WO2020119915A1
|
|
Process and device for measurement of physical quantity based on rayleigh backscattering
|
US2019170547A1
|
|
Calibration device for distributing sensing technologies
|
US2018045542A1
|
|
A method for reducing noise in measurements taken by a distributed sensor
|
US2017102278A1
|
|
Method of determining deformation in a structure
|
WO2015180786A1
|
|
Optical process and optical device, allowing to avoid unwanted nonlinear effects in an optical fiber
|
WO2015120888A1
|
|
Dual-probe sweep-free stimulated brillouin optical distributed sensing method and device
|
CA2839096A1
|
|
Method for installing a sensing cable along a pipeline
|
WO2014111230A1
|
|
A sensing cable
|
US2017016801A1
|
|
Method and apparatus for detecting a structural fault in a structure using a brillouin gain spectrum obtained at a point along a sensing optical fiber
|
WO2015067292A1
|
|
Single-end brillouin optical distributed sensing device and method
|
WO2015067293A1
|
|
Optical distributed sensing device and method for simultaneous measurements of temperature and strain
|
WO2014177197A1
|
|
Dual-pump stimulated brillouin optical distributed sensing method and device
|
WO2014177198A1
|
|
Dual-pump sweep-free stimulated brillouin optical distributed sensing method and device
|
US2016025524A1
|
|
Brillouin optical distributed sensing device and method with improved tolerance to sensor failure
|
WO2014071997A1
|
|
A brillouin optoelectronic measurement method
|
WO2014067548A1
|
|
A brillouin optoelectronic measurement method
|
WO2013185813A1
|
|
A method and device for pressure sensing
|
WO2013185810A1
|
|
A sensing system and method for distributed brillouin sensing
|
CA2819157A1
|
|
A strain sensor apparatus and method of strain sensing
|
CN103597328A
|
|
A sensor and method for sensing
|