Tokuda T. Cars in the 90s as a humanware[C]. SAE Paper 885049, 1988.
[2]
Li D, Yu F. A novel integrated vehicle chassis controller coordinating direct yaw moment control and active steering[C]. SAE Paper 2007 - 01 - 3642, 2007.
[3]
Taheri S, Law E. Investigation of combined slip control braking and closed loop four wheel steering systems for automobiles during combined hard braking and severe steering[C]//Proc. ACC\\' 1990, 1990.
[4]
Yasui Y, Kodama H, Momiyama M, et al. Electronic stability control (ESC) coordinated with electric power steering (EPS) [C]//FISITA Congress 2006, 2006.
[5]
Bedner E J, Chen H H. A supervisory control to manage brakes and four-wheel-steer systems[C]. SAE Paper 2004 -01 - 1059, 2004.
[6]
Burgio G, Zegelaar P. Integrated vehicle control using steering and brakes[J]. Int. J. Control, 2006, 79(5) :534-541.
[7]
Goodarzi A, Alirezaie M. A new fuzzy-optimal integrated AFS/DYC control strategy[C] //Proc. AVEC06, Taipei, Taiwan, 2006.
[8]
ParkI ParkK.A study on integrated control of AFS and ESP for the improvement of vehicle handing performance[C].韩国精密工学会2005年度春季学术大会论文集[C].,2005.
[9]
Salman M, Zhang Z, Boustany N. Coordinated control of four wheel braking and rear steering[C] //Proc. ACC\\' 1992, 1992.
[10]
Nagai M, Yamanaka S, Hirano Y. Integrated control law of active rear wheel steering and direct yaw moment control[C]//Proc. AVEC96, Aachen, Germany, 1996.
[11]
Shino M, Nagai M. Independent wheel torque control of small-scale electric vehicle for handling and stability improvement [J]. JSAE Review, 2003, 24(4):449--456.
[12]
Chu T W, Jones R P. Integrated four-wheel-steering and direct yaw moment control via robust eigenstructure assignment techniques[C]///Proe. AVEC06, Taipei, Taiwan, 2006.
[13]
Ono E, Takanami K, Iwama N, et al. Vehicle integrated control for steering and traction systems by mu-synthesis[J]. Automatica, 1994, 30(11): 1 639--1 647.
[14]
Cherouat H, Lakehal-Ayat M, Diop S. An integrated braking and steering control for a cornering vehicle[C] //Proc. AVEC04, Arnhem, Netherlands, 2004.
[15]
Boada M, Boada B, Munfioz A, Diaz V. Integrated control of front-wheel steering and front braking forces on the basis of fuzzy logic[J]. Proc. IMechE, Part D. J. Automobile Engineering, 2006, 220(3):253--267.
[16]
Mokhiamar O, Abe M. Simultaneous optimal distribution of lateral and longitudinal tire forces for the model following control[J]. J. Dynamic Systems, Measurement and Control, Transactions of the ASME, 2004, 126(4) :753--763.
[17]
Hattori Y, Koibuchi K, Yokoyama T. Force and moment control with nonlinear optimum distribution for vehicle dynamics [C]//Proc. AVEC02, Hiroshima, Japan, 2002.
[18]
Shen X, Yu F. Study on vehicle chassis control integration based on a main-loop-inner-loop design approach[J]. Proc. IMech E, Part D: J. Automobile Engineering, 2006, 220(11) : 1 491-- 1 502.
[19]
Li D, Shen X, Yu F. Integrated vehicle chassis control with main/servo-loop structure[J]. Int. J. Automotive Technology, 2006, 7(7):803--812.
[20]
Shen X, Yu F. Study on vehicle chassis control integration based on vehicle dynamics and separate loop design approach [J]. Int. J. Vehicle Autonomous Systems, 2007, 5(1--2):95--118.
[21]
Nouillant C, Assadian F, Moreau X, et al. A cooperative control for car suspension and brake systems[J]. Int. J. Automotive Technology, 2002, 3(4):147-- 155.
Valasek M, Vaculin O, Kejval J. Global chassis control: integration synergy of brake and suspension control for active safety[C]//Proc. AVEC04, Arnhem, Netherlands, 2004.
[25]
Rengaraj C, Adgar A, Cox S C, et al. Integration of yaw control, active suspension and anti-lock brake system to improve ride and handling[C] ffFISITA Congress, 2006.
[26]
March C, Shim T. Integrated control of suspension and front steering to enhance vehicle handling [J]. Proc. IMech E, Part D: J. Automobile Engineering. 2007, 221(4):377--391.
[27]
Smakman H. Functional integration of active suspension with slip control for improved lateral vehicle dynamics[C]//Proc. AVEC00, Ann Arbor, Michigan, USA, 2000.
[28]
Hac A, Bodie M O. Improvements in vehicle handling through integrated control of chassis systems[J]. Int. J. Vehicle Autonomous Systems, 2002, 1 ( 1 ):83 -- 110.
[29]
Kou Y. Integration chassis control(ICC) systems of mando[C]. SAE Paper 2004 -01 -2044, 2004.
[30]
Cooper N, Manning W, Crolla D, et al. Integration of active suspension and active driveline to ensure stability while improving vehicle dynamics[C]. SAE Paper 2005 - 01 - 0414, 2005.
[31]
Lee A Y. Coordinated control of steering and anti-roll bars to alter vehicle rollover tendencies[J]. J. Dynamic Systems, Measurement, and Control, Transactions of the ASME, 2002, 124(1) : 127-- 132.
Kizu R, Harada H, Minabe H. Electronic control of car chassis present status and future perspective[C] //International Congress on Transportation Electronics, Convergence 88, 1988.
[36]
Sato S, Inoue H, Tabata M, et al. Integrated chassis control system for improved vehicle dynamics[C]//Proc. AVEC92, Yokohama, Japan, 1992.
[37]
Sato S, Inoue H, Tabata M, et al. Integrated chassis control system for improved vehicle dynamics[C] //Proc. AVEC92, Yokohama, Japan, 1992.
[38]
Tanaka H, Inoue H, Iwata H. Development of a vehicle integrated control system[C]. SAE Paper 925049, 1992.
[39]
Wallentowitz H. Integration of chassis and traction control systems. What is possible-what makes sense-what is under development[C]//Proc. AVEC92, Yokohama, Japan, 1992.
[40]
陈祯福.汽车底盘控制技术的现状和发展趋势[J].汽车工程,2006,2(28):105-113.
[41]
Rieth P E, Schwarz R. ESC Ⅱ-ESC with active steering intervention[C]. SAE Paper 2004 - 01 - 0260, 2004.
[42]
Gordon T, Howell M, Brandao F. Integrated control methodologies for road vehicles[J]. Vehicle System Dynamics, 2003, 40(1) : 157-- 190.
[43]
Mitamura R, Tani M, Tanaka T, et al. System integration for new mobility[C]. SAE Paper 881773, 1988.
[44]
Nagai M, Shino M, Gao F. Study on integrated control of active front steer angle and direct yaw moment[J]. JSAE Review, 2002, 23(3) : 309-- 315.
[45]
Shen X, Li D, Yu F. Study on vehicle chassis control integration based on general actuator-plant structure [C] //Proc. AVEC06, Taipei, Taiwan, 2006.
