The disclosure provides a device for recognizing an image and a device for reading an image. The device for recognizing the image includes a circuit board (50) on which a plurality of light sources (20) are arranged, the multiple light sources (20) which are configured to supply multiple lights in different directions to the image to be recognized, and an imaging component configured to uniformly image the lights diffused by the image to be recognized so as to recognize the image to be recognized. The disclosure solves the problem that the device for recognizing the image in the relevant technology may only supply one single light emitting direction, and the device for recognizing the image has a beneficial effect of recognizing a hologram including various pieces of image information.

A light guide includes a first exit portion emitting first exiting light, a second exit portion emitting second exiting light in a different direction than the first exiting light, and a reflecting portion reflecting light entering the light guide to each of the first and second exit portions. The first and second exit portions respectively have first and second curved surfaces each having a convex cross section perpendicular to the long axis direction. The second exit portion is connected to the first exit portion in the direction perpendicular to the long axis direction. The reflecting portion is provided, in a plane facing the first exit portion and the second exit portion, at a position shifted in the direction perpendicular to the long axis direction from a position where a normal to the plane passes through a connection portion between the first and second exit portions.

Systems and techniques for multispectral lighting reproduction, in one aspect, include: one or more light sources having different lighting spectra; and one or more computers comprising at least one processor and at least one memory device, the one or more computers programmed to drive the one or more light sources directly using intensity coefficients that have been determined by comparing first data for a multi-color reference object photographed by a camera in a scene with second data for the multi-color reference object photographed when lit by respective ones of the different lighting spectra of the one or more light sources.

A reading apparatus includes an irradiation unit that performs irradiation with light, a light receiving unit that receives light reflected from an object to be imaged, a first optical path in which specularly reflected light, which is obtained as light emitted by the irradiation unit is reflected from a first reflection surface so that a front surface of the object to be imaged in an irradiation region is irradiated with the reflected light, and the reflected light is specularly reflected from the front surface of the object to be imaged, is guided to the light receiving unit as a read image, a second optical path in which diffusely reflected light, which is obtained as the light emitted by the irradiation unit is reflected from a second reflection surface so that the front surface of the object to be imaged in the irradiation region is irradiated with the reflected light, and the reflected light is diffusely reflected from the front surface of the object to be imaged, is guided to the light receiving unit as a read image, and a switching section that switches between the first optical path and the second optical path by rotating the irradiation unit.

A light irradiation device includes a light source, a light guide member, and a holding member. The light guide member includes an incident surface, an exit surface, and a held surface. The incident surface has an elongated shape in a main scanning direction and faces a light emitting surface of the light source. The light guide member includes a securing structure in each of both end portions in the main scanning direction, which are out of a light guide area of the light guide member. The securing structure in one end portion is an engagement lug structure protruding to penetrate into a through-hole of the holding member, including a lug on a leading end, and engaging the holding member. The securing structure on another end portion is a fastening structure having a fastening hole penetrated with a fastening member and being secured to the holding member with the fastening member.

A reading device includes an emission unit that emits light; a first reflecting unit having a first reflecting surface that reflects the light emitted by the emission unit toward a document; a second reflecting unit having a second reflecting surface that reflects the light reflected by the first reflecting unit and specularly reflected by the document; a first support unit that supports the first reflecting unit and the second reflecting unit and fixes a relative position and a relative orientation between the first reflecting surface and the second reflecting surface; and a second support unit that supports the first support unit such that at least one of a position and an orientation of the first support unit is adjustable.

A reading device includes an emission unit that emits light; a first reflecting unit having a first reflecting surface that reflects the light emitted by the emission unit toward a document; a second reflecting unit having a second reflecting surface that reflects the light reflected by the first reflecting unit and specularly reflected by the document; a first support unit that supports the first reflecting unit and the second reflecting unit and fixes a relative position and a relative orientation between the first reflecting surface and the second reflecting surface; and a second support unit that supports the first support unit such that at least one of a position and an orientation of the first support unit is adjustable.

A reading apparatus includes an light emitter that performs irradiation with light, a light receiver that receives light reflected from an object to be imaged, a first optical path in which specularly reflected light is guided to the light receiver as a read image, a second optical path in which diffusely reflected light is guided to the light receiver as a read image, and a switching section that switches between the first optical path and the second optical path by rotating the light emitter.

A multifunctional display including a display panel and a sensing and emitting base, the display panel comprising a body between a viewing surface, and a base surface, and a plurality of optical paths within the body for the passage of light between base orifice and the viewing orifice, the sensing and emitting base comprising at least one multi-color light source below or in the base orifice and at least one optical sensor below or in the base orifice. The multifunctional display may scan a surface of an object by emitting light from the multi-color light source and simultaneously detecting with the optical sensor the reflected light from said surface placed on the viewing surface; and computing with a microprocessor, an image of said surface based on the detected reflected light of a plurality of optical paths.

A multifunctional display including a display panel and a sensing and emitting base, the display panel comprising a body between a viewing surface, and a base surface, and a plurality of optical paths within the body for the passage of light between base orifice and the viewing orifice, the sensing and emitting base comprising at least one multi-color light source below or in the base orifice and at least one optical sensor below or in the base orifice. The display comprises a scanning function in which the sensing and emitting base is operable to emit light from the multi-color light source and simultaneously detect with the optical sensor the reflected light from a surface of an object placed on the viewing surface, and to compute with a microprocessor, an image of said surface based on the detected reflected light of a plurality of optical paths.