A transparent thin film electroluminescent display device includes a first transparent thin film electroluminescent display having a substrate and a first active layer capable of emitting a spectrum of light in a wavelength of visible light. The transparent thin film electroluminescent display device further includes a second transparent thin film electroluminescent display having a substrate and a second active layer, the first and second transparent thin film electroluminescent displays being arranged in a superposed manner such that the first and second active layers are spaced apart from each other for forming the transparent thin film electroluminescent display device with a superposed structure.

An electronic device may be provided with optical markers. A marker may be formed from a coating. The coating may be patterned to form a two-dimensional optical code or may be patterned to form an outline or other recognizable marker structure that helps provide information about an electronic device. A device with a sensor such as a depth sensor or other sensor may gather information on the electronic device and its markers. This information may include information on images captured with an image sensor while the electronic device is illuminated by one or more light beams from the depth sensor or other light sources. Markers may be configured to serve as mixed reality optical markers in a mixed reality system. Analysis of the mixed reality marker images or other sensor data may reveal information on device type, device location, device size, device orientation, and other information on a marked device.

An electronic device may be provided with optical markers. A marker may be formed from a coating. The coating may be patterned to form a two-dimensional optical code or may be patterned to form an outline or other recognizable marker structure that helps provide information about an electronic device. A device with a sensor such as a depth sensor or other sensor may gather information on the electronic device and its markers. This information may include information on images captured with an image sensor while the electronic device is illuminated by one or more light beams from the depth sensor or other light sources. Markers may be configured to serve as mixed reality optical markers in a mixed reality system. Analysis of the mixed reality marker images or other sensor data may reveal information on device type, device location, device size, device orientation, and other information on a marked device.

The invention relates to a guidance assistance system having a peripheral rim defining a peripheral field of vision and a guidance information display device on the peripheral rim. The guidance information display device includes light sources which can be controlled by a control unit. The display device includes a sensor of spatial information relating to a position and/or an orientation of the visualisation window and a circuit for processing the spatial information according to the zone of interest in order to determine guidance information. The control unit is configured to control the light sources on the basis of the guidance information in order to display, in the field of vision, a direction to be followed by the user.

The invention relates to a guidance assistance system having a peripheral rim defining a peripheral field of vision and a guidance information display device on the peripheral rim. The guidance information display device includes light sources which can be controlled by a control unit. The display device includes a sensor of spatial information relating to a position and/or an orientation of the visualisation window and a circuit for processing the spatial information according to the zone of interest in order to determine guidance information. The control unit is configured to control the light sources on the basis of the guidance information in order to display, in the field of vision, a direction to be followed by the user.

An optical system for assisting image positioning. The system comprises a light source (1), and further comprises a dot pattern or an interface beam-splitting pattern which is arranged on a light-emergent light path of the light source (1) and generates an interface beam-splitting projection light ray for indicating a text or an image after being projected by emergent light of the light source (1). By means of a combination of a light source (1) and a dot pattern or an interface beam-splitting pattern, a word line, a cross line, or the other patterns which can generate a beam-splitting interface can be projected. Furthermore, by virtue of a DOE moulding lens, of which an emergent face is a spherical face or an aspherical face, a specific linear light beam or the other patterns which can generate the beam-splitting interface are generated.

An optical system for assisting image positioning. The system comprises a light source (1), and further comprises a dot pattern or an interface beam-splitting pattern which is arranged on a light-emergent light path of the light source (1) and generates an interface beam-splitting projection light ray for indicating a text or an image after being projected by emergent light of the light source (1). By means of a combination of a light source (1) and a dot pattern or an interface beam-splitting pattern, a word line, a cross line, or the other patterns which can generate a beam-splitting interface can be projected. Furthermore, by virtue of a DOE moulding lens, of which an emergent face is a spherical face or an aspherical face, a specific linear light beam or the other patterns which can generate the beam-splitting interface are generated.

The invention relates to a reticle (1) for a telescopic sight (100), having a non-linear size value scale (10) and further special scales and sighting aids (30) which serve in each case for the determination of a distance to a target object or of the size thereof in order that, ultimately, a shot can be fired precisely at the target object. The invention also relates to the method for determining the distance to the target object (ZO) using the non-linear size value scale, and to telescopic sights and firearms having the reticle according to the invention.

The invention relates to a reticle (1) for a telescopic sight (100), having a non-linear size value scale (10) and further special scales and sighting aids (30) which serve in each case for the determination of a distance to a target object or of the size thereof in order that, ultimately, a shot can be fired precisely at the target object. The invention also relates to the method for determining the distance to the target object (ZO) using the non-linear size value scale, and to telescopic sights and firearms having the reticle according to the invention.

The present invention provides, in various embodiments, a miniature movable-beam laser objective configured to fit within the very small dimensions of a standard objective. This small, portable movable-laser source allows the beam to be directed at a computer-generated target or at the spot of a focused target-designator beam.