Patents Assigned to EYEQUE INC.
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Patent number: 11707191Abstract: Accurate measurement of pupillary distance, PD, is necessary to make prescription eye glasses as well as configuring VR headsets, and using other binocular optical devices. Today, many people are ordering eyeglasses on line and obtaining their PD is often problematic for a number of reasons as the prior art fails to provide consumer friendly PD measurement systems. A disclosed eyeglass frame system comprises reference marks of known locations upon the frames. A smart phone may be used to locate the consumer's pupils, while the consumer is wearing the frames. The consumer's pupils may be marked or tagged upon a digital image of the consumer wearing the frames. By use of angles in the sight lines of the camera lens and other variable values and the known relative distances of the frame markings, a consumer's pupillary distance can be quickly and accurately derived.Type: GrantFiled: October 4, 2019Date of Patent: July 25, 2023Assignee: EyeQue Inc.Inventors: Yuan Xiong, John Serri, Noam Sapiens
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Patent number: 11503997Abstract: Disclosed embodiments may include a device, system and method for providing a low cost device that can measure refractive errors very accurately via attachment to a smart phone. A disclosed device may use ambient light or a light source in simulating the cross cylinder procedure that optometrists use by utilizing the inverse Shack-Hartman technique. The optical device may include an array of lenslets and pinholes that will force the user to effectively focus at different depths. Using an optical device, in conjunction with a smart phone, the user first changes the angle of the axis until he/she sees a cross pattern (the vertical and horizontal lines are equally spaced). The user adjusts the display, typically using the controls on the smartphone, to make the lines come together and overlap, which corresponds to bringing the view into sharp focus, thus determining the appropriate optical prescription for the user.Type: GrantFiled: March 4, 2020Date of Patent: November 22, 2022Assignee: EyeQue Inc.Inventors: John Serri, Noam Sapiens
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Patent number: 11497395Abstract: The invention may include a fixed lens (perhaps to simulate a cornea), a pair of Stokes lenses, an iris, deformable lens and an array detector. The implementation or construction of the disclosed embodiments follow and/or simulate the anatomy and geometry of an eye. Several optical and practical constraints were overcome by creating equivalent systems.Type: GrantFiled: November 29, 2019Date of Patent: November 15, 2022Assignee: EyeQue Inc.Inventor: Noam Sapiens
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Patent number: 11484195Abstract: Disclosed embodiments may include a device, system and method for providing a low cost device that can measure refractive errors very accurately via attachment to a smart phone. A disclosed device may use ambient light or a light source in simulating the cross cylinder procedure that optometrists use by utilizing the inverse Shack-Hartman technique. Using an optical device, in conjunction with a smart phone, the user first changes the angle of the axis until he/she sees a cross pattern (the vertical and horizontal lines are equally spaced). The user adjusts the display, using motorized controls on the on the optical device, to make the lines come together and overlap, which corresponds to bringing the view into sharp focus, thus determining the appropriate optical prescription for the user.Type: GrantFiled: November 15, 2019Date of Patent: November 1, 2022Assignee: EyeQue Inc.Inventors: John Serri, Yue Wang, Noam Sapiens
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Patent number: 11484196Abstract: Consumer products such as refraction measurement devices may be used for obtaining refraction measurements allow consumers to track their vision without visiting an optometrist or ophthalmologist. Such consumer products may work in concert with smart phones or other products having a touch screen that present images to refraction measurement devices. Smart phones may have resolution rates, sometimes measured as PPI or pixels per inch that are unknown to the user and/or refraction measurement device. One aspect of the invention is to provide an optical interface for the user to manually match the view port boundary of the smartphone to comport with the view port boundary of the refraction measurement device. Another aspect of the invention is the use of pre-distortion in images presented to the user. By noting the corrective movements exerted by the user upon the refractive measurement device, the user's own refractive error can be derived.Type: GrantFiled: July 22, 2020Date of Patent: November 1, 2022Assignee: EyeQue Inc.Inventors: Noam Sapiens, John Serri, Johan Borglin
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Patent number: 11432718Abstract: A system for replicating a standardized visual acuity test, such as the 20? Snellen test may comprise a binocular viewer attached to a smartphone. A binocular viewer may comprise a housing comprising a pair tube covers having voids allowing for viewing through a pair of lens tubes with each lens tube in visual communication with a second lens a first lens an aperture and a front cover. The optical systems use an artful combination of front and back lens surfaces, demagnification and other systems to faithfully replicate the sight lines perceived by a user of a traditional 20? test. The system also allows for the incorporation of other tests conducted with both eyes including Color Sensitivity and Contrast, furthermore by placing a deformable, tunable lens between the second lens and the eye the device serves as an ophthalmic refractometer, allowing a Spherical Equivalent refraction estimate for each eye.Type: GrantFiled: October 31, 2018Date of Patent: September 6, 2022Assignee: EyeQue Inc.Inventors: Ying Xu, Yue Wang, John Serri
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Publication number: 20200170500Abstract: The invention may include a fixed lens (perhaps to simulate a cornea), a pair of Stokes lenses, an iris, deformable lens and an array detector. The implementation or construction of the disclosed embodiments follow and/or simulate the anatomy and geometry of an eye. Several optical and practical constraints were overcome by creating equivalent systems.Type: ApplicationFiled: November 29, 2019Publication date: June 4, 2020Applicant: EyeQue Inc.Inventor: Noam Sapiens
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Publication number: 20200107720Abstract: Accurate measurement of pupillary distance, PD, is necessary to make prescription eye glasses as well as configuring VR headsets, and using other binocular optical devices. Today, many people are ordering eyeglasses on line and obtaining their PD is often problematic for a number of reasons as the prior art fails to provide consumer friendly PD measurement systems. A disclosed eyeglass frame system comprises reference marks of known locations upon the frames. A smart phone may be used to locate the consumer's pupils, while the consumer is wearing the frames. The consumer's pupils may be marked or tagged upon a digital image of the consumer wearing the frames. By use of angles in the sight lines of the camera lens and other variable values and the known relative distances of the frame markings, a consumer's pupillary distance can be quickly and accurately derived.Type: ApplicationFiled: October 4, 2019Publication date: April 9, 2020Applicant: EyeQue Inc.Inventors: Yuan Xiong, John Serri, Noam Sapiens
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Patent number: 10588507Abstract: Disclosed embodiments may include a device, system and method for providing a low cost device that can measure refractive errors very accurately via attachment to a smart phone. A disclosed device may use ambient light or a light source in simulating the cross cylinder procedure that optometrists use by utilizing the inverse Shack-Hartman technique. The optical device may include an array of lenslets and pinholes that will force the user to effectively focus at different depths. Using an optical device, in conjunction with a smart phone, the user first changes the angle of the axis until he/she sees a cross pattern (the vertical and horizontal lines are equally spaced). The user adjusts the display, typically using the controls on the smartphone, to make the lines come together and overlap, which corresponds to bringing the view into sharp focus, thus determining the appropriate optical prescription for the user.Type: GrantFiled: February 14, 2019Date of Patent: March 17, 2020Assignee: EyeQue Inc.Inventors: Georgios Skolianos, Ying Xu, John Serri, Noam Sapiens
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Publication number: 20200077886Abstract: Disclosed embodiments may include a device, system and method for providing a low cost device that can measure refractive errors very accurately via attachment to a smart phone. A disclosed device may use ambient light or a light source in simulating the cross cylinder procedure that optometrists use by utilizing the inverse Shack-Hartman technique. Using an optical device, in conjunction with a smart phone, the user first changes the angle of the axis until he/she sees a cross pattern (the vertical and horizontal lines are equally spaced). The user adjusts the display, using motorized controls on the on the optical device, to make the lines come together and overlap, which corresponds to bringing the view into sharp focus, thus determining the appropriate optical prescription for the user.Type: ApplicationFiled: November 15, 2019Publication date: March 12, 2020Applicant: EyeQue Inc.Inventors: John Serri, Yue Wang, Noam Sapiens
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Patent number: D852251Type: GrantFiled: December 16, 2016Date of Patent: June 25, 2019Assignee: EYEQUE INC.Inventors: Georgios Skolianos, Ying Xu, John Serri, David Hishinuma
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Patent number: D857075Type: GrantFiled: October 24, 2017Date of Patent: August 20, 2019Assignee: EYEQUE INC.Inventors: Ying Xu, Nghi Phan, Yue Wang, John Serri
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Patent number: D933829Type: GrantFiled: November 15, 2018Date of Patent: October 19, 2021Assignee: EyeQue, Inc.Inventors: John Serri, Yue Wang, Noam Sapiens
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Patent number: D986418Type: GrantFiled: May 10, 2021Date of Patent: May 16, 2023Assignee: EyeQue Inc.Inventors: Noam Sapiens, David Hishinuma, Vincent Yeh, Jessica Hsueh, Jinsong Chen, Brian Ward
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Patent number: D1008350Type: GrantFiled: February 27, 2019Date of Patent: December 19, 2023Assignee: EyeQue Inc.Inventors: Phoebe Yu, Noam Sapiens, John Serri