[1] 林志轩, 高晓杰. 制动踏板感觉研究现状[J]. 农业装备与车辆工程, 2007, 196(6):4-7 LIN Zhi-xuan, GAO Xiao-jie. The research summarization of the brake pedal feeling[J]. Agricultural Equipment and Vehicle Engineering, 2007, 196(6):4-7
[2] 林逸, 沈沉, 王军, 等. 汽车线控制动技术及发展[J]. 汽车技术, 2005(12):1-3 LIN Yi, SHEN Chen, WANG Jun, et al. Automotive by wire control technology and development[J]. Automobile Technology, 2005(12):1-3
[3] 潘宁, 于良耀, 张雷, 等. 电液复合制动系统防抱控制的舒适性[J]. 浙江大学学报:工学版, 2017, 51(1):9-11 PAN Ning, YU Liang-yao, ZHANG Lei, et al. Anti-lock b raking control in coordinated braking system considering braking comfort[J]. Journal of Zhejiang University:Engineering Science, 2017, 51(1):9-11
[4] 裴晓飞, 董兴智, 张灿明, 等. 汽车制动踏板特性仿真及踏板感觉优化[J]. 汽车工程学报, 2017, 7(1):052-060 PEI Xiao-fei, DONG Xing-zhi, ZHANG Can-ming, et al. Si mulation of brake pedal characteristic and optimization of brake pedal feel[J]. Chinese Journal of Automotive Engineering, 2017, 7(1):052-060
[5] OHTAIN Y, INNAMI T, OBATA T, et al. Development of an electrically-driven intelligent brake unit[C]//SAE Paper. Detroit:SAE World Congress, 2011:2011-01-0572.
[6] 金智林, 郭立书, 赵又群, 等. 踏板感觉可控的汽车制动踏板模拟器研究[J]. 系统仿真学报, 2010, 22(12):2795-2798 JIN Zhi-lin, GUO Li-shu, ZHAO You-qun, et al. Research on brake pedal emulator of vehicle with controllable pedal feeling[J]. Journal of System Simulation, 2010, 22(12):2795-2798
[7] Pasquet. Brake pedal simulator, master cylinder for a vehicle and method of operation of said simulator:EP, 1600347A1[P]. 2005-05-23.
[8] 王奎洋, 唐金花, 刘成晔, 等. 线控制动系统踏板感觉模拟器的分析与设计[J]. 机床与液压, 2011, 39(21):108-111. WANG Kui-Yang, TANG Jin-hua, LIU Cheng-ye, et al. Aalysis and design on the pedal feeling simulator of brake-by-wire[J]. Machine Tool and Hydraulics, 2011, 39(21):108-111.
[9] VON A C, KARNER J. Brake system for hybrid and electric vehicles[C]//SAE Paper. Detroit:SAE World Congress, 2009:2009-01-1217.
[10] NAKAURA E, SOGA M, SAKAI A, Et al. Development of electronically controlled brake system for hybrid vehicle[C]//SAE Paper. Detroit:SAE World Congress, 2002:2002-01-0300.
[11] 丰田自动车株式会社. 用于产生制动踏板阻力的设备:200810007052.6[P]. 2008-01-25.
[12] KOIZUMI N. Effect of phenolic brake piston tribology on brake pedal feel[C]//SAE Paper. Florida:SAE Annual Brake Colloquium. 2013:2013-01-2051.
[13] KARLHEINZ B, MARTIN S, BERT B. A new approach to investigate the vehicle interface driver/brake pedal under real road conditions in view of oncoming brake-by-wiresystems[C]//SAE Paper. Detroit:Future Transportation Technology Conference, 1999:1999-01-2949.
[14] 刘杨, 孙泽昌, 冀文斌. 电液复合制动系统踏板感觉及其影响因素[J]. 吉林大学学报:工学版, 2015, 45(4):1049-1055 LIU Yang, SUN Ze-chang, JI Wen-bin. Brake pedal feel and its influencing factors for electro-hydraulic brake system[J]. Journal of Jilin University:Engineering and Technology Edition, 2015, 45(4):1049-1055
[15] 万向集团公司. 车辆集成电控液压制动系统:201510254642.9[P]. 2015-08-26. |