A multi-display device is adapted to be dockable or otherwise associatable with an additional device. In accordance with one exemplary embodiment, the multi-display device is dockable with a smartpad. The exemplary smartpad can include a screen, a touch sensitive display, a configurable area, a gesture capture region(s) and a camera. The smartpad can also include a port adapted to receive the device. The exemplary smartpad is able to cooperate with the device such that information displayable on the device is also displayable on the smartpad. Furthermore, any one or more of the functions on the device are extendable to the smartpad, with the smartpad capable of acting as an input/output interface or extension of the smartpad. Therefore, for example, information from one or more of the displays on the multi-screen device is displayable on the smartpad.

A vehicle lighting system includes a light source, a first light guide, and a second light guide. The light source is arranged to emit light into the first light guide, which emits incident light from the light source into the second light guide. The second light guide is arranged to emit incident light from the first light guide. The second light guide has a light input surface arranged to receive the incident light from the first light guide, and a light output surface arranged to emit the light received through the second light input surface. The light output surface comprises a first light emitting surface section in a first plane and a second light emitting surface section in a second plane, wherein the first plane and the second plane are arranged at a first angle in relation to each other.

A waveguide display includes a source assembly, an output waveguide, and a controller. The source assembly includes a light source and an optics system. The light source includes source elements arranged in a 1D or 2D array that emit image light. The optics system includes a scanning mirror assembly that scans the image light to particular locations based on scanning instructions. The output waveguide receives the scanned image light from the scanning mirror assembly and outputs an expanded image light. In some embodiments, the waveguide display includes a source waveguide and the 1D array of source elements. The source waveguide receives a conditioned image light from the source assembly. The controller generates the scanning instructions and provides the scanning instructions to the scanning mirror assembly. In some embodiments, the controller provides the scanning instructions to an actuator assembly of the source waveguide.

Device for printing three-dimensional objects using an energy-field projection system. In operation, energy is projected into a print medium according to a four dimensional (4D) energy-field function for exposing the print-medium to a threshold energy-intensity level that causes the print medium to harden in the shape of a three-dimensional object.

Methods and devices for minimizing and maximizing displayed output associated with applications are provided. More particularly, an application presented across two or more screens of a device in a landscape mode can be minimized to present portion of the application in one of the screens. With respect to a maximization operation received with respect to a page of an application results in the expansion of the displayed portion of the application to multiple screens of the device. Input to effect minimization and maximization operations can be entered in one or more gesture capture regions associated with the screens.

A lighting device for a vehicle includes a light source and a linear light emission element for emitting light, which is supplied by the light source via a coupling surface of the light emission element in the light emission element. A light conductor element is provided for distributing and/or directing light, which is supplied by the light emission element in the light conductor element. The lighting device is characterized in that the light source is linear and is arranged so as to extend parallel to the light emission element so that light from the light source can be coupled to a longitudinal side of the light-emitting element in an in-coupling surface in the light emission element.

A selector device for a domestic appliance includes selection means to select a determinate program and/or function of the domestic appliance; drive means able to switch the domestic appliance on or off and positioned in the selection means; and lighting means, suitable to signal that the apparatus is switched on or off and associated with the selection means and with the drive means.

Provided is a vehicle lamp configured such that light emitted from a light emitting element (30) and incident from an incident portion (22e) formed on a top surface (22c) of a plate-like light guide (22B) is reflected toward a front end surface (22a) of the plate-like light guide (22B) by a first reflecting portion (22f) formed on a bottom surface (22d) of the plate-like light guide (22B). At that time, the incident portion (22e) is positioned on a step-up surface (22c1) formed to protrude from a general portion (22c0) of the top surface (22c). Further, the first reflecting portion (22f) is formed such that its upper end edge (22f1) is located closer to the step-up surface (22c1) than the general portion (22c0) of the top surface (22c). In this way, a wide reflecting area of the first reflecting portion (22f) can be secured.

Disclosed is a device that utilizes a light-field display to project a virtual continuum of real world perspectives of a natural scene to a plurality of observer viewpoints to simulate a natural environment. An observer perceives different perspectives as he or she moves through the simulated environment just like the observer would as if he or she were in a natural environment.