Vehicle Vehicle System Dynamics 57 1 2019 108 133
- Tongjian , Wang 2006
- Peng , D. , Tan , G. , Fang , K. , Chen , L. et al. Multiobjective Optimization of an Off-Road Vehicle Suspension Parameter through a Genetic Algorithm Based on the Particle Swarm Optimization Mathematical Problems in Engineering 2021 2021
- Xu , L. , Jiang , Y. , and Wang , L. Thermal Decomposition of Rape Straw: Pyrolysis Modeling and Kinetic Study via Particle Swarm Optimization Energy Conversion and Management 146 2017 124 133
- Ahmed , H. , and Glasgow , J. , 2012
- Mostaghim , S. , and Teich , J. Strategies for Finding Good Local Guides in Multi-Objective Particle Swarm Optimization (MOPSO)