[1] Huang Guo-jun, Zhang You-tong, Su Hai-feng, et al. Research of common rail system feed-forward pressure control method based on flow characteristic [J]. Transactions of Beijing Institute of Technology, 2011, 31(3): 272-277 (in Chinese).[2] Wang Hong-rong, Zhang You-tong, Wang Jun, et al. Pressure control of high pressure common rail diesel engine [J]. Transactions of Beijing Institute of Technology, 2008, 28(9): 778-781 (in Chinese).[3] Chen Lin, Yang Fu-yuan, Yang Xue-qing, et al. Model-based controller framework for a common rail diesel engine [J]. Journal of Tsinghua University: Science and Technology, 2010, 50(7): 1077-1081 (in Chinese).[4] Chen Hai-long, Ouyang Guang-yao, Xu Hai-cheng. Research on simulation of rail pressure control based on pump control valve [J]. Chinese Internal Combustion Engine Engineering, 2009, 30(2): 57-60 (in Chinese).[5] Catania A E, Ferrari A, Manno M. Development and application of a complete multijet commonrail injection-system mathematical model for hydrodynamic analysis and diagnostics [J]. Journal of Engineering for Gas Turbines and Power, 2008, 130(6): 181-192.[6] Lino P, Maione B, Rizzo A. Nonlinear modeling and control of a common rail injection system for diesel engines [J]. Applied Mathematical Modeling, 2007, 31(9): 1770-1784.[7] Gupta V K, Zhang Z, Sun Z X. Modeling and control of a novel pressure regulation mechanism for common rail fuel injection systems [J]. Applied Mathematical Modeling, 2011, 35(7): 3473-3483.[8] Shiraishi H, Ipri S L, Cho D I D. CMAC neural network controller for fuel-injection systems [J]. IEEE Transactions on Control Systems Technology, 1995, 3(1): 32-38.[9] Mahmoud N A, Khalil H K. Asymptotic regulation of minimum phase nonlinear systems using output feedback [J]. IEEE Transactions on Automatic Control, 1996, 41(10): 1402-1412.[10] Han Jing-qing, Wang Wei. Nonlinear trackingdifferentiator [J]. Journal of Systems Science and Complexity, 1994, 14(2): 177-183 (in Chinese).[11] Wang X H, Chen Z Q, Yang G. Finit-timeconvergent differentiator based on singular perturbation technique [J]. IEEE Transactions on Automatic Control, 2007, 52(9): 1731-1737.[12] Levant A. Robust exact differentiation via sliding mode technique [J]. Automatica, 1998, 34(3): 379-384.[13] Levant A. High-order sliding modes, differentiation and output-feedback control [J]. International Journal of Control, 2003, 76(9-10): 924-941.[14] Efimov D V, Fridman L. A hybrid robust non-homogeneous finite-time differentiator [J]. IEEE Transactions on Automatic Control, 2011, 56(5): 1213-1219. |