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Improving the design approach to developing through-metal communications for use in subsea pipeline robots.

Heidarian, Maryam; Burgess, Samuel J.; Prabhu, Radhakrishna

Authors

Maryam Heidarian

Samuel J. Burgess



Abstract

Vital inspection and repair operations on subsea pipelines usually involve pipe-bore robots, which must be controlled and monitored from outside the pipe. In many situations cables cannot be connected to the in-pipe robot and duplex wireless communication through pipe-wall is the only solution. Wireless power transmission (WPT) through pipe-wall has been considered to facilitate the required duplex communication. In WPT through subsea pipe-walls the conductive media (i.e.: stainless steel and seawater.) will significantly reduce the power transfer efficiency (PTE) of the system. This paper proposes a coil geometry optimisation methodology to boost PTE of these wireless communication systems. The proposed technique, in addition to increasing the PTE improves the overall system’s signal to noise ratio by reducing the coil antenna’s internal resistance.

Citation

HEIDARIAN, M., BURGESS, S.J. and PRABHU, R. 2020. Improving the design approach to developing through-metal communications for use in subsea pipeline robots. In Proceedings of the 2020 Global OCEANS: Singapore - U.S. Gulf Coast conference (Global OCEANS 2020: Singapore - U.S. Gulf Coast), 5-14 October 2020, [virtual conference]. Piscataway: IEEE [online], article ID 9389281. Available from: https://doi.org/10.1109/IEEECONF38699.2020.9389281

Presentation Conference Type Conference Paper (published)
Conference Name 2020 Global OCEANS: Singapore - U.S. Gulf Coast conference (Global OCEANS 2020: Singapore - U.S. Gulf Coast)
Start Date Oct 5, 2020
End Date Oct 14, 2020
Acceptance Date Jul 14, 2020
Online Publication Date Oct 30, 2020
Publication Date Apr 9, 2021
Deposit Date Nov 9, 2020
Publicly Available Date Nov 9, 2020
Publisher Institute of Electrical and Electronics Engineers (IEEE)
Peer Reviewed Peer Reviewed
Series ISSN 0197-7385
ISBN 9781728154466
DOI https://doi.org/10.1109/IEEECONF38699.2020.9389281
Keywords Resonant magnetic induction; Power transfer efficiency; Inductive power transfer; Power transfer throughmetal
Public URL https://rgu-repository.worktribe.com/output/996078

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