An optically variable device may be manufactured by aligning magnetic flakes on a surface of an adhesive layer by applying the flakes onto the adhesive layer surface in presence of a magnetic field, and curing the adhesive layer having magnetic flakes adhered to the adhesive layer. When cured, the adhesive layer holds the magnetic flakes oriented, enabling subsequent encapsulation of the oriented magnetic flakes in a coating layer on the adhesive layer, without a substantial loss of orientation of the magnetic flakes.

A display body includes a first surface, a second surface, a first optical component, and a second optical component. The first surface includes a first optical surface and a second optical surface. First light is incident on the first surface from an observation side. The second surface is located opposite to the observation side with respect to the first surface. Second light is incident on the second surface from a side opposite to the observation side with respect to the second surface. The first optical component forms first information, which is displayed on the observation side, from the first light received on the first optical surface. The second optical component receives the second light transmitted through the second surface, forms second information, which is displayed on the observation side, from the second light, and emits the second information from the second optical surface.

The present invention relates to a method of displaying an artwork, comprising the steps of: i) providing a complete image, a first substrate, and a second substrate; ii) dividing the complete image into a first image segment and at least one subsequent image segment; iii) imposing the first image segment on the first substrate; iv) imposing the at least one subsequent image segment on the second substrate; and v) positioning the first substrate parallel to the second substrate such that the complete image is revealed with a perception of depth when the first substrate and the second substrate are viewed from a predetermined angle.

The present invention relates to a method of displaying an artwork, comprising the steps of: i) providing a complete image, a first substrate, and a second substrate; ii) dividing the complete image into a first image segment and at least one subsequent image segment; iii) imposing the first image segment on the first substrate; iv) imposing the at least one subsequent image segment on the second substrate; and v) positioning the first substrate parallel to the second substrate such that the complete image is revealed with a perception of depth when the first substrate and the second substrate are viewed from a predetermined angle.

A multi view display is a display capable of simultaneously showing different images to viewers that see the display from different locations. Viewers do not see the images intended for other viewers at other locations. A multi view display forms images via a collection of multi-view pixels. A multi-view pixel is able to emit different light in different directions; in each direction, parameters of emitted light such as brightness, color, etc., can be controlled independently of the light emitted in other directions. Embodiments of the present invention comprise a computational pipeline and architecture for efficiently distributing image data to the multi-view pixels of a multi-view display.

A multi view display is a display capable of simultaneously showing different images to viewers that see the display from different locations. Viewers do not see the images intended for other viewers at other locations. A multi view display forms images via a collection of multi-view pixels. A multi-view pixel is able to emit different light in different directions; in each direction, parameters of emitted light such as brightness, color, etc., can be controlled independently of the light emitted in other directions. Embodiments of the present invention comprise a computational pipeline and architecture for efficiently distributing image data to the multi-view pixels of a multi-view display.

A multi-view architectural lighting (MVAL) system includes one or more multi-view lighting units (“MV lights”) in which the apparent brightness and color of each MV light is individually and simultaneously controllable for different viewing angles. The MV lights can be pointed in arbitrary directions and installed in arbitrary locations in 3D space with respect to one another, consistent with the structure of a building, etc. This enables a lighting designer to create differentiated lighting experiences for different viewers based on their viewing angle with respect to the MV lights. A calibration system maps viewing locations to emitted light directions for each MV light. Using this information, the appearance of each MV light from a given viewing location relative to that MV light is set by adjusting the light (e.g., typically color and intensity, etc.) emitted in the corresponding direction/directions.

A multi-view architectural lighting (MVAL) system includes one or more multi-view lighting units (“MV lights”) in which the apparent brightness and color of each MV light is individually and simultaneously controllable for different viewing angles. The MV lights can be pointed in arbitrary directions and installed in arbitrary locations in 3D space with respect to one another, consistent with the structure of a building, etc. This enables a lighting designer to create differentiated lighting experiences for different viewers based on their viewing angle with respect to the MV lights. A calibration system maps viewing locations to emitted light directions for each MV light. Using this information, the appearance of each MV light from a given viewing location relative to that MV light is set by adjusting the light (e.g., typically color and intensity, etc.) emitted in the corresponding direction/directions.

The present invention relates to a method of displaying an artwork, comprising the steps of: i) providing an artwork comprising an image, real or virtual; ii) dividing and separating the image into a plurality of segments; iii) arranging the plurality of segments in parallel planes, while keeping the segments oriented in their respective original positions within the image; iv) viewing the plurality of segments from one or more viewpoints; and v) changing the viewpoint to a predetermined angle such that the segments reveal a complete image with a surprising perception of depth.

The present invention relates to a method of displaying an artwork, comprising the steps of: i) providing an artwork comprising an image, real or virtual; ii) dividing and separating the image into a plurality of segments; iii) arranging the plurality of segments in parallel planes, while keeping the segments oriented in their respective original positions within the image; iv) viewing the plurality of segments from one or more viewpoints; and v) changing the viewpoint to a predetermined angle such that the segments reveal a complete image with a surprising perception of depth.