Software enabled Fiber optic multisensing Network

HORIZON.2.4HORIZON-RIAID: 101093015
EC Contribution
€36,943
Consortium Size
8 orgs
Summary

Today’s fiber optical sensor systems show very promising performance and are well suited for numerous sensing tasks. Despite the enormous progress that has been made for fiber sensors, these systems are still more of a niche solution. Adaptive, modular sensor systems with flexibility regarding the sensing concept, fiber-based sensor type, sensor or sensor network configuration and measured quantities are highly desired but not available at this time. For example, already installed fiber infrastructure along railroad tracks or in buildings are hardly used in such systems. Nevertheless, there is an enormous potential to realize sensing networks by using the existing fiber infrastructure for both purposes, carrying data and perform sensing. Furthermore, a cloud-based digital control software defined setup, advanced signal processing with methods of machine learning, digital twin technologies and cloud-based interfacing to monitor the system performance are required and motivate further research and development in this field. There are though specific challenges to be addressed:SoFiN addresses these challenges, contributing to adaptive photonic multi-sensing systems with focus on:a)developing & testing a novel flexible, adaptive, modular, software-defined sensor platformb)studying ways to establish sensing options in existing communication fiber networks c)developing new laser types, sensor elements & sensing approaches compatible with fiber sensingd)studying concepts for ML-based signal processing and digital twin sensor system modelling e)developing machine learning tools that can handle large amounts of incoming dataf)researching on ML tools that can enhance the signal-to-noise-ratio (SNR) and provide ultimate sensitivityg)developing centralized processing unit that integrates all sensory input data h)developing and implementing concepts for cloud-based system controli)performing a system test in a near to operational environment in different case studies

Consortium (8)

Project Results (16)

Source: CORDIS, the EU research results database.

Publications (11)
4405 FBG Array Sensor Interrogation using Coherent Correlation OTDR with Hybrid Wavelength Tuning
European Conference on Optical Communication 2025 (ECOC)· 2025DOI
Sandmann, A., Allousch, A., Voigtländer, C., Manetta, A., Montague, P. B., & Varming, P.
Method for Conversion of Optical Phase to Temperature for Coherent φ-OTDR
2025 Conference on Lasers and Electro-Optics (CLEO)· 2025
R. Ermakov, F. Azendorf, H. Wang, A. Sandmann, F. Da Ros and D. Zibar
Quantum Noise Limited Temperature-Change Estimation for Φ-OTDR Employing Coherent Detection
ECOC 2025· 2025DOI
Huwei Wang(1), Roman Ermakov(1), Francesco Da Ros(1), Darko Zibar
Fiber Bragg Grating Temperature Sensing in Fuel Cells
2024 IEEE Photonics Conference (IPC)· 2024DOI
E. Renner et al.
Pressure Wave Detection and Localization in Deployed Underground Fiber using Coherent Correlation OTDR
Optical Fiber Communication Conference (OFC) 2024· 2024DOI
Florian Azendorf, André Sandmann, Michael Eiselt
Reducing Frequency Noise in Dark-Pulse Kerr Combs
CLEO 2024· 2024
Anamika nair Karunakaran; Angelo Manetta;
Remote Sensing with High Spatial Resolution
Optical Fiber Communication Conference (OFC) 2024· 2024DOI
Sandmann, André; Azendorf, Florian; Eiselt, Michael
Single-channel distributed Raman temperature sensing based on a 1-dimensional convolutional neural network
Optical Fiber Technology· 2024DOI
Esther Renner, John S. Mampilli, Nadia Amer, Bernhard Schmauss
Acoustic sensing after 50 km of transmission fibre using coherent optical subassembly
2023 European Conference on Optical Communication (ECOC)· 2023DOI
Azendorf, Florian; Sandmann, André; Reimer, Wolfgang; Eiselt, Michael
Acoustic Sensing with Correlation and Coherent Detection using an Integrated Coherent Transceiver
VDE ITG Fachtagung Photonische Netze 2023· 2023DOI
Sandmann, André; Azendorf, Florian; Alnairat, Saif; Eiselt, Michael
Monitoring of Optical Networks Using Correlation-Aided Time-Domain Reflectometry with Direct and Coherent Detection
OECC 2023· 2023DOI
Michael H. Eiselt, Florian Azendorf, André Sandmann
Deliverables (4)
Other Results (1)
Periodic Reporting for period 1 - SoFiN (Software enabled Fiber optic multisensing Network)