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.

A dynamic gameboard comprising an electronic control system and a board having a plurality of dynamic board pieces, wherein the electronic control system includes a server, lift control board and a user interface, the server having a first processor, a first memory, and a first communication device, wherein instructions are stored on the first memory to cause the first processor to direct the lift control board to instruct the plurality of dynamic board pieces to move between a first position and a second position, and between the second position and the first position, where the first position is a fully extended up position and the second position is a fully recessed down position; the lift control board having a second processor, a second memory, and a second communication device, and the user interface having a third processor, a third memory, and a third communication device.

An aggregative dice shaker comprises: providing two or more dice cup devices and a control device. Each dice cup device includes a dice plate, a camera, and a shaking device. A plate surface of the dice plate is for placing the dices thereon. The camera faces toward the plate surface. The shaking device applies a reciprocating force to the dice plate. The control device receives an external control signal and activating the corresponding dice cup device, and outputs the game result as an output. Therefore players can play games using one dice cup device and games using multiple dice cup devices.

A wearable electronic kit, system and method for playing a game involving a plurality of players is disclosed. The kit includes a transmitter configured to emit a signal identifying the player wearing the electronic kit and a receiver configured to read the signals transmitted by the electronic kits worn by other players and measure the signal strength of each of said signals. The kit includes a processor coupled to the receiver which creates zones of influence around the other players by defining a preselected signal strength threshold for each signal. The processor is configured to recognize a presence event in the zone of influence by comparison of the signal strength read by the receiver to the preselected signal strength threshold of the player. The processor is configured to store a set of rules and to use the recognition of the presence event in the application of the rules.

An electromagnetic game board includes a configurable grid of electromagnets under a game board to move game pieces on the board. Alternative to electromagnets is acoustic levitation through soundwave. In an oscillating electric field (four sides), a magnet can create excite ultrasound that quickly contract and rebound its original shape to push out pulses of air.

Disclosed is the game apparatus using a train device constituted by cars of different sizes. The play ball lowered along the lane assembly may enter any one of the cars. Depending on the car into which the play ball enters, a predetermined reward may be provided to the player. The play ball entering the car deviates through the opening and rises through the elevating device. The raised play ball may be waited to descend again through the lane assembly.

Automatic card shufflers may include a card input mechanism for inputting cards into the card shuffler, a card storage device for receiving cards from the card input mechanism and temporarily storing cards within the card shuffler, and a card output mechanism for outputting cards from the card shuffler. The automatic card shufflers may randomly select an internal compartment to be an overflow compartment for inserting cards when a failure of insertion of a card to a selected primary card position occurs.

Certain exemplary embodiments can provide a system, machine, device, manufacture, circuit, and/or user interface adapted for and/or resulting from, and/or a method for activities that can comprise and/or relate to, a board game system that can include a first game board that defines a plurality of playing surfaces for use with game pieces.

Methods are described for controlling movement of dice in a gaming system. The gaming system includes an input device controllable by a user and a platform for holding the dice. The platform may be moved up and down by a drive to cause the dice to be moved upward and thrown above the surface of the platform. Data received from the input device may be used to determine the upward motion of the platform. The data may include the distance a user is from the input device. The data may also include how hard, how far and/or how fast a user pushes the input device. Data received from the input device may not be used to determine the upward motion of the platform. The time at which the platform may be moved may be randomly determined.

An automated runway loop including a u-shaped runway, wherein the runway is configured to support an aerial projectile with the runway having a discharging end and a receiving end. The runway has a support attached to the runway and to a motor capable of extending and retracting the runway along an axis. At least one sensor is positioned along the runway and configured to provide at least one output indicative of at least one parameter of the aerial projectile. A computer is connected to the sensors and the motor, the computer controlling energization of the motor based at least in part on an indicated parameter of the aerial projectile, where the energization of the motor causes the aerial projectile to be discharged from one end of the runway and to be received at the other end of the runway.