Provided is a polymerizable composition for an optical article including a photochromic compound, an acyclic methacrylate having a molecular weight of 500 or more (a component A), and a bifunctional (meth)acrylate containing a structure selected from the group consisting of a cyclic structure and a branch structure (component B).

Provided is a polymerizable composition for an optical article including a photochromic compound, an acyclic methacrylate having a molecular weight of 500 or more (a component A), and a bifunctional (meth)acrylate containing a structure selected from the group consisting of a cyclic structure and a branch structure (component B).

A wearable device for use in immersive reality applications is provided. The wearable device includes eyepieces to provide a forward-image to a user, a first forward-looking camera mounted on the frame and having a field of view, a processor configured to identify a region of interest within the forward-image, and an interface device to indicate to the user that a field of view of the first forward-looking camera is misaligned with the region of interest. Methods of use of the device, a memory storing instructions and a processor to execute the instructions to cause the device to perform the methods of use, are also provided.

A wearable device for use in immersive reality applications is provided. The wearable device includes eyepieces to provide a forward-image to a user, a first forward-looking camera mounted on the frame and having a field of view, a processor configured to identify a region of interest within the forward-image, and an interface device to indicate to the user that a field of view of the first forward-looking camera is misaligned with the region of interest. Methods of use of the device, a memory storing instructions and a processor to execute the instructions to cause the device to perform the methods of use, are also provided.

An assistant piece helps in reading descriptions for those who have presbyopia and farsightedness. The piece dispenses with eyeglasses or special instruments and through which piece the letters etc. at hand are readily readable in various situations. The assistant piece has a plurality of ocular sections each having a prescribed area which are provided in juxtaposition on a plate-like sheet member and through which light penetrates and a line of vision introduction section which is provided in the vicinity of the ocular sections and has a larger light penetrating area than the ocular sections, in which the sheet member is provided with a light-shielding section whose transmittance over visible light is lower than those of the ocular sections and the line of vision introduction section; and the ocular sections and the line of vision introduction section are provided within the light-shielding section.

An assistant piece helps in reading descriptions for those who have presbyopia and farsightedness. The piece dispenses with eyeglasses or special instruments and through which piece the letters etc. at hand are readily readable in various situations. The assistant piece has a plurality of ocular sections each having a prescribed area which are provided in juxtaposition on a plate-like sheet member and through which light penetrates and a line of vision introduction section which is provided in the vicinity of the ocular sections and has a larger light penetrating area than the ocular sections, in which the sheet member is provided with a light-shielding section whose transmittance over visible light is lower than those of the ocular sections and the line of vision introduction section; and the ocular sections and the line of vision introduction section are provided within the light-shielding section.

Exemplary light control devices and methods provide a regional variation of visual information and sampling (“V-VIS”) of an ocular field of view that improves or stabilizes vision, ameliorates a visual symptom, reduces the rate of vision loss, or reduces the progression of an ophthalmic or neurologic condition, disease, injury or disorder. The V-VIS devices and methods generate a moving aperture effect anterior to a retina that samples and delivers to the retina environmental light from an ocular field of view at a sampling rate between 50 hertz and 50 kilohertz. Certain of these V-VIS devices and methods may be combined with augmented or virtual reality, vision measurement, vision monitoring, or other therapies including, but not limited to, pharmacological, gene, retinal replacement and stem cell therapies.

A device and method of making the device is described. In some implementations, an eyeglass lens is colored so that it is semi-opaque or opaque and approximates the color of a particular user's skin. In an example, the lens can be colored by placing an adhesive material on the front or rear surface of the lens. In an additional or alternative example, the lens can be colored by dyeing the lens material. In an additional or alternative example, the lens can be colored by painting the lens material. The colored lens blocks the view of passersby of the ocular region of the wearer and is itself inconspicuous because the approximate skin color camouflages its presence.

Embodiments concern an optical eye-contact device comprising a lens body having a symmetry axis and which further comprises a light-transmissive portion and an opaque portion, wherein the light-transmissive portion is decentered with respect to the symmetry axis.

Embodiments concern an optical eye-contact device comprising a lens body having a symmetry axis and which further comprises a light-transmissive portion and an opaque portion, wherein the light-transmissive portion is decentered with respect to the symmetry axis.