Analisa Kebisingan di Ruas Jalan Arteri Kota Surabaya Serta Korelasinya Dengan Nilai Volume Lalu Lintas
Abstract
Sound pollution is a negative impact that occurs from the accumulation of the number of vehicles on a road where vehicles with each other crammed together to be able to drive without slowing down. This study aims to map the value of noise caused by motorized vehicles on arterial roads in the West Surabaya region. As for the method used to do the mapping is the application of geographic information systems based on primary data obtained in the form of vehicle volume and noise values measured by the tool sound level meter, analysis is done using multiple regression and correlation analysis with distribution t. The results obtained from this study are mathematical models of noise on various types of vehicles as well as a correlation model of noise with a degree of saturation. From this study it can be concluded that there is a positive correlation of noise with the degree of saturation where the mathematical model obtained Noise = 137.45 * DS + 34.76, for each increase in the degree of saturation will increase the noise value, in other words the degree of saturation is directly proportional to noise
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K. Mlzuno, “SAE TECHNICAL The Effect of Vehicle Mass in Car-to-Car Collisions,” Traffic, 1996.
D. Pal and D. Bhattacharya, “Effect of Road Traffic Noise Pollution on Human Work Efficiency in Government Offices, Private Organizations, and Commercial Business Centres in Agartala City Using Fuzzy Expert System: A Case Study,” Adv. Fuzzy Syst., vol. 2012, Jan. 2012.
H. Wibisana, N. Utomo, and D. Wibowo, “Analisa Perlambatan Kecepatan Kendaraan Di Penghujung Traffic Light Perempatan Jalan Dengan Menggunakan Persamaan Differensial Derajad Satu .,” vol. 15, pp. 61–66, 2017.
E. Göçmen and R. Erol, “The Problem of Sustainable Intermodal Transportation: A Case Study of an International Logistics Company, Turkey,” Sustainability, vol. 10, no. 11, p. 4268, Nov. 2018.
V. Pathak, B. D. Tripathi, and V. kumar Mishra, “Evaluation of traffic noise pollution and attitudes of exposed individuals in working place,” Atmos. Environ., vol. 42, no. 16, pp. 3892–3898, May 2008.
J. Andersson, A. Oudin, A. Sundström, B. Forsberg, R. Adolfsson, and M. Nordin, “Road traffic noise, air pollution, and risk of dementia – results from the Betula project,” Environ. Res., vol. 166, pp. 334–339, Oct. 2018.
R. F. Resende, P. T. V., & Benekohal, “Effects of Roadway Section Length on Accident Modeling.,” Proc. Traffic Congest. Traffic Saf. 21st Century., pp. 403–409, 1997.
J. Ma, C. Li, M.-P. Kwan, and Y. Chai, “A Multilevel Analysis of Perceived Noise Pollution, Geographic Contexts and Mental Health in Beijing,” Int. J. Environ. Res. Public Health, vol. 15, no. 7, p. 1479, Jul. 2018.
D. P. Umum, Manual Kapasitas Jalan Indonesia. Jakarta: Dirjen Bina Marga, 1999.
DOI: http://dx.doi.org/10.12962/j2579-891X.v18i2.5357
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