Optimasi Pengelolaan Pemeliharaan Jembatan di Era Digital melalui Internet of Things (IoT): Tinjauan Pustaka Berbasis PRISMA

                                                                    N.B.Laksono1*, Y.latief1
                               1Departemen Teknik Sipil, Universitas Indonesia, Depok,INDONESIA
                                     *Corresponding author: naufalbudilaksono@gmail.com

INTISARI

Penelitian ini mengkaji penerapan Internet of Things (IoT) dalam manajemen pemeliharaan jembatan. Melalui analisis menggunakan VOSviewer, enam kluster utama diidentifikasi, mulai dari teknologi sensor hingga kebijakan dan regulasi. Kluster pertama menyoroti sensor dan teknologi yang digunakan untuk mengumpulkan data kondisi jembatan secara real time. Kluster kedua membahas analisis data kompleks dan penerapan kecerdasan buatan untuk memprediksi masalah potensial. Kluster ketiga menekankan pemeliharaan dan perawatan jembatan dengan memanfaatkan pemantauan kondisi dan perawatan prediktif. Kluster keempat menyoroti keamanan dan privasi data dalam implementasi IoT pada jembatan. Kluster kelima menekankan penerapan IoT dalam industri konstruksi dan manufaktur jembatan. Terakhir, Kluster keenam menyoroti kebijakan dan regulasi yang diperlukan untuk implementasi IoT yang aman dan bertanggung jawab pada jembatan. Penelitian ini menawarkan pandangan komprehensif tentang peran dan kontribusi teknologi IoT dalam meningkatkan efisiensi dan keamanan jembatan secara modern dan berkelanjutan.

IoT-Bridge-Maintenance-Paper_Naufal-Budi-Laksono-Naufal-Budi-2
Downloaf PDF

REFERENSI

Abdillah, R., As’ad, S., & Sangadji, S. (2017). Allocation Priority Determination System for Provincial Bridge
Maintenance Fund in Special Region of Yogyakarta By Examining Physical Conditions, Operational Cost and
Volume of Traffic. International Journal of Science and Applied Science: Conference Series, 2, 300.
https://doi.org/10.20961/ijsascs.v2i1.16732
Abiodun, O., Abiodun, E., Alawida, M., & … (2021). A review on the security of the internet of things: Challenges
and solutions. Wireless Personal …, Query date: 2024-04-09 06:08:55. https://doi.org/10.1007/s11277-021-08348-
9
Agnisarman, S., Lopes, S., Madathil, K., Piratla, K., & … (2019). A survey of automation-enabled human-in-the-
loop systems for infrastructure visual inspection. Automation in …, Query date: 2024-04-09 06:08:55.
https://www.sciencedirect.com/science/article/pii/S0926580518303248
Alshibani, A., Abu Saa, A. S., Hassanain, M. A., Bubshait, A., & Shash, A. (2023). Decision Support Model for
Allocating Maintenance Budgets for Bridges. Applied Sciences, 13(17), 9679. https://doi.org/10.3390/app13179679
Babiceanu, R., & Seker, R. (2016). Big Data and virtualization for manufacturing cyber-physical systems: A survey
of the current status and future outlook. Computers in Industry, Query date: 2024-04-09 06:08:55.
https://www.sciencedirect.com/science/article/pii/S0166361516300471
Barasa, W., Aspar, W. A. N., Sukamdo, P., Purnomo, D. A., Harjono, M. S., Nadi, M. A. B., & Adibroto, A.
(2023). Monitoring displacement, strain, and acceleration of a steel railway bridge. Ain Shams Engineering
Journal, 14(11), 102521. https://doi.org/10.1016/j.asej.2023.102521
Bowman, M., & Moran, L. (2017). Bridge Preservation Treatments and Best Practices. Purdue University.
http://docs.lib.purdue.edu/jtrp/1639/
Burgos, D. T., Vargas, R. G., Pedraza, C., & … (2020). Damage identification in structural health monitoring: A
brief review from its implementation to the use of data-driven applications. Sensors, Query date: 2024-04-09
06:08:55. https://www.mdpi.com/1424-8220/20/3/733
Byun, N., Han, W. S., Kwon, Y. W., & Kang, Y. J. (2021). Development of BIM-Based Bridge Maintenance
System Considering Maintenance Data Schema and Information System. Sustainability, 13(9), 4858.
https://doi.org/10.3390/su13094858

Bzai, J., Alam, F., Dhafer, A., Bojović, M., Altowaijri, S., & … (2022). Machine learning-enabled internet of things
(iot): Data, applications, and industry perspective. Electronics, Query date: 2024-04-09 06:08:55.
https://www.mdpi.com/2079-9292/11/17/2676
Chassiakos, A. P., Vagiotas, P., & Theodorakopoulos, D. D. (2005). A knowledge-based system for maintenance
planning of highway concrete bridges. Advances in Engineering Software, 36(11), 740–749.
https://doi.org/10.1016/j.advengsoft.2005.03.020
Chen, G., Shi, W., Yu, L., Huang, J., Wei, J., & Wang, J. (2024). Wireless Sensor Placement Optimization for
Bridge Health Monitoring: A Critical Review. Buildings, Query date: 2024-04-09 06:08:55.
https://www.mdpi.com/2075-5309/14/3/856
Geetha, M., Sinchana, V., Priya, S., & … (2024). A Review on IoT Based Bridge Monitoring Systems. … Journal
of Research …, Query date: 2024-04-09 06:08:55. https://journal.ijresm.com/index.php/ijresm/article/view/2960
Harywijaya, W., Afifuddin, M., & Isya, M. (2020). PENILAIAN KONDISI JEMBATAN MENGGUNAKAN
BRIDGE MANAGEMENT SYSTEM (BMS) DAN BRIDGE CONDITION RATING (BCR). Jurnal Arsip
Rekayasa Sipil Dan Perencanaan, 3(1), 80–88. https://doi.org/10.24815/jarsp.v3i1.16462
He, Z., Li, W., Salehi, H., Zhang, H., Zhou, H., & Jiao, P. (2022). Integrated structural health monitoring in bridge
engineering. Automation in Construction, Query date: 2024-04-09 06:08:55.
https://www.sciencedirect.com/science/article/pii/S0926580522000413
Jeong, Y., Kim, W., Lee, I., & Lee, J. (2018). Bridge inspection practices and bridge management programs in
China, Japan, Korea, and U.S. Journal of Structural Integrity and Maintenance, 3(2), 126–135.
https://doi.org/10.1080/24705314.2018.1461548
Jiang, S., Jiang, L., Han, Y., Wu, Z., & Wang, N. (2019). OpenBIM: An enabling solution for information
interoperability. Applied Sciences, Query date: 2024-04-09 06:08:55. https://www.mdpi.com/2076-3417/9/24/5358
Keleko, A., Kamsu-Foguem, B., Ngouna, R., & Tongne, A. (2022). Artificial intelligence and real-time predictive
maintenance in industry 4.0: A bibliometric analysis. AI and Ethics, Query date: 2024-04-09 06:08:55.
https://doi.org/10.1007/s43681-021-00132-6
Lee, D.-Y., & Lee, M.-J. (2014). A Study of the Asset Valuation Method for Efficient Road Facility Maintenance.
Journal of Asian Architecture and Building Engineering, 13(2), 279–286. https://doi.org/10.3130/jaabe.13.279
Page, M. J., McKenzie, J. E., Bossuyt, P. M., Boutron, I., Hoffmann, T. C., Mulrow, C. D., Shamseer, L., Tetzlaff,
J. M., Akl, E. A., Brennan, S. E., Chou, R., Glanville, J., Grimshaw, J. M., Hróbjartsson, A., Lalu, M. M., Li, T.,
Loder, E. W., Mayo-Wilson, E., McDonald, S., … Moher, D. (2021). The PRISMA 2020 statement: An updated
guideline for reporting systematic reviews. Systematic Reviews, 10(1), 89. https://doi.org/10.1186/s13643-021-
01626-4
Srivastava, N., & Pandey, P. (2022). Internet of things (IoT): Applications, trends, issues and challenges. Materials
Today: Proceedings, 69, 587–591. https://doi.org/10.1016/j.matpr.2022.09.490
Yaïci, W., Krishnamurthy, K., Entchev, E., & Longo, M. (2021). Recent advances in Internet of Things (IoT)
infrastructures for building energy systems: A review. Sensors, Query date: 2024-04-09 06:08:55.
https://www.mdpi.com/1424-8220/21/6/2152
Yang, J., Xiang, F., Li, R., Zhang, L., Yang, X., Jiang, S., & … (2022). Intelligent bridge management via big data
knowledge engineering. Automation in …, Query date: 2024-04-09 06:08:55.
https://www.sciencedirect.com/science/article/pii/S0926580521005690