Architectural tiled panel systems composed of at least one sensory output tile module and a plurality of non-sensory-output tile modules. Each sensory output tile module includes any one or more of a variety of electronic devices, such as a video display device, an audio speaker, and an illumination device (e.g., an LED or light bulb), among others. Each non-sensory-output module includes a presentation face that is visually appealing. The non-sensory-output tile modules can be used to provide aesthetic surrounds for each of one or more sensory output tile modules and/or groups of sensory output tile modules. In some embodiments, a plurality of video display type sensory output tile modules are grouped together and controlled to provide a larger mosaicked video display. In some embodiments, abutting tile modules are secured together using connectors having a latch mechanism for each tile module connected thereby.

The present invention relates to the field of floor mats, in particular to an induction light-emitting floor mat, including an induction box body, a floor mat body and a waterproof light strip, wherein a rechargeable battery, a main control module U2, a human body infrared sensor module and a photosensitive module are arranged in the induction box body. The floor mat is installed at a place where you go out, will light up when you approach it and also illuminates when you go home, which is convenient for taking keys or looking for other lamp switches. The floor mat can also be used as a night light indoors, and will automatically light up when you get up.

A panel light wall assembly comprising a support frame structure including at least first and second substantially straight and parallel support frame members spaced apart on opposite sides of a light panel receiving space, a light panel assembly including a rectilinear assembly frame including first, second, third and fourth substantially straight elongated assembly frame members, a light source mounted to the first assembly frame member, a planar light guide member forming an edge and mounted to the assembly frame with the edge adjacent the light source and a fastener interacting with at least one of the first and second support frame members to secure the light panel assembly with at least a portion of the light panel assembly received within the panel receiving space and a second portion extending outside and to one side of the panel receiving space with the light guide member and light source located within the panel receiving space.

A cable management system may comprise a longitudinal trough with a plurality of lights disposed on an underside of the trough. A power connector may be disposed at an end of the trough communicatively coupled to the plurality of lights. The cable management system may also comprise a second trough or one of a plurality of cable management components, each with a plurality of lights disposed on an underside and a power connector communicatively coupled to the pluralities of lights. The first trough, the second trough, and/or the plurality of cable management components may mate together to form a continuous circuit.

A system and method for creating a trompe-l'oeil skylight in a ceiling where a light emitting image of the sky is provided in a structure configured to emulate a skylight frame, including an embodiment of a unified non-rectangular sky image area in a substantially rectangular fixture which mount as a single unit into a substantially rectangular hole in a ceiling.

A light emitting arrangement (100, 200, 300) is provided, comprising: a body (10) of solid material having a surface (11); a light guiding member (101, 110) partially embedded into said body, having a plurality of discrete light outcoupling regions (103) comprising light outcoupling means (230, 730, 830, 930) distributed along a longitudinal direction of the light guiding member, and a plurality of discrete, non-outcoupling regions (102) distributed along a longitudinal direction of the light guiding member, wherein said plurality of light non-outcoupling regions of the light guiding member are embedded by said body and said plurality of light outcoupling regions of the light guiding member are exposed on the surface of said body, wherein said non-outcoupling regions (102) form light incoupling regions comprising light incoupling means (220, 320, 420, 520, 620); and a plurality of solid state light sources (12) embedded within said body (10) of solid material arranged to emit light towards said light incoupling regions. The light emitting arrangement provides a body with an illuminated surface, and the plurality of light outcoupling regions enables efficient lighting, with no or little loss of light.

A cover member for an in-store greenhouse is disclosed, with which radiation exiting the in-store greenhouse can be influenced or modified.

A sensor device includes a radio wave sensor and a signal processor. The signal processor includes an identifier and a noise remover configured to remove, from a second sensor signal, at least one frequency component determined as a noise component by the identifier. The identifier compares a signal intensity of each of the frequency components with one or more signal intensities of other frequency components. When a signal intensity of a first frequency component is greater than signal intensities of one or more second frequency components located in the vicinity of the first frequency component by an extent exceeding a threshold range, the identifier determines the first frequency component as the noise component.

A lighting device (1000), which is arranged to be attached to a mounting surface of an object, comprises an LED strip (100). The LED strip (100) comprises (i) an elongated carrier (1100) with an upper surface (1110) having a first upper surface portion (1111), (ii) a plurality of light-emitting diodes (1200) arranged on the first upper surface portion (1111), and (iii) an attachment component (1300) for attaching the lighting device (1000) to the mounting surface. The attachment component (1300) comprises an adhesive surface (1301) that faces in at least one of a first direction (1121) and a second direction (1122), the first direction (1121) being parallel to the normal of the upper surface (1110), and the second direction (1122) being perpendicular to the normal of the upper surface (1110) and to the direction of elongation (1120) of the elongated carrier (1100).

An electronic display panel having a generally rectangular shape with rounded corners, a thickness of less than 1.5 mm, a longer dimension of at least 100 mm, a support substrate, a rigid heat-conductive substrate, a transparent or translucent area, a two-dimensional array of at least 1,000,000 digitally addressable solid-state light emitting devices arranged in rows and columns and each having a size from 1 μm to 300 μm, and a grid of connecting members defining a plurality of grid connection nodes and an area-distributed plurality of openings configured for providing a partial view through the panel. The support substrate may incorporate a thin layer of an optically transmissive material having a substantially uniform thickness and a Young's modulus of at least 1 GPa. At least some of the solid-state light emitting devices may be arranged into light emitting clusters and directly or indirectly mounted to a plurality of support pads. The solid-state light emitting devices within the clusters may be configured for emitting light in different colors such as blue, red, and green.