Patents by Inventor Guillaume Perrin
Guillaume Perrin 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).
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Publication number: 20240154577Abstract: The present invention concerns a linear amplifier for providing a sinusoidal waveform to a load, characterized in that the linear amplifier is composed of an asymmetric amplifier and a H-bridge module, the asymmetric amplifier comprises at least one transistor that amplifies a full wave rectified sinus signal that is transformed by the H bridge module into a sinewave signal that is provided to the load.Type: ApplicationFiled: August 26, 2021Publication date: May 9, 2024Applicant: Mitsubishi Electric CorporationInventors: Guillaume REGNAT, Remi PERRIN, Guillaume LEFEVRE
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Patent number: 11951095Abstract: The present invention relates to non-hormonal compositions and methods for inducing a condition of aspermia, azoospermia, or severe oligozoospermia in the male subject such that these compositions and methods for administering the same may be used as male contraception. Embodiments of the present invention may comprise a composition comprising an alpha-1-adrenoreceptor antagonist, such as (R)-silodosin, for daily administration to a male subject. The compositions and related methods may further include pharmaceutically acceptable carriers. The present invention further includes formulations which allow for a delay such that delayed or missed dose(s) do not nullify the contraceptive effect of the treatment regimen. Such compositions and methods may also avoid the side effects associated with typical formulations of alpha-1-adrenoreceptor antagonists.Type: GrantFiled: January 6, 2023Date of Patent: April 9, 2024Assignee: PHARMAJOR INTERNATIONALInventors: Guillaume El Glaoui, Mehdi El Glaoui, Philippe Perrin, Stéphane Droupy, Véronique Agathon-Meriau
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Publication number: 20230340558Abstract: Systems and methods for determining a topology for a multi-path connection based on one or more application-level wherein, a method performed by a master topology function includes receiving a request for a topology for a multi-path connection that satisfies an application-level requirement(s) of a particular application and determining a topology for the multi-path connection based on the application-level requirement(s). The topology includes two or more links from a source wireless node to a target wireless communication device and at least one of the two or more links is a multi-hop link from the source wireless node to the target wireless communication device via one or more additional wireless communication devices that operate as relays. The method further includes configuring the source wireless node, the target wireless communication device, and the one or more additional wireless communication devices in accordance with the determined topology.Type: ApplicationFiled: September 23, 2021Publication date: October 26, 2023Applicant: BIOMERIEUXInventors: Dominique DECAUX, Emilie BISCEGLIA, Guillaume PERRIN
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Publication number: 20230288329Abstract: A method for analysing a biological sample by means of an analysis instrument, the sample including biological agents and being arranged in an analysis receptacle in view of a holographic imaging system, the method including: acquiring a holographic image of the sample, the holographic image associating an intensity value with each pixel, determining, from the image acquired, an image mask which associates an active or inactive state with each pixel in accordance with the intensity values so that an inactive state is associated with pixels which correspond to artefacts caused by elements present in the field of view other than biological agents, determining a value of at least one biomass parameter which represents the quantitative spatial distribution of biological agents in the field of view, using only the pixels of the holographic image having an active state, and supplying the value of the biomass parameter from the analysis results.Type: ApplicationFiled: September 23, 2021Publication date: September 14, 2023Applicant: BIOMERIEUXInventors: Dominique DECAUX, Emilie BISCEGLIA, Guillaume PERRIN, Philippine BARLAS, Emilie COLLIGNON
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Patent number: 10968473Abstract: A method and a system for determining the presence of at least one determined microorganism in a Petri dish comprising one or more colonies of microorganisms and a culture medium, and a computer program product which, when executed, allows the method of the invention to be performed.Type: GrantFiled: August 30, 2017Date of Patent: April 6, 2021Assignee: BiomerieuxInventors: Guillaume Sutra, Philippine Barlas, Delphine Archeny, Géraldine Durand, Corine Fulchiron, Jean-Francois Gorse, Guillaume Perrin
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Publication number: 20190203257Abstract: A method and a system for determining the presence of at least one determined microorganism in a Petri dish comprising one or more colonies of microorganisms and a culture medium, and a computer program product which, when executed, allows the method of the invention to be performed.Type: ApplicationFiled: August 30, 2017Publication date: July 4, 2019Inventors: Guillaume Sutra, Philippine Barlas, Delphine Archeny, Géraldine Durand, Corine Fulchiron, Jean-Francois Gorse, Guillaume Perrin
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Patent number: 9024239Abstract: In the field of optic instruments comprising at least one optical architecture, a photoreception assembly and means for acquisition and analysis of the images arising from the said photoreception assembly, the acquisition and analysis means comprising an algorithm of phase diversity type, an optical architecture comprises an optical plate of low or zero optical power arranged in the vicinity of the photoreception assembly and disposed so as to form on all or part of the said assembly a first focused image and a second image defocused by a first predetermined value and shifted by a second predetermined value with respect to the first image. The optic instrument can advantageously be a space telescope.Type: GrantFiled: September 13, 2013Date of Patent: May 5, 2015Assignee: ThalesInventors: Arnaud Liotard, Marc Bernot, Frédéric Falzon, Guillaume Perrin
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Patent number: 8829403Abstract: A scanning multispectral telescope comprises an optical architecture arranged so as to focus the image of an object in the vicinity of a photodetection assembly, the area of focus being an image plane. The photodetection assembly comprises a number of parallel rows of photodetectors, each row being dedicated to a particular spectral band, each spectral band being centered on a mean wavelength. The telescope comprises means for acquiring and analyzing the images obtained from the rows of photodetectors using a phase diversity algorithm. Finally, the telescope comprises optical or mechanical means arranged in such a way that at least one of the rows of photodetectors is offset by a fraction of the mean wavelength which corresponds to it on an axis perpendicular to the image plane.Type: GrantFiled: May 4, 2012Date of Patent: September 9, 2014Assignee: ThalesInventors: Guillaume Perrin, Marc Bernot, Frédéric Falzon, Arnaud Liotard
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Publication number: 20140077064Abstract: In the field of optic instruments comprising at least one optical architecture, a photoreception assembly and means for acquisition and analysis of the images arising from the said photoreception assembly, the acquisition and analysis means comprising an algorithm of phase diversity type, an optical architecture comprises an optical plate of low or zero optical power arranged in the vicinity of the photoreception assembly and disposed so as to form on all or part of the said assembly a first focused image and a second image defocused by a first predetermined value and shifted by a second predetermined value with respect to the first image. The optic instrument can advantageously be a space telescope.Type: ApplicationFiled: September 13, 2013Publication date: March 20, 2014Inventors: Arnaud LIOTARD, Marc BERNOT, Frederic FALZON, Guillaume PERRIN
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Patent number: 8670113Abstract: In the field of optical checking of optical instruments of telescope type, an instrument comprises an optical objective, a photo-detection housing arranged at the focus of said optical objective and at least one light source arranged in the vicinity of said photo-detection housing, the optical pupil of the optical objective having a first diameter. The checking means comprise a plane mirror having a second diameter that is smaller than the first diameter and means to arrange the plane mirror such that the image of the light source given by the optical objective and reflected by said plane mirror is focused on the photo-detection housing, means for analyzing said image received making it possible to determine the optical quality of the telescope. The plane mirror may be associated with an autonomous checking bench. It may also form part of the telescope and be incorporated into the protection hood for the optic.Type: GrantFiled: February 23, 2012Date of Patent: March 11, 2014Assignee: ThalesInventors: Guillaume Perrin, Arnaud Liotard, Hervé Benard
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Publication number: 20130057851Abstract: In the field of optical checking of optical instruments of telescope type, an instrument comprises an optical objective, a photo-detection housing arranged at the focus of said optical objective and at least one light source arranged in the vicinity of said photo-detection housing, the optical pupil of the optical objective having a first diameter. The checking means comprise a plane mirror having a second diameter that is smaller than the first diameter and means to arrange the plane mirror such that the image of the light source given by the optical objective and reflected by said plane mirror is focused on the photo-detection housing, means for analyzing said image received making it possible to determine the optical quality of the telescope. The plane mirror may be associated with an autonomous checking bench. It may also form part of the telescope and be incorporated into the protection hood for the optic.Type: ApplicationFiled: February 23, 2012Publication date: March 7, 2013Applicant: THALESInventors: Guillaume PERRIN, Arnaud LIOTARD, Hervé BENARD
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Publication number: 20120280111Abstract: A scanning multispectral telescope comprises an optical architecture arranged so as to focus the image of an object in the vicinity of a photodetection assembly, the area of focus being an image plane. The photodetection assembly comprises a number of parallel rows of photodetectors, each row being dedicated to a particular spectral band, each spectral band being centred on a mean wavelength. The telescope comprises means for acquiring and analyzing the images obtained from the rows of photodetectors using a phase diversity algorithm. Finally, the telescope comprises optical or mechanical means arranged in such a way that at least one of the rows of photodetectors is offset by a fraction of the mean wavelength which corresponds to it on an axis perpendicular to the image plane.Type: ApplicationFiled: May 4, 2012Publication date: November 8, 2012Applicant: THALESInventors: Guillaume PERRIN, Marc BERNOT, Frédéric FALZON, Arnaud LIOTARD
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Publication number: 20110310502Abstract: An optical space observation system comprises a primary mirror, a secondary mirror, a supporting base containing the primary mirror, on which a mechanical structure bearing a support of the secondary mirror is positioned, and an optical measurement means, said mechanical structure comprising a plurality of mechanical arms. The system also has a system comprising a plurality of actuators positioned on the supporting base, said actuators being connected to the lower ends of said mechanical arms and the upper ends of said mechanical arms being connected to the support of the secondary mirror on the periphery of the support. A space telescope is intended to be loaded in a launcher and put into orbit. The invention is intended in particular for a telescope having a deployable secondary mirror and means for active control of the optics.Type: ApplicationFiled: November 19, 2009Publication date: December 22, 2011Applicant: THALESInventors: Laurent Blanchard, Frédéric Falzon, Arnaud Liotard, Guillaume Perrin