IMPLEMENTASI SISTEM STREAMING SEBAGAI UPAYA PEMANTAUAN DAN PENUNJANG KESELAMATAN PROSES SANDAR KAPAL PADA PELABUHAN PINTAR

Authors

  • Aditya Firmansyach Politeknik Pelayaran Surabaya
  • Henna Nurdiansari Politeknik Pelayaran Surabaya
  • Wulan Marlia Sandi Politeknik Pelayaran Surabaya

DOI:

https://doi.org/10.33556/jstm.v26i2.617

Keywords:

Internet of Things (IoT, Smart Port, Smart Port, Straming System

Abstract

This study aims to implement a real-time streaming system as a monitoring tool during the ship berthing process at a smart port, analyze the effectiveness of the streaming system in improving the monitoring and safety of the ship berthing process at a smart port, and explain how the components work in real-time to support the ship berthing process at a smart port. The ship berthing process is a crucial stage in port operations that requires real-time monitoring to ensure safety and efficiency. The developed system uses a Raspberry Pi as the main controller integrated with a V2 camera module, a proximity sensor, a WiFi hotspot module, and an Internet of Things (IoT)-based power monitoring system. Visual data in the form of streaming video and sensor data are sent in real-time to the monitoring application to assist port operators in monitoring the distance of ships to the dock. The research method used is Research and Development (R&D) which includes the design, assembly, testing, and evaluation stages of the system. Test results show that the system performs well in displaying real-time video streaming with an average streaming delay of 1.54%, accurately detecting vessel distances with an average of 0.81%, and providing relevant supporting information to improve the safety of ship berthing processes. Therefore, this system has the potential to be a supporting solution in the development of a safe and efficient smart port concept.

Keywords: Internet of Things (IoT), Smart Port, Raspberry Pi, Straming System

References

Abiraihan, M., Marta, R., & dkk. (2024). Designing a Desktop Application for Ship Monitoring and AIS Data Storage Based on RTL-SDR and Raspberry Pi Using Python and PyQ. Journal Of Hypermedia & Technology - Enhanced Learning, 2(2), 103. doi:https://doi.org/10.58536/j-hytel.v2i2.118

Barros, A., Chanda, M., Barman, S., Sultana, T., Roy, S., & Fidge, C. (2022, November 28). A Review of Emerging Technologies for IoT-Based Smart Cities. Journal Sensors, 22(23). doi:https://doi.org/10.3390/s22239271

Bian, J., Arafat, A. A., Xiong, H., Li, J., Li Li, Chen, H., . . . Guo, Z. (2022, March). Machine Learning in Real-Time Internet of Things (IoT) Systems: A Survey. IEEE Internet of Things Journal, 9(11). doi:10.1109/JIOT.2022.3161050

Dwiyanto , M., & Bakarbesy, M. (2015). Rancangan Bangun Robot Beroda Pemadam Api Menggunakan Arduino Uno Rev1.3. Journal Article: Electro Lucuet. doi:10.32531/jelekn.v1i1.16

Fandhy, K., Krismanto, A. U., & Mujianto, W. P. (2024). Rancang Bangun Remote Monitoring Wind Turbine Pada PLTB Skala Mikro. Magnetika, 8(01), 441.

Farhan, F., Patiran, A., Lesnussa, H., Beni , A. R., Sarungallo, P., & Rumengan, Y. (2023, 31 July). Design a prototype of a marine wave power plant (PLTGL) using a recoil starter. JIMESE Journal of Innovation Materials, Energy, and Sustainable, 1(1).

Fauzan, R. N., & Zuhrie, M. (2024). Sistem Navigasi Autonomous Pada Prototipe Kapal dengan. JINACS (Journal of Informatics and Computer Science), 05(04).

Hercog , D., Lerhe, T., & et al. (2023, July). Design and Implementation of ESP32-Based IoT Devices. Journal Sensors, 23(15), 1-20. doi:https://doi.org/10.3390/s23156739

Judijanto L, Muhammadiah, M., Utami, R., Suhirman, L., & Laka. (2024). Metodologi Research And Development (Teori dan Penerapan Metodologi RnD). Kota Jambi: PT. Sonpedia Publishing Indonesia.

Kumar , S., & et al. (2021). IoT Based Gas Leakage Detection and Alerting System. Materials Today: Proceedings, 4(6), 5602-2608. doi:https://doi.org/10.1016/j.matpr.2020.10.445

M, Hosny, K., Magdi, A., Salah, A., El-Komy, O., & a. Lashin, N. (2023). Internet Of Things Applications Using Raspberry PI: A Survey. International Journal of Electrical and Computer Engineering (IJECE), 13(1), 903.

Park, J., Kim, C., Dinh, M.-C., & Park, M. (2022, January 10). Design of a Condition Monitoring System for Wind Turbines. Energies, 15(2). doi:https://doi.org/10.3390/en15020464

Pressman, R., & Maxim, B. (2021). Software Engineering: A Practitioner's Approach, 9th Edition. McGraw-Hill Education.

Radhan, S., & et al. (2021). Design And Development of an IoT-based Automatic Gas Safety Valve. Materials Today : Prodeedings, 4(6), 5615-5620. doi:https://doi.org/10.1016/j.matpr.2020.10.447

Ramadhan, A. Z., Herlambang , S. M., & Purwanto , S. (2024, Mei ). Rancang Bangun Sistem Monitoring dan Pengisian otomatis Water Level Coolant Radiator Generator Kapal Berbasis IoT. Jupiter: Publikasi Ilmu Keteknikan Industri, Teknik Elektro dan Informatika, 2(3), 162-179. doi:https://doi.org/10.61132/jupiter.v2i3.325

Raspberry Pi, F. (2023). Raspberry Pi 5. Retrieved from https://www.raspberrypi.com/products/raspberry-pi-5/

Ratnawati , F., Subandir , M., & dkk. (2023). Sistem Monitoring Keselamatan Kapal Nelayan. Jurnal Inovtek Polbeng - Seri Informatika, 8(2), 465.

Reddy, K. K., P. Sabarish, S. Sonu, P. Sabarish, & Krishnan, S. (2020). Live Video Streaming with Audio Using Raspberry Pi in IoT Devices. International Journal of Research in Engineering, Science and Management, 3(5).

Riananda , D., Jami'in, M., Setiyoko, a., Wibowo , A., & Leonard, R. (2024, December ). Implementasi Sistem PemantauanKelayakan Kapal Pada Proses Pengujian KapalMenggunakan Teknologi Internet of Things. The Indonesian Journal of Computer Science, 13(6).

Sharma, H., & Kanwal, N. (2024). SMART SURVEILLANCE USING IOT: A REVIEW. Radioelectronic and Computer Systems, 2024(1), 116. doi:10.32620/reks.2024.1.10

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Published

2026-04-04

Issue

Vol. 26 No. 2 (2026): Maret

Section

JURNAL SAINS DAN TEKNOLOGI MARITIM

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