Abstract: In a method of simulating a lens using augmented reality, a user who desires to purchase a vision correction product may wear lenses precisely corrected using a computer device through a virtual experience, and inconvenience of frequently replacing various lenses when taking an eye examination is considerably mitigated. An effect of wearing a variety of vision correction products in a short time period can be experienced, and it is expected to be able to select an optimized custom-tailored vision correction product. Particularly, in manufacturing a functional lens which has complicated manufacturing steps and requires a precise examination, such as a progressive multi-focal lens, a coating lens, a color lens, a myopia progress suppression lens, an eye fatigue relieve lens or the like, it is expected that a precise product can be manufactured, and manufacturing time can be greatly reduced.

Abstract: A method for measuring the parameters for manufacturing spectacle lenses and a device for realizing the same. The measuring method can precisely and easily measure the parameters for manufacturing spectacle lenses by reflecting the measurement subject's physical features and spectacle-wearing habits through the naturally captured image of the measurement subject who looks at the infinite distance focus. The device for measuring the parameters for manufacturing spectacle lenses can be easily manufactured and manipulated through various simple modules, such as the infinite distance focus providing means, the near distance focus providing means, the camera means, the flash means, and so on, can be manufactured in a small size in such a fashion that a user can carry it. The auxiliary device for measuring the parameters for manufacturing spectacle lenses can accurately and easily measure various parameters for manufacturing spectacle lenses by being connected with the portable tablet computer.

Abstract: In a method of simulating a lens using augmented reality, a user who desires to purchase a vision correction product may wear lenses precisely corrected using a computer device through a virtual experience, and inconvenience of frequently replacing various lenses when taking an eye examination is considerably mitigated. An effect of wearing a variety of vision correction products in a short time period can be experienced, and it is expected to be able to select an optimized custom-tailored vision correction product. Particularly, in manufacturing a functional lens which has complicated manufacturing steps and requires a precise examination, such as a progressive multi-focal lens, a coating lens, a color lens, a myopia progress suppression lens, an eye fatigue relieve lens or the like, it is expected that a precise product can be manufactured, and manufacturing time can be greatly reduced.