Optimizing Transit Operations and Passenger Experience: A Simulation-based Study of Bus Interarrival and Passenger Load Scenarios at a Major Transfer Point
DOI:
https://doi.org/10.22441/ijiem.v4i3.20721Keywords:
Simulation modeling, System performance, Scenario analysis, Passenger flow, Bus operationsAbstract
This study employs simulation-based analysis of passenger flow and bus operations at the Adam Malik transfer point within the TransJakarta BRT system. The findings from the analysis of the current system indicate that the average number of total passenger exits in corridors 13, 13B, 13C, and L13E were 618, 509, 1143, and 790, respectively. Additionally, the average time spent by passengers within the system for each corridor was 4.48 minutes, 6.12 minutes, 5.94 minutes, and 5.46 minutes, respectively. Through the development of 15 scenarios, the study demonstrates the impact of adjusting passenger boarding procedures and reducing interarrival time on waiting times and passenger processing efficiency, particularly during peak hours. The results emphasize the substantial influence of these variables on waiting times, total exits, and system duration for passengers and buses.Downloads
References
George-Williams, H., Santhosh, T. V., & Patelli, E. (2022). Simulation Methods for the Analysis of Complex Systems (pp. 95–113). https://doi.org/10.1007/978-3-030-83640-5_7
Harrell, C., Ghosh, B. K., & Bowden, Royce. (2004). Simulation using ProModel. McGraw-Hill/Higher Education.
Hasanuddin, Wolok, E., Giu, J. D., & Sugianto, N. (2023). Analisis Sistem Antrian Pembelian Tiket Di Pelabuhan Penyeberangan Gorontalo Menggunakan Aplikasi Promodel. JJEEE (Jambura Journal of Electrical and Electronics Engineering), 5, 55–64.
Krisnawati, F., Anugroho, D. M. R., Yunita, L., & Asrol, M. (2022). Discrete Event Simulation Modeling With ARENA For Combination Of Manual Queue And Fast Track Queue In Hospital. Jurnal Penelitian Dan Aplikasi Sistem DanTeknik Industri, XVI(3), 251–263.
Kusumawardani, A. D., Syabri, I., & Novitasari, Fi. (2020). Identifikasi Kualitas Pelayanan Transjakarta Pada Masa “New Normal” Pandemi Covid-19 (Studi Kasus: Koridor I Blok M-Kota). Perencanaan Wilayah Dan Kota 1 SAPPK, 1(September), 1–10. https://doi.org/10.13140/RG.2.2.32565.91366
Layli Rachmawati, N., & Adwinda Dianisa, P. (2022). Model Simulasi Sistem Diskrit untuk Meminimasi Rata-rata Waktu Tunggu Truk (Studi Kasus PT. XYZ). JURMATIS (Jurnal Manajemen Teknologi Dan Teknik Industri ), 4(2), 122–136.
Liperda, R. I., Dianisa, A., Izzatunisa, A., Dianita Utami, F., & Hibatullah, M. (2022). Simulasi Optimasi Antrian Truk Pada Proses Loading Sembako Gudang PT.XYZ. JISI: Jurnal Integerasi Sistem Industri, 9(1), 1–12.
Liperda, R. I., Fatahayu, N. R., Khairunnisa, E. V., Logika, M. A., Hibatullah, M., & Fridayanti, R. (2021). Simulasi Sistem Penggunaan Ruangan di Gedung Griya Legita Universitas Pertamina. JISI: Jurnal Integrasi Sistem Industri, 8(2), 65–75.
Liperda, R. I., & Rahmadanti, R. (2023). Simulasi Aktivitas Bongkar Muat di Terminal Petikemas. Jurnal INTECH Teknik Industri Universitas Serang Raya, 9, 79–85. https://doi.org/10.30656/intech.v9i1.5239
Lusiani, M., & Chandra, S. (2018). Optimasi Jumlah Kedatangan KRL Commuter Line untuk Mengatasi Penumpukan Penumpang Jalur Bekasi - Jakarta Kota Menggunakan Simulasi Promodel. JIEMS (Journal of Industrial Engineering and Management Systems), 11(1), 32–38. https://doi.org/10.30813/jiems.v11i1.1014
Lusiani, M., & William, W. (2020). Optimasi Jumlah Kedatangan Bus Transjakarta Koridor 1 untuk Melayani Penumpang pada Jam Sibuk Menggunakan Simulasi. JIEMS (Journal of Industrial Engineering and Management Systems), 13(2), 58–65. https://doi.org/10.30813/jiems.v13i2.2275
Robinson, S. (2013). Conceptual Modeling For Simulation. Proceedings of the 2013 Winter Simulation Conference .
Savitri, D. (2018). Evaluasi Tingkat Kepuasan Pengguna Bus Transjakarta. Konferensi Nasional Teknik Sipil 12, September, 18–19.
Sriwana, I. K., Saryatmo, M. A., & Saputra, E. (2019). Perancangan model simulasi untuk meningkatkan jumlah penumpang Bus Transjakarta menggunakan soft system methodology dan Agent Based Model. Operations Excellence: Journal of Applied Industrial Engineering, 11(2), 173. https://doi.org/10.22441/oe.v11.2.2019.027
Suharko, A. B. (2020). A Capacity Planning through Discrete Event Simulation. XIV(2), 146–156.
Swider, C. L., Bauer Jr., Kenneth W., & Schuppe, T. F. (1994). The Effective Use of Animation in Simulation Model Validation. Winter Simulation Conference.
Tjahjono, T., Kusuma, A., & Septiawan, A. (2020). The Greater Jakarta Area Commuters Travelling Pattern. Transportation Research Procedia, 47, 585–592. https://doi.org/10.1016/j.trpro.2020.03.135
Trimarjoko, A., Mukhlis, D., Fathurohman, H., & Suwandi, S. (2020). Metode Value Stream Mapping dan Six Sigma untuk Perbaikan Kualitas Layanan Industri di Automotive Services Indonesia. In IJIEM (Indonesian Journal of Industrial Engineering & Management) (Vol. 1, Issue 2). http://publikasi.mercubuana.ac.id/index.php/ijiem
Winandanto, B. A., & Narendra, A. (2021). Analisis Pada Pemodelan Kedatangan dan Keberangkatan Penumpang Bus Rapid Transit di Kota Semarang. Jurnal Teknologi Transportasi Dan Logistik, 2(2), 107–118. https://doi.org/10.52920/jttl.v2i2.28
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