参考文献

［1］ 陈清泉,孙逢春,祝嘉光.现代电动汽车技术 ［M］.北京:北京理工大学出版社,2002.

［2］ CHAN C C. The State of the Art of Elctric and Hybrid Vehicles［C］. Proceedings of the IEEE, 2002, 90(2): 247-275.

［3］ 余卓平,高晓杰. 车辆行驶过程中的状态估计问题综述［J］.机械工程学报, 2009, 45(5): 20-33.

［4］ CHARLSON C R. Estimation with Application for Automobile Dead Reckoning and Control［D］. USA:Stanford University, 2004.

［5］ BEVLY D M, GERDES J C, WILSON C. The Use of GPS Based Velocity Measurment for Measurment of Sideslip and Wheel Slip［J］. Vehicle System Dynamics, 2002, 38(2): 127-147.

［6］ RYU J. State and Parameter Estimation for Vehicle Dynamics Control Using GPS［D］. USA: Stanford University,2004.

［7］ SCHOEPFLIN T N, DAILEY D J. Dynamic Camera Calibration of Roadside Traffic Management Cameras for Vehicle Speed Estimation［J］. IEEE Transactions on Intelligent Transportation System, 2003, 4(2)：90-98.

［8］ HAVARD F G, LARS I, TOR A J. Nonlinear Vehicle Side-Slip Estimation with Friction Adaptation［J］. Automatica,2008, 44(3): 611-622.

［9］ QI C, ALESSANDRO C V, ALI C. A New Nonlinear Observer Using Unscented Kalman Filter to Estimate Sideslip Angle, Lateral Tire Road Forces and Tire Road Friction Coefficient［C］. 2011 IEEE Intelligent Vehicles Symposium (IV) Baden-Baden, Germany, 2011.

［10］ WENZEL T A, BURNHAM K J, BLUNDELL M V, et al. Kalman Filter as a Virtual Sensor Applied to Automotive Stability Systems［J］. Transactions of the Institute of Measurement and Control, 2007, 29(2):95-105.

［11］ SUISSA, ZOMOTOR Z, BOTTIGER F. Method for Determining Variables Characterizing Vehicle Handling［P］. US Patent 5557520, 1994, fild Jul.29, 1994; issued Sep.17,1996.

［12］ AHN C, PENG H, TSENG H E. Estimation of Road Friction for Enhanced Active Safety Systems: Dynamic Approach［C］. 2009 American Control Conference Hyatt Regency Riverfront, St.Louis, MO, USA, 2009.

［13］ WAN E A, NELSON A T. Neural Dual Extended Kalman Filtering: Applications in Speech Enhancement and Monaural Blind Signal Separation［C］. Proceedings of the 1997 IEEE Workshop on Neural Networks for Signal Processing VII.

［14］ WENZEL T A, BURNHAM K J, BLUNDELL M V, et al. Dual Extended Kalman Filter for Vehicle State and Parameter Esimation［J］. Vehicle System Dynamics, 2006, 44(2):153-171.

［15］ BE K W, KOBAYASHI K Z, CHEOK K C. Absolute Speed Measurement of Automobile from Noisy Acceleration and Erroneous Wheel Speed Information［C］. SAE 1992 -92-0644.

［16］ KOIBUCHI K, YAMAMOTO M, FUKUDA Y, INAGAKI S. Vehicle Stability Control in Limit Cornering by Active Brake［C］. SAE Technical Paper 1996-96-0487.

［17］ TSENG H E, MADAU D, ASHRAFI B, et al. Technical Challenges in the Development of Vehicle Stability Control system［C］. Proc.IEEE Int. Conf. Control Appl., 1999: 1660-1666.

［18］ VON VIETINGHOFF, HIEMER M, KIENCKE U. Nonlinear Observer Design for Lateral Vehicle Dynamics［C］. Proc. IFAC World Congress, Prague, Czech Republic, 2005.

［19］ HAC A, MELINDA, SIMPSON D. Estimation of Vehicle Sideslip Angle and Yaw Rate［C］. SAE 2000-01-0696.

［20］ KLIER W. REIM A, STAPEL D. Robust Estimation of Vehicle Sideslip Angle-An Approach w/o Vehicle and Tire Models［C］. SAE 2008-01-0582.

［21］ HAC A, NICHOLS D, SYGNAROWICZ D. Estimation of Vehicle Roll Angle and Side Slip for Crash Sensing［C］. SAE 2010-01-0592.

［22］ VAN ZANTEN A T. Bosch ESP Systems: 5 Years of Experience［C］. SAE 2000-01-1633.

［23］ GOBBI M, MASTINU, G.Wheels with Integrated Sensors for Measuring Tyre Forces and Moments［C］. Proceedings of the 7th International Symposium on Advanced Vehicle Control A VEC’04, HAN University, Arnhem, 2004.

［24］ TUONONEN A J. Vehicle Lateral State Estimation Based on Measured Tyre Forces［J］. Sensors, 2009.

［25］ KANGHYUN, SEHOON N, FUJIMOTO O, et al. Vehicle State Estimation for Advanced Vehicle Motion Control Using Novel Lateral Tire Force Sensors. American Control Conference (ACC), 2011.

［26］ KEENCKE U, NIELSEN L. Automotive Control System: For Engine, Driveline, and Vehicle［M］. Springer, 2000.

［27］ MITSCHKE M. Dyanamik der Kraftfahrzeuge, B and C, Fahrverhalten［M］. Springer Verlag, 1990.

［28］ BOLZERN P, CHELI F, FALCIOLA G, et al. Estimation of the Non-linear Suspension Tyre Cornering Forces from Experimental Road Test Data［J］. Vehilce System Dynamics, 1999.

［29］ VENHOVENS P J, NAAB K. Vehicle Dynamics Estimation Using Kalman Filters［J］. Vehicle System Dynamics, 1999, 32(2): 171-184.

［30］ ZURBIER J, BREMMER P. State Estimation for Integrated Vehicle Dynamics Control［C］. Proc. AVEC 6th Int. Symp.Adv. Vehicle Control, Hiroshima, Japan, 2002.

［31］ HIEMER M, VON VIETINGHOFF A, KIENCKE U, et al. Determination of the Vehicle Body Slip Angle with Non-linar Observer Strategies［C］. Proc. SAE World Congress, Detroit, MI., 2005.

［32］ CHUMSAMUTR R, FUJIOKA T, ABE M. Sensitivity Analysis of Side-slip Angle Observer Based on a Tire Model［J］. Vehicle System Dynamics, 2006, 44(7): 513-527.

［33］ FUKADA Y. Slip-angle Estimation for Vehicle Stability Control［J］. Vehicle System Dynamics, 1999, 32(4): 375-388.

［34］ SEGEL L. Theoretical Prediction and Experimental Substantiation of the Response of the Automobiel to Steering Control［J］. Procceedings of the automobile division of the institute of mechanical engineers, 1956.

［35］ HUH K, KIM J, YI K. Monitoring System Design for Estimating the Lateral Tyre Force［J］. Proccddings of the Institution of Mechanical Engineers, Part D:Journal of Automobile Engineering, 2003.

［36］ SATRIA M, BEST C M. Comparison Between Kalman Filter and Robust Filter for Vehicle Handling Dynamics State Estimation［C］. SAE 2002-01-1185.

［37］ PACEJKA H B, BAKKER E. The Magic Formula Tyre Model［C］. Proc.1st International Colloquium on Tyre Models for Vehicle Dynamics Analysis, DELFT, Netherlands, 1991.

［38］ TIELKING T, MITAL K. A Comparative Evaluation of Five Traction Tire Models［R］. High way Satety Research Insitute, University of Michigan.

［39］ GUO K, LEI R. A Unified Semi-empirical Tire Model with Higer Accuracy and Less Parameters［C］. Proceedings of SAE International Congress and Exposition. Detroit, Michigan, SAE 1999-01-0785.

［40］ NAGAI M, YAMANAKA S, HIRANO Y. Integrated Control Law of Active Rear Steering Control［C］. Proc. 3rd International Symposium on Advanced Vehicel Control, 1996.

［41］ CHUMSAMUTR R, FUJIOKA T, ABE M. Sensitivity Analysis of Side-slip Angle Observer Based on a Tire Model［J］. Vehicle System Dynamics, 44(7): 513-527.

［42］ BEST M C, GORDON T J, DIXON P J. An Extended Adaptive Kalman Filter for Real Time State Estimation of Vehicle Handling Dynamics［J］. Vehicle Dynamics Systems, 2000, 34(1): 57-75.

［43］ RAY L R. Nonlinear Tire Force Estimation and Road Friction Identification: Simulation and Experiments［J］. Automatica, 1997, 33(10): 1819-1833.

［44］ STEPHANT J, CHARARA A. Observavility Matrix and Parameter Identification: Application to Vehicle Tire Cornering Stiffness［C］. Proceedings of the ECC-CDC, Sevilla, Spain, 2005.

［45］ STEPHANT J, CHARARA A, MEIZEL D. Vehicle Sideslip Angle Observers［C］. Proceedings of the European Control Conference（ECC2003）, Cambridge, UK, 2003.

［46］ YIH P, RYU J, GERDES J C. Vehicles State Estimation Using Steering Torque［C］. American Control Conference, 2004.

［47］ YIH P. Steer-by-wire: Implication for Vehicle Handling and Safety［D］. Palo Alto:Stanford University, 2004.

［48］ PIYABONGKARN D, RAJAMANI R, GROGG J A,et al. Development and Experimental Evaluation of a Slip Angle Estimator for Vehicle Stability Control［J］. IEEE Transcations on Control Systems Technology, 2009,17(1): 131-133.

［49］ FARRELY J, WELLSTEAD P. Esimtation of Vehicle Lateral Velocity［C］. Proceeding of the 1996 IEEE International Conference on Control Application, 1996.

［50］ SASAKI H, NISHIMAKI T. A Side-slip Angle Estimation Using Neural Network for a Wheeled Vehicle［C］. SAE 2000-01-0695.

［51］ UNGOREN Y, PENG H, TSENG H E. A Study on Lateral Speed Estimation Methods［J］. Int. J. Veh. Auton. Syst., 2004, 2(1/2):126-144.

［52］ PEARSON J D. Dynamic Decomposition Techniques in Optimization Methods of Large-scale System［M］. McGraw-Hill, 1971.

［53］ SPEYER J L. Computation and Transmission Requirements for a Decentralized Linear -quadratic-Gaussian Control Problem［J］. IEEE Trans. On Automatic Contrl, 1979, 24(2): 266-269.

［54］ BIERMAN G J, BELZER M R. A Decentralized Square Root Information filter/smoother［C］. Proc. of 24th IEEE conf. on Decsion and Control, Ft. Lauderdate,FL, 1985.

［55］ CARLSON N A.Federated FilterforFault-TolerantIntegrated Navigation Systems[ C]. Proc. of IEEEPLANS'88，Orlando，FL1988.

［56］ CARLSON N A. Federated Kalman Filter Simulation Results［J］. Journal of the Institute of Navigation, 1994, 41(3): 110-119.

［57］ GAO Y, et al. Comparison of Centralized and Federated Filters［J］. Navigation, 1992, 40(1): 69-86.

［58］ AOKI Y, UCHIDA T, HORI Y. Experimental Demonstration of Body Slip Angle Control based on a Novel Linear Observer for Electric Vehicle［C］. IECON2005 Proc (The 31st Annual Conf. of the IEEE Industrial Electronics Society Proceedings), 2005.

［59］ YU Z P, GAO X J. Review of Vehicle State Estimation Problem Under Driving Situation［J］. Chinese Journal of Mechanical Engineering, 2009, 45(5): 20-33.

［60］ KIM H H, RYU J. Sideslip Angle Estimation Considering Short-duration longitudinal Velocity Variation［J］. International Journal of Automotive Technology, 2011, 12(4): 545-553.

［61］ SATRIA M, BEST M C. Comparison Between Kalman Filter and Robust Filter for Vehicle Handling Dynamics State Estimation［C］. SAE 2002-01-1185.

［62］ CHUL K, UCHANSKI M, HEDRICK J. Vehicle Speed Estimation Using Accelerometer and Wheel Speed Measurements［C］. SAE 2002-01-2229.

［63］ DAISS A, KNIECKE U. Estimation of Vehicle Speed Fuzzy-estimation in Comparison with Kalman-filtering［C］. Proceedings of the 4th IEEE Conference on Control Applications, Albany, New York, 1995.

［64］ GUSTAFSSON F, AHLQVIST S, FORSSELL U, et al. Sensor Fusion for Accurate Computation of Yaw Rate and Absolute Velocity［C］. SAE 2001-01-1064.

［65］ KOBAYASHI K, CHEOK K, WATANABE K. Estimation of Absolute Vehicle Speed Using Fuzzy Logic Rule-based Kalman Filter［C］. Proceeding of the American Control Conference, Seattle, 1995.

［66］ DAISS A, KIENCKE U. Estimation of Vehicle Speed Fuzzy-estimation in Comparison with Kalman-filtering［C］. Proceedings of the 4th IEEE Conference on Control Applications, 1995.

［67］ 边明远. 汽车防滑控制系统(ABS/ASR)道路识别技术及车身速度算法研究［D］.北京：北京理工大学, 2003.

［68］ BACHMANN T. The Importance of the Integration of Road, Tyre, and Vehicle Technologies［C］. FISITA World Congress, Montreal, Canada, 2011.

［69］ WENZEL T A, BURNHAM K J, BLUNDELL M V, et al. Dual extended Kalman filter for vehicle state and parameter estimation［J］. Vehicle System Dynamics, 2006, 44(2): 153-171.

［70］ 高博麟, 陈慧, 陈威, 等. 汽车质心侧偏角融合估计方法［J］. 汽车工程. 2013, 38(8): 716-722.

［71］ 胡丹.基于双扩展卡尔曼滤波的汽车状态及路面附着系数估计算法研究［D］.长春：吉林大学，2009.

［72］ ARNDT M, DING E L, MASSEL T. Identification of Cornering Stiffness During Lane Change Maneuvers［C］. Proceedings of the 2004 IEEE International Conference on Control Applications, 2004.

［73］ SIENEL W. Estimation of the Tire Cornering Stiffness and its Application to Active Car Steering［C］. Proceedings of the 36th Conference on Decision and Control, 1997.

［74］ BEVLY D M, RYU J, GERDES J C. Integrating INS Sensors with GPS Measurements for Continuous Estimation of Vehicle Sideslip, Roll, and Tire Cornering Stiffness［J］. IEEE Trans. Intell. Transport. Syst., 2006, 7(4): 483-493.

［75］ BEVLY D M, SHERIDAN R, GERES J C. Integrating INS Sensors with GPS Velocity Measurments for Continuous Estimation of Vehicle Sideslip and Tire Cornering Stiffness［C］. American Conrol Conference, 2001.

［76］ UNGOREN A,Y, PENG H, TSENG H E. A Study on Lateral Speed Estimation Methods［J］. Int.J.Veh.Auton.Syst., 2004, 2(1/2): 126-144.

［77］ TSENG H E. Dynamic Estimation of Road Bank Angle［J］. Vehicle System Dynamics, 2001, 36(4): 307-328.

［78］ LINGMAN P, SCHMIDTBAUER B. Road Slope and Vehicle Mass Estimation using Kalman Filtering［J］. Vehicle System Dynamics, 2002, 37:12-23.

［79］ HAHN J, RAJAMANI R, YOU S. Road Bank Angle Estimation Using Disturbance Observer［C］. 7th International Symposium on Advanced Vehicle Control, 2002.

［80］ SENTOUH C, SEBSADJI Y, MAMMAR S,et al. Road Bank Angle and Faults Estimation Using Unknown Input Proportional-integral Observer［C］. Proc. Eur. Contr. Conf., Kos, Greece, 2007.

［81］ VAHIDI A, STEFANOPOULOU A, PENG H. Recursive Least Squares with Forgetting for Online Estimation of Vehicle Mass and Road Grade:Theory and Experiments［J］. Vehicle System Dynamics, 2005, 43(1): 31-55.

［82］ SAHLHOLM P, JOHANSSON K H. Road Grade Estimation for Look-ahead Vehicle Control［C］. 17th IFAC world congress, Seoul, Korea, 2008.

［83］ BEST M C. Parametric Identification of Vehicle Handling Using an Extended Kalman Filter［J］. International Journal of Vehicle Autonomous Systems, 2007, 5(3/4): 256-273.

［84］ BEST M C, NEWTON A P, TUPLIN S. The Identifying Extended Kalman Filter: Parametric System Identification of a Vehicle Handling Model［C］. Proc. Instn. Mech. Engrs, Part K: J. Multi-body Dynamics, 2007, 221(1): 87-98.

［85］ BEST M C, NEWTON A P. Vehicle Tyre and Handling Model Identification using an Extended Kalman Filter［C］. Proceedings of the 9th International Symposium on Advanced Vehicle Control (AVEC), Kobe, Japan, 6th-9th October, 2008.

［86］ BEST M C. Identifying Tyre Models Directly From Vehicle Test Data Using an Extended Kalman filter［J］. Vehicle System Dynamics, 2010, 48(2): 171-187.

［87］ MASSEL T, DING E L, ARNDT M. Estimation of vehicle loading state［C］. Proceedings of the 2004 IEEE International Conference on Control Applications, 2004.

［88］ LIU C, PENG H. A State and Parameter Identification Scheme for linearly Parameterized Systems［J］. ASME Journal of Dynamic Systems Measurement and Control, 120(4): 524-528.

［89］ IMSLAND L, JOHANSEN T A, FOSSEN T I, et al.Vehicle Velocity Estimation Using Nonlinear Observers［J］. Automatica, 2006, 42 (12): 2091-2103.