Original Article

Mental Processing of Human Subjects with Different Individual Characters Exposed to Low Frequency Noise

Abstract

Low Frequency Noise (LFN) is ubiquitous in both occupational and general environments. Mental performance of subjects exposed to LFN is expected to be impaired. Individual characters seem to play a significant role in this process. This study aimed to evaluate the effects of moderate levels of LFN (20–200 Hz) on mental performance. Fifty-three subjects (in two groups) were exposed to low and flat frequency character noise each at the same sound pressure levels of 45 dBA. Personality traits of extro-intraversion and neuroticism were determined using the Eysenck Personality Questionnaire. The subjects were asked to carry out two different mental tasks while being exposed to the noise. Subjective reports were collected using questionnaires. Concentration problems, fatigue and noise annoyance during the experiments were measured using a numeric ten-point self-rating scales. The results revealed that LFN impaired mental performance. There was no significant effect of LFN on the accuracy of mental processing, compared to the reference noise condition. Extrovert subjects performed significantly faster, compared to the introverts and subjects that exposed to LFN performed slower than reference noise. More stable personality, with extroversive tendencies is likely for better adaptation to LFN during mental performance, compared to people with the opposite personality traits. Correlation analysis showed a highly significant negative relation of extroversion and noise annoyance during mental processing.

Leventhall H. Low Frequency Noise and annoyance. NAH 2004; 6: 59-72.

Jafari MJ, Kazempour M, Alimohamadi I, Mehrabi Y, Hatami J. The Influences of Low Frequency Noise on Mental Performance. JMUMS 2008; 18(63): 55-65.

Kaczmarska A, Mikulski W, Pawlaczyk-Luszczynska M. A study of annoyance of Low Frequency Noise in rooms for office and conceptual work. NAH 2006; 1: 9-16.

Pawlaczyk-Luszczynska M, Dudarewicz A, Waszkowska M, Sliwinska-Kowalska M. Annoyance related to Low Frequency Noise in subjective assessment of workers. J Low Frequency Noise Vib 2009; 28: 1-17.

Berglund B, Lindvall T, Schwella D, Goh KT. Guidelines for Community Noise. Geneva. WHO 2000; 30: 9-22.

Berglund B, Hasten P, Job RF. Sources and effects of Low Frequency Noise. J Acoust Soc Am 1996; 99(5): 2985-3002.

Jessica KL, Gregory N. Stress, subjective experience and cognitive performance during exposure to noise and vibration. J Environ Psychol 2007; 51(5): 32–42.

Persson Waye K. On the Effects of Environmental Low Frequency Noise. PhD thesis, University of Gothenburg, Sweden, 1995.

Persson Waye K, Bengtsson J, Kjellberg A, Benton S. Low Frequency Noise pollution interferes with performance. NAH 2001; 13:33–49.

Benton S, Leventhall HG. Experiments into the impact of low level, Low Frequency Noise upon human behavior. J Low Frequency Noise Vib 1986; 5:143–162.

Benton S, Robinson G. The effects of noise on text problem solving for the word processor user. 6th International Congress

on Noise as a Public Health Problem, Nice, France, July 1993, 539–541.

Smith AP, Miles C. The combined effects of occupational health hazards, an experimental investigation of noise, night work & meal 1987; 5:143–162.

Pawlaczyk LM , Dudarewicz A, Szymczak W, Sliwinska-Kowalska M. Evaluation of annoyance from Low Frequency Noise under laboratory conditions. NAH 2010; 12(48):166-181.

Kaczmarska K, Luczak A. A Study of Annoyance Caused by Low Frequency Noise during Mental Work, I. JOSE 2007; 13(2):117–125.

Persson Waye K, Rylander R. The prevalence of annoyance and effects after long-term exposure to low frequency noise. J Sound Vib 2001; 240: 483-97.

Broadbent DA. Possibilities and difficulties in the concept of arousal. In D. N. Buckner & J. J. McGrath, (Eds.), Proceedings of the Symposium `Vigilance'. New York: McGraw-Hill, 1963; 184-192.

Stansfeld SA. Noise sensitivity and psychiatric disorder. Epid & Psychol Studies 1992; 81: 81-97.

Wolf M, Ackerman P. Extraversion and intelligence: A meta-analytic investigation. Pers Endiv Differ 2005; 39:31–42.

Matthews G, Davies D, Westerman S, Stammers R. Human performance: Cognition, stress and individual differences. J Psychol 2000; 27, 38-50.

Bengtsson J, Persson Waye K, Kjellberg A. Evaluations of effects due to Low Frequency Noise in a low demanding work situation. J Sound & Vib 2004; 278, 83–99.

Weinstein ND. Individual differences in reaction to noise: a longitudinal study in a college dormitory. J Appl Psychol 1978; 63: 458−66.

Pawlaczyk-Luszczynska M, Dudarewicz A, Waszkowska M, Szymczak W, Sliwinska-kowalska M. The Impact of Low Frequency Noise on human mental performance. Int J Occup Med & EH 2005; 18(2): 185 - 198

Landstrom U, Bystrom M, Kjellberg A, Nordstrom B. Performance and annoyance during exposure for amplitude-modulated noise at different noise levels, NIOSH, Report 15, 1997 (in Swedish).

Eysenck HJ. The Biological Basis of Personality. J Springfeld, Illinois 1967; 21: 43-52.

Geen RG. Preferred stimulation levels in introverts and Extroverts: effect on arousal and performance. J Pers Soci Psychol 1984; 46: 1303-1312.

Belogevic G, Slepcevic V and Jakovljevic B. Mental Performance in Noise: The Role of Introversion. J Environ Psychol 2001; 21: 209-213.

Kazempour M, Jafari M.J, Alimohamadi I, Mehrabi Y, Hatami J. The Impact of Low Frequency Noise on Mental Performance during Math Calculations, IOHJ 2011, 8(2): 42-52.

Files
IssueVol 5 No 2 (2013) QRcode
SectionOriginal Article(s)
Published2015-10-11
Keywords
Low Frequency Reference Noise Mental Performance Extrovert Introvert Neuroticism

Rights and permissions
Creative Commons License This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
How to Cite
1.
JAFARI M, KAZEMPOUR M. Mental Processing of Human Subjects with Different Individual Characters Exposed to Low Frequency Noise. Int J Occup Hyg. 2015;5(2):64-70.