Centration parameters for fitting spectacle lenses to a predetermined spectacle frame and to the head of a subject are determined with a computer-implemented method. At least two calibrated images, recorded from different recording directions, of the head of the subject wearing the spectacle frame are provided, wherein geometric parameters are established by geometric position determination. The geometric parameters describe the position of the eyes and the geometry of the spectacle frame, and the centration parameters are calculated from the geometric parameters. Further, a three-dimensional model for the spectacle lenses, which are to be received in the spectacle frame, is fitted to the geometry of the geometric parameters that describe the geometry of the spectacle frame.

Methods and devices for determining at least one centring parameter are disclosed. A mobile terminal is moved from a first position to a second position, and a respective image is captured of an eye area of a person. The acceleration is also measured during the movement. The centring parameter is then determined based on the captured image and the measured acceleration.

A cloth accessory and methods for the use thereof are disclosed and described. In one aspect, the cloth accessory may include a cover member forming an enclosure with a cavity therein, and a cloth attached to the cover member. The cloth may have a first configuration wherein the cloth is retracted substantially into the cover member, and a second configuration wherein the cloth is extended substantially out of the cover member without becoming detached there from.

An optical element is switchable between a first state having a first focal length and a second state having a second focal length. The optical element includes a first electrode layer, an insulation layer, a resistance layer, a liquid crystal layer, and a second electrode layer, which are arranged in order. An electric resistance ratio of the resistance layer increases from a central part to a peripheral part.

A method of manufacturing a button-enabled housing assembly includes pre-forming a composite button component or insert having an elastically flexible button membrane that is mounted on a rigid frame, and thereafter molding a housing over the button insert. The composite button insert is formed in a co-molding operation and can include a rigid island in the flexible button membrane for supporting a cosmetic keycap.

A portable eyewear electronic device that includes a speaker module and methods of assembly of the device are presented. The electronic eyewear device includes a speaker module that emits acoustic radiation that is channeled through a carrier contained within a temple to one or more acoustic ports near a user's ear.

A contact lens manufacturing method for removing a contact lens from a pair of molds, the contact lens being produced by polymerizing a monomer included in the pair of molds which are obtained by assembling a lower mold for forming a front curve of the contact lens and an upper mold for forming a base curve of the contact lens, the method including: (A) a first peeling step to peel the contact lens from the lens formation surface of the upper mold; (B) a separation step to separate the contact lens from the lens formation surface of the upper mold; (C) a second peeling step to peel the contact lens whose periphery sticks to the lens formation surface of the lower mold; and (D) a third peeling step to peel the contact lens, whose periphery has been peeled, from the lens formation surface of the lower mold.

A contact lens manufacturing method for removing a contact lens from a pair of molds, the contact lens being produced by polymerizing a monomer included in the pair of molds which are obtained by assembling a lower mold for forming a front curve of the contact lens and an upper mold for forming a base curve of the contact lens, the method including: (A) a first peeling step to peel the contact lens from the lens formation surface of the upper mold; (B) a separation step to separate the contact lens from the lens formation surface of the upper mold; (C) a second peeling step to peel the contact lens whose periphery sticks to the lens formation surface of the lower mold; and (D) a third peeling step to peel the contact lens, whose periphery has been peeled, from the lens formation surface of the lower mold.

A method implemented by computer for processing an unfinished optical lens member for manufacturing an optical lens, the unfinished optical lens member having an unfinished surface and an aspherical finished surface having a first reference system with a first reference point, and the optical lens to be manufactured including first and second surfaces, the first surface including a second reference system with a second reference point and included in the aspherical finished surface of the lens member, the method including: providing an unfinished optical lens member data; providing an optical function; providing a reference point position; providing an optical lens parameter; determining a reference system; determining a first surface dataset; and determining a second surface dataset.

The invention relates to a method for automatically establishing parameters in order to centre and/or personalise corrective lenses for spectacles, comprising the following steps: —taking images of the frame from different viewing angles, —defining an initial model of the frame in a reference system based on a set of predefined initial parameters, projecting a region of interests in the images, —comparing the projections and evaluating a similarity between said projections, —modifying at least one of the parameters of the model and reiterating the steps until a maximum level of similarity between the projections is obtained, —deducing the at least one of the parameters from the model associated with the projections which have the maximum level of similarity.