Patents by Inventor Stefania Residori

Stefania Residori has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Patent number: 11175193
    Abstract: A distributed optical fiber sensor of dynamic stress state comprises: an optical assembly configured to generate a series of optical pulses; an optical fiber of optical length L; an optical system configured to: inject through the first end at least the series of optical pulses; receive at the level of the end at least one series of output optical pulses, arising from the input pulses after propagation and retro-propagation in the fiber; generate at least one continuous reference beam or reference optical pulses on the basis of the optical assembly or of output optical pulses; produce a series of interference zones corresponding to the interference between the reference beam or a reference pulse and a signal optical pulse arising from an output optical pulse; a holographic detector comprising: a liquid-crystal light valve, the valve disposed so that it at least partially covers the interference zones, and producing holograms on the basis of the interference zones; at least one optical detector configured to d
    Type: Grant
    Filed: March 17, 2016
    Date of Patent: November 16, 2021
    Assignees: THALES, CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE, UNIVERSITE NICE SOPHIA-ANTIPOLIS
    Inventors: Stéphanie Molin, Martine Doisy, Arnaud Peigne, Stefania Residori, Umberto Bortolozzo, Jean-Pierre Huignard, Renaud Bouffaron, Daniel Dolfi
  • Patent number: 10126163
    Abstract: A fiber optic sensor for detecting an excitation in proximity to a fiber optic assembly, the excitation inducing a modulation of the phase of an optical signal propagating in the fiber optic assembly, the sensor comprises: a laser assembly emitting at least one laser beam; a fiber optic assembly; an optical system configured to: inject at least one portion of the laser beam; generate at least one laser signal beam issued from the laser beam injected into and propagated in the fiber assembly; generate at least one reference beam from the laser beam or the signal beam; produce at least one interference zone corresponding to the interference between a portion of the reference beam and a portion of the interference signal beam corresponding to the interference between a portion of the reference beam and a portion of the signal beam; a digital holography assembly comprising: a liquid-crystal spatial light modulator; a video camera configured to receive the interference zone and to transcribe it electrically to the
    Type: Grant
    Filed: January 8, 2016
    Date of Patent: November 13, 2018
    Assignees: THALES, CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE, UNIVERSITE NICE SOPHIA-ANTIPOLIS
    Inventors: Jean-Pierre Huignard, Umberto Bortolozzo, Daniel Dolfi, Stéphanie Molin, Arnaud Peigne, Stefania Residori
  • Publication number: 20180058956
    Abstract: A distributed optical fiber sensor of dynamic stress state comprises: an optical assembly configured to generate a series of optical pulses; an optical fiber of optical length L; an optical system configured to: inject through the first end at least the series of optical pulses; receive at the level of the end at least one series of output optical pulses, arising from the input pulses after propagation and retro-propagation in the fiber; generate at least one continuous reference beam or reference optical pulses on the basis of the optical assembly or of output optical pulses; produce a series of interference zones corresponding to the interference between the reference beam or a reference pulse and a signal optical pulse arising from an output optical pulse; a holographic detector comprising: a liquid-crystal light valve, the valve disposed so that it at least partially covers the interference zones, and producing holograms on the basis of the interference zones; at least one optical detector configured to d
    Type: Application
    Filed: March 17, 2016
    Publication date: March 1, 2018
    Inventors: Stéphanie MOLIN, Martine DOISY, Arnaud PEIGNE, Stefania RESIDORI, Umberto BORTOLOZZO, Jean-Pierre HUIGNARD, Renaud BOUFFARON, Daniel DOLFI
  • Publication number: 20180003551
    Abstract: A fiber optic sensor for detecting an excitation in proximity to a fiber optic assembly, the excitation inducing a modulation of the phase of an optical signal propagating in the fiber optic assembly, the sensor comprises: a laser assembly emitting at least one laser beam; a fiber optic assembly; an optical system configured to: inject at least one portion of the laser beam; generate at least one laser signal beam issued from the laser beam injected into and propagated in the fiber assembly; generate at least one reference beam from the laser beam or the signal beam; produce at least one interference zone corresponding to the interference between a portion of the reference beam and a portion of the interference signal beam corresponding to the interference between a portion of the reference beam and a portion of the signal beam; a digital holography assembly comprising: a liquid-crystal spatial light modulator; a video camera configured to receive the interference zone and to transcribe it electrically to the
    Type: Application
    Filed: January 8, 2016
    Publication date: January 4, 2018
    Inventors: Jean-Pierre HUIGNARD, Umberto BORTOLOZZO, Daniel DOLFI, Stéphanie MOLIN, Arnaud PEIGNE, Stefania RESIDORI
  • Patent number: 9791302
    Abstract: An optical fiber sensor for locating an excitation in proximity to an optical fiber assembly comprises: a laser assembly configured to emit N laser beams indexed i with N>1, of respective emission wavelength ?i, an optical fiber assembly comprising N successive sections indexed i, an optical system configured to: inject the laser beams, receive N signal beams indexed i respectively of wavelengths ?i, generate N reference beams indexed i respectively of wavelengths ?i, produce N interference areas indexed i, a holographic detector comprising: a liquid crystal light valve that at least partially covers the interference areas, and is configured to produce N holograms indexed i from, respectively, N interference areas, at least one optical detector configured to detect N output optical signals indexed I, a processing unit adapted to identify the section of the fiber assembly situated in proximity to the excitation to be located.
    Type: Grant
    Filed: November 14, 2014
    Date of Patent: October 17, 2017
    Assignees: THALES, CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (CNRS)
    Inventors: Umberto Bortolozzo, Jean-Pierre Huignard, Stefania Residori, Stéphanie Molin, Daniel Dolfi
  • Publication number: 20160282150
    Abstract: An optical fiber sensor for locating an excitation in proximity to an optical fiber assembly comprises: a laser assembly configured to emit N laser beams indexed i with N>1, of respective emission wavelength ?i, an optical fiber assembly comprising N successive sections indexed i, an optical system configured to: inject the laser beams, receive N signal beams indexed i respectively of wavelengths ?i, generate N reference beams indexed i respectively of wavelengths ?i, produce N interference areas indexed i, a holographic detector comprising: a liquid crystal light valve that it at least partially covers the interference areas, and is configured to produce N holograms indexed i from, respectively, N interference areas, at least one optical detector configured to detect N output optical signals indexed I, a processing unit adapted to identify the section of the fiber assembly situated in proximity to the excitation to be located.
    Type: Application
    Filed: November 14, 2014
    Publication date: September 29, 2016
    Inventors: Umberto BORTOLOZZO, Jean-Pierre HUIGNARD, Stefania RESIDORI, Stéphanie MOLIN, Daniel DOLFI
  • Publication number: 20120218498
    Abstract: An optically controlled deformable reflective/refractive assembly includes a deformable membrane structure (10) having a reflecting/refractive, electrically conductive surface (10?), which is associated with a rigid photoconductive substrate (14) having an electrically conductive layer (14?) on one side. An electric biasing arrangement applies a potential difference (V0) across the membrane structure (10). A controlling light source (20) illuminates the photoconductive substrate (14) in correspondence of an active region, wherein the light source is arranged for selectively illuminating the substrate (14) by emitting at least an optical beam (B) adapted to generate in an area of the substrate (14) a local electrical charge density proportional to the spatial light intensity of the beam (B) and responsible for a local deformation of the membrane structure (10).
    Type: Application
    Filed: October 30, 2009
    Publication date: August 30, 2012
    Applicant: Consiglio Nazionale Delle Ricerche
    Inventors: Stefano Bonora, Stefania Residori, Umberto Bortolozzo