A method for fitting contact lenses. More specifically, methods of fitting scleral or corneo-scleral lenses utilizing data or patterns observed on a corneal topography examination to improve the fit of scleral lenses or corneo-scleral lenses. The method may use quadrant specific fitting set lenses or regular toricity in unusual portions of the lens to define which patients may most benefit from such lenses.

Positioning systems adapted to allow repeatable positioning of a test specimen within a test frame, and/or positioning of a sensor (e.g., an extensometer) relative to the specimen. In some embodiments, the positioning system includes two lasers (or other pattern illumination sources) attached to a head, each laser adapted to illuminate a line or other pattern on a face of the test specimen. The two lasers may be configured such that, once the head is at a calibrated working distance from the test specimen, the two patterns intersect one another in a predetermined geometry (e.g., the two lines align (become collinear) with one another).

Implementations disclose methods and devices for closure control of containers. A method includes performing, by an inspection apparatus, optical 3D measuring of a closed container, the closed container comprising a closure coupled to the container; generating, by the inspection apparatus, 3D data based on the optical 3D measuring; and processing, by an evaluation device, the 3D data to determine at least one of tightness or correct seating of the closure relative to the container.

A control device acquires a plurality of observation signals observed using a plurality of projection patterns having different spatial frequencies, as observation signals for a measurement point on a measurement object. The control device repeatedly executes processing for estimating two component signals included in each observation signal, so as to separate the observation signal into two component signals, and calculate a three-dimensional position of the measurement point based on the phases of the separated component signals.

An optical system, including: (a) an emitter array including a plurality of individual emitters, wherein each emitter in the emitter array is operable to emit a light beam which is characterized by a native beam width; (b) an optical subunit, operable to transform a plurality of light beams emitted by the emitter array, wherein each of the transformed light beams is characterized by an expanded beam width that is wider than the native beam width of the corresponding light beam and is wider than a facilitating beam width; and (c) a diffractive optical element that is capable of diffracting the transformed light beams to provide light patterns whose angular resolution meets a light pattern target angular resolution criteria.

A method and system for scanning an outer surface of a three-dimensional object, the outer surface being reflective, the method comprising the following steps: (a) projecting a light pattern on the object with a relative movement between the light pattern and the object; (b) recording with cameras images of the light pattern reflected by the outer surface during the relative movement; (c) processing the recorded reflection images by identifying the outline of the light pattern and determining from the outline characteristics of the outer surface; wherein the light pattern comprises at least one homogenously illuminated strip extending transversally to a direction of the relative movement with at least one border with a non-straight profile so as to form a non-constant width of the strip; and in step (c) the speed of the relative movement is taken into account for determining a three-dimensional definition of the outer surface.

A vehicle lighting apparatus may include a backing panel. The vehicle lighting apparatus may include a light guide panel (LGP) layered over the backing panel, wherein the LGP includes a front surface, a rear surface opposite the front surface, and a plurality of side surfaces connecting the front surface with the rear surface. The vehicle lighting apparatus may include a light source positioned along a first side surface of the plurality of side surfaces of the LGP. The vehicle lighting apparatus may include a front film layered over the front surface of the LGP, wherein the LGP includes a plurality of refraction elements that refract light emitted from the light source through the front surface of the LGP and through the front film and wherein a distribution pattern of the refraction elements creates a corresponding pattern of differing light intensities visible through the front film when illuminated by the light source.

The present subject matter at-least provides a system for measurement of topography of specular surfaces. The system comprises a set of indexed light-sources and a controller configured to drive the set of light-sources for irradiating a specular-surface by sequentially illuminating a plurality of sub-sets of the light-sources in accordance with a pre-defined encoding criteria. Further, at least one camera is provided to capture reflected light-radiation from the specular-surface and thereby generate a plurality of images in accordance with the sequential-illumination, such that each of the generated-image corresponds to a particular sub-set of illuminated light sources. Further, a processing system is configured to process each generated image in accordance with an image-processing criteria specific to the encoding-criteria to determine one or more index of light-sources and thereby identify the light-sources within the images; and determine topography of the specular-surface at-least based on calculation of spatial-coordinates and the determined identity of each light-source.

A vehicle lighting apparatus may include a backing panel. The vehicle lighting apparatus may include a light guide panel (LGP) layered over the backing panel, wherein the LGP includes a front surface, a rear surface opposite the front surface, and a plurality of side surfaces connecting the front surface with the rear surface. The vehicle lighting apparatus may include a light source positioned along a first side surface of the plurality of side surfaces of the LGP. The vehicle lighting apparatus may include a front film layered over the front surface of the LGP, wherein the LGP includes a plurality of refraction elements that refract light emitted from the light source through the front surface of the LGP and through the front film and wherein a distribution pattern of the refraction elements creates a corresponding pattern of differing light intensities visible through the front film when illuminated by the light source.

An optical system, including: (a) an emitter array including a plurality of individual emitters, wherein each emitter in the emitter array is operable to emit a light beam which is characterized by a native beam width; (b) an optical subunit, operable to transform a plurality of light beams emitted by the emitter array, wherein each of the transformed light beams is characterized by an expanded beam width that is wider than the native beam width of the corresponding light beam and is wider than a facilitating beam width; and (c) a diffractive optical element that is capable of diffracting the transformed light beams to provide light patterns whose angular resolution meets a light pattern target angular resolution criteria.