Lumoscribe PRC at SPIE Photonics Europe: Advancing Sensing, Imaging, and Photonic Systems
The Lumoscribe Photonics Research Center (PRC) will participate in the upcoming SPIE Photonics Europe Conference, contributing five research papers that span key areas of modern photonics, including fiber-optic sensing, multimode fiber imaging, and distributed temperature monitoring.
This strong presence reflects our ongoing efforts to bridge advanced photonic research with real-world applications across structural health monitoring, smart materials, and optical system design.
Oral Presentations
Embedded Fiber Bragg Grating Sensors in Biocomposites for Multi-Parameter Structural Monitoring (14089-11)
Presented by Antreas Theodosiou
This work explores the integration of fiber Bragg grating (FBG) sensors into biocomposite materials, enabling simultaneous monitoring of multiple parameters such as strain and temperature. The results highlight the potential of embedded photonic sensing for next-generation smart materials and structural health monitoring systems.
Deep Learning-Enabled Imaging Through CYTOP Multimode Polymer Optical Fiber under Varying Input Conditions (14089-17)
Presented by Andreas Nicolaides
This study investigates computational imaging through multimode polymer optical fibers, combining complex optical propagation with deep learning techniques. The approach enables robust image reconstruction under varying coupling conditions, opening new possibilities for minimally invasive imaging systems.
Poster Presentations
PMMA Fiber Coupler-Like Pressure Sensor with Polished Interaction Region: Power and Speckle-Based Characterization (14089-41)
Presented by Marios Panagiotou
A novel pressure sensing concept based on polymer optical fibers is introduced, utilizing both power variation and speckle pattern analysis. The results demonstrate a simple yet effective approach for pressure monitoring in flexible environments.
Pressure Magnitude and Localization Along a CYTOP Polymer Fiber Using Speckle-Based Sensing and Neural Network Models (14089-42)
Presented by Marios Panagiotou & Andreas Nicolaides
This work extends speckle-based sensing by enabling not only detection but also localization of pressure events along the fiber using neural network models, enhancing the capabilities of distributed sensing systems.
Calibration of Hybrid Optical-Electrical Cables for Distributed Temperature Sensing Using Two- and Four-Cable Configurations (14089-40)
Presented by Antreas Theodosiou
This study focuses on improving the accuracy of distributed temperature sensing (DTS) systems through calibration strategies for hybrid optical-electrical cables, with direct relevance to energy and infrastructure monitoring applications.
Research Context and Projects
These contributions are part of Lumoscribe’s broader research activities within the projects:
- BIOSTRUCT – Embedded sensing in biocomposites
- INFLOW – Advanced fiber-based sensing systems
- WAGES – Research infrastructure and photonic system development
- ASPERIUM – Applied photonic technologies for industrial environments
Meet Us at SPIE Photonics Europe
We welcome researchers, collaborators, and industry partners to attend our presentations and engage with our team during the conference.
For more information about our research activities, visit:
🔗 https://lumoscribe.com/photonics-research-center-prc/