Leveraging IoT Technology for Transformative Impact in the Maritime Sector
DOI:
https://doi.org/10.56294/sctconf2024.1253Keywords:
IoT, Maritime, decision-making, Maritime, Edge ComputingAbstract
The maritime sector is undergoing a transformative shift driven by the adoption of the Internet of Things (IoT) era. IoT permits real-time data collection, monitoring, and evaluation of maritime assets, leading to improved operational efficiency, stepped forward protection, and value financial savings. By integrating IoT sensors into ships, ports, and cargo, stakeholders can optimize gas intake, control vessel maintenance, tune shipment movements, and ensure compliance with environmental regulations. Furthermore, IoT enables predictive protection, decreasing downtime and extending gadget lifespan. The usage of IoT in maritime logistics also promotes transparency within the supply chain, assisting in more specific direction-making plans and reducing delays. This summary explores the key packages of IoT inside the maritime region, addressing its ability to revolutionize transport operations, enhance sustainability, and power innovation across the enterprise. Via manner of its very nature, the delivery and logistics organization desires an in-depth and powerful statistical alternative for fulfillment management and choice-making. A specific technique is needed for the marine enterprise due to the complicated and various environments. The naval enterprise's short adoption of IoT generation will make it an awful lot less tough to administer essential services like vessel monitoring, emissions control, preventative protection, protection, and welfare. The IoT answers defined in this article are tailor-made to the business enterprise's present-day needs. The hints are normal with the venture, which intends to offer an interactive remark route on maritime and survey or IoT systems to fill the market need due to the speedy growth of the smart Maritime & Surveying business enterprise. By its very nature, the delivery and logistics company wishes for an in-depth and powerful facts alternative for fulfillment control and selection-making. A specific method is wanted for the marine company due to the complex and diverse environment. The naval enterprise's short adoption of IoT generation will make it much less tough to administer essential offerings like vessel tracking, emissions control, preventative protection, protection, and welfare. The IoT solutions defined in this newsletter are tailored to the organization's current wishes. The tips are regular with the undertaking, which intends to provide an interactive observation course on maritime and survey or IoT structures to fill the market want because of the speedy boom of the smart Maritime & Surveying commercial corporation
References
1. Manyika J, Chui M, Bisson P, Woetzel J, Dobbs R, Bughin J, Aharon D. The internet of things: mapping the value beyond the hype. McKinsey Global Institute; 2015.
2. Beecham Research. M2M Sector Map [Internet]. Available from: http://beechamresearch.com/. Accessed 12 Jan 2020.
3. Deloitte. Internet of things (IoT) in shipping industry [Internet]. Available from: https://www2.deloitte.com/tr/en/pages/technology-media-and-telecommunications/articles/internet-of-things-iot-in-shipping-industry.html. Accessed 07 Jan 2020.
4. Clarkson PLC. Annual Report 2018: Smarter Decisions. Powered by Intelligence. London: Great Britain; 2018.
5. Inmarsat. Industrial IoT on land and at sea - Inmarsat Research Programme 2018. London: Great Britain; 2018.
6. European Commission. EU leads the way with ambitious action for cleaner and safer seas [Internet]. Available from: https://ourocean2017.org/eu-leads-way-ambitious-action-cleanerand-safer-seas. Accessed 07 Jan 2020.
7. European Commission. Horizon 2020 - Smart, Green and Integrated Transport [Internet]. Available from: ec.europa.eu/programmes/horizon2020/en/h2020-section/smart-green-and-integrated-transport. Accessed 07 Jan 2020.
8. Sánchez-González PL, Díaz-Gutiérrez D, Leo TJ, Núñez-Rivas LR. Toward digitalization of maritime transport? Sensors. 2019;19(4):926.
9. IoCurrents. Available from: https://iocurrents.com/platform.php. Accessed 20 Jan 2020.
10. Green Sea Guard. Emission Monitoring System [Internet]. Available from: greenseaguard.com. Accessed 20 Jan 2020.
11. Augury. Halo Wireless Platform [Internet]. Available from: https://www.augury.com/products/continuousdiagnostics/. Accessed 20 Jan 2020.
12. Parsyl. Available from: https://www.parsyl.com/products. Accessed 20 Jan 2020.
13. UKP&I. Physical Health [Internet]. Available from: https://www.ukpandi.com/loss-prevention/crewhealth/physical-health/. Accessed 20 Jan 2020.
14. Danelec Marine. 6-step ship-2-shore data solution process [Internet]. Available from: https://www.danelecmarine.com/danelecconnect. Accessed 20 Jan 2020.
15. Ringbom H. Regulating autonomous ships—Concepts, challenges and precedents. Ocean Dev Int Law. 2019;50(2–3):141–69.
16. United Nations. Oceans & Law of the Sea [Internet]. Available from: https://www.un.org/en/sections/issues-depth/oceans-and-law-sea/index.html. Accessed 20 Feb 2020.
17. International Maritime Organization (IMO). Available from: imo.org. Accessed 05 Jan 2020.
18. Rajkumar N, Viji C, Latha PM, et al. The power of AI, IoT, and advanced quantum based optical systems in smart cities. Opt Quant Electron. 2024;56(450). Available from: https://doi.org/10.1007/s11082-023-06065-0.
19. Mageshkumar NV, Viji C, Rajkumar N, Mohanraj A. Integration of AI and IoT for smart home automation. SSRG Int J Electron Commun Eng (IJECE). 2024;11(5):37-43
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