End-to-end performance analysis of underwater optical wireless relaying and routing techniques under location uncertainty
End-to-end performance analysis of underwater optical wireless relaying and routing techniques under location uncertainty
On the contrary of low speed and high delay acoustic systems, underwater optical wireless communication (UOWC) can deliver a high speed and low latency service at the expense of short communication ranges. Therefore, multihop communication is of utmost importance to extend the range, improve degree of connectivity, and overall performance of underwater optical wireless networks (UOWNs). In this regard, this paper investigates relaying and routing techniques and provides their end-to-end (E2E) performance analysis under the location uncertainty. To achieve robust and reliable links, we first consider adaptive beamwidths and derive the divergence angles under the absence and presence of a pointing-acquisitioning-and-tracking (PAT) mechanism. Thereafter, important E2E performance metrics (e.g., data rate, bit error rate, transmission power, amplifier gain, etc.) are obtained for two potential relaying techniques; decode forward (DF) and optical amplify forward (AF). We develop centralized routing schemes for both relaying techniques to optimize E2E rate, bit error rate, and power consumption. Alternatively, a distributed routing protocol, namely Light Path Routing (LiPaR), is proposed by leveraging the range-beamwidth tradeoff of UOWCs. LiPaR is especially shown to be favorable when there is no PAT mechanism and available network information. In order to show the benefits of multihop communications, extensive simulations are conducted to compare different routing and relaying schemes under different network parameters and underwater environments.
acquisitioning, adaptive divergence angle, amplify-and-forward, Decode-and-forward, light path routing, location uncertainty, pointing, reliability, robustness, tracking
1167-1181
Celik, Abdulkadir
f8e72266-763c-4849-b38e-2ea2f50a69d0
Saeed, Nasir
1a8fe222-ce62-48df-b04a-96ed8760e0a1
Shihada, Basem
3aad5038-5b7e-4a97-9f22-7e310ea68a27
Al-Naffouri, Tareq Y.
e4ec48c1-9987-49cd-b3ef-4942a3a3483e
Alouini, Mohamed Slim
3ccd5915-318e-4f4b-b47a-48257ab4c0eb
February 2020
Celik, Abdulkadir
f8e72266-763c-4849-b38e-2ea2f50a69d0
Saeed, Nasir
1a8fe222-ce62-48df-b04a-96ed8760e0a1
Shihada, Basem
3aad5038-5b7e-4a97-9f22-7e310ea68a27
Al-Naffouri, Tareq Y.
e4ec48c1-9987-49cd-b3ef-4942a3a3483e
Alouini, Mohamed Slim
3ccd5915-318e-4f4b-b47a-48257ab4c0eb
Celik, Abdulkadir, Saeed, Nasir, Shihada, Basem, Al-Naffouri, Tareq Y. and Alouini, Mohamed Slim
(2020)
End-to-end performance analysis of underwater optical wireless relaying and routing techniques under location uncertainty.
IEEE Transactions on Wireless Communications, 19 (2), , [8897139].
(doi:10.1109/TWC.2019.2951416).
Abstract
On the contrary of low speed and high delay acoustic systems, underwater optical wireless communication (UOWC) can deliver a high speed and low latency service at the expense of short communication ranges. Therefore, multihop communication is of utmost importance to extend the range, improve degree of connectivity, and overall performance of underwater optical wireless networks (UOWNs). In this regard, this paper investigates relaying and routing techniques and provides their end-to-end (E2E) performance analysis under the location uncertainty. To achieve robust and reliable links, we first consider adaptive beamwidths and derive the divergence angles under the absence and presence of a pointing-acquisitioning-and-tracking (PAT) mechanism. Thereafter, important E2E performance metrics (e.g., data rate, bit error rate, transmission power, amplifier gain, etc.) are obtained for two potential relaying techniques; decode forward (DF) and optical amplify forward (AF). We develop centralized routing schemes for both relaying techniques to optimize E2E rate, bit error rate, and power consumption. Alternatively, a distributed routing protocol, namely Light Path Routing (LiPaR), is proposed by leveraging the range-beamwidth tradeoff of UOWCs. LiPaR is especially shown to be favorable when there is no PAT mechanism and available network information. In order to show the benefits of multihop communications, extensive simulations are conducted to compare different routing and relaying schemes under different network parameters and underwater environments.
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Published date: February 2020
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© 2002-2012 IEEE.
Keywords:
acquisitioning, adaptive divergence angle, amplify-and-forward, Decode-and-forward, light path routing, location uncertainty, pointing, reliability, robustness, tracking
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Local EPrints ID: 504477
URI: http://eprints.soton.ac.uk/id/eprint/504477
ISSN: 1536-1276
PURE UUID: e51f7a74-d0ab-43b4-bdc9-40bdb83a755a
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Date deposited: 09 Sep 2025 20:11
Last modified: 10 Sep 2025 13:50
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Contributors
Author:
Abdulkadir Celik
Author:
Nasir Saeed
Author:
Basem Shihada
Author:
Tareq Y. Al-Naffouri
Author:
Mohamed Slim Alouini
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