Patents Examined by Mohammed Hasan
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Patent number: 11918376Abstract: A module accommodates multiple superluminescent light emitting diodes, SLEDs, 12r, 12g and 12b. The SLEDs are arranged in an enclosure and output respective light beams to propagate into free space within the enclosure. The individual light beams from the SLED sources are combined into a single beam path within the enclosure using beam combiners 40r-g, 40rg-b. Each beam combiner is realized as a planar optical element, the back side of which is arranged to receive a SLED beam and route it through the optical element to the front side where it is combined with another SLED beam that is incident on and reflected by the front side. The free-space propagating combined beam is output from the module via an optical fiber 42 (or through a window).Type: GrantFiled: September 6, 2021Date of Patent: March 5, 2024Assignee: EXALOS AGInventors: Marcus Dülk, Jean Dahdah, Stefan Gloor, Nikolay Primerov, Christian Velez
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Patent number: 11911105Abstract: Embodiments of the present disclosure are directed to systems, apparatuses and methods for prediction, diagnosis, planning and monitoring for myopia and myopic progression. In some embodiments, one or more refractive properties of the eye is determined for each of a plurality of retinal locations of the eye. The plurality of locations may comprise a central region, such as a fovea of the eye, or non-foveal region such as a peripheral region or a region of the macula outside the fovea. Measuring the refractive properties of the eye for the plurality of locations may be helpful in diagnosing myopia and other ocular conditions by providing the refractive properties of the eye for locations away from the fovea, such as the peripheral retina.Type: GrantFiled: September 30, 2021Date of Patent: February 27, 2024Assignee: ACUCELA INC.Inventors: Ryo Kubota, Philip M. Buscemi
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Patent number: 11911109Abstract: Systems and methods for imaging an eye are disclosed. The systems and methods may include at least one plenoptic camera. The systems and methods may include an illumination source with a plurality of lights.Type: GrantFiled: August 25, 2022Date of Patent: February 27, 2024Assignee: Dr. John BerestkaInventor: John Berestka
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Patent number: 11903560Abstract: An objective optical system includes, in order from an object side: a first group having a negative refractive power; a second group having a positive refractive power; and a third group having a positive refractive power, in which the first group and the third group are fixed and the second group is movable, the first group includes at least two lenses having a negative refractive power, the third group includes, in order from the object side, a 3-1st group having a positive refractive power, a 3-2nd group having a negative refractive power, a 3-3rd group having a positive refractive power, and a 3-4th group having a positive refractive power, and the following conditional expression (1)?? is satisfied: 1.5?Bk/f3?6??(1)??.Type: GrantFiled: September 22, 2020Date of Patent: February 20, 2024Assignee: OLYMPUS CORPORATIONInventors: Yuji Kamo, Nobuhiko Sone
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Patent number: 11903645Abstract: Embodiments of the invention include a method to determine a binocular alignment, the method comprising: measuring a disassociated phoria of a first eye and a second eye of a patient at an apparent distance; and determining an accommodative convergence of the first eye and the second eye at the apparent distance using the measured disassociated phoria. In other embodiments, a system to determine a binocular alignment comprises a stereo display, for a projection of images for a first eye and a second eye; an accommodation optics, to modify the projection of the images according to an apparent distance; an eye tracker, to track an orientation of the first eye and the second eye; and a computer, coupled to the stereo display, the accommodation optics and the eye tracker, to manage a determination of the binocular alignment.Type: GrantFiled: December 13, 2022Date of Patent: February 20, 2024Assignee: Neurolens, Inc.Inventors: Jeffrey P. Krall, Aric Plumley
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Patent number: 11903648Abstract: Embodiments of the present invention provide a computer-implemented method of determining a scattering spectrum of an eye. The method comprises receiving data from a detector indicative of a reflected wave of radiation reflected from the retina, wherein the reflected wave of radiation is formed by an incident wave of masked radiation directed towards a retina of the eye, such that at least one region masked from the incident wave is present on the retina, determining a first back scattering spectrum indicative of light scattered from an optical media of the eye in dependence on a portion of the reflected wave of radiation corresponding to the at least one masked region, determining a second back scattering spectrum indicative of light scattered from a neural retina of the eye in dependence on retinal structure information representative of neural retinal structure, and determining the scattering spectrum of the eye in dependence on the first back scattering spectrum and the second back scattering spectrum.Type: GrantFiled: September 19, 2019Date of Patent: February 20, 2024Assignee: UNITED KINGDOM RESEARCH AND INNOVATIONInventor: Tom Margrain
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Patent number: 11896308Abstract: Improved optical coherence tomography systems and methods to measure thickness of the retina are presented. The systems may be compact, handheld, provide in-home monitoring, allow the patient to measure himself or herself, and be robust enough to be dropped while still measuring the retina reliably.Type: GrantFiled: December 12, 2022Date of Patent: February 13, 2024Assignee: ACUCELA INC.Inventors: Christian Oggenfuss, Karim Haroud, Lukas Scheibler, Matthias Pfister, Urban Schnell, Stefan Troller, Ryo Kubota, Philip Buscemi
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Patent number: 11896311Abstract: An ophthalmic imaging system comprises a first imaging subsystem, a sensor array and a second imaging subsystem. The first imaging subsystem forms a primary image of the interior of an eye through the diameter of the eye pupil. The second imaging subsystem comprises a lens array to form an array of secondary images on the sensor array. The lens array is composed of a plurality of types of lenses, each type having a different optical power.Type: GrantFiled: July 15, 2020Date of Patent: February 13, 2024Assignee: King's College LondonInventors: Brice Thurin, Christos Bergeles
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Patent number: 11892626Abstract: Methods and systems for determining an individual gaze value are disclosed herein. An exemplary method involves: (a) receiving gaze data for a first wearable computing device, wherein the gaze data is indicative of a wearer-view associated with the first wearable computing device, and wherein the first wearable computing device is associated with a first user-account; (b) analyzing the gaze data from the first wearable computing device to detect one or more occurrences of one or more advertisement spaces in the gaze data; (c) based at least in part on the one or more detected advertisement-space occurrences, determining an individual gaze value for the first user-account; and (d) sending a gaze-value indication, wherein the gaze-value indication indicates the individual gaze value for the first user-account.Type: GrantFiled: January 10, 2023Date of Patent: February 6, 2024Assignee: GOOGLE LLCInventor: Eric Teller
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Patent number: 11890054Abstract: A mobile communication device-based corneal topography system includes an illumination system, a mobile communication device and a corneal topography optical housing. The illumination system is configured to generate an illumination pattern and to generate reflections of the illumination pattern off a cornea of a subject, wherein the illumination system is aligned along an axis of centers of the illumination pattern. The mobile communication device includes an image sensor to capture an image of the reflected illumination pattern. The corneal topography optical housing is coupled to the illumination system and the mobile communication device, wherein the corneal topography optical housing supports and aligns the illumination system with the image sensor of the mobile communication device. The corneal topography optical housing includes an imaging system coupled to the image sensor.Type: GrantFiled: August 15, 2022Date of Patent: February 6, 2024Inventors: David A Wallace, Stephen D Klyce, John R Rogers, R Stephen Mulder, Mark A Kahan, Paul E Glenn
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Patent number: 11890056Abstract: The present invention provides a method to consistently and continuously monitor an individual's ocular fundus via the acquisition of standardized fundus images longitudinally, especially for (but not limited to) individuals with diabetic retinopathy. Briefly, the key points of the present invention include: (a) using an aiming beam to target anatomic landmarks of the ocular fundus; (b) using normal anatomic landmarks as registration points; (c) providing a method of image acquisition to create standardized images.Type: GrantFiled: December 10, 2020Date of Patent: February 6, 2024Assignee: TECHEVERST CO., LTD.Inventor: Victoria Y Wang
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Patent number: 11883098Abstract: A device and a method for determining an ocular aberration of at least one eye of a user are disclosed. The device contains a wavefront sensing unit for measuring at least one optical wavefront with at least one light beam, from which an ocular aberration of the at least one eye of the user is determined. The device further contains at least one diffractive element for generating multiple diffraction orders in the light beam in two meridians in a manner that the multiple diffraction orders are spatially separated on the wavefront sensing unit and in the eye of the user. The device and the method allow generating an ocular defocus map in a one-shot assessment in real-time, especially by employing an automated measurement of the ocular aberrations with regard to different eccentricities of the eye of the user in two meridians.Type: GrantFiled: December 20, 2022Date of Patent: January 30, 2024Assignee: Carl Zeiss Vision International GmbHInventors: Nikolai Suchkov, Siegfried Wahl
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Patent number: 11883096Abstract: The present disclosure provides an adaptive optics system including at least one active pixel sensor array that detects light and sends a signal to a processor. The adaptive optics system also includes a wavefront correction system including at least one wavefront control structure and the processor, and that executes instructions on the processor to produce a digital image in which at least one wavefront distortion in the light detected by the active pixel sensor array is partially or fully corrected. The disclosure also provides methods of using the adaptive optics system.Type: GrantFiled: July 28, 2020Date of Patent: January 30, 2024Assignee: Alcon Inc.Inventor: Steven T. Charles
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Patent number: 11886041Abstract: The present disclosure relates to the field of optical lenses, and discloses a camera optical lens. The camera optical lens includes eight lenses, and the eight lenses includes successively from an object side to an image side: a first lens having negative refractive power, a second lens having positive refractive power, a third lens, a fourth lens, a fifth lens, a sixth lens, a seventh lens, and an eighth lens. An object side surface of the eighth lens is a convex surface at a paraxial position, an image side surface thereof is a concave surface at a paraxial position, and at least one of the first lens to the eighth lens includes a free-form surface. The camera optical lens of the present disclosure has good optical performance while meeting design requirements of a large aperture, ultra-thinness, and a wide angle while.Type: GrantFiled: December 24, 2020Date of Patent: January 30, 2024Assignee: CHANGZHOU RAYTECH OPTRONICS CO., LTD.Inventor: Wen Sun
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Patent number: 11883102Abstract: A visual function detection apparatus includes: a display controller configured to cause an image for determination to be displayed in a display region on a display screen of a display unit and move the image for determination within the display region; a gazing point detector configured to detect a position of a gazing point of a test subject observing the display screen; a relation detector configured to detect relation information among a position of the image for determination on the display screen, a moving direction of the image for determination, and a moving direction of the gazing point; and a visual function detector configured to detect a visual function of the test subject based on the relation information.Type: GrantFiled: August 20, 2020Date of Patent: January 30, 2024Assignee: JVCKENWOOD CorporationInventors: Miku Komurata, Shuji Hakoshima
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Patent number: 11877800Abstract: A method and a system for detecting blepharoptosis are disclosed. The method and the system include image capturing via a camera to generate three eye images; executing an image processing on the eye images to generate the corresponding border images; executing an image computing on the eye image and the corresponding border image to obtain a plurality of characteristic variables; performing a calculation according to the plurality of characteristic variables to obtain a characteristic parameter set; and comparing the characteristic parameter set with a preset blepharoptosis criteria information to obtain a blepharoptosis severity and a levator function.Type: GrantFiled: July 27, 2018Date of Patent: January 23, 2024Assignees: KAOHSIUNG MEDICAL UNIVERSITY, NATIONAL SUN YAT-SEN UNIVERSITYInventors: Chun-Sheng Lai, Yi-Wu Chiang
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Patent number: 11877797Abstract: A system includes: a first movable stage which is movable with respect to an eye of a subject; a second movable stage mounted on the first movable stage, wherein the second movable stage is movable with respect to the first movable stage; a fixation target disposed on the second movable stage; and an optical system disposed in an optical path between the fixation target and the eye, wherein the optical system is configured for projecting the fixation target upon the eye to accommodate the eye. The optical system includes a Stokes cell in the optical path between the fixation target and the eye. The optical system non-telecentrically projects the fixation target upon the eye.Type: GrantFiled: November 23, 2020Date of Patent: January 23, 2024Assignee: AMO Development, LLCInventor: Richard J. Copland
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Patent number: 11871994Abstract: The object of the present invention is to develop an ophthalmologic microscope of a new method that increases the degree of freedom in the optical design in the Galilean ophthalmologic microscope provided with an OCT optical system. The present invention provides an ophthalmologic microscope, wherein an observation optical system, an objective lens, and an OCT optical system are placed in such a way that the optical axis of the OCT optical system does not penetrate through objective lens, and the optical axis of the observation optical system and the optical axis of the OCT optical system are non-coaxial, and wherein the ophthalmologic microscope further comprises a SLO optical system that scans a light ray which is a visible ray, a near infrared ray, or an infrared ray and guides the light to the subject's eye so as to become substantially coaxial with the optical axis of the OCT optical system.Type: GrantFiled: October 5, 2021Date of Patent: January 16, 2024Assignee: Topcon CorporationInventors: Yasufumi Fukuma, Kazuhiro Oomori
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Patent number: 11871990Abstract: A dynamic illuminator includes a central aperture, a ring of inner light sources, a plurality of primary illumination arrays, and a plurality of secondary illumination arrays. The ring of inner light sources is arranged around the central aperture. The plurality of primary illumination arrays extends along radial axes from the central aperture outside of the ring of inner light sources, wherein the primary illumination arrays each includes a plurality of primary light sources. The plurality of secondary illumination arrays is disposed along secondary axes extending from the central aperture outside of the ring of inner light sources. The secondary illumination arrays each includes a plurality of secondary light sources. The secondary axes of the secondary illumination arrays are disposed angularly between adjacent ones of the primary illumination arrays.Type: GrantFiled: February 27, 2023Date of Patent: January 16, 2024Assignee: Verily Life Sciences LLCInventors: Eliezer Glik, Sam Kavusi
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Patent number: 11865268Abstract: A system and methods for remote Eye Movement Desensitization and Reprocessing (EMDR) therapy include performing, at therapist and client computing platforms, steps of: receiving an EMDR message indicating a position a bilateral simulation (BLS) element, wherein the BLS element is at least one of a visual, an audio, and a tactile element, and wherein the indicated position is a screen position of a visual element, or a right or left position of an audio or tactile element; and responsively presenting, on the respective computing platform the BLS element at the indicated position; and performing on the EMDR server steps of: establishing connections with the therapist and client computing platforms; and broadcasting simultaneously, over the first and second connections to both the therapist and client computing platforms, the EMDR message.Type: GrantFiled: September 16, 2019Date of Patent: January 9, 2024Inventors: Neta Gazit, Lior Gazit, Tal Bar