Yuan Xinjian,∗ Wang Yan,∗ Zhang Jun,∗ and Ding Xuqiang∗
[1] The wiping area of bridge car windshield wipers, (Beijing:The State Bureau of Quality and Technical Supervision,1989),GB11565-89. [2] Windshield Wiping and Washing Systems, Federal MotorVehicle Safety Standards (FMVSS), Standard 104,1996. [3] L.P. Wu, D.W. Dong, Q.L. Chen, S.J. Zhang, and Y.H. Zhang,Modal analysis and optimization of car wipers, MechanicalEngineering and Automation, 103(1), 2016, 104–106. [4] X. Yu, Y.S. Wang, Z.C. Gao, and S.H. Yin, Study on therelationship between microstructure of wiper rubber stripcoating and wiper performance, China Testing, 48(2), 2022,180–185. [5] X.F. Fang, Finite element study on the vibration phenomenonof the friction system of car wipers, Journal of ChongqingUniversity of Technology (Natural Sciences), 34(3), 2020,66–73.6 [6] X. Yang, T. Yuan, H. Guo, W. Fu, S. Huang, Y. Zhang, Frictionand vibration analysis of wiper windshield contact system,Agricultural Equipment and Vehicle Engineering, 61(9), 2023,37–45 [7] L.J. Zhang and M. Huang, Nonlinear stick slip vibration ofwindshield wipers and its impact on wiping effect, Journalof Tongji University (Natural Science Edition), 40(9), 2012,1376–1381. [8] Z. Chen, Z.Q. Gu, Y. Zhang, Y.Q. Zong, and T.M. Huang,Transient aerodynamic characteristics of automotive wipers,Journal of Central South University (Natural Science Edition),47(10), 2016, 3597–3604. [9] P. Tan, Z.Q. Gu, N Z. Che, C.J. Feng, and Q.D. Zhang,Wind tunnel test and numerical study of aerodynamic liftof automotive wipers, Journal of Aerodynamics, 35(2), 2017,234–241. [10] G. Zhengqi, C. Zhen, and T. Peng, Research on the aerodynamiclift of vehicle windshield wiper, Journal of Applied FluidMechanics, 9(5), 2016, 2133–2140. [11] Q.J. Hu, Analysis and Experimental Study on Wiper Pressure ofAutomobile Wipers, China University of Metrology, Hangzhou,2022. [12] Z.Y. Li, B. Liang, B. Jin, and Y.C Chen, Wiper controlsystem and method: China, U.S. Patent CN202011562417.9,2024. [13] K.T. Kumasaki, Wiper device, U.S. Patent JP2008-184042,2007. [14] C.Y. Zhai, Wiper control system and control method, U.S.Patent CN202311492027.2, 2024. [15] Q.F. Zhou, Intelligent wiper control system and fusion genera-tion method of control signals, U.S. Patent CN202310305118.4,2023. [16] Y.Y. Zhang; Z.P. Yue; G. Wang; R.Q. Li, and Q.K. Zhu, Wipercontrol method, storage media, wiper controller and vehicle,U.S. Patent CN202310958235.0, 2024. [17] Q.H. Zhang, F. Tian, g.B. Xion, G.X. Zhang; J. Fang, G.Q.Cui; D. X. Hua, and Y.Q. Jiang, Wiper control method andsystem for automotive windshield vision obstructions, U.S.Patent CN202211563652.7, 2024 [18] W.H. Yu, H.Y. Chen, H.X. Xu, and Y.F. Wei, Precise anti-interference control for dynamic positioning ships facing multi-source interference, Control and Decision-Making, 38(7), 2023,2035–2041. [19] W.W. Wang, L.J. Lai, P.Z. Li, L.M. Zhu, Piezoelectric microstage data-driven iterative feedforward compensation andadaptive vibration suppression, Optical Precision Engineering,32(6), 2024, 833–842. [20] Y. Liu, X.N. Li, and J.P. Lu, Research on braking buffer atthe middle position of high speed heavy load cylinder stroke,Mechanical Manufacturing and Automation, 41(2), 2012, 5–8. [21] J.L. Duan, L.F. Chen, W.X. Wang, C.X. Jiao, Z.Y. Liu, F. Ma,and S.B. Li, High real time predictive control of active collisionavoidance in intelligent vehicles, Journal of Automotive Safetyand Energy Conservation, 14(5), 2023, 580–590. [22] A. Veksler, T.A. Johansen, F. Borrelli, and B. Realfsen,Dynamic positioning with model predictive control, IEEETransactions on Control Systems Technology, 24(4), 2016,1340–1353. [23] D. Zhang, C. Sun, X. Hu, and J. Zhang, Cross-couplingsynchronous control of double brushless DC motor based onvariable domain fuzzy PID, Mechatronic Systems and Control,49(1), 2021, 2316. [24] F. A. Rosales, F. Martell-Chvez, and I. Y. Sanchez-Chvez,Discrete Time DC motor Model for Load torque estimationfor PID-IMC Speed control, Mechatronic Systems and Control,50, 2022, 102–108, DOI: http://dx.doi.org/10.2316/J.2022.201-0265. [25] M.A. Moghaddas, Modeling and optimization of thrus force,torque, and surface roughness in ultrasonic-assisted drillingusing surface response methodology, The International Journalof Advanced Manufacturing Technology, 117(9–10), 2021,2909–2923. [26] T. Wei, M. Li, H. Huang, and Y.Z. Long, Bus rear highfloor skeleton design based on response surface optimization,Machine Design and Research, 38(1), 2022, 161–167. [27] C. Dai, X. Wang, and J. Long, A new optimization strategyfor multi-objective design of automotive seat frame, Structuraland Multidisciplinary Optimization, 66(11), 2023, 236. [28] H.L. Nguyen, Y. Kim, J. Park, and S. Yu, Operating strategyoptimization by response surface analysis for durable operationof a heavy-duty fuel cell truck, Energy Conversion andManagement, 291, 2023, 117295.
Important Links:
Go Back
