A controller for function switching and dynamic identification switching and a dynamic identification method are disclosed. The controller includes a switch circuit, a master circuit and a switching circuit, wherein the switch circuit is electrically connected to the master circuit, and the switching circuit is electrically connected to the master circuit. The switching circuit includes a function realization component and a light controlled component, the function realization component is electrically connected to the master circuit for function realization, and the light controlled component is electrically connected to the master circuit for light conversion. When the function is switched, the corresponding dynamic identification is synchronously completed. It not only completes reliable function switching, but also timely and accurately identifies the dynamic change of functions, which is convenient for users.

Virtual entities are displayed alongside real world entities in a wearable reality overlay device worn by the user. Information related to an environment proximate to the wearable device is determined. For example, a position of the wearable device may be determined, a camera may capture an image of the environment, etc. Virtual entity image information representative of an entity desired to be virtually displayed is processed based on the determined information. An image of the entity is generated based on the processed image information as a non-transparent region of a lens of the wearable device, enabling the entity to appear to be present in the environment to the user. The image of the entity may conceal a real world entity that would otherwise be visible to the user through the wearable device. Other real world entities may be visible to the user through the wearable device.

Virtual entities are displayed alongside real world entities in a wearable reality overlay device worn by the user. Information related to an environment proximate to the wearable device is determined. For example, a position of the wearable device may be determined, a camera may capture an image of the environment, etc. Virtual entity image information representative of an entity desired to be virtually displayed is processed based on the determined information. An image of the entity is generated based on the processed image information as a non-transparent region of a lens of the wearable device, enabling the entity to appear to be present in the environment to the user. The image of the entity may conceal a real world entity that would otherwise be visible to the user through the wearable device. Other real world entities may be visible to the user through the wearable device.

A method of providing an augmented reality game environment within a game space includes obtaining, by a processor, sensor data for the game space, determining, by the processor, a position of a player in the game space based on the sensor data, generating, by the processor, player image data of a peripersonal boundary of the player based on the determined position of the player for rendering a representation of the peripersonal boundary in the game space, the peripersonal boundary being disposed about, and spaced from, the determined position, obtaining, by the processor, player data for the player via an input modality, the player data being indicative of a player directive to modulate the peripersonal boundary, adjusting, by the processor, a size of the peripersonal boundary as a function of the player data, and updating, by the processor, the player image data based on the adjusted size of the peripersonal boundary.

Method and system for training a virtual character of a telematics-based game. In some examples, a computer-implemented method includes: determining, based at least in part upon telematics data, a plurality of skill points associated with a plurality of real skills exhibited by the user during the one or more real trips; training a virtual character by at least updating, based at least in part upon the plurality of skill points, the plurality of virtual ratings; generating, based at least in part upon the character profile, one or more virtual occurrences to be encountered by the virtual character; determining, based at least in part upon the updated plurality of virtual ratings, one or more outcomes associated with the one or more virtual occurrences; updating the character profile by at least applying the one or more virtual occurrences based on the associated one or more outcomes to the virtual character.

Method and system for training a virtual character of a telematics-based game. In some examples, a computer-implemented method includes: determining, based at least in part upon telematics data, a plurality of skill points associated with a plurality of real skills exhibited by the user during the one or more real trips; training a virtual character by at least updating, based at least in part upon the plurality of skill points, the plurality of virtual ratings; generating, based at least in part upon the character profile, one or more virtual occurrences to be encountered by the virtual character; determining, based at least in part upon the updated plurality of virtual ratings, one or more outcomes associated with the one or more virtual occurrences; updating the character profile by at least applying the one or more virtual occurrences based on the associated one or more outcomes to the virtual character.

An inventive gaming machine is disclosed that includes a floating, mid-screen input deck positioned facing an active display region. The gaming machine positions the input deck relative to the active display region such that a part of the active display region extends below the input deck. The gaming machine implements a large active display region within a relatively compact envelope. The gaming machine further provides an ergonomically superior gaming machine configuration that enables a player to view the full extent of the active display region while requiring minimal head and eye movements.

A virtual reality training system according to an aspect of the invention may include a floor system having a base of a particular length and width, an object member configured to be detachably installed on the floor system, an input unit configured to assign a first position, which corresponds to the position of an object within a virtual reality space having a length and width smaller than or equal to the length and width of the base of the floor system, and a mapping unit configured to compute and output a second position, for installing the object member on the floor system, computed as a position on the floor system corresponding to the first position within the virtual reality space.

A tabletop display is provided, having a tabletop surface and a monitor spaced from the tabletop surface and angled obliquely with respect to the tabletop surface. The monitor defines a front, display surface and an opposing back surface. The tabletop display also includes a column extending from the tabletop surface to the back surface of the monitor, an input mechanism comprising an input aperture spaced from the tabletop surface, and an output mechanism comprising an output aperture spaced from the tabletop surface.

A tabletop display is provided, having a tabletop surface and a monitor spaced from the tabletop surface and angled obliquely with respect to the tabletop surface. The monitor defines a front, display surface and an opposing back surface. The tabletop display also includes a column extending from the tabletop surface to the back surface of the monitor, an input mechanism comprising an input aperture spaced from the tabletop surface, and an output mechanism comprising an output aperture spaced from the tabletop surface.