Impact Analysis of Public Transport on Traffic Congestion: Case Study of Jalan Pangeran Muhammad, Majalengka
DOI:
https://doi.org/10.37253/leader.v3i2.10801Keywords:
Public Transportation, Traffic Congestion, Public Transportation System, School, RoadAbstract
Majalengka Regency is a Level II area experiencing rapid traffic growth. Impact analysis of public transportation on traffic congestion is needed to maintain the smooth running of existing traffic roads in Majalengka, especially in the Simpeureum area on Jalan Pangeran Muhammad, which is the main route with several schools, including SMPN 1 Cigasong, being one of the areas where traffic congestion occurs in West Java Province. This paper aims to impact analysis of public transportation on traffic congestion and determine what effects of public transportation can cause traffic congestion. Often, drivers of public transportation or for example public transportation that park their cars carelessly when dropping off passengers on the side of the road and do not see the surroundings, blocking other vehicles that want to pass behind them so that traffic jams occur even if only a fraction of a second. This problem has long been a core issue in Indonesia, especially in areas with high public transportation use. As well as analyze related issues in the discussion. The research method was carried out by survey for the research source located in Simpeureum, which is on Jalan Pangeran Muhammad, which will go to Rajagaluh - Cirebon road in January 2025 and for data analysis using quantitative. The results showed that the impact of public transportation on traffic congestion still affects traffic roads by parking their vehicles carelessly when dropping off passengers so that other drivers have to wait. However, the relatively short time significantly affects other drivers' time. This paper concludes that congestion caused by public transportation also significantly impacts other drivers. This usually happens because the high rate of indiscriminate parking when dropping off passengers is due to the lack of supporting facilities such as bus or public transportation stops.
References
[1] Afrin, T., & Yodo, N. (2020). A Survey of Road Traffic Congestion Measures. Journal Sustainability, 12(11), 4660. doi:http://dx.doi.org/10.3390/su12114660
[2] Akhtar, M., & Moridpou, S. (2021). A Review of Traffic Congestion Prediction Using Artificial Intelligence. Journal of Advanced Transportation, 2021(1), 18. doi:https://doi.org/10.1155/2021/8878011
[3] Almatar, K. M. (2023). Traffic congestion patterns in the urban road network: (Dammam metropolitan area). Ain Shams Engineering Journal, 14(3). doi:https://doi.org/10.1016/j.asej.2022.101886
[4] Andika, I., Rifai, A. I., Isradi, M., & Prasetijo, J. (2022). A Traffic Management System for Minimizing Intersection Traffic Congestion: Case Bengkong Junction, Batam. IJEBD International Journal Of Entrepreneurship And Business Development, 5(5), 945-956.
[5] Awahah, R. A., Widodo, J., & Radjikan, R. (2024, September). Implementasi Kebijakan Penyelenggaraan Angkutan Orang Di Jalan Dengan Kendaraan Umum Sebagai Upaya Mengurangi KemacetanDi Kota SurabayaJawa Timur. Jurnal Ilmu Hukum Dan Tata Negara, 02(3), 64-73. doi:https://doi.org/10.55606/birokrasi.v2i3.1300
[6] Azcuy, I., Agatz, N., & Giesen, R. (2021). Designing integrated urban delivery systems using public transport. Journal Transportation Research Part E: Logistics and Transportation Review, 156. doi:https://doi.org/10.1016/j.tre.2021.102525
[7] Chen, C., Liu, B., Wan, S., & Qiao, P. (2020). An Edge Traffic Flow Detection Scheme Based on Deep Learning in an Intelligent Transportation System. Journal of Transactions on Intelligent Transportation Systems, 22(3), 1840 - 1852. doi:https://doi.org/10.1109/TITS.2020.3025687
[8] Cheng, A., Pang, M. S., & Pavlou, P. A. (2020). Mitigating Traffic Congestion: The Role of Intelligent Transportation Systems. Journal Information Systems Research, 32(3), 653-674. doi:https://doi.org/10.1287/isre.2019.0894
[9] Dermawan, W. B., Rifai, A. I., Ramadhan, A. H., & Isradi, M. (2021, November). Analysis of Pedestrian Facility Services on Shopping Mall Areain Satellite City During Pandemic COVID-19. International Journal of Sciences, Engineering and Technology, 6(2), 99-107.
[10] Dewantoro, R. B., Rifai, A. I., & Akhir, A. F. (2022). The Satisfaction Analysis of Bus Double Decker Passengers: A Case Bekasi-Semarang Route. Jurnal Ilmiah Multidisiplin Indonesia, 2(5), 720-728.
[11] Gierszewski, M., & Koźlak, A. (2019). The impact of congestion on the costs of public transport in Starogard Gdański. Journal Of The University Of Gdańsk, 84, 7-18. doi:https://doi.org/10.26881/etil.2019.84.01
[12] Guo, Y., Tang, Z., & Guo, J. (2020). Could a Smart City Ameliorate Urban Traffic Congestion? A Quasi-Natural Experiment Based on a Smart City Pilot Program in China. Jurnal Sustainability, 12, 2291. doi:http://dx.doi.org/10.3390/su12062291
[13] Hansson, J., Pettersson, F., Svensson, H., & Wretstrand, A. (2019). Preferences in regional public transport: a literature review. Journal European Transport Research Review, 11(1), 1-16. doi:https://doi.org/10.1186/s12544-019-0374-4
[14] Kosmidis, I., & Müller-Eie, D. (2023). The synergy of bicycles and public transport: a systematic literature review. Journal Transport Reviews, 44(1), 34-68. doi:https://doi.org/10.1080/01441647.2023.2222911
[15] Kuss, P., & Nicholas, K. A. (2022). A dozen effective interventions to reduce car use in European cities: Lessons. Journal Case Studies on Transport Policy, 10(3), 1494-1513.
[16] Mu’allimah, M., & Mashpufah, R. N. (2021). Analisis Kebijakan Pemerintah Provinsi Dki Jakarta Dalam Mengatasi Permasalahan Transportasi Di Perkotaan. Jurnal Manajemen dan Ilmu Administrasi Publik, 03, 291-296. doi:https://doi.org/10.24036/jmiap.v3i4.334
[17] Nguyen-Phuoc, D. Q., Young, W., Currie, G., & De Gruyter, C. (2020). Traffic congestion relief associated with public transport: state-of-the-art. Journal of Public Transport, 12(2), 455–481. doi:https://doi.org/10.1007/s12469-020-00231-3
[18] Porru, S., Misso, F. E., Pani, F. E., & Repetto, C. (2020). Smart mobility and public transport: Opportunities and challenges in rural and urban areas. Journal of Traffic and Transportation Engineering (English Edition), 7(1), 88-97. doi:https://doi.org/10.1016/j.jtte.2019.10.002
[19] Purwasih, H. D., Sidabutar, Y. F., Suciati, H., & Fauzan, F. (2023). Modernization of “Transport” As Public Transportation to Reduce Personal Vehicle Ownership in the City of Tanjungpinang. Jurnal Manajemen, Kepemimpinan, Dan Supervisi Pendidikan, 08(1), 153–163.
[20] Putra, D. D., Aufaa, R. D., Luthfiyaa, H., & Sahara, S. (2023). Peningkatan Mutu Transportasi Umum Demi Kenyamanan. Jurnal Mimbar Administrasi, 20.
[21] Putri, N. I. (2022). Pengaruh Transportasi Umum Terhadap Perkembangan Antar Wilayah Administrasi di Jakarta. Jurnal Manajemen Bisnis Transportasi dan Logistik, 8(1), 63.
[22] Rifai, A. I., & Arifin, F. (2021). Analysis of the level of passenger satisfaction with services and transport facilities-based integration in Jakarta. Journal of World Conference, 2(2), 66-73.
[23] Rifai, A. I., Lista, L., Isradi, M., & Mufhidin, A. (2021). How did the Covid-19 Pandemic Impact Passenger Choice toward Public Transport? The Case of Jakarta. Journal Design Engineering,(8), 6816-6824.
[24] Rifai, A. I., Putra, M. G., Isradi, M., Mufhidin, A., & Prasetijo, J. (2022). Evaluation of Selection of Public Transport Mode Corridor Blok M–Bundaran Hotel Indonesian in the New Normal Era with Stated Preference. (International Journal of Entrepreneurship and Business Development) IJEBD, 5(4), 792-805.
[25] Rifai, A. I., Rafianda, D. F., Isradi, M., & Mufhidin, A. (2021). Analysis Of Customer Satisfaction On The Application Of The Covid-19 Protocol At The Inter-City Bus Terminal. International Journal of Engineering, Science and Information Technology, 1(1), 75-81. doi:https://doi.org/10.52088/ijesty.v1i1.105
[26] Rifai, A. I., Surgiarti, Y. A., Isradi, M., & Mufhidin, A. (2021). Analysis of Road Performance and the impact of Development in Pasar Minggu, Jakarta (Case Study of Jalan Lenteng Agung-Tanjung Barat). International Journal of Civil Engineering, 6(1), 68-74.
[27] Rohman, N. (2019). Pengaruh Transportasi Umum Terhadap Pelestarian Lingkungan Di Kota Jakarta. Jurnal Researchgate Net.
[28] Saif, M. A., Zefreh, M. M., & Torok, A. (2019). Public Transport Accessibility: A Literature Review. Journal Periodica Polytechnica Transportation Engineering, 47(3), 36-43.
Book
[29] Savirani, A., & Aspinall, E. (2024). 11 Traffic congestion in urban Indonesia: What can we learn from the Jakarta metropolitan area? Jakarta: ISEAS Publishing 2024. doi:https://doi.org/10.1355/9789815203738-016
Journal
[30] Suryani, E., Hendrawan, R. A., Adipraja, P. F., Wibisono, A., & Dewi, L. P. (2019). Modelling Reliability of Transportation Systems to Reduce Traffic Congestion. Journal of Physics: Conference Series, 1196(Conf. Ser), 121-131.
[31] Tilasman, C. (2022). Persepsi Pengguna Terhadap Integrasi Moda Transportasi Publik Di Jakarta Pusat. Jurnal Doctoral dissertation. Retrieved from http://etd.repository.ugm.ac.id/
[32] Victory, J., Rifai, A. I., & Handayani, S. (2022, December). The Satisfaction Analysis of Local Public Transportation (Carry) Services at Batam, Indonesia. Indonesian Journal of Multidisciplinary Science, 1(1), 69-80.
[33] Wijayanto, H. (2019, September). Peranan Penggunaan Transportasi Publik di Perkotaan(Studi Kasus Penggunaan Kereta Commuterline Indonesia Rute Jakarta-Bekasi). Jurnal Studi Kepemerintahan, 02, 1-8. doi:https://doi.org/10.35326/kybernan.v5i2.365
[34] Wincent, W., Rifai, A. I., & Isradi, M. (2022). The Road Performance Analysis in Jalan Ahmad Yani Batam Using IHCM 1997. Indonesian Journal of Multidisciplinary Science, 1(1), 103-116.
[35] Zhong, R., He, Z., Chow, A. H., & Knoop, V. (2022). Special issue on methodological advancements in understanding and managing urban traffic congestion. Transportmetrica A: Transport Science, 18, 1-4. doi:https://doi.org/10.1080/23249935.2021.1894266
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