Assessment of traffic noise due to transverse rumble strips at residential areas

Transverse rumble strips (TRS) are commonly being installed to alert the drivers through sound and vibration effects. The sound produced affects the existing traffic noise level which caused noise annoyance to the nearby residents. This study aims to assess the traffic noise due to TRS at residential areas by determining the roadside noise levels, traffic and road characteristics and evaluating the relationship between these parameters. Middle overlapped (MO), middle layer overlapped (MLO) and raised rumbler (RR) TRS profiles with same thickness were selected. The measurements of roadside noise levels and skid resistance were conducted using sound level meter (SLM) and British pendulum tester (BPT) respectively. Traffic characteristics were evaluated using previous data measured using automatic traffic counter (ATC). In overall, MLO produced highest roadside noise levels with increase of 20.5dBA from baseline. Generally, the increase of roadside noise level due to TRS is strong with speed, weak to medium with skid resistance of TRS and no relationship with traffic volume. Based on three TRS profile types, MLO is not suitable to be installed on the roadways adjacent to the residential areas as the increase of roadside noise level is significant which is more than 5dBA compared to MO and RR.

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Traffic Noise Assessment at Residential Areas in Skudai, Johor

E3S Web of Conferences ◽

10.1051/e3sconf/20183402024 ◽

2018 ◽

Vol 34 ◽

pp. 02024

Author(s):

F.S. Sulaiman ◽

N. Darus ◽

N. Mashros ◽

Z. Haron ◽

K. Yahya

Keyword(s):

Noise Level ◽

Traffic Noise ◽

Noise Pollution ◽

Traffic Volume ◽

Sound Level ◽

Pollution Level ◽

Vehicle Speed ◽

Residential Areas ◽

Traffic Characteristics ◽

Noise Assessment

Vehicles passing by on roadways in residential areas may produce unpleasant traffic noise that affects the residents. This paper presents the traffic noise assessment of three selected residential areas located in Skudai, Johor. The objectives of this study are to evaluate traffic characteristics at selected residential areas, determine related noise indices, and assess impact of traffic noise. Traffic characteristics such as daily traffic volume and vehicle speed were evaluated using automatic traffic counter (ATC). Meanwhile, noise indices like equivalent continuous sound pressure level (LAeq), noise level exceeded 10% (L10) and 90% (L90) of measurement time were determined using sound level meter (SLM). Besides that, traffic noise index (TNI) and noise pollution level (LNP) were calculated based on the measured noise indices. The results showed an increase in noise level of 60 to 70 dBA maximum due to increase in traffic volume. There was also a significant change in noise level of more than 70 dBA even though average vehicle speed did not vary significantly. Nevertheless, LAeq, TNI, and LNP values for all sites during daytime were lower than the maximum recommended levels. Thus, residents in the three studied areas were not affected in terms of quality of life and health.

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Effect of distance from road intersection on developed traffic noise levels

Canadian Journal of Civil Engineering ◽

10.1139/l04-016 ◽

2004 ◽

Vol 31 (4) ◽

pp. 533-538 ◽

Cited By ~ 8

Author(s):

Saad Abo-Qudais ◽

Arwa Alhiary

Keyword(s):

Noise Level ◽

Traffic Noise ◽

Sound Level ◽

Signalized Intersections ◽

Environment Pollution ◽

Noise Levels ◽

The Road ◽

Traffic Intersection ◽

Noise Measurements ◽

Level Meter

The main objective of this study was to evaluate the variation in traffic equivalent noise levels as distance from the road intersection increases. To achieve this objective, traffic volume and equivalent noise level were monitored at 40 signalized intersections in Amman, the capital of Jordan. An integrated sound level meter (ISLM) was used to measure 1 min equivalent noise level along all approaches of the evaluated intersections. A total of 3326 noise measurements were performed. The collected data were analyzed to evaluate the variation of noise levels as distance from the intersection increases. The results indicated that equivalent noise levels were significantly affected by distance from the signal stop line. The equivalent noise levels at distances 50 and 100 m from the intersection were found to be 1.5 to 2.0 dB less than those at 0 m. While at 200, 250, and 300 m from the intersection, the monitored equivalent noise levels were found to be 3.8 to 4 dB higher than that at 0 m. At distances farther than 250 m, the measured equivalent noise levels tend to keep constant value of equivalent noise level as distance increased.Key words: noise, traffic, intersection, environment, pollution.

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Spatial Mapping of Traffic Noise Levels in Urban Areas

Journal of the Transportation Research Forum ◽

10.5399/osu/jtrf.47.2.1711 ◽

2011 ◽

Vol 47 (2) ◽

Cited By ~ 1

Author(s):

Mohammed Taleb Obaidat

Keyword(s):

Noise Level ◽

Urban Areas ◽

City Planning ◽

Traffic Noise ◽

Sound Level ◽

Signalized Intersections ◽

Mapping Technique ◽

Residential Areas ◽

Noise Levels ◽

High Traffic Volume

This paper combines field data with an analytical approach to spatially map noise levels due to traffic movements at relatively high traffic volume signalized intersections utilizing the potential of Geographic Information Systems (GIS). Noise data were collected using a discrete mapping technique at 29 signalized intersections, as well as between intersections, and at their respective neighborhood areas in Amman, capital of Jordan. Data were collected in three different highly congested traffic peak periods: 7:30 a.m.-9:00 a.m., 1:30 p.m.-3:00 p.m., and 9:00 p.m.-11:00 p.m. A portable precision sound level meter capable of measuring noise levels from 34 to 134 decibels (dB) was used during the data collection process. The highest recorded noise level at some signals was 80 dB, while the lowest was 34 dB. In fact, some signalized intersections showed higher noise levels than the acceptable or the standard ones, i.e., 65 dB for daytime and 55 dB for nighttime in residential areas at city center. Two-dimensional (2D) vector and raster maps of noise levels, at different time periods for signals' areas and neighborhoods, were spatially displayed. Results showed that the developed GIS maps could be useful for city planning and other environmental management applications for the purpose of: 1) temporal monitoring and queries of noise level changes as a function of time, 2) spatial queries to find the highest noise disturbance location and its time of the day, 3) development of an online noise information system, 4) using noise level based spatial maps as indicators of variation in land prices, and 5) forecasting and current assessment of the acoustic climate of urban areas.

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Analysis of Traffic Noise in Taman Kota Lumintang Denpasar

International Journal of Contemporary Research and Review ◽

10.15520/ijcrr.v10i02.652 ◽

2019 ◽

Vol 10 (02) ◽

pp. 20585-20591

Author(s):

Adrian Pradana ◽

I Made Tamba ◽

I Ketut Widnyana

Keyword(s):

Noise Level ◽

Open Space ◽

Direct Method ◽

Traffic Noise ◽

Ground Level ◽

Quality Standard ◽

Sound Level ◽

The Road ◽

Level Meter ◽

City Park

This research was conducted to analyze the level of traffic noise in Lumintang City Park, Denpasar. The measurement method is by using a direct method that is using an integrating sound level meter that has an LTMS measurement facility, namely Leq with a measuring time every 5 seconds. The examination is carried out by measuring for 10 minutes. The measurement time is carried out during the 24 hour activity (NGO) on December 3, 2018. The measurement distance ranges from 5-10 meters from the road, with a height of 1-1.2 m from the ground level. The results of the research on the level of traffic noise in Lumintang City Park Denpasar showed the noise level that exceeded the noise level quality standards of the green open space area of 50 dB, where in the first lane the traffic noise level was 92.52 dB at L3. While the noise research in lane 2 shows that the highest traffic noise level of 85.70 dB occurs at L5. For day and night (NGO) noise levels in lane 1 amounting to 70.13 dB and lane 2 of 67.95 dB has exceeded the quality standard of green open space, so that it can cause physical and psychological disturbances for visitors to the Taman Lumintang City of Denpasar..

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Traffic Noise Level Assessment in the Residential Area around Different Road Functions in Malang City, East Java, Indonesia

Pertanika Journal of Science and Technology ◽

10.47836/pjst.29.3.05 ◽

2021 ◽

Vol 29 (3) ◽

Author(s):

Ngudi Tjahjono ◽

Imam Hanafi ◽

Latipun Latipun ◽

Suyadi Suyadi

Keyword(s):

Psychological Health ◽

Noise Level ◽

Urban Areas ◽

Negative Impact ◽

Heavy Traffic ◽

Traffic Noise ◽

Sound Level ◽

Noise Levels ◽

Significant Difference ◽

Motorized Vehicles

Noise due to motorized vehicles is a major problem in urban areas which can interfere with physiological and psychological health. This study aims to determine the extent of noise levels outside and inside the house around the function of different roads in Malang City, East Java, Indonesia. The study was conducted by measuring the traffic noise level using a sound level meter. Measurements were taken in the afternoon between 16.00-21.00 during the peak of heavy traffic and outside working hours when residents were already at home. Statistical Student’s t-test analysis was used to test differences in the average noise level outside and inside the house on each road function. Variance analysis was used to compare noise levels around primary arterial roads, secondary arteries, primary collectors, secondary collectors, primary local, and secondary local. From the measurement results, it is known that the noise due to motorized vehicles is 84.28 dB on average. This exceeds the threshold based on the Decree of the State Minister for the Environment Number 48 of 1996. There was a significant difference in noise level between outside and inside the house on each road function. There was no significant difference in noise level between the functions of the road segments both outside and inside the house. The results of the study concluded that the traffic noise level at 16:00 to 21:00 hours on all roads that were targeted for research exceeds the national threshold. It is recommended that the level of traffic noise around roads in the city of Malang can be reduced to minimize the negative impact on physiological and psychological health.

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Traffic Intersections Noise Levels and Daily Noise Exposure in Chandrapur City, Central India

Indonesian Journal of Environmental Management and Sustainability ◽

10.26554/ijems.2019.3.3.80-92 ◽

2019 ◽

Vol 3 (3) ◽

pp. 80-92

Author(s):

Rahul K. Kamble

Keyword(s):

Noise Level ◽

Noise Exposure ◽

Health And Safety ◽

Central India ◽

Sound Level ◽

Control Measures ◽

Noise Levels ◽

Road Design ◽

Traffic Intersections ◽

Level Meter

Noise level monitoring was carried out at nine important traffic intersections of the Chandrapur city to ascertain noise levels and daily noise exposure. A pre-calibrated mini sound level meter was used for noise measurement. Observations were recorded for 24 hours and noise level during the day, night and for 24-hours was computed. Maximum noise level during daytime was 84.27 dB(A) at Bangali camp square; whereas, minimum 79.23 dB(A) at Priyadarshani square. In case of nighttime maximum 85.90 dB(A) was at Warora naka square and minimum 70.06 dB(A) at the Jatpura gate. Minimum noise level during 24-hours was at Bagla square 84.34 dB(A) and maximum 91.14 dB(A) at Warora naka square. Noise level during day and night were above the Indian noise standard for the commercial area. The Bangali camp square was identified as the most ear-splitting square during daytime and Warora naka square at nighttime and for 24-hours also. Peak noise was recorded from 10.00 am to 11.00 am and 3.00 pm to 7.00 pm. Vehicular noise, horns, and improper road design contributed significantly to noise levels at traffic intersections. Daily noise exposure analysis by Health and Safety Executive, UK software revealed Bangali camp square and Ramnagar police station square’s daily noise exposure for 0.25 hour was maximum 70 LEP,d and minimum at Gandhi square and Bagla square 65 LEP,d. Noise levels indicated no immediate effect for hearing loss. Control measures for reduction of noise levels at traffic intersections have also been proposed.

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Spatial Association between Environmental Noise Levels and Occurrence of Children Hearing Impairments in Ibadan Metropolis, Nigeria

Applied Environmental Research ◽

10.35762/aer.2015.37.3.6 ◽

2015 ◽

pp. 79-89

Author(s):

Olusegun Oguntoke ◽

Muideen Olatinwo ◽

Olalekan J Taiwo

Keyword(s):

Noise Level ◽

Public Perception ◽

Spatial Association ◽

Noise Pollution ◽

Environmental Noise ◽

Hearing Impairments ◽

Residential Areas ◽

Noise Levels ◽

Level Meter ◽

Hospital Noise

Reports in the past few decades indicate that Nigerian cities have high noise levels that is claimed to impact the health of residents negatively. The present article therefore examine the rela-tionshipbetween levels of environmental noise in selected residential areas in Ibadan metropolis with varying reported cases of hearing impairments (HI). Data on cases of HI were collected from one hospital; noise monitoring was conducted with the aid of a noise level meter while copies of questionnaire were administered to residents to elicit information on public perception. The distribution of reportedcases of HI among residential areas in Ibadan city showed varying magnitude (p< 0.001). About 75 % of children diagnosed with HI cases were within ages of 4-12 and female children suffered more (53.9 %). Sensorineural and conductive impairments accounted for 88.2 % of all reported HI cases.Monitored noise levels vary significantly among the selected residential area at each of morning, after-noon and evening (p < 0.05). Noise levels at morning and eveningshowed significant correlation with cases of HI reported at each of the 10 selected residential areas (r = 0.81; 0.82). Regression analysis showed that noise level explained 70.1 % of the spatial pattern of HI cases. Residents indicated that their neighbourhoods were noisy, that noise levels were on the increase and that ceremonies and generator use were major sources of noise. An integrated strategy for noise control is urgently required to stem the tide of noise pollution so as to safeguard human health in Nigerian cities.

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Noise Level Status in Siddharthanagar Municipality, Rupandehi, Nepal

Himalayan Physics ◽

10.3126/hj.v5i0.12873 ◽

2015 ◽

Vol 5 ◽

pp. 69-74

Author(s):

Lakshmi Nath Bhattarai

Keyword(s):

Noise Level ◽

Sound Level ◽

Sound Level Meter ◽

Noise Levels ◽

Medical College ◽

Commercial Area ◽

Human Hearing ◽

Level Meter ◽

High Level ◽

Digital Sound

Undesirable sound for human hearing is called as noise. It was measured at the selected locations of silent, residential and commercial zones of Siddharthanagar Municipality by using Dick Smith Digital Sound Level Meter Q 1362 for ‘A’ weighting in day time at 9:00 AM to 6:00 PM in the month of November and December 2012. The result shows that at each location the Leq noise levels are above than the noise level standard prescribed by Government of Nepal and WHO. Maximum Leq of 81.9 dB(A) was observed at the Bus park of commercial area and minimum 54.5 dB(A) was observed at Medical College area of silent zone. In other places, the Leq lie in the range 56.2 dB(A) to 81.9 dB(A). The study showed that the places lying along highways have high level of noise which is due to bad condition of roads, vehicles and unnecessary use of horns The Himalayan Physics Vol. 5, No. 5, Nov. 2014 Page: 69-74

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ANALISIS KEBISINGAN PADA INSTITUSI PENDIDIKAN DI FRONTAGE ROAD SISI TIMUR JALAN A.YANI SURABAYA

Al-Ard Jurnal Teknik Lingkungan ◽

10.29080/alard.v3i2.331 ◽

2018 ◽

Vol 3 (2) ◽

pp. 70-77

Author(s):

Widya Nilandita ◽

Dyah Ratri Nurmaningsih ◽

Shinfi Wazna Auvaria

Keyword(s):

Noise Level ◽

Teaching And Learning ◽

Negative Impact ◽

Educational Institution ◽

Quality Standard ◽

Sound Level ◽

Educational Institutions ◽

Sound Level Meter ◽

Noise Levels ◽

Level Meter

Noise can occur anywhere, including at educational institutions. Noise research at educational institutions began to be studied a lot because of the negative impact on the teaching and learning process and disrupt the performance of teachers and students. Some studies show that schools or universities located on the edge of the road, show noise levels that exceed quality standards. This research was conducted at educational institutions located along the east Frontage Road Jl A.Yani Road, Surabaya, by measuring noise levels at 3 locations, in daylighting measurements with 4 measurement times (L1-L4). Data collection and processing was carried out by referring to the quality standard of KEPMENLH No. 48 of 1996. Data was measured using a sound level meter for 10 minutes for each measurement, with a reading every 5 seconds to obtain 120 data. Data processing results are compared with the standard noise level. The noise value at SD Margorejo I / 403 is 82.2 dB, UIN Sunan Ampel Surabaya is 79.76 dB, and SMK 3 Surabaya is 80.06 dB. The noise level value has exceeded the established quality standard, which has maximum of 55 dB for the educational intitutions area. The source of noise comes from the activities of motorized vehicles in and around educational institution that is quite crowded. Another cause of the high noise value is the train activities along the east frontage road Jl A.yani Surabaya, as well as the distance of the noise source with research location that relatively close. Keywords: noise, educational institution, sound level meter

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Study the spatial variability of the noise levels inside two commercial poultry housing with different adiabatic evaporative cooling systems

DYNA ◽

10.15446/dyna.v85n207.59724 ◽

2018 ◽

Vol 85 (207) ◽

pp. 9-15

Author(s):

Flavio Alves Damasceno ◽

Gabriel Araújo e Silva Ferraz ◽

Carlos Eduardo Alves Oliveira ◽

Jairo Alexander Osório-Saraz ◽

Leidimar Freire Brandão

Keyword(s):

Spatial Distribution ◽

Noise Level ◽

Evaporative Cooling ◽

Sound Level ◽

Noise Levels ◽

Cooling Systems ◽

Distribution Maps ◽

Semivariogram Analysis ◽

Commercial Poultry ◽

Level Meter

The objective of the present work was to determinate the map the spatial distribution of noise levels inside two commercial poultry housing having different adiabatic evaporative cooling systems, during the life cycle of birds. The noise level was assessed by a digital sound level meter. The data were measured manually at each point in six predetermined sections, totaling 36 points. Spatial distribution maps of noise were generated for the inside of each animal facility, using geostatistics technique through semivariogram analysis and interpolation by ordinary kriging. It concludes that the birds were, in general, subjected to noise levels above 62.0 dBA and during clean and disinfect (decontamination period) the sheds were at approximately 35.0 dBA. The spatial profile of the noise level to the productive environment provide for the attainment of more detailed information about the studied system.

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