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.