SLAM-DAST | Smart LightwAve Multi-modal Distributed Acoustic Strain and Temperature sensor (SLAM-DAST)

Summary
Distributed Acoustic Sensing (DAS) and Distributed Temperature-Strain Sensing (DTSS) are two ground-breaking Distributed Fibre Optic Sensor (D-FOS) technologies that allow large-scale measuring and mapping of acoustic vibrations, temperature, mechanical deformations, and pressure in a large variety of consumer-based, civil, industrial, and environmental applications, in particular for attaining the widespread technological nerve system in smart city environments, for instance in smart home/household monitoring (heating, survelliance, fire detection, structural heath, and so forth), as well as in product distribution/logistics (traffic, distribution and plant monitoring).

DAS and DTSS employ a low-priced optical fibre cable installed along the assets (e.g. homes/households in a neighborhood) to be monitored for up to 100 km through an interrogator equipment that sweeps a “virtual sensor” to measure the physical parameters individually at any cable point.

This project main objective is to develop, prototype and demonstrate, both in civil/industrial and especially in household/smart-city case studies, a new, cost-effective, Smart LightwAve Multi-modal Distributed Acoustic Strain and Temperature photonic sensing system (SLAM-DAST), which will integrate:
- Distributed Temperature and mechanical deformation (Strain) Sensing (DTSS) and
- Distributed Acoustic vibrations optical Sensing (DAS)

SLAM-DAST aims at securing the conditions of a disruptive market exploitation, at an industrial as well as at a large scale consumer-oriented level, of the project’s results by:
- supporting the product characterisation-standardisation through open access to performance test benches;
- adopting open innovation policies about general system architecture and embedded data pre-processing;
- promoting vendor interoperability through the use of open standards and formats;
- creating shared value through knowledge-spreading and international networking with key market access points.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/971149
Start date: 01-04-2021
End date: 30-06-2024
Total budget - Public funding: 3 409 162,00 Euro - 2 751 596,00 Euro
Cordis data

Original description

Distributed Acoustic Sensing (DAS) and Distributed Temperature-Strain Sensing (DTSS) are two ground-breaking Distributed Fibre Optic Sensor (D-FOS) technologies that allow large-scale measuring and mapping of acoustic vibrations, temperature, mechanical deformations, and pressure in a large variety of consumer-based, civil, industrial, and environmental applications, in particular for attaining the widespread technological nerve system in smart city environments, for instance in smart home/household monitoring (heating, survelliance, fire detection, structural heath, and so forth), as well as in product distribution/logistics (traffic, distribution and plant monitoring).

DAS and DTSS employ a low-priced optical fibre cable installed along the assets (e.g. homes/households in a neighborhood) to be monitored for up to 100 km through an interrogator equipment that sweeps a “virtual sensor” to measure the physical parameters individually at any cable point.

This project main objective is to develop, prototype and demonstrate, both in civil/industrial and especially in household/smart-city case studies, a new, cost-effective, Smart LightwAve Multi-modal Distributed Acoustic Strain and Temperature photonic sensing system (SLAM-DAST), which will integrate:
- Distributed Temperature and mechanical deformation (Strain) Sensing (DTSS) and
- Distributed Acoustic vibrations optical Sensing (DAS)

SLAM-DAST aims at securing the conditions of a disruptive market exploitation, at an industrial as well as at a large scale consumer-oriented level, of the project’s results by:
- supporting the product characterisation-standardisation through open access to performance test benches;
- adopting open innovation policies about general system architecture and embedded data pre-processing;
- promoting vendor interoperability through the use of open standards and formats;
- creating shared value through knowledge-spreading and international networking with key market access points.

Status

SIGNED

Call topic

EIC-FTI-2018-2020

Update Date

26-10-2022
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Horizon 2020
H2020-EU.2. INDUSTRIAL LEADERSHIP
H2020-EU.2.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies
H2020-EU.2.1.0. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Cross-cutting calls
H2020-EIC-FTI-2018-2020
EIC-FTI-2018-2020