智能轮胎
上QQ阅读APP看书,第一时间看更新

1.6 参考文献

[1] 王飞跃,单国玲,丁玉华,李力,王知学,王传铸,冯希金.智能轮胎的研究及其相关核心技术[J].轮胎工业,22(12):713-719,2002.

[2] 王飞跃,王知学,李力,单国玲,王传铸.智能轮胎的研究进展和应用前景[J].轮胎工业,23(1):10-15,2003.

[3] Xiangwen Zhang, Feiyue Wang, Zhixue Wang, Wei Li and Dongzhi He. Intelligent Tires Based on Wireless Passive Surface Acoustic Wave Sensors [C]. Proceedings of the 7th International IEEE Conference on Intelligent Transportation Systems, pp. 960-964, 2004.

[4] Fei-Yue Wang, Xiangwen Zhang. Intelligent Tires: Modeling, Sensing, and Analysis[M]. California, USA: Westing Publishing Co., 2007.

[5] 庄继德.汽车轮胎学[M].北京:北京理工大学出版社,2001.

[6] 喻凡,林逸.汽车系统动力学[M].北京:机械工业出版社,2005.

[7] 于泳.纳米氧化锌在轮胎胶料中的应用研究[J].轮胎工业,22(12):729-732,2002.

[8] 北京化工大学.一种高抗湿滑、低滚动阻力、耐磨的高性能轮胎胎面胶材料:中国,201610056698.8[P].2016-06-15.

[9] 北京化工大学.一种抗静电低滚动阻力轮胎胎面材料及其制备方法:中国,201210423251.1[P].2013-02-06.

[10] 青岛华高墨烯科技有限公司.一种石墨烯导静电轮胎的制备方法:中国,201510562318.3[P].2015-11-25.

[11] 北京化工大学.轮胎气密层和内胎用氧化石墨烯/聚合物组合物及制备方法:中国,201210017703.6[P].2012-07-11.

[12] 王伟,于雅琳,李卫国,陈建军.碳纳米管在白炭黑补强半钢子午线轮胎胎面胶中的应用[J].轮胎工业,36(7):419-423,2016.

[13] 吴友平,张立群.高性能轮胎用橡胶纳米复合材料的制备与性能[J].科学通报,61(31):3371-3378,2016.

[14] 于清溪.轮胎的绿色特性与发展[J].橡塑技术与装备,39(1):21-32,2013.

[15] 李汉堂.安全轮胎的发展前景[J].橡塑技术与装备,35(3):10-18,2009.

[16] 张向文.应用于智能轮胎的无源无线声表面波压力和温度传感器研究[D].北京:中国科学院研究生院,2005.

[17] Xiangwen Zhang, Zhixue Wang, Leifu Gai, Yunfeng Ai, Feiyue Wang. Design Considerations on Intelligent Tires Utilizing Wireless Passive Surface Acoustic Wave Sensors [C]. Proceedings of the 5th World Congress on Intelligent Control and Automation, pp. 3696-3700, 2004.

[18] Xiangwen Zhang, Zhixue Wang, Wei Li, Dongzhi He and Feiyue Wang. A Fuzzy Logic Controller for an Intelligent Tires System [C]. Proceedings of 2005 IEEE Intelligent Vehicles Symposium, pp. 875-881, 2005.

[19] 王吉忠,高志斌.充气内压对轮胎和汽车性能的影响及合理胎压的确定[J].公路与汽运,(4):4-6,2004.

[20] 邓海燕.世界智能轮胎技术与产品[J].橡塑技术与装备,30(3):12-16,2004.

[21] http://www. iqmobil. com.

[22] NIRA为沃尔沃汽车提供胎压监测系统[J].汽车零部件,(9):11,2014.

[23] 张守燕.奥迪轮胎压力监测系统剖析[J].汽车维修技师,(9):21-23,2009.

[24] 童国庆,童圣骁,孙泽昌,韩海强,韦兴民,冯擎峰.直接式TPMS在某款乘用车上的应用介绍[J].汽车电器,(5):69-74,2014.

[25] 大陆集团.直接式胎压监测系统使驾乘更安全更环保[J].汽车工艺师,(5):78-79,2016.

[26] 飞思卡尔公司.飞思卡尔FXTH87系列助保隆科技推出超小型胎压监测系统模块[J].世界电子元器件,(11):45-47,2014.

[27] Kanwar Bharat Singh, Vishwas Bedekar, Saied Taheri, etc. Piezoelectric Vibration Energy Harvesting System with an Adaptive Frequency Tuning Mechanism for Intelligent Tires [J]. Mechatronics, (22): 970-988, 2012.

[28] Masanori Ohori, Tatsuya Ishizuka, Takafumi Fujita, Nobuo Masaki and Yoji Suizu. Fundamental Study of Smart Tire System [C]. Proceedings of 2006 IEEE Intelligent Transportation Systems Conference, Toronto, Canada, September 17-20, pp. 1519-1524, 2006.

[29] Alfred Pohl, Leonhard Reindl. Measurement of Physical Parameters of Car Tires Using Passive SAW Sensors [C]. The 2nd Conference on Advanced Microsystems for Automotive Applications, pp. 249-262, 1998.

[30] Alfred Pohl, Reinhard Steindl, and Leonhard Reindl. The“Intelligent Tire”Utilizing Passive SAW Sensors-Measurement of Tire Friction [J]. IEEE Transactions on Instrumentation and Measurement, 48 (6): 1041-1046, 1999.

[31] O. Yilmazoglu, M. Brandt, J. Sigmund, E. Genc, H. L. Hartnagel. Integrated InAs/GaSb 3D Magnetic Field Sensors for the Intelligent Tire [J]. Sensors and Actuators A: Physical, 94 (1/2): 59-63, 2001.

[32] Jens Holtschulze, Harald Goertz, Thomas Hüsemann. A Simplified Tire Model for Intelligent Tires [J]. Vehicle System Dynamics, 43 (s): 305-316, 2005.

[33] Federico Cheli, Elisbetta Leo, Stefano Melzi, Edoardo Sabbioni. On the Impact of 'Smart Tires' on Existing ABS/EBD Control Systems [J]. Vehicle System Dynamics, 48 (s): 255-270, 2010.

[34] Vincenzo D'Alessandro, Stefano Melzi, Marco Sbrosi, Massimo Brusarosco. Phenomenological Analysis of Hydroplaning Through Intelligent Tires [J]. Vehicle System Dynamics, 50 (s): 3-18, 2012.

[35] Hongxiao Yu, Saied Taheri, Jianmin Duan, Zhiquan Qi. An Integrated Cooperative Antilock Braking Control of Regenerative and Mechanical System for a Hybrid Electric Vehicle Based on Intelligent Tire [J]. Asian Journal of Control, 18 (1): 55-68, 2016.

[36] Mustafa Ali Arat, Kanwar B. Singh, Saied Taheri. An Intelligent Tyre Based Adaptive Vehicle Stability Controller [J]. International Journal of Vehicle Design, 65 (2/3): 118-143, 2014.

[37] Li Li, Fei-Yue Wang, Qunzhi Zhou. A Watch in Developments of Intelligent Tire Inspection and Monitoring [C]. Proceedings of 2005 IEEE Intelligent Vehicles Symposium, pp. 333-338, 2005.

[38] Li Li, Fei-Yue Wang, Qunzhi Zhou. Integrated Longitudinal and Lateral Tire/Road Friction Modeling and Monitoring for Vehicle Motion Control [J]. IEEE Transactions on Intelligent Transportation Systems, 7 (1): 1-19, 2006.

[39] Li Li, Feiyue Wang, Guoling Shan, Qunzhi Zhou. Design of Tire Fault Observer Based on Estimation of Tire/Road Friction Conditions [J]. Automatica Sinica, 28 (5): 689-694, 2003.

[40] Patwardhan S., Tomizuka M., Wei-Bin Zhang, Peter Devlin. Theory and Experiments of Tire Blow-out Effects and Hazard Reduction Control for Automated Vehicle Lateral Control System [C]. Proceedings of the American Control Conference, pp. 1207-1209, 1994.

[41] Patwardhan S, Tan H S, Tomizuka M. Experimental Results of a Tire-burst Controller for AHS [J]. Control Engineer Practice, 5 (11): 1615-1622, 1997.

[42] 傅建中,石勇.轮胎气压监测与爆胎自动减速系统[J].汽车工程,28(2):199-202,171,2006.

[43] 王英麟.基于CarSim与UniTire的爆胎汽车动力学响应研究[D].长春:吉林大学,2007.

[44] 郭孔辉,黄江,宋晓琳.爆胎汽车整车运动分析及控制[J].汽车工程,29(12):1041-1045,1109,2007.

[45] 于树友,刘洋,王菲,陈虹,郭洪艳.爆胎车辆轨迹控制的仿真[J].北京工业大学学报,42(8):1225-1232,2016.

[46] 王菲,刘柏楠,郭洪艳,陈虹.爆胎汽车的轨迹跟踪与稳定性控制[J].电机与控制学报,17(11):97-104,2013.

[47] Fei Wang, Hong Chen, Hongyan Guo, Dongpu Cao. Constrained H∞ Control for Road Vehicles After a Tire Blow-out [J]. Mechatronics, 30: 371-382, 2015.

[48] Fei Wang, Hong Chen, Dongpu Cao. Nonlinear Coordinated Motion Control of Road Vehicles After a Tire Blowout [J]. IEEE Transactions on Control Systems Technology, 24 (3): 956-970, 2016.

[49] 徐友春,赵玉璠,彭永胜.汽车轮胎中央充放气系统在我国的发展和应用[J].汽车技术,(1):41-42,1998.

[50] 彭永胜,赵玉璠,刘洪泉,等.轮胎中央充放气系统的现状与发展趋势[C].2009中国汽车工程学会年会论文集,pp. 532-535,2009.

[51] Alan Freigang. Application of the Eaton Tire Pressure Control System to the Commercial Truck [J]. SAE transactions, (103): 390-395, 1994.

[52] B. T. Adams, J. F. Reid, J. W. Hummel, Q. Zhang, R. G. Hoeft. Effects of Central Tire Inflation Systems on Ride Quality of Agricultural Vehicles [J]. Journal of Terramechanics, 41 (4): 199-207, 2004.

[53] Milos Krstic, Nemanja Savic, Rolf Kraemer, Marek Junghans. Applying Tire Pressure Monitoring Devices for Traffic Management Purposes [C]. 2012 International Symposium on Signals, Systems, and Electronics (ISSSE), pp. 1-6, 2012.

[54] 刘川来,董兰飞,滕学志.智能轮胎在车队信息化管理中的应用[J].中国橡胶,(23):22-25,2013

[55] 胡圣波,司兵,舒恒.轮胎嵌入式超高频无源RFID系统的功率传递特性[J].农业工程学报,29(21):150-158,2013.

[56] http://www. vdo. com/press/pictures/chassis-carbody/sv-pp-iaa2007-intelligent-tire-system. htm.

[57] 李力,王飞跃.智能汽车-先进传感与控制[M].北京:机械工业出版社,2016.