Design and application of vibration performance testing system for commercial vehicles

[1] Li Debao, Lu Qiuhai. Engineering Vibration Test Analysis [M]. Beijing: Tsinghua University Press, 2004. DebaoLi QiuhaiLu Engineering Vibration Test Analysis [M] Beijing Tsinghua University Press 2004 Search in Google Scholar

[2] Xiao Zhongxiang. Data Acquisition Principle [M]. Xi’an: Northwest Polytechnic University Press, 2001. ZhongxiangXiao Data Acquisition Principle [M] Xi’an Northwest Polytechnic University Press 2001 Search in Google Scholar

[3] Guo Junfeng, Liu Shirun. Detection of Mechanical Vibration Signal Based on Modulated Broadband Converter [J]. Mechanical Design and Manufacturing, 2020(06):48–52. JunfengGuo ShirunLiu Detection of Mechanical Vibration Signal Based on Modulated Broadband Converter [J] Mechanical Design and Manufacturing 2020 06 48 52 Search in Google Scholar

[4] Liu Benchao. A Study on Vehicle Vibration Test and Analysis System [D]. Chang’an University, 2012. BenchaoLiu A Study on Vehicle Vibration Test and Analysis System [D] Chang’an University 2012 Search in Google Scholar

[5] Cheng Xiufang, Wang Peng. Fault diagnosis of rolling bearing based on time domain and frequency domain analysis [J]. Journal of North China University of Technology (Natural Science Edition), 2020, 42(01):58–64. XiufangCheng PengWang Fault diagnosis of rolling bearing based on time domain and frequency domain analysis [J] Journal of North China University of Technology (Natural Science Edition) 2020 42 01 58 64 Search in Google Scholar

[6] Chen Houquan. A Simple Analysis of the Signal Spectrum by Fast Fourier Transform [J]. Electronic testing, 2020(09):68–69. HouquanChen A Simple Analysis of the Signal Spectrum by Fast Fourier Transform [J] Electronic testing 2020 09 68 69 Search in Google Scholar

[7] Liu Jianli, Hu Qin, Huangshan, Liu Xinyu. FPGA Design of Fast Fourier Transform FFT Processor [J]. Communications and Information Technology, 2020(01):60–61 68. JianliLiu QinHu Huangshan XinyuLiu FPGA Design of Fast Fourier Transform FFT Processor [J] Communications and Information Technology 2020 01 60 61 68 Search in Google Scholar

[8] Zhou Xiuzhen, Xiao Lei. A Study on Real-time Spectrum Analysis Based on Fast Fourier Transform [J]. ICT, 2018(08):21–22. XiuzhenZhou LeiXiao A Study on Real-time Spectrum Analysis Based on Fast Fourier Transform [J] ICT 2018 08 21 22 Search in Google Scholar

[9] Wang Guiyong, Zuo Jinpeng, Shen Lizhong, Hu Dongning. TPMS Tire Recognition Algorithm Based on Biaxial Acceleration Sensor [J]. Journal of Sensing Technology, 2019, 32(11):1669–1676. GuiyongWang JinpengZuo LizhongShen DongningHu TPMS Tire Recognition Algorithm Based on Biaxial Acceleration Sensor [J] Journal of Sensing Technology 2019 32 11 1669 1676 Search in Google Scholar

[10] Wang Changming. Fault Diagnosis Study of Automobile Seat Gearbox Based on Adaptive Multi-component Signal Analysis [D]. Zhejiang University of Technology, 2018. ChangmingWang Fault Diagnosis Study of Automobile Seat Gearbox Based on Adaptive Multi-component Signal Analysis [D] Zhejiang University of Technology 2018 Search in Google Scholar

[11] Kong Xiangxin, Liu Fengchun, Ji Shude, Liu Yuqiang, Yin Tianzuo, Deng Chunlong, Gao Yunfeng, Liu Zhigang. Analysis of failure vibration of volute of diesel engine supercharger Vehicle Engine, 2020(02):49–54. XiangxinKong FengchunLiu ShudeJi YuqiangLiu TianzuoYin ChunlongDeng YunfengGao ZhigangLiu Analysis of failure vibration of volute of diesel engine supercharger Vehicle Engine 2020 02 49 54 Search in Google Scholar

[12] Fan Luqiao, Zhou Wenqiong, Duan Banxiang, Yao Xifan. Computer Vision Based Semi-Intelligent Operation Mode of Explosive Remnants Robot [J]. Mechanical Design and Research, 2019, 35(02):16–21. LuqiaoFan WenqiongZhou BanxiangDuan XifanYao Computer Vision Based Semi-Intelligent Operation Mode of Explosive Remnants Robot [J] Mechanical Design and Research 2019 35 02 16 21 Search in Google Scholar

[13] Li Zhengqing, Sun Wenfu, Lu Yong. An on-line measuring system of engine speed based on vibration analysis [J]. Instrument Technology and Sensors, 2019(06):59–62. ZhengqingLi WenfuSun YongLu An on-line measuring system of engine speed based on vibration analysis [J] Instrument Technology and Sensors 2019 06 59 62 Search in Google Scholar

[14] Tian Ying, Liu Jun, Luo GB. Experimental Study and Analysis on Vibration System of Automobile Engine [J]. Journal of Foshan Institute of Science and Technology (Natural Science Edition), 2018, 36(02):42–47. YingTian JunLiu GBLuo Experimental Study and Analysis on Vibration System of Automobile Engine [J] Journal of Foshan Institute of Science and Technology (Natural Science Edition) 2018 36 02 42 47 Search in Google Scholar

[15] Chen Yongfei. A Research and Development of Vibration Testing System for the Third Generation Hub Bearing Unit in Automobile [D]. Zhejiang Agriculture and Forestry University, 2017. YongfeiChen A Research and Development of Vibration Testing System for the Third Generation Hub Bearing Unit in Automobile [D] Zhejiang Agriculture and Forestry University 2017 Search in Google Scholar

[16] A methodology for simulation-based, multiobjective gear design optimization[J]. Alessio Artoni, Mechanism and Machine Theory, 2019. A methodology for simulation-based, multiobjective gear design optimization[J] Alessio Artoni, Mechanism and Machine Theory 2019 Search in Google Scholar

[17] Jiao Dongfeng, Liu Zhifeng. NVH performance analysis and optimization of automotive drive axle [J]. Automotive engineering, 2020, 42(02): 240–249. DongfengJiao ZhifengLiu NVH performance analysis and optimization of automotive drive axle [J] Automotive engineering 2020 42 02 240 249 Search in Google Scholar

[18] An Junhai, Tao Lianjin. Design and performance test of a new laminated shear model box for shaking table test [J]. Vibration and impact, 2020, 39(05): 201–207. JunhaiAn LianjinTao Design and performance test of a new laminated shear model box for shaking table test [J] Vibration and impact 2020 39 05 201 207 Search in Google Scholar

[19] Xiong Xiong, Qin Haojie. Quantitative evaluation of dynamic performance of industrial robot based on vibration test [J]. Metrology and testing technology, 2019, 46(08): 19–22. XiongXiong HaojieQin Quantitative evaluation of dynamic performance of industrial robot based on vibration test [J] Metrology and testing technology 2019 46 08 19 22 Search in Google Scholar

[20] Wang Mingyang, analysis of vehicle noise and vibration control and NVH performance development [J]. Internal combustion engine and accessories, 2020 (05): 216–217. Wang Mingyang, analysis of vehicle noise and vibration control and NVH performance development [J] Internal combustion engine and accessories 2020 05 216 217 Search in Google Scholar