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Beyond the Horizon, Backhaul Connectivity for Offshore IoT Devices

Author

Listed:
  • Khurram Shabih Zaidi

    (Electrical and Computer Engineering Department, Lahore Campus, COMSATS University Islamabad, Islamabad 54000, Pakistan)

  • Sadaf Hina

    (Department of Computer Science, University of Engineering and Technology, Lahore 54000, Pakistan)

  • Muhammad Jawad

    (Electrical and Computer Engineering Department, Lahore Campus, COMSATS University Islamabad, Islamabad 54000, Pakistan)

  • Ali Nawaz Khan

    (Electrical and Computer Engineering Department, Lahore Campus, COMSATS University Islamabad, Islamabad 54000, Pakistan)

  • Muhammad Usman Shahid Khan

    (Computer Science Department, Abbottabad Campus, COMSATS University Islamabad, Islamabad 54000, Pakistan)

  • Haris Bin Pervaiz

    (Department of Computing and Communications, Lancaster University, Lancashire LA1 4YW, UK)

  • Raheel Nawaz

    (Department of Operations Technology, Events and Technology Management, Manchester Metropolitan University, Manchester M13 9PL, UK)

Abstract

The prevalent use of the Internet of Things (IoT) devices over the Sea, such as, on oil and gas platforms, cargo, and cruise ships, requires high-speed connectivity of these devices. Although satellite based backhaul links provide vast coverage, but they are inherently constrained by low data rates and expensive bandwidth. If a signal propagated over the sea is trapped between the sea surface and the Evaporation Duct (ED) layer, it can propagate beyond the horizon, achieving long-range backhaul connectivity with minimal attenuation. This paper presents experimental measurements and simulations conducted in the Industrial, Scientific, and Medical (ISM) Band Wi-Fi frequencies, such as 5.8 GHz to provide hassle-free offshore wireless backhaul connectivity for IoT devices over the South China Sea in the Malaysian region. Real-time experimental measurements are recorded for 10 km to 80 km path lengths to determine average path loss values. The fade margin calculation for ED must accommodate additional slow fading on top of average path loss with respect to time and climate-induced ED height variations to ensure reliable communication links for IoT devices. Experimental results confirm that 99% link availability of is achievable with minimum 50 Mbps data rate and up to 60 km distance over the Sea to connect offshore IoT devices.

Suggested Citation

  • Khurram Shabih Zaidi & Sadaf Hina & Muhammad Jawad & Ali Nawaz Khan & Muhammad Usman Shahid Khan & Haris Bin Pervaiz & Raheel Nawaz, 2021. "Beyond the Horizon, Backhaul Connectivity for Offshore IoT Devices," Energies, MDPI, vol. 14(21), pages 1-12, October.
    • Handle: RePEc:gam:jeners:v:14:y:2021:i:21:p:6918-:d:661639
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    References listed on IDEAS

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    1. Alexander Shapiro & Jos Berge, 2002. "Statistical inference of minimum rank factor analysis," Psychometrika, Springer;The Psychometric Society, vol. 67(1), pages 79-94, March.
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