The Internet of Things (IoT) and Big Data (BD) are growing significantly. IoT is defined as a gateway of technology to digital transformation. To work effectively, BD, Artificial intelligence (AI), and blockchain all rely on those data. Once the physical framework information is changed into computerized digital data, an opportunity opens up to improve vessel operations. Research shows that much of the hidden information can help improve vessel operations by leveraging BD and IoT. Therefore, other sectors of the value chain players such as consignees, shipyards, shippers, manufacturers, and classification societies are also interested in maritime BD. In recent years, the world's ship logistics industry has undergone major changes due to the global shipping cargo movement. The availability of numerous BD is also growing exponentially. This will make it possible to utilize many BDs and IoT in the shipping industry. Successful utilization of these BDs and IoT will bring about major innovations in the shipping industry. In this study, we reviewed several applications of BD and IoT in the maritime domain and developed a ship allocation model using maritime BD and IoT-extracted data. As a result, ship allocation establishment is discussed, and the ship allocation result is evaluated.

Big Data (BD); Internet of Things (IoT); Ship Allocation Model

Pallavi Sethi and Smruti R. Sarangi. 2017. Internet of Things: Architectures, Protocols, and Applications. Journal of Electrical and Computer Engineering. Volume 2017, Article ID 9324035, pp 1-25. https://doi.org/10.1155/2017/9324035

Marta Plaza. 2021. Integration of IoT Technologies in the Maritime Industry. Distributed Computing and Artificial Intelligence, Special Sessions, 17th International Conference. pp. 107–115. 10.1007/978-3-030-53829-3_10

Pedro-Luis Sanchez-Gonzalez. 2019. Toward Digitalization of Maritime Transport. Sensors 2019, 19(4), 926; https://doi.org/10.3390/s19040926

Dong-Wook Song. 2015. Maritim Logistics: A guide to contemporary shipping and port management. 2nd Edition. Great Britain and the United States. Pp 1-476.

S. Aslam, M. P. Michaelides, and H. Herodotou, "Internet of Ships: A Survey on Architectures, Emerging Applications, and Challenges," in IEEE Internet of Things Journal, vol. 7, no. 10, pp. 9714-9727, Oct. 2020, 10.1109/JIOT.2020.2993411

Esben P 2016 BD in the Digital Age – The Impact on Ships and Ports the International Maritime Transport & Logistics Conference (MARLOG 5) pp 1-10

Martin K. 2015. Ship Insight-The Buzz of BD the Quarterly Journal pp. 35-41

Hossein H, Emmanuel S S. 2015. Forecasting with BD Springer Ann. pp.5-19

Chase Jr, Charles W. 2013. Using BD to Enhance Demand-Driven Forecasting and Planning. Journal of Business Forecasting Volume 32 Issue 2 pp. 26-32

D. Laney. 2001. 3D Data Management Controlling Data Volume Velocity and Variety

D. Laney. 2012. The importance of BD A Definition Gartner Retrieved 21 June

MD Arifin. 2016. Development of Marine Logistic Database by Using AIS and Statistical Data. (TEAM 2016) 30th Asian-Pacific Technical Exchange and Advisory Meeting on Marine Structures pp. 395–402.

S. Shukla, V. Kukade, A. Mujawar. 2015. BD Concept, Handling, and Challenges: An Overview International Journal of Computer Applications (0975 –8887). Volume 114 –No. 11 pp. 6-9.

MD Arifin, Hamada K, Hirata N, Yuki K. 2017. Development of Ship Allocation Models Using Marine logistics Data and Its Application to Bulk Carrier Demand Forecasting and Basic Planning, JASNAOE Volume 27 pp. 139-148.

MD Arifin, Hamada K, Hirata N, Ihara K. 2017. A study on the support system of ship basic planning by using marine logistics big data. International Conference on Computer Applications in Shipbuilding pp. 61-68.

Yoshida T: (2016).Utilizing big data and the internet of things in shipping. Sea Japan 2016 MTI, 1-32.

Wada Y, Hamada K, Hirata N, Yui I, MD Arifin, Shohei M, and Kazutaka S, A. 2015. Study on System Dynamics Model for the Demand Forecasting of Shipbuilding, 12th IMDC, 2, pp. 167–182.

MD Arifin, Hamada K, Hirata N, Ihara K. 2017. Development of ship allocation model using marine logistics data and its application to the demand forecasting of the ship, Annual meeting of the JASNAOE pp. 529-532.

Hamada K, Hirata N, Kai Ihara, DAF Muzhoffar, MD Arifin. 2020. Development of Basic Planning Support System Using Marine Logistics Big Data and Its Application to Ship Basic Planning, Springer, Singapore. https://doi.org/10.1007/978-981-15-4680-8_21

MD Arifin, O Fanny. 2021. Exploiting marine BD to develop MLDB and its application to ship basic planning support. International Journal of Marine Engineering Innovation and Research. Vol. 6. No 4. Pp. 259-266. http://dx.doi.org/10.12962/j25481479.v6i4.11790

MD Arifin, O Fanny. 2022. Establishment of Ship Allocation Model by Using Marine Logistics Database (MLDB). International Journal of Marine Engineering Innovation and Research. Vol. 7. No 2. Pp. 59-67. http://dx.doi.org/10.12962/j25481479.v7i2.12817