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Adam, R. (1999): Subjective response to low frequency noise, PhD, South Bank University, London.
Alves Pereira, M., and Castelo Branco, N. A. A. (2006): Vibroacoustic disease: Biological effects of infrasound and low frequency noise explained by mechanotransduction cellular signaling. Progress in Biophysics and Molecular Biology doi: 10.1016/j.phiomolboi.2006.07.011.
Alves Pereira, M., and Castelo Branco, N. A. A. (2007b): In-home wind turbine noise is conducive to vibroacoustic disease. Proceedings Second International Meeting on Wind Turbine Noise - Lyon, France Sept 20-21 2007 (CDRom).
Alves Pereira, M., and Castelo Branco, N. A. A. (2007c): Vibroacoustic Disease: Biological effects of infrasound and low frequency noise explained by mechanotransduction cellular signalling. Progress in Biophysics and Molecular Biology 256-279.
Alves Pereira, M., de Melo, J. J., Marques, M. C., and Castelo Branco, N. A. A. (2004): Vibroacoustic disease -The response of biological tissue to low frequency noise. Proceedings 11th Intemational Meeting: Low Frequency Noise and Vibration and its Control. Maastricht, 2004, 295-308.
Andresen, J., and Moller, H. (1984): Equal annoyance contours for low frequency noise. Jnl Low Freq Noise Vibn 3, 1-9.
Bailer, J., Witthoft, M., Paul, C., Bayerl, C., and Rist, F. (2005): Evidence for overlap between Idiopathic Environmental Intolerance and Somatoform Disorders. Psychosomatic Medicine, 921 - 929.
Banerjee, A., Whyte, A., and Atlas, M. D. (2005): Superior canal dehiscence: review of a new condition. Clinical Otolaryngology 30, 9-15.
CrossRef
Barbenza, C. M., Bryan, M. E., and Tempest, W. (1970): Individual loudness functions. J Sound Vibration 11, 399-410.
CrossRef
Belojevic, G., and Jokovljevic, B. (2001): Factors influencing subjective noise sensitivity in an urban population. Noise and Health 4, 17-24.
Bento Coelho J L, Ferreira A, Serrano J, and A, C. B. N. N. (1999): Noise assessment during aircraft run-up procedures. Aviation Space Env Med 70, A22-A26.
Benton, S. (2007): The central role of interpersonal conflict in low frequency noise annoyance. Jnl Low Freq Noise Vibn and Active Control, 26, 1 - 14.
Benton, S., and Leventhall, H. G. (1982): The effect of auditory processing on the development of low level low frequency noise criteria. Jnl Low Freq Noise Vibn 1, 97-108.
Benton, S., and Leventhall, H. G. (1994): The role of "background stressors" in the formation of annoyance and stress responses. Jnl Low Freq Noise Vibn 13, 95-102.
Berglund, B., and Lindvall, T. (1995): Community Noise. Centre for Sensory Research, Karolinska Institute.
Berglund, B., Lindvall, T., Schwela, D., and Goh, K.-T. (2000): Guidelines for Community Noise. World Health Organisation.
Broner, N., and Leventhall, H. G. (1978b): Individual annoyance functions. Acoustics Letters 2, 22-25.
Broner, N., and Leventhall, H. G. (1984): The annoyance, loudness and unacceptability of lower level low frequency noise. Jnl Low Freq Noise Vibn 3, 154-166.
Broner, N., and Leventhall, H. G. (1985): Annoyance and unacceptability of higher level low frequency noise. Jnl Low Freq Noise Vibn 4, 1-11.
Bryan, M. E., and Tempest, W. (1973): Are our noise laws adequate. Applied Acoustics 6, 219-233.
CrossRef
Carey, J. P., Minor, L. B., and Nager, G. T. (2000): Dehiscence or thining of the bone overlaying the superior semicircular canal in a temporal bone survey. Archives of Otolaryngology - Head and Neck Surgery 126, 137 - 147.
CrossRef
Castelo-Branco, N. A. A., and Alves Pereira, M. (2004b): Vibroacoustic Disease. Noise and Health 6, 3 - 20.
Castelo Branco, N. A. A. (1999): The clinical stages of vibroacoustic disease. Aviation Space Env Med;: 70(3 ll Suppl.), A32-A39.
Castelo Branco, N. A. A., and Alves Pereira, M. (2004a): Vibroacoustic Disease what is known to date. Proceedings 11th International Meeting: Low Frequency Noise and Vibration and its Control. Maastricht, 2004, 269 - 284.
Curtin, H. D. (2003): Superior Semicircular Canal Dehiscence Syndrome and Multi-Detector Row CT. Radiology 226, 312 - 314.
CrossRef
Demming, D. (2004): The Hum: an Anomalous Sound Heard Around the World. Journal of Scientific Exploration 18, 571-595.
Dos Santos, J., Grande, N., Castelo Branco, NA, Zagalo, C., and Oliveira, P. (2002): Vascular lesions and vibroacoustic disease. Anales de Anatomia 6(1), 17 - 21.
Evans, R. W. (2006): Case studies of uncommon headaches. Neurologic Clinics, 347 - 362.
Feldmann, J., and Pitten, F. A. (2004): Effects of low frequency noise on man - a case study. Noise and Health 7, 23 - 28.
Ferreira, J. R., Mendes, C. P., Monteiro, M., Marques, M. C., Alves Pereira, M., and Castelo Branco, N. A. A. (2004): Vibroacoustic Disease - Associated respiratory tract pathology. Proceedings 11th Intemational Meeting: Low Frequency Noise and Vibration and its Control. Maastricht, 2004, 285-294.
Fields, J. M. (1993): Effect of personal and situational variables on noise annoyance in residential areas. J Acoust Soc Am 93, 2753-2763.
CrossRef
Gavreau, V. (1968): Infrasound. Science Joumal Vol 4, 33-37.
Gavreau, V., Condat, R., and Saul, H. (1966): Infrasons: generateur, detecteurs, proprietes physique, effets biologiques. Acustica 17, 1-10.
Goldstein, M. (1994): Low-frequency components in complex noise and their perceived loudness and annoyance. National Institute of Occupational Health (Arbetsmiljöinstitutet). Solna.
Goldstein, M., and Kjellberg, A. (1985): Annoyance and low frequency noise with different slopes of the frequency spectrum. Jnl Low Freq Noise Vibn 4, 43-51.
Grime, S. (2000): Against a National Noise Strategy. Environmetal Health Journal 108.
Guski (1999): Personal and social variables as codeterminants of noise annoyance. Noise and Health 1, 45-56.
Guski, R., Felscher-Suhr, U., and Scheumer, R. (1999): The concept of noise annoyance: How international experts see it. J Sound Vibration 223, 513-527.
CrossRef
Hakansson, B., Brandt, A., and Carsson, P. (1994): Resonance frequencies of the human skull in vivo. J Acoust Soc Am 95(3), 1474 - 1481.
CrossRef
Henry, J. A., Dennis, K. C., and Schechter, M. A. (2005): General Review of Tinnitus Prevalence, Mechanisms, Effects, and Management. Journal of Speech, Language, and Hearing Research, 1204-1235.
Holmberg, K., Landstrom, U., and Kjellberg, A. (1993): Effects of ventilation noise due to frequency characterisitics and sound level. Jnl Low Freq Noise Vibn 12, 115-122.
Hubbard, E. M. (2008): Synaesthesia: the sound of moving patterns. Current Biology, R657-R659.
IEC (1994): 60050-801:1994 International Electrotechnical Vocabulary - Chapter 801: Acoustics and electroacoustics.
Inukai, Y., Nakamura, N., and Taya, H. (2000): Unpleasantness and acceptable limits of low frequency sound. Jnl Low Freq Noise Vibn 19, 135 - 140.
Inukai, Y., Taya, H., and Yamada, S. (2005): Thresholds and acceptability of low frequency pure tones by sufferers. Jnl Low Freq Noise Vibn and Active Control, 24, 163 - 170.
ISO7029 (2000): Statistical distribution of hearing thresholds as a function of age.
IS0:226 (2003): Acoustics - Normal equalloudness contours.
Johnson, K. O. (2001): The roles and functions of cutaneous mechanoreceptors. Current Opinion in Neurobiology 11, 455-461.
CrossRef
Jones, L. (2001): Human factors and haptic interfaces. www.ima.umn.edu/talks/workshops/6-14-15.2001/jones/jones.pdf
Kalveram, K. T. (2000): How acoustical noise can cause physiological and psychological reactions. 5th Int Symp Transport Noise and Vibration. June 2000, St. Petersburg,-Russia.
Kalveram, K. T., Dasow, J., and Vogt, J. (1999): How information about the source influences noise annoyance. ASA/EAA/DAGA Meeting March 1999, Berlin (CDROM).
Katz, B. (2000): Acoustic absorption coefficient of human hair and skin within the audible frequency range. JASA 108, 2238-2242.
CrossRef
Kjellberg, A., and Goldstein, M. (1985): Loudness assessment of band noise of varying bandwidth and spectral shape. An evaluation of various frequency weighting networks. Jnl Low Freq Noise Vibn 4, 12-26.
Kjellberg, A., Goldstein, M., and Gamberale, F. (1984): An assessment of dB(A) for predicting loudness and annoyance of noise containing low frequency components. Jnl Low Freq Noise Vibn 3, 10-16.
Kurakata, K., and Mizunami, T. (2008): The statistical distribution of normal hearing thresholds for low frequency tones. Jnl Low Freq Noise Vibn and Active Control 27, 97-104.
Kyriakides, K., and Leventhall, H. G. (1977): Some effects of infrasound on task performance. J Sound Vibration 50, 369-388.
CrossRef
Landström, U., Kjellberg, A., Söderberg, L., and Nordstrom, B. (1994): Measures against ventilation noise: Which tone frequencies are least and most annoying. Jnl Low Freq Noise Vibn 13, 81-88.
Le Fanu, J. (2002): A clutch of new syndromes? Jnl Royal Soc Medicine 95, 118-125.
Leventhall, H. G. (1998): Making noise comfortable for people. ASHRAE Transactions Vol 104, ptl, 896 - 900.
Leventhall, H. G. (2004): Low frequency noise and annoyance. Noise and Health 6, 59 - 72.
Leventhall, H. G. (2006): Somatic Responses to Low Frequency Noise. Proceedings 12th Intemational Meeting: Low Fnequency Noise and Vibration and its Control Bristol September 2006 (CDRom).
Leventhall, H. G., Benton, S., and Pelmear, P. (2003): A review of published research on low frequency noise and its effects. Report for Defra. http://wwwdefra.gov.uk/environment/noise/reseanch/lowfrequency/pdf/lowfreqnoise.pdf
Leventhall, H G., Benton, S., and Robertson, D. (2008): Coping strategies for low frequency noise. Jnl Low Fneq Noise Vibn 27, 35 - 52.
Maguire, E. A., Gadian, D. G., Johnsrude, I. S., Good, C. D., Ashburner, J., Frackowiak, R. S. J., and Frith, C. D. (2000): Navigation related structural change in the hippocampi of taxi drivers. Proc Nat Acad Sci 97, 4398 - 4403.
CrossRef
Manley, D. M. J. P., Styles, P., and Scott, J. (2002): Perceptions of the public of low frequency noise. Jnl Low Freq Noise Vibn 21, 2002.
Mirowska, M. (1998): An investigation and assessment of low frequency noise in dwellings. Jnl Low Freq Noise Vibn 17, 119-126.
Mohr, G. C., Cole, J. N., Guild, E., and Gierke, H. E. v. (1965): Effects of low frequency and infrasonic noise on man. Aerospace Medicine 36, 817-824.
Møller, H. (1987): Annoyance of audible infrasound. Jnl Low Freq Noise Vibn 6, 1-17.
Moorhouse, A., Waddington, D., and Adams, M. (2004): Proposed criteria for the assessment of low frequency noise disturbance. Report for Defra. www.defra.gov.uk/environment/noise/research/lowfrequency/index.htm
Moorhouse, A. T., Waddingtion, D. C., and Adams, M. D. (2007): The effect of fluctuations on the perception of low frequency sound. Jnl Low Freq Noise Vibn and Active Control, 26, 81 - 89.
Mortensen, F. R., and Poulsen, T. (2001): Annoyance of low frequency noise and traffic noise. Jnl Low Freq Noise Vibn 20, 193-196.
Nakamura, N., and Inukai, Y. (1998): Proposal of models which indicate unpleasantness of low frequency noise using exploratory factor analysis and structural covariance analysis. Jnl Low Freq Noise Vibn 17, 127-132.
Pantev, C., Oostenveld, R., A, E., Ross, B., Roberts, L. E., and Hoke, M. (1998): Increased auditory cortical response in musicians. Nature April 23 392 (6678), 811-814.
Parker, D. E. (1976): Effects of sound on the vestibular system. in Infrasound and Low Frequency Vibration ed W Tempest Academic Press.
Persson-Waye, K. (1985): An experimental evaluation of annoyance due to low frequency noise. Jnl Low Freq Noise Vibn 4, 145-153.
Persson-Waye, K., Rylander, R., Benton, S., and Leventhall, H. G. (1997): Effects on performance and work quality due to low frequency ventilation noise. J Sound Vibration 205, 467-474.
CrossRef
Persson, K., and Bjorkman, M. (1988): Annoyance due to low frequency noise and the use of the dB(A) scale. J Sound Vibration 127, 491-497.
CrossRef
Persson, K., Bjorkman, M., and Rylander, R. (1985): An experimental evaluation of annoyance due to low frequency noise. Jnl Low Freq Noise Vibn 4, 145-153.
Persson, K., Bjorkman, M., and Rylander, R. (1990): Loudness, annoyance and the dBA in evaluating low frequency sounds. Jnl Low Freq Noise Vibn 9, 32-45.
Peters, A. J. M., Abrams, R. M., Gerhardt, K. J., and Griffiths, S. K. (1993): Transmission of airborne sound from 50 to 20,000Hz into the abdomen of sheep. Jnl Low Freq Noise Vibn 12, 16-24.
Poulsen, T. (2002): Laboratory determination of annoyance of low frequency noise. 10th International Meeting Low Frequency Noise and Vibration and its Control. York U K (Editor: H G Leventhall), 19-26, pp. 19-28.
Poulsen, T. (2003a): Comparison of objective methods for the assessment of annoyance of low frequency noise with the results of laboratory listening tests. Jnl Low Freq Noise Vibn and Active Control, 22, 117 - 132.
Poulsen, T. (2003b): Annoyance of low frequency noise (LFN) in the laboratory assessed by LFN-sufferers and non-sufferers. Jnl Low Freq Noise Vibn and Active Control, 22, 191 - 202.
Poulsen, T., and Mortensen, F. R. (2002): Laboratory evaluation of annoyance of low frequency noise. Working Report No. 1 2002 Danish Environmental Protection Agency.
Robinson, D. W., and Dadson, R. S. (1956): A redetermination of the equal loudness relation for pure tones. British Journal of Applied Physics 7, 166 - 181.
CrossRef
Saenz, M., and Koch, K. (2008): The sound of change: visually induced auditory synesthesia. Current Biology, R650 - R651.
Schmuziger, N., Allum, J., Buitrago-Tellez, C., and Probst, R. (2006): Incapacitating hypersensitivity to one's own body sounds due to a dehiscence of bone overlying the superior semicircular canal. A case report. Eur Arch Otorhinolaryngol 263, 69-74.
CrossRef
Schnupp, J. W. H., and Kacelnick, O. (2002): Cortical plasticity: Learning from cortical reorganisation. Current Biology 12, 144-146.
CrossRef
Smith, S. D. (2002): Characterising the effect of airborne vibration on human body vibration response. Aviation, Space and Environmental Medicine 73, 36 - 45.
Stallen, P. (1999): A theoretical framework for environmental noise annoyance. Noise and Health 1, 69-80.
Subedi, J. K., Yamaguchi, H., Matsumoto, Y., and Ishibara, M. (2005): Annoyance of low frequency tones and objective evaluation methods. Jnl Low Freq Noise Vibn and Active Control, 24, 81 - 96.
Takahashi, Y., Kanada, K., and Yonekawa, Y. (2002a): The relationship between vibratory sensation and body surface vibjation induced by low frequency noise. Jnl Low Freq Noise Vibn 21, 87-100.
Takahashi, Y., Kanada, K., and Yoshiharu, Y. (2002b): Some characteristics of human body surface vibration induced by low frequency noise. Jnl Low Freq Noise Vibn 21, 9-20.
Tesarz, M., Kjellberg, A., Landstrom, U., and Holmberg, K. (1997): Subjective response patterns related to low frequency noise. Jnl Low Freq Noise Vibn 16, 145-150.
van den Berg, G. P., and Passchier-Vermeer, W. (1999): Assessment of low frequency noise complaints. Proc Internoise'99, Fort Lauderdale.
Vasudevan, R. N., and Gordon, C. G. (1977): Experimental study of annoyance due to low frequency environmental noise. Applied Acoustics 10, 57-69.
CrossRef
Vasudevan, R. N., and Leventhall, H. G. (1982): A study of annoyance due to low frequency noise in the home. Jnl Low Freq Noise Vibn 2,157-164.
von Bekesy, G. (1960): Experiments in Hearing. McGraw-Hill.
von Gierke, H. E. (2002): "Vibroacoustic Disease" Letter. Aviation Space Env Med 73, 828.
von Gierke, H. E., and Nixon, C. (1976): Effects of intense infrasound on man. In: Infrasound and Low Frequency Vibration. Editor: W Tempest. Academic Press.
Walford, R. E. (1983): A classification of environmental "hums" and low frequency tinnitus. Jnl Low Freq Noise Vibn 2, 60-84.
Watanabe, T., and Møller, H. (1990): Low frequency hearing thresholds in pressure field and free field. Jnl Low Freq Noise Vibn 9, 106-115.
Watson, L. (1974): Supernature - a natural history of the supernatural. Coronet Books.
Westin, J. B. (1975): Infrasound: A short review of effects on man. Aviat Space Environ Med 46, 1135-40.
Yamada, S. (1980): Hearing-of low frequency sound and influence on the body. Conference on Low Frequency Noise and Hearing, Aalborg, Denmark, 95-102, (Editors: H Møller and P Rubak).
Yamada, S., Ikuji, M., Fujikata, S., Watanabe, T., and Kosaka, T. (1983): Body sensations of low frequency noise of ordinary persons and profoundly deaf persons. Jnl Low Freq Noise Vibn 2, 32-36.
Yeowart, N. S., Bryan, M. E., and Tempest, W. (1967): The monaural MAP threshold of hearing at frequencies from 1.5 to 100c/s. J Sound Vibration 6, 335-342.
CrossRef