Pemetaan Kebisingan Lalu Lintas di Perkotaan – Sebuah Tinjauan

Authors

  • Trida Ridho Fariz Program Studi Ilmu Lingkungan, Universitas Negeri Semarang

DOI:

https://doi.org/10.33005/envirotek.v14i2.37

Keywords:

Pemetaan Kebisingan, Kebisingan Lalu Lintas, SIG

Abstract

Kebisingan lalu lintas dapat memberikan dampak negatif pada manusia seperti penyakit kardiovaskular dan kesehatan mental. Ini membuat pengendalian kebisingan merupakan hal yang penting. Data yang representatif menjadi salah satu kunci utama dalam pengendalian kebisingan. Hal ini dikarenakan data yang representatif seperti peta sebaran kebisingan dapat membantu dalam pengambilan keputusan terkait rencana aksi pengurangan kebisingan di lingkungan. Oleh karena itu, artikel ini akan melakukan review literatur untuk  membahas beberapa tantangan atau gap yang mungkin muncul dalam kajian pemetaan kebisingan menggunakan SIG (Sistem Informasi Geografis), sehingga dapat disimpulkan beberapa future work untuk pemetaan kebisingan lalu lintas. Hasil mengindikasikan bahwa kajian pemetaan kebisingan di Indonesia masih terbatas sehingga perlu ada kajian, salah satunya adalah perbandingan antar metode interpolasi hingga hiperparameter.

Downloads

Download data is not yet available.

References

Aini, A. N., Anwar, I. F., Sufanir, A. M. S., & Astor, Y. (2018). Survei dan pemetaan zona kebisingan arus lalu lintas pada kawasan RSUP DR Hasan Sadikin Bandung. Potensi: Jurnal Sipil Politeknik, 20(1). https://jurnal.polban.ac.id/ojs-3.1.2/potensi/article/view/993

Alademomi, A., Okolie, C., Ojegbile, B., Daramola, O., Onyegbula, J., Adepo, R., & Ademeno, W. (2020). Spatial and Statistical Analysis of Environmental Noise Levels in the Main Campus of the University of Lagos. The Journal of Engineering Research [TJER], 17(2), 75–88.

Alhani, A., Erwan, K., & Sulandari, E. (2017). Analisa Lalu Lintas Terhadap Kapasitas Jalan Di Pinggiran Kota Pontianak (Kasus Jalan Sungai Raya Dalam). JeLAST: Jurnal PWK, Laut, Sipil, Tambang, 4(4).

Arifin, M. S. (2019). Studi Tingkat Kebisingan Lalu Lintas Pada Jalan Tipe 2/2 Ud (Studi Kasus: Jalan Pangeran Suryanata Samarinda). KURVA MAHASISWA, 1(1), 1509–1525.

Aumond, P., Can, A., Mallet, V., De Coensel, B., Ribeiro, C., & Botteldooren, D Lavandier, C. (2018). Kriging-based spatial interpolation from measurements for sound level mapping in urban areas. The Journal of the Acoustical Society of America, 143(5), 2847–2857.

Basner, M., & McGuire, S. (2018). WHO environmental noise guidelines for the European region: a systematic review on environmental noise and effects on sleep. International Journal of Environmental Research and Public Health, 15(3).

Bhunia, G. S., Shit, P. K., & Maiti, R. (2018). Comparison of GIS-based interpolation methods for spatial distribution of soil organic carbon (SOC). Journal of the Saudi Society of Agricultural Sciences, 17(2), 114–126.

Bocher, E., Guillaume, G., Picaut, J., Petit, G., & Fortin, N. (2019). Noisemodelling: An open source GIS based tool to produce environmental noise maps. Isprs International Journal of Geo-Information, 8(3), 130.

Bostanci, B. (2018). Accuracy assessment of noise mapping on the main street. Arabian Journal of Geosciences, 11(1), 1–12.

BSN (Badan Standarisasi Nasional). (2002). SNI 19-6878-2002: Metode Uji Tingkat Kebisingan Jalan L10 dan Leg. Badan Standardisasi Nasional.

Cai, M., Lan, Z., Zhang, Z., & Wang, H. (2019). Evaluation of road traffic noise exposure based on high-resolution population distribution and grid-level noise data. Building and Environment, 147, 211–220.

Das, P., Talukdar, S., Ziaul, S., Das, S., & Pal, S. (2019). Noise mapping and assessing vulnerability in meso level urban environment of Eastern India. Sustainable Cities and Society, 46, 101416.

DPPW (Departemen Permukiman & Prasarana Wilayah). (2004). Prediksi Kebisingan Lalu Lintas. Departemen Permukiman & Prasarana Wilayah.

DPU (Departemen Pekerjaan Umum). (2005). Mitigasi dampak kebisingan akibat lalu lintas jalan. Departemen Pekerjaan Umum.

Ferial, L., Fitria, L., & Wulandari, R. A. (2022). The Correlation between Noise Level and Hearing Loss of the Population around Pakupatan Bus Station. Faletehan Health Journal, 9(01), 13–19.

Garg, N., Mangal, S. K., Saini, P. K., Dhiman, P., & Maji, S. (2015). Comparison of ANN and analytical models in traffic noise modeling and predictions. Acoustics Australia, 43(2), 179–189.

GESI. (2018). Metoda Pengukuran dan Analisa Kebisingan Lingkungan. https://www.gesi.co.id/metoda-pengukuran-dan-analisa-kebisingan-lingkungan/

Golmohammadi, R. (2003). Vibration and Noise Engineer. Daneshjoo Publishing.

Hammersen, F., Niemann, H., & Hoebel, J. (2016). Environmental noise annoyance and mental health in adults: findings from the cross-sectional German Health Update (GEDA) Study 2012. International Journal of Environmental Research and Public Health, 13(10), 954.

Harman, B. I., Koseoglu, H., & Yigit, C. O. (2016). Performance evaluation of IDW, Kriging and multiquadric interpolation methods in producing noise mapping: A case study at the city of Isparta, Turkey. Applied Acoustics, 112, 147–157.

Hussein, R., & Al-Sulttani, A. (2020). Spatial Analysis of Noise in Kufa University (Kufa River Campus) using GIS. Journal of Geoinformatics & Environmental Research, 1(01), 38–45.

Kardous, C. A., & Shaw, P. B. (2014). Evaluation of smartphone sound measurement applications. The Journal of the Acoustical Society of America, 135(4), EL186–EL192.

Kardous, C. A., & Shaw, P. B. (2016). Evaluation of smartphone sound measurement applications (apps) using external microphones—A follow-up study. The Journal of the Acoustical Society of America, 140(4), EL327–EL333.

Kim, P., Ryu, H., Jeon, J.-J., & Chang, S. Il. (2021). Statistical road-traffic noise mapping based on elementary urban forms in two cities of South Korea. Sustainability, 13(4), 2365.

King, E. A. (2022). Here, There, and Everywhere: How the SDGs Must Include Noise Pollution in Their Development Challenges. Environment: Science and Policy for Sustainable Development, 64(3), 17–32.

Lee, H. P., Garg, S., & Lim, K. M. (2020). Crowdsourcing of environmental noise map using calibrated smartphones. Applied Acoustics, 160, 107130.

Margaritis, E., & Kang, J. (2017). Soundscape mapping in environmental noise management and urban planning: case studies in two UK cities. Noise Mapping, 4(1), 87–103.

Marve, S. R., Bhorkar, M., & Baitule, P. (2016). A Survey on Environmental Impacts Due to Traffic Congestion in Peak Hours.

McLennon, T., Patel, S., Behar, A., & Abdoli-Eramaki, M. (2019). Evaluation of smartphone sound level meter applications as a reliable tool for noise monitoring. Journal of Occupational and Environmental Hygiene, 16(9).

Meng, Q., Liu, Z., & Borders, B. E. (2013). Assessment of regression kriging for spatial interpolation–comparisons of seven GIS interpolation methods. Cartography and Geographic Information Science, 40(1), 28–39.

Menteri Negara Lingkungan Hidup. (1996). Keputusan Menteri Negara Lingkungan Hidup Nomor : KEP-48/MENLH/11/1996 tentang baku tingkat kebisingan. Menteri Negara Lingkungan Hidup.

Mitas, L., & Mitasova, H. (1999). Spatial interpolation. Geographical Information Systems: Principles, Techniques, Management and Applications, 1(2).

Montes-González, D., Vílchez-Gómez, R., Barrigón-Morillas, J. M., Atanasio-Moraga, P., Rey-Gozalo, G., & Trujillo-Carmona, J. (2018). Noise and air pollution related to health in urban environments. Multidisciplinary Digital Publishing Institute Proceedings, 2(20), 1311.

Mulyono, T., Rochadi, D., & Widiasanti, I. (2021). Noise mapping in campus a Rawamangun-Jakarta State University environment and its effect on academic atmosphere. IOP Conference Series: Materials Science and Engineering, 1098(4), 42116.

Murphy, E., & King, E. A. (2016). Testing the accuracy of smartphones and sound level meter applications for measuring environmental noise. Applied Acoustics, 106, 16–22.

Nejad, P. G., Ahmad, A., & Zen, I. S. (2019). Assessment of the interpolation techniques on traffic noise pollution mapping for the campus environment sustainability. International Journal of Built Environment and Sustainability, 6(1–2), 147–159.

Nirwansyah, A. W. (2015). Komparasi Teknik Ordinary Kriging dan Spline dalam Pembentukan DEM (Studi Data Titik Tinggi Kota Pekalongan Provinsi Jawa Tengah). Geoedukasi, IV(1), 55–57.

Paré, G., & Kitsiou, S. (2017). Methods for literature reviews. In Handbook of eHealth Evaluation: An Evidence-based Approach [Internet]. University of Victoria.

Paré, G., Trudel, M.-C., Jaana, M., & Kitsiou, S. (2015). Synthesizing information systems knowledge: A typology of literature reviews. Information & Management, 52(2), 183–199.

Picaut, J., Fortin, N., Bocher, E., Petit, G., Aumond, P., & Guillaume, G. (2019). An open-science crowdsourcing approach for producing community noise maps using smartphones. Building and Environment, 148, 20–33.

Potoboda, N. I., Kalangi, J., & Saroinsong, F. B. (2021). Analisis Kebisingan Beberapa Ruang Terbuka Hijau Di Kota Manado. Cocos, 2(2).

Roberts, M., Sander, F. G., & Tiwari, S. (2019). Time to ACT: Realizing Indonesia’s urban potential. World Bank Publications.

Robinson, T. P., & Metternicht, G. (2006). Testing the performance of spatial interpolation techniques for mapping soil properties. Computers and Electronics in Agriculture, 50(2), 97–108.

Rudolph, K. E., Shev, A., Paksarian, D., Merikangas, K. R., Mennitt, D. J., James, P., & Casey, J. A. (2019). Environmental noise and sleep and mental health outcomes in a nationally representative sample of urban US adolescents. Environmental Epidemiology, 3(4).

Safira, I. A. (2017). Peran polusi suara terhadap kesehatan mental warga ibukota di Provinsi DKI Jakarta. Berita Kedokteran Masyarakat, 33(5).

Sajjadi, S. A., Zolfaghari, G., Adab, H., Allahabadi, A., & Delsouz, M. (2017). Measurement and modeling of particulate matter concentrations: Applying spatial analysis and regression techniques to assess air quality. MethodsX, 4, 372–390.

Segaran, V. C., Tong, Y. G., Abas, N. H., Daniel, B. D., Nagapan, S., & Kelundapyan, R. (2020). Traffic noise assessment among residential environment in batu pahat, johore, Malaysia. IOP Conference Series: Materials Science and Engineering, 713(1), 12049.

Suastawa, I. W., Wedagama, D. M. P., & Suthanaya, I. P. A. (2015). Analisis Penggunaan Bangunan Peredam Bising Untuk Mengurangi Kebisingan Lalu Lintas (Studi Kasus Jalan Uluwatu II Jimbaran). Jurnal Spektran Vol, 3(2).

Utami, S. S., Avoressi, D. D., Zakiya, K., & Sutanta, H. (2016). Sound level mapping using geographic information system (gis) to optimize a green campus environment quality. ARPN J. Eng. Appl. Sci, 11(6), 4058–4064.

Wati, E. K. (2020). Pengukuran dan Analisis Kebisingan Permukiman Tepi Rel Kereta Listrik. STRING (Satuan Tulisan Riset Dan Inovasi Teknologi), 4(3), 273–279.

Yang, X., Xie, X., Liu, D. L., Ji, F., & Wang, L. (2015). Spatial interpolation of daily rainfall data for local climate impact assessment over greater Sydney region. Advances in Meteorology.

Downloads

Published

2022-10-31

How to Cite

Ridho Fariz, T. . (2022). Pemetaan Kebisingan Lalu Lintas di Perkotaan – Sebuah Tinjauan. Envirotek : Jurnal Ilmiah Teknik Lingkungan, 14(2), 176–181. https://doi.org/10.33005/envirotek.v14i2.37

Issue

Vol. 14 No. 2 (2022): Envirotek: Jurnal Ilmiah Teknik Lingkungan

Section

Articles

License

Copyright (c) 2022 Trida Ridho Fariz

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.