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Capacity Middle East /

3 - 6 février, 2025

Monitoring system for the protection and Predictive maintenance of Submarine cable Infrastructures (PSI)

Monitoring system for the protection and Predictive maintenance of Submarine cable Infrastructures (PSI) project is aiming to develop a smart monitoring system that could prevent damages to a submarine cable by early warning of potentially harmful activities. These damages include earthquakes, submarine landslides or tsunamis. The technology applied will also study the location of and track marine mammals.

The submarine cable used in this project is MEDUSA.

PSI project reference PLEC2021-007875 funded by the Spanish Ministry of Science and Innovation MCIN/AEI/10.13039/501100011033 and by the European Union NextGenerationEU/PRTR program.

Technology used

The system pursued in this project comprises two essential elements in order to achieve its goal:

High-Fidelity Distributed Acoustic Sensor (HDAS)

HDAS is a High-Fidelity Distributed Acoustic Sensor that detects strain variations in tens of kilometres. With its proprietary linear measurement technology, it provides unmatched signal quality across all measured fibre length and magnitude measurement capabilities;

Artificial Intelligence (AI)

System capable of analysing the data gathered by the DAS and transforming it into an intelligent interpretation of the potential threat to the cable in every possible situation.
New developments based on these two elements will make possible the creation of a system that would be permanently scanning the natural and anthropogenic threats on the optical fibre infrastructure and would raise early warning alerts to trigger preventive actions. Moreover, the availability of continuous DAS measurements of strain distribution along the optical fibre cable could also allow the development of extensive fatigue analysis of the infrastructure, therefore allowing a continuous lifetime assessment of the cable and enabling predictive maintenance of the stressed sections. This maintenance scheme would be completely innovative in the field of submarine cables infrastructure.

Consortium

The development of this system requires a unique blend of expertise that is actually present in the consortium: submarine cable experts, DAS developers, AI developers and seismology experts, from both the industry and the academy, will work together in protecting the backbone of our international communication network.

General Objectives

The submarine cable used in this project is MEDUSA.

This project aims at designing an intelligent and comprehensive monitoring and data processing system for predictive maintenance and protection of infrastructures at the marine environment and the land-sea interface, to be used by different socioeconomic sectors. The main goal of the project is to provide tools for an integrated and resilient management of critical marine infrastructures.
The objectives of the project entail innovation and will enable the transformation and innovation of the sector in a climate change environment. They are aligned with the green transition EU objective by promoting intelligent and sustainable productive models. They also align with the goals of the United Nations, which has declared the 2021-2030 period as the Decade of Ocean Sciences for Sustainable Development.
The activities proposed in this project contribute to the EU environmental objectives:

Climate change

de Câble Sous-marin

The transition to a Circular Economy

Administratif & Opérations

The Protection and Restoration of Biodiversity and Ecosystems

Development of efficient DAS technology for underwater measurements.

Specific objectives

The development of this system requires a unique blend of expertise that is actually present in the consortium: submarine cable experts, DAS developers, AI developers and seismology experts, from both the industry and the academy, will work together in protecting the backbone of our international communication network.

1. Development of efficient DAS technology for underwater measurements.

  • Extending the reach of current DAS technology to meet the current typical underwater repeater spacing (80-100 km).
  • Achievement of efficient strategies for low-frequency noise reduction.
  • Development of methods for efficient DAS data storage and archiving using Artificial Intelligence.
  • Study of a feasible DAS and repeater architecture for its use in the upcoming deployment of the MEDUSA submarine cable system in the Mediterranean.

2. Fatigue and lifetime analysis of underwater cables using long-term strain series. Development of guidelines for optimization of cable deployment. Monitoring optimization via use of high-resolution distributed sensing.

  • Study of lifetime degradation and events that can point to early cable fatigue.
  • Laboratory simulation of fatigue and stress.
  • Developing algorithms capable of detecting early degradation signs.
  • Implementation of algorithm and creation of early warnings for maintenance.

3. Development of efficient artificial intelligence for the early warning of anthropogenic threats relevant for the cable integrity

  • Generating of a comprehensive dataset of relevant events.
  • Development of robust techniques for efficient data augmentation.
  • Acoustic characterization of vessels and other marine vehicles.
  • Developing algorithms for efficient detection and classification of events.

4. Characterization of natural events through the acquisition and near real-time processing of submarine DAS data.

  • Detection, location and characterization of underwater seismic events.
  • Detection, location and characterization of submarine landslides and turbidites.
  • Characterization of oceanographic processes.
  • Detection and tracking of marine mammals.

Key Aspects

In the last decade, distributed acoustic sensors (DAS) have evolved from an experimental technology to a clear alternative to much more expensive single point monitoring systems, which are often unable to offer the same performance as DAS systems.

We are currently at the optimum point of development of this distributed monitoring technology in order to evolve it towards an application as important as the monitoring of the submarine fibre optic cable. Throughout the PSI project, the partners aim to develop interrogation prototypes based on DAS technology, capable of detecting and identifying threats that could endanger the integrity of these infrastructures.

The UAH and ICM-CSIC groups, based on its proven experience, will develop and integrate new signal generation, filtering, detection and processing techniques in developments designed to detect the most common types of threats in these deployments, in an underwater environment. They will also develop software for the identification and recognition of these threats using artificial intelligence techniques.

The participation of AFR-IX telecom, which will provide access to different submarine cable infrastructures, with different types of cable and cable deployment, is essential for this. This experience will make it possible to generate a suitable database to feed the self-learning process of the system. APL, which is currently one of the manufacturers of DAS systems, will develop prototypes of these interrogators integrating new developments resulting from research and testing.

Press

Publications

The Institut de Ciències del Mar (ICM) in Barcelona is the largest marine research centre of the Spanish National Research Council (CSIC). It is made up of specialists in different aspects of oceanographic research. With the aim of understanding the ocean for the health of the planet, researchers at the ICM carry out cutting-edge research to promote the transfer of knowledge and technology in relation to ocean and climate interactions, the conservation and sustainable use of marine life and ecosystems, and the mitigation of the impacts of natural hazards and man-made activity. In 2020 the ICM was awarded the Severo Ochoa certificate of Excellence, a distinction that confirms the institution's leadership in the field of marine research in Spain and highlights its commitment to bring about social impact.
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The team of the University of Alcalá (UAH) participating in this proposal is formed by members of two research groups of the Department of Electronics of the UAH: the Photonics Engineering Group, GRIFO, and the Group of Electronic Engineering Applied to Intelligent Spaces and Transport, GEINTRA. These two groups have collaborated in previous projects related to the area of research involved in this proposal. Both research groups have been recognised as a "High Performance Group" in the UAH, given their high scientific production.
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Aragón Photonics Labs. S.L.U. (APL) is a company specialised in the development, manufacture and commercialisation of high-performance test and measurement equipment based on optoelectronic and photonic techniques. APL was created in 2004 as a spin-off company of the University of Zaragoza with the main objectives of developing, manufacturing and commercialising a test and measurement device (BOSA) based on a patented high-resolution optical spectroscopy technique.
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AFR-IX telecom is an infrastructure and telecommunications operator founded in 2013 with headquarters in Barcelona, owner of the Medusa submarine cable and the Barcelona Cable Landing Station, an open port that is expected to be operational in the first quarter of 2022 with the aim of being a leading digital port in the Mediterranean and with a capacity for up to eight submarine cables. In addition, AFR-IX is a telecommunications operator with licences in Portugal, USA and several African countries such as South Africa, Nigeria, Ghana, DRC, Mali, Burkina Faso, Sierra Leone, Niger and Cameroon.
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