PATENT CLAIM ANALYSIS

Application Number: 16149578
Application Type: Utility
Filing Date: 2018-10
Publication Date: 2019-01
Patent Classification: ["351", "239000"]

Abstract:
The present disclosure relates generally to systems and method for testing and determining corrective lens prescription for a patient. In an example embodiment, a method includes using a hand-portable first electronic device, a second electronic device with a computerized screen, and a server to conduct a vision test for a person. The vision test includes determining, an axis prescription, a cylinder prescription, and a sphere prescription for each eye of the person. A corrective lens prescription is provided for the person based, at least in part, on the determined axis, cylinder, and sphere prescription for each eye of the person.

Claim (Index 20):
A method for determining a corrective lenses prescription for a person by performing a vision test without the use of a refractor lens assembly using a hand-portable first electronic device, a second electronic device associated with a computerized screen, and a server, the method comprising:\n receiving, in the server, account credentials associated with the person; receiving, in the server, vision information associated with the person, said vision information including at least one of a previous corrective lens prescription of the person, a date of birth of the person, or an age of the person; enabling the person to use the hand-portable first electronic device to interact with the second electronic device via the server, the first and the second electronic devices being each separately communicatively coupled to the server; providing both written and audible instructions to the person using one or more of the hand-portable first electronic device and the second electronic device; performing a calibration step to provide at least one of the server, the hand-portable first electronic device, or the second electronic device with information regarding a property or a parameter of the hand-portable first electronic device, the second electronic device, or the computerized screen; specifying, via at least one of the hand-portable first electronic device or the second electronic device, a distance for the person to be positioned away from the computerized screen; receiving, in the server, data corresponding to inputs from the person submitted using the hand-portable first electronic device in response to the vision test; determining an axis prescription, a cylinder prescription, and a sphere prescription for each eye of the person based at least in part on each of (i) said data, (ii) the previous corrective lens prescription of the person, and (iii) one or more inputs of one or more optometrists or ophthalmologists; and providing to the person a corrective lens prescription based, at least in part, on the determined axis, cylinder, and sphere prescription for each eye of the person, wherein determining the axis prescription for each eye of the person comprises:\n separately for each eye of the person, displaying on the computerized screen a succession of one or more axis figures, each axis figure comprising a fan chart having substantially radial line segments spaced at regular angular intervals, the magnitude of said angular intervals, when expressed in degrees, being a factor of 180, and enabling the person to provide at least one axis figure input using the hand-portable first electronic device designating an angular direction, if any, in which the radial line segments appear most distinct, \n displaying one or more of the axis figures in the succession at a different angular orientation than one or more of the other axis figures in the succession, and \n using at least one of the at least one axis figure input provided in response to each axis figure in the succession, \n wherein determining the sphere prescription for each eye of the person comprises:\n separately for each eye of the person, displaying on the computerized screen a succession of one or more sphere figures, wherein the succession comprises figures of varying sizes where each of the one or more sphere figures in the succession of sphere figures, after a first sphere figure in the succession, has a size equal to or smaller than that of a preceding sphere figure in the succession, \n for each of the sphere figures in the succession, enabling the person to provide at least one sphere figure input using the hand-portable first electronic device, wherein the at least one sphere figure input provided in response to the one or more sphere figures pertains to identifying a portion of one of the sphere figures that is different from the other portions of that sphere figure, and \n using information pertaining to the displayed one or more sphere figures, at least one of the at least one sphere figure input, and the distance of the person from the computerized screen, \n wherein determining the cylinder prescription for each eye of the person comprises:\n separately for each eye of the person, using at least one of the at least one axis figure input of the person and the previous corrective lens prescription of the person, \n displaying on the computerized screen one or more figures comprising shapes having one or more spaces such that portions of the displayed figure may appear to touch across the one or more spaces when viewed using an astigmatic eye of the person, and enabling the person to provide at least one input related to the displayed figure using the hand-portable first electronic device, \n using at least one of the at least one input related to the displayed one or more figures, the distance of the person from the computerized screen, and at least one of the at least one axis figure input, the determined sphere prescription, or the determined axis prescription, and \n wherein determining the corrective lens prescription further comprises:\n separately for each eye of the person, displaying on the computerized screen a diagram comprising a red-colored block figure and a green-colored block figure, and enabling the person to provide one or more block figure inputs identifying whether one figure appears more distinct than the other, and if so which one, and \n using at least one of the one or more block figure inputs made by the person in response to said diagram to determine at least one of whether (a) the person's prescription is over-corrected or under-corrected, or (b) the person is myopic or hyperopic, \n wherein at least two selected from the group of: the one or more axis figures, the one or more sphere figures, and the one or more figures comprising shapes having one or more spaces are the same figure, wherein the inputs provided by the person using the hand-portable first electronic device cause a progression of the vision test as displayed on the computerized screen, and wherein no ophthalmologist or optometrist is required to contemporaneously monitor the vision test.

Metadata:
- Claim Count in Document: 80.0
- Percentile: 97.0
- Lexical Diversity: 2.07273
- Patent Class: 351.0
- Transitional Phrase Type: open
- Component Type: 1
- Foreign Priority: False
- Related Applications: ['15903919', '14994983', '14195583', '14856849', '14994949']

Analysis Scores:
- 35 USC 101 Eligibility (BERT): 0.6645060975028669
- 35 USC 102 Novelty (BERT): 0.602097706532751
- Combined Prediction Score: 0.6582652584058553
- Mean Citation Score: 475.400922
- Max Citation Score: 554.22614
- Similarity Product: 525.2113860126566

Labels:
- Claim Label 101: 1
- Claim Label 102: 1
- Claim Label 103: 0
- Claim Label 112: 1
- Combined Label: 1
- Label 101 Adjusted: 1

Dataset: test