Berglund, B., Hassmen, P. and Job, R.F.S., Sources and effects of low-frequency noise, Journal of the Acoustical Society of America, 1996, 99(5), 2985-3002. CrossRef
	Pawlaczyk-Luszczynska, M., Occupational exposure to infrasonic noise in Poland, Journal of Low Frequency Noise. Vibration and Active Control, 1998, 17(2), 71-83.
	Bento Coelho, J.L., Ferreira, A., Serrano, J. and Castelo Branco, N.A.A., Noise assessment during aircraft run-up procedures, Aviation. Space and Environmental Medicine, 1999, 70(3, Suppl.), A22-A26.
	Leventhall, H.G., Low frequency noise and annoyance, Noise & Health, 2004, 6(23), 59-72.
	Cocchi, A., Fausti, P. and Piva, S., Experimental characterisation of the low frequency noise annoyance arising from industrial plants, Journal of Low Frequency Noise and Vibration, 1992, 11(4), 124-132.
	Pawlaczyk-Luszczynska, M., Dudarewicz, A., Waszkowska, M. and Sliwinska-Kowalska, M., Assessment of annoyance from low frequency and broadband noises, International Journal of Occupational Medicine and Environmental Health, 2003, 16(4). 337-343.
	Broner, N. and Leventhall, H.G., A criterion for predicting the annoyance due to higher level, low frequency noise, Journal of Sound and Vibration, 1962, 84(3), 443-448. CrossRef
	Kjellberg, A., Goldstein, M. and Gamberale, F., An assessment of dB(A) for predicting loudness and annoyance of noise containing low frequency components, Journal of Low Frequency Noise and Vibration, 1984, 3(3), 10-16.
	Persson, K. and Björkman, M., Annoyance due to low frequency noise and the use of the dB(A) scale, Journal of Sound and Vibration, 1988, 127(3), 491-497. CrossRef
	International Organization for Standardization, Acoustics frequency-weighting characteristic for infrasound measurements, ISO 7196, 1995.
	Schomer, P.D., Loudness-level weighting for environmental noise assessment, Acta Acustica united with Acustica, 2000, 86(1), 49-61.
	12. Schomer, P.D., Suzuki, Y. and Saito, F., Evaluation of loudness-level weightings for assessing the annoyance of environmental noise, Journal of the Acoustical Society of America, 2001, 110(5), 2390-2397. CrossRef
	International Organization for Standardization, Acoustics — normal equal-loudness-level contours, ISO 226, 2003.
	Inukai, Y., Taya, H., Miyano, H. and Kuriyama, H., A multidimensional evaluation method for the psychological effects of pure tones at low and infrasonic frequencies, Journal of Low Frequency Noise and Vibration, 1986, 5(3), 104-112.
	Inukai, Y., Taya, H., Nagamura, N. and Kuriyama, H., An evaluation method of combined effects of infrasound and audible noise, Journal of Low Frequency Noise and Vibration, 1987, 6(3), 119-125.
	Smith, S.D., Characterizing the effects of airborne vibrations on human body vibration response, Aviation. Space, and Environmental Medicine, 2002, 73(1), 36-45.
	Takahashi, Y., Kanada, K. and Yonekawa, Y., Some characteristics of human body surface vibration induced by low frequency noise, Journal of Low Frequency Noise. Vibration and Active Control, 2002, 21(1), 9-20 . Abstract
	Takahashi, Y. and Maeda, S., Measurement of human body surface vibrations induced by complex low-frequency noise composed of two pure tones, Journal of Low Frequency Noise. Vibration and Active Control, 2003, 22(4), 209-223. Abstract
	Takahashi, Y., Kanada, K., Yonekawa, Y. and Harada N., A study on the relationship between subjective unpleasantness and body surface vibrations induced by high-level lowfrequency pure tones, Industrial Health, 2005, 43(3), 580-587. CrossRef
	Takahashi, Y., A consideration of the relationship between subjective unpleasantness and body surface vibrations induced by high-level, complex low-frequency noise, Journal of Low Frequency Noise. Vibration and Active Control, 2006, 25(3), 163-174. Abstract
	International Organization for Standardization, Mechanical vibration and shock—evaluation of human exposure to whole-body vibration—. Part 1: general requirements, ISO 2631-1, 1997.
	Takahashi, Y., Yonekawa, Y. and Kanada, K., A new approach to assess low frequency noise in the working environment, Industrial Health, 2001, 39(3), 281-286. CrossRef
	Takahashi, Y., Kanada, K. and Yonekawa, Y., The relationship between vibratory sensation and body surface vibration induced by lowfrequency noise, Journal of Low Frequency Noise. Vibration and Active Control, 2002, 21(2), 87-100. Abstract
	Yamada, S., Ikuji, M., Fujikata, S., Watanabe, T. and Kosaka, T., Body sensation of low frequency noise of ordinary persons and profoundly deaf persons, Journal of Low Frequency Noise and Vibration, 1983, 2(3), 32-36.
	Landström, U., Lundstrom, R. and Bystrom, M., Exposure to infrasound — perception and changes in wakefulness, Journal of Low Frequency Noise and Vibration, 1983, 2(1), 1- 11.
	Takahashi, Y., Effectiveness of considering the human body vibration in evaluating high-level low-frequency noise, Proceedings of the 35th International Congress and Exposition on Noise Control Engineering (Inter-Noise 2006), 2006, CD-ROM, Paper number 542.