Patents by Inventor Quentin JOSSO
Quentin JOSSO 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).
-
Publication number: 20240020949Abstract: A method for classifying at least one input image representing a target particle in a sample, involves implementing, by data processing of a client, steps of: (b) extracting the characteristic map of the target particle by a convolutional neural network pre-trained on a base of public images; (c) classifying the input image according to the extracted characteristic map.Type: ApplicationFiled: October 19, 2021Publication date: January 18, 2024Applicants: BIOMERIEUX, BIOASTERInventors: Pierre MAHÉ, Meriem EL AZAMI, Elodie DEGOUT-CHARMETTE, Zohreh SEDAGHAT, Quentin JOSSO, Fabian ROL
-
Publication number: 20230408977Abstract: A digital holographic imaging technique, includes iterative steps of: a) through back-propagation to the object coordinate of a hologram field comprising a spatial distribution of amplitude corresponding to the spatial distribution of intensity of the hologram and a spatial distribution of phase, determining an object field involving a spatial distribution of absorption and of phase shift of the imaged object, b) thresholding the values of the spatial distribution of absorption and of phase shift by decreasing the values to below a respective threshold, the thresholds decreasing in each iteration, c) through repropagation of the object field to the hologram coordinate, determining a modified hologram field comprising a modified spatial distribution of amplitude and a modified spatial distribution of phase, d) replacing the spatial distribution of phase of the hologram field with the modified spatial distribution of phase, the spatial distribution of phase shift and of absorption of the imaged object being thoType: ApplicationFiled: October 19, 2021Publication date: December 21, 2023Applicants: BIOMERIEUX, BIOASTERInventors: Zohreh SEDAGHAT, Quentin JOSSO, Fabian ROL
-
Publication number: 20230386176Abstract: A method for classifying at least one input image representing a target particle in a sample involves implementing, by data processing a client, steps of: (B) extracting a characteristic map of the target particle from the input image; (c) reducing the number of variables in the extracted characteristic map, using the t-SNE algorithm; (d) classifying, unsupervised, the input image based on the characteristic map having a reduced number of variables.Type: ApplicationFiled: October 19, 2021Publication date: November 30, 2023Applicants: BIOASTER, BIOMERIEUXInventors: Pierre MAHÉ, Meriem EL AZAMI, Elodie DEGOUT-CHARMETTE, Zohreh SEDAGHAT, Quentin JOSSO, Fabian ROL
-
Publication number: 20230386233Abstract: A method for classifying a sequence of input images representing a target particle in a sample over time, includes the following steps performed by the data processing of a client, namely: (b) concatenation of the input images in the sequence as a three-dimensional stack; (c) direct classification of the three-dimensional stack using a convolutional neural network, CNNType: ApplicationFiled: October 19, 2021Publication date: November 30, 2023Applicants: BIOMERIEUX, BIOASTERInventors: Pierre MAHÉ, Meriem EL AZAMI, Elodie DEGOUT-CHARMETTE, Zohreh SEDAGHAT, Quentin JOSSO, Fabian ROL
-
Publication number: 20230386232Abstract: A method for classifying at least one input image containing a target particle in a sample, involves implementing, via data-processing of a client, steps of: (b) extracting a vector of characteristics of the target particle, the characteristics being numerical coefficients each associated with one elementary image of a set of elementary images each representing a reference particle, such that a linear combination of the elementary images weighted by the coefficients approximates the representation of the target particle in the input image; (c) classifying the input image depending on the extracted vector of characteristics.Type: ApplicationFiled: October 19, 2021Publication date: November 30, 2023Applicants: BIOMERIEUX, BIOASTERInventors: Pierre MAHÉ, Meriem EL AZAMI, Elodie DEGOUT-CHARMETTE, Zohreh SEDAGHAT, Quentin JOSSO, Fabian ROL
-
Patent number: 11385164Abstract: A method of calibration of a device for analyzing at least one element present in a sample, said device including: a detection assembly configured to acquire an image formed by the interference between a light source and said sample; and digital processing means configured to detect a digital position of at least one element in said sample based on said acquired image; said calibration method including the implementation of a plurality of predetermined displacements of said sample with respect to said detection assembly and, for all of said displacements, the detection of a digital position of a same element to determine the digital position and the real position matching model according to the predetermined displacements and to the digital positions of said element after each displacement.Type: GrantFiled: November 27, 2018Date of Patent: July 12, 2022Assignees: BIOMERIEUX, COMMISSARIAT A L'ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVESInventors: Alice Douet, Quentin Josso
-
Patent number: 10852696Abstract: A device and a method for observing an object by imaging, or by lensless imaging. The object is retained by a holder defining an object plane inserted between a light source and an image sensor, with no enlargement optics being placed between the object and the image sensor. An optical system is arranged between the light source and the holder and is configured to form a convergent incident wave from a light wave emitted by the light source, and for forming a secondary light source, conjugated with the light source, positioned in a half-space defined by the object plane and including the image sensor, such that the secondary source is closer to the image sensor than to the holder. This results in an image with a transversal enlargement factor having an absolute value of less than 1.Type: GrantFiled: November 3, 2016Date of Patent: December 1, 2020Assignees: COMMISSARIAT A L'ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES, BIOMERIEUXInventors: Mickael Domenes, Quentin Josso, Francois Perraut
-
Publication number: 20200363315Abstract: A method of calibration of a device for analyzing at least one element present in a sample, said device including: a detection assembly configured to acquire an image formed by the interference between a light source and said sample; and digital processing means configured to detect a digital position of at least one element in said sample based on said acquired image; said calibration method including the implementation of a plurality of predetermined displacements of said sample with respect to said detection assembly and, for all of said displacements, the detection of a digital position of a same element to determine the digital position and the real position matching model according to the predetermined displacements and to the digital positions of said element after each displacement.Type: ApplicationFiled: November 27, 2018Publication date: November 19, 2020Inventors: Alice Douet, Quentin Josso
-
Patent number: 10831156Abstract: A device for acquisition of particles present in a sample includes a spatially coherent light source, an optical system, and an image sensor placed in the focal plane of the optical system. The image sensor is configured to capture an intensity image. A computational unit of the device is configured to construct a series of electromagnetic propagation matrices obtained for a plurality of defocusing offsets relative to a plane of focus of the optics. The computational unit is also configured to determine a first average focused electromagnetic matrix for the particles from the series of electromagnetic matrices, identifying at least one of the particles in the first electromagnetic matrix and storing the coordinates of said particle, and determining a second electromagnetic matrix at a distance of focus on a particle identified from the components of the series of electromagnetic matrices having the stored coordinates.Type: GrantFiled: April 27, 2017Date of Patent: November 10, 2020Assignees: BIOMERIEUX, BIOASTERInventors: Alice Douet, Quentin Josso
-
Patent number: 10724937Abstract: A device including a light source, an image sensor, and a holder defining two positions between the light source and the image sensor. Each position is able to receive an object with a view to its observation. An optical system is placed between the two positions. Thus, when an object is placed in a first position, it may be observed, through the optical system, via a conventional microscopy modality. When an object is placed in the second position, it may be observed via a second lensless imagery modality.Type: GrantFiled: December 27, 2016Date of Patent: July 28, 2020Assignees: COMMISSARIAT A L'ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES, BIOMERIEUXInventors: Francois Perraut, Quentin Josso
-
Patent number: 10704075Abstract: The invention concerns a method for determining the reaction of at least one bacterium of interest to its exposure to an antibiotic implementing a Raman spectroscopy analysis comprising the following steps: Having a biological sample that could contain said bacteria of interest, Preparing at least two fractions of said sample each comprising one or more living bacteria of interest, Capturing, in each fraction, at least one living bacterium of interest by using a binding partner, Exposing at least one of the fractions to at least one concentration of at least one given antibiotic, the other of the fractions being the control fraction, Submitting the bacterium/bacteria of interest contained in the fractions to an incident light and analyzing the resultant light obtained by Raman diffusion by the bacterium/bacteria of interest by Raman spectroscopy in order to obtain as many Raman spectra as bacteria, Treating said spectra in order to obtain a signature of the reaction of the or each bacterium/bacteria of intType: GrantFiled: November 25, 2016Date of Patent: July 7, 2020Assignees: BIOMÉRIEUX, COMMISSARIAT A L'ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVESInventors: Armelle Novelli Rousseau, Isabelle Espagnon, Quentin Josso, Alice Douet, Frédéric Mallard, Olivier Gal
-
Publication number: 20200072728Abstract: A device including a light source, an image sensor, and a holder defining two positions between the light source and the image sensor. Each position is able to receive an object with a view to its observation. An optical system is placed between the two positions. Thus, when an object is placed in a first position, it may be observed, through the optical system, via a conventional microscopy modality. When an object is placed in the second position, it may be observed via a second lensless imagery modality.Type: ApplicationFiled: December 27, 2016Publication date: March 5, 2020Applicants: COMMISSARIAT A L'ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES, BIOMERIEUXInventors: Francois PERRAUT, Quentin JOSSO
-
Patent number: 10473576Abstract: A system for analyzing a transparent particle including: an analysis pathway, including a first light source emitting an analysis light beam, and a first optical system focusing the analysis light beam in a focusing plane; and a position control pathway including a second light source, an image sensor, and a second optical system at least partially merged with the first optical system. The image sensor is offset relative to the image of the focusing plane by the second optical system. The system makes it possible to control correct positioning of the particle, even though it is transparent, and without disturbing the analysis pathway.Type: GrantFiled: October 23, 2015Date of Patent: November 12, 2019Assignees: COMMISSARIAT A L'ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES, BIOMERIEUXInventors: Francois Perraut, Pierre Joly, Quentin Josso, Meike Kloster-Landsberg
-
Patent number: 10458897Abstract: The invention concerns a method for identifying biological particles from a stack of holographic images obtained by means of an optical system. A stack of image blocks centered on the biological particle to be analysed is extracted from the stack of images and a reference block corresponding to the focus plan is determined. A characteristic magnitude is calculated for each block of the stack and the profile of this characteristic magnitude along the optical axis of the system is compared with a plurality of standard profiles relative to known types of particle. Alternatively, blocks of the stack are extracted from the stack of blocks for predetermined defocusing deviations and the extracted blocks are compared with standard blocks relative to known types of particle.Type: GrantFiled: December 17, 2015Date of Patent: October 29, 2019Assignees: COMMISSARIAT A L'ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES, BIOMERIEUXInventors: Francois Perraut, Pierre Joly, Quentin Josso, Meike Kloster-Landsberg, Alice Douet
-
Publication number: 20190120747Abstract: A device and a method for observing an object by imaging, or by lensless imaging. The object is retained by a holder defining an object plane inserted between a light source and an image sensor, with no enlargement optics being placed between the object and the image sensor. An optical system is arranged between the light source and the holder and is configured to form a convergent incident wave from a light wave emitted by the light source, and for forming a secondary light source, conjugated with the light source, positioned in a half-space defined by the object plane and including the image sensor, such that the secondary source is closer to the image sensor than to the holder. This results in an image with a transversal enlargement factor having an absolute value of less than 1.Type: ApplicationFiled: November 3, 2016Publication date: April 25, 2019Applicants: Commissariat A L'Energie Atomique Et Aux Energies Alternatives, BIOMERIEUXInventors: Mickael DOMENES, Quentin JOSSO, Francois PERRAUT
-
Patent number: 10255688Abstract: A method of analyzing a sample receiving a particle of interest, including: defining a reference point located on a first interface of the sample, or at a known distance from the sample, along the optical axis of the optical system; acquiring a reference image transmission of the sample, the object plane of the optical system being located at a known distance from the reference point along an axis parallel to the optical axis of the optical system, and the particle of interest being located outside of the object plane; using the reference image, digitally constructing a series of reconstructed images, each associated with a predetermined offset of the object plane along the optical axis of the optical system; and using the series of reconstructed images, determining the distance along an axis parallel to the optical axis of the optical system, between the particle of interest and the reference point.Type: GrantFiled: November 13, 2015Date of Patent: April 9, 2019Assignees: COMMISSARIAT A L'ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES, BIOMERIEUXInventors: Francois Perraut, Pierre Joly, Quentin Josso, Meike Kloster-Landsberg
-
Publication number: 20190086866Abstract: A device for acquisition of particles present in a sample includes a spatially coherent light source, an optical system, and an image sensor placed in the focal plane of the optical system. The image sensor is configured to capture an intensity image. A computational unit of the device is configured to construct a series of electromagnetic propagation matrices obtained for a plurality of defocusing offsets relative to a plane of focus of the optics. The computational unit is also configured to determine a first average focused electromagnetic matrix for the particles from the series of electromagnetic matrices, identifying at least one of the particles in the first electromagnetic matrix and storing the coordinates of said particle, and determining a second electromagnetic matrix at a distance of focus on a particle identified from the components of the series of electromagnetic matrices having the stored coordinates.Type: ApplicationFiled: April 27, 2017Publication date: March 21, 2019Inventors: Alice Douet, Quentin Josso
-
Publication number: 20180355399Abstract: The invention concerns a method for determining the reaction of at least one bacterium of interest to its exposure to an antibiotic implementing a Raman spectroscopy analysis comprising the following steps: Having a biological sample that could contain said bacteria of interest, Preparing at least two fractions of said sample each comprising one or more living bacteria of interest, Capturing, in each fraction, at least one living bacterium of interest by using a binding partner, Exposing at least one of the fractions to at least one concentration of at least one given antibiotic, the other of the fractions being the control fraction, Submitting the bacterium/bacteria of interest contained in the fractions to an incident light and analyzing the resultant light obtained by Raman diffusion by the bacterium/bacteria of interest by Raman spectroscopy in order to obtain as many Raman spectra as bacteria, Treating said spectra in order to obtain a signature of the reaction of the or each bacterium/bacteria of intType: ApplicationFiled: November 25, 2016Publication date: December 13, 2018Inventors: Armelle NOVELLI ROUSSEAU, Isabelle ESPAGNON, Quentin JOSSO, Alice DOUET, Frédéric MALLARD, Olivier GAL
-
Publication number: 20170363533Abstract: A system for analyzing a transparent particle including: an analysis pathway, including a first light source emitting an analysis light beam, and a first optical system focusing the analysis light beam in a focusing plane; and a position control pathway including a second light source, an image sensor, and a second optical system at least partially merged with the first optical system. The image sensor is offset relative to the image of the focusing plane by the second optical system. The system makes it possible to control correct positioning of the particle, even though it is transparent, and without disturbing the analysis pathway.Type: ApplicationFiled: October 23, 2015Publication date: December 21, 2017Applicants: COMMISSARIAT A L'ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES, BIOMERIEUXInventors: Francois PERRAUT, Pierre JOLY, Quentin JOSSO, Meike KLOSTER-LANDSBERG
-
Publication number: 20170309036Abstract: A method of analyzing a sample receiving a particle of interest, including: defining a reference point located on a first interface of the sample, or at a known distance from the sample, along the optical axis of the optical system; acquiring a reference image transmission of the sample, the object plane of the optical system being located at a known distance from the reference point along an axis parallel to the optical axis of the optical system, and the particle of interest being located outside of the object plane; using the reference image, digitally constructing a series of reconstructed images, each associated with a predetermined offset of the object plane along the optical axis of the optical system; and using the series of reconstructed images, determining the distance along an axis parallel to the optical axis of the optical system, between the particle of interest and the reference point.Type: ApplicationFiled: November 13, 2015Publication date: October 26, 2017Applicants: COMMISSARIAT A L'ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES, BIOMERIEUXInventors: Francois PERRAUT, Pierre JOLY, Quentin JOSSO, Meike KLOSTER-LANDSBERG