[1] GLENN P,LIM T C. Intelligent systems approaches to product sound quality evaluations—A review[J] . Applied Acoustics,2012,73(10):987-1002. [2] MOHD J,MOHD N,MOHAMMAD H F. Index for vehicle acoustical comfort inside a passenger car[J]. Applied Acoustics,2008,69(4):343-353. [3] de OLIVEIRA L P R,da SILVA M M,MOSQUERA S J A. Loudness scattering due to vibro-acoustic model variability[J]. Society of Mechanical Sciences and Engineering,2012,34(2):604-611. [4] KLAUS G. Product sound quality of vehicle noise-A permanent challenge for NVH measurement technologies[R]. SAE,2008-36-0517,2008. [5] LEE S K,KIM B S,CHAE H C. Sound quality analysis of a passenger car based on rumbling index[R]. SAE,2005-01-2481,2005. [6] 范蓉平,孟光,孙旭,等. 基于心理声学响度分析的高速列车车内噪声评价[J]. 振动与冲击,2005,24(5):355-340. FAN Rongping,MENG Guang,SUN Xu,et al. Sound loudness of high-speed trains evaluation[J]. Journal of Vibration and Shock,2005,24(5):355-340. [7] WOOKEUN S,HARUKI S,KARIM H. Improved noise source identification using sound quality metrics mapping in vehicle noise measurements[R]. SAE,2011-01-1671,2011. [8] 吴光强,盛云,方园. 基于声学灵敏度的汽车噪声声-固耦合有限元分析[J]. 机械工程学报,2009,45(3):222-228. WU Guangqiang,SHENG Yun,FANG Yuan. Coupled acoustic-structural finite element analysis of vehicle interior noise based on acoustic sensitivity[J]. Journal of Mechanical Engineering,2009,45(3):222-228. [9] 马天飞,高刚,王登峰,等. 基于声固耦合模型的车内低频结构噪声响应分析[J]. 机械工程学报,2011,47(15):76-82. MA Tianfei,GAO Gang,WANG Dengfeng,et al. Response analysis of interior structure noise in lower frequency based on structure-acoustic coupling model [J]. Journal of Mechanical Engineering,2011,47(15):76-82. [10] RONACHER A W,HUSSAIN M,BIERMAYER W,et al. Evaluating vehicle interior noise quality under transient driving condition[R]. SAE,1999-01-1683,1999. [11] 高印寒,张澧桐,梁杰,等. 基于客观心理声学参数的重型商用车车内异响噪声分析[J]. 吉林大学学报,2016,46(1):43-49. GAO Yinhan,ZHANG Litong,LIANG Jie,et al. Abnormal noise analysis for commercial vehicle cab based on psychoacoustics[J],Journal of Jilin University,2016,46(1):43-49. [12] 高印寒,唐荣江,梁杰,等. 汽车声品质的GA-BP神经网络预测与权重分析[J]. 光学精密工程,2013,21(2):462-468. GAO Yinhan,TANG Rongjiang,LIANG Jie,et al. Vehicle sound quality GA-BP neural network prediction and weight analysis[J]. Optics and Precision Engineering,2013,21(2):462-468. [13] 杜功焕,朱哲民,龚秀芬. 声学基础[M]. 南京:南京大学出版社,2011. DU Gonghuan,ZHU Zhemin,GONG Xiufen. Fundamentals of acoustics[M]. Nanjing:Nanjing University Institute of Technology Press,2011. [14] ZWICKER E,FASTL H. Psychoacoustics:Facts and models[M]. New York:Springer,1999. [15] MOORE B C,GLASBERG B R. Suggested formulae for calculating auditory-filter shapes and excitation paterns[J]. Acoustical Society of America,1983,74(2):750-753. [16] 张志飞,倪新帅,徐中明,等. 利用阻尼材料改善驾驶室声学特性的研究[J]. 机械工程学报,2012,48(16):36-40. ZHANG Zhifei,NI Xinshuai,XU Zhongming,et al. Research on improvement of cab acoustic characteristics using damping material[J]. Journal of Mechanical Engineering,2012,48(16):36-40. [17] 张志勇,张义波,刘鑫,等. 重型卡车驾驶室结构噪声预测与板件声学贡献度分析[J]. 振动与冲击,2014,33(13):67-71. ZHANG Zhiyong,ZHANG Yibo,LIU Xin,et al. Structure-borne noise prediction and panel acoustic contribution analysis of a heavy truck cab[J]. Journal of Vibration and Shock,2014,33(13):67-71. |