代表性论文专著
Huang, Y. and Griffin, M.J. The effects of sound level and vibration magnitude on the relative discomfort of noise and vibration. Journal of the Acoustical Society of America, 2012, 131(6):1-12.
Huang, Y. and Griffin, M.J. The relative discomfort of noise and vibration: effects of stimulus duration. Ergonomics, 2014, 57 (8) :1244-55.
Huang, Y. and Griffin, M.J. Comparison of absolute and relative magnitude estimation for judging the discomfort of noise and vibration. Applied Acoustics, 2014, 77, 82-88.
Huang, Y. and Griffin, M.J. The discomfort produced by noise and whole-body vertical vibration presented separately and in combination. Ergonomics, 2014, 57 (11) :1724-38.
Huang, Y#. and Jiang, W. The effect of exposure duration on the subjective discomfort of aircraft cabin noise. 2017, 60(1): 18-25.
Li, Dou and Huang Y.#. The discomfort model of the micro commercial vehicles interior noise based on the sound quality analyses. Applied Acoustics, 2018, 132 (3): 223-231.
Huang, Y.# and Jiang, W. Identification of perceived sound discomfort contributed from partially correlated vibration and noise sources in vehicles. Journal of the Acoustical Society of America, 2019, 145(3), 1898
Huang, Y.# and Li, D. Subjective discomfort model of the micro commercial vehicle vibration over different road conditions. Applied Acoustics, 2019, 145 (2): 385-392
Huang, Y.# and Zhang, P. Subjective discomfort caused by vertical whole-body vibration in the frequency range 2-100 Hz. Ergonomics, 2019, 62(3), 420-430
Huang, Y.# and Li, D. An empirical category-ratio scale for evaluating the subjective intensity of noise based on the comparison of estimated magnitudes and categories. Applied Acoustics, 2019, 158 (1): 107048
王延年,黄煜#,张玲,时海波,蒋伟康#. 膜迷路积水对豚鼠听觉外周系统振动特性的影响. 声学学报,2020, 45(3): 425-432.