An improved system, apparatus and method for flipping gaming objects, such as dice, in a random, reliable manner. An object flipping platform can be contained within a container associated with an electronic gaming machine. The container can be at least partially transparent so that users (e.g., game players) are able to view the objects flipping. The object flipping platform can be used to flip objects (e.g., dice) from one side to an opposite side, and vice versa.

The present invention relates to a device for assisting in electronic gaming, the device comprising a scanning device. The scanning device comprises a scanning surface, wherein the scanning surface is arranged for throwing a die or dice thereon, the flatbed scanning device being configured for scanning instantaneously an image of the scanning surface. The device also comprises a processor configured for receiving scanning information regarding the image of the scanning surface upon which a die or dice are thrown and programmed for deriving, based on said image, data regarding the dice thrown. The scanning device comprises a detection system whereby the detection area span by the detection elements is maximally 10% smaller than the area span by the scanning surface.

The present disclosure relates to materials, devices, systems, and processes for magnetic identification of an object. Embodiments may include receiving from a plurality of sensors arranged within a layer of material an indication of a strength or signature of a magnetic field proximate to the corresponding sensor. The magnetic field may be created by the arrangement of one or more magnets proximate to a surface of the object where the surface is proximate to the plurality of sensors. Embodiments may include determining, based upon the indication of the strength or signature of the magnetic field proximate to the corresponding sensor, an arrangement of magnets proximate to the surface of the object. Based on the determined arrangement of the magnets on the surface of the object, the process may include identifying the object or the surface of the object. Other embodiments may be described and/or claimed.

Methods, systems, and devices are described herein for providing a selection of dice to use in a dice gaming system. In one aspect, a method for providing a selection of dice may include providing X selection items corresponding to Y separate dice systems, where each of the Y separate dice systems are configured to throw at least one dice in an enclosed space. The method may further include receiving a selection of the X selection items corresponding to the Y separate dice systems. The method may additionally include visually indicating the selection of the X selection items.

Methods, systems, and devices are described herein for reading at least one dice. In one aspect, a method may include transmitting an RFID signal proximate to at least one dice, for example, which is contained within a dice gaming system. The method may also include receiving at least two RFID responses, with each of the RFID responses associated with different faces of at least one dice. A first RFID response may be associated with a first signal strength and the second RFID response associated with a second signal strength. The method may further include determining which side of the dice is facing upwards based on the first signal strength and the second signal strength using machine learning.

An illuminated game piece, such as a die or dice in which an electrical circuit powering a light source are encapsulated by a material forming a body of the game piece. The electrical circuit includes an inductive charging coil, an energy storage device and at least one illumination device. The inductive charging coil may be coupled to an inductive charger to replenish the energy storage device. When encapsulated, there are no ports or external connectors and the integrity of the game piece is assured so that is no change in game play.

A dice and cards game, including a plurality of dice to facilitate play of a game based on a die roll, each of the plurality of dice including a die body having at least one suit disposed on each side thereof, and a plurality of cards to facilitate play of the game with the plurality of dice.

An interactive environment image may be projected onto one or more surfaces, and interaction with the projected environment image may be detected within a three-dimensional space over the one or more surfaces. The interactive environment image may be a three dimensional image, or it may be two dimensional. An image is projected onto a surface to provide a visual representation of a virtual space including one or more of the virtual objects, which may be spatially positioned. User interaction with the projected visualized representation of the virtual space may be detected and, in response to user interaction, the projected visualized representation may be changed.

A programmable die may feature a robust frame structure housing a plurality of display screens which may be programmed to display any number of possible data. Any number of sides are possible, so long as they can be read. The die may be programmed remotely, such as through an app, or manually. The displays may be LCD screens or electronic paper, or any later discovered and suitable device. A battery may be directly or inductively charged.

Methods, systems, and devices are described herein for reading at least one dice. In one aspect, a method may include transmitting an RFID signal proximate to at least one dice, for example, which is contained within a dice gaming system. The method may also include receiving at least two RFID responses, with each of the RFID responses associated with different faces of at least one dice. A first RFID response may be associated with a first signal strength and the second RFID response associated with a second signal strength. The method may further include determining which side of the dice is facing upwards based on the first signal strength and the second signal strength using machine learning.