GAMING OBJECT FLIPPING APPARATUS FOR ELECTRONIC GAMING MACHINE

BACKGROUND OF THE INVENTION

Today, gaming establishments, such as casinos, operate gaming apparatus, such as gaming tables that provide casino table games. Casino table games, such as Poker, Roulette, Black Jack, Craps, SicBo, Baccarat, etc., often involve players sitting at a physical table using physical game objects (cards, dice, chips, etc.) to play the games.

These gaming tables are typically administered by human dealers and are played on physical gaming tables having a dealer surface for supporting the game objects, such as cards, dice, chips and the like. Alternatively, such table games can be played in connection with electronic gaming machines where the dealer, playing cards, chips or other gaming elements are physically administered separately from such machines. Other wagering games can also be played entirely on electronic gaming machines. For example, such electronic gaming machines include slot machines as well as video poker, video keno, video blackjack, and the like. Many players like the anonymity and individualized nature of playing such machines alone or away from the crowds that are often attracted to convention physical table games.

While gaming machines, gaming tables, and systems therefor have worked well in practice over many years, there is always a desire for improvement. In particular, there is a need for improved electronic gaming machines that are able to provide table game elements to players who might prefer to play at an individual electronic gaming machine.

SUMMARY

An improved system, apparatus and method for flipping gaming objects, such as dice, in a random, reliable manner are disclosed. 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, even during flipping. The object flipping platform can be used to flip objects (e.g., dice) from one side to an opposite side, and vice versa. In one implementation, the container and the object flipping platform can have an elongated or oblong configuration.

In one embodiment, the container can also include one or more cameras and/or one or more light sources. The one or more cameras can be used to capture images of the dice or any other objects in the container. For example, in one embodiment, the die values, after the dice have been flipped, may be determined using image recognition. The one or more light sources can be used to illuminate the container for appearance and/or to provide visual notification to players. In one embodiment, the visual notification can indicate the die values and/or a situation of interest to player. For example, if two die values both have the same value, the one or more light sources may flash a predetermined number of times, illuminate in a different color, or flash in a pattern to inform the players that a double was rolled. In one embodiment, the container can also include one or more speakers that can provide an audible notification of the die values and/or a situation of interest to a player.

The dice flipping serves to randomize the gaming objects that can be used for wager-based games using an electronic gaming machine. In one implementation, the wager-based game can mimic a table game that makes use of physical objects in carrying out a wager-based game. The gaming objects can be used in the wager-based games to provide different potential outcomes. The particular potential outcome yielded by the gaming objects is randomized by the flipping action using the dice flipping platform.

In one embodiment, the dice flipping platform can be controlled to cause dice, settled at a first side. to be flipped towards a second (opposite) side. Once flipped, the dice land back on the dice flipping platform and settle on the second side. Hence, the flipping induced by the control of the dice flipping portion is from the first side to the second side. However, in the next flip of the dice, the dice settled at the second side are then flipped towards the first (opposite) side. Regardless of which direction the flipping occurs, the dice can be reliably and randomly flipped with an airborne flip.

In another embodiment, the gaming objects (e.g., dice) can be moved (e.g., rolled) from one side of the dice flipping platform to the other. Hence, in this embodiment, no flipping is required and the dice flipping platform can be referred to more generally as a gaming object randomizing platform.

The invention can be implemented in numerous ways, including as a method, system, device, apparatus (including computer readable medium and graphical user interface). Several embodiments of the invention are discussed below.

As a dice flipping apparatus, one embodiment of the invention can, for example, include at least: a container configured to contain dice, the container having a top portion, a bottom portion and a plurality of sides, at least a substantial portion of at least one of the sides being transparent, the container containing a flipping structure; an actuator mechanically coupled to the flipping structure; a light source provided in the top portion of the container; and a camera provided in the top portion of the container. The flipping structure can include a platform having a first end portion, a central portion and a second end portion, where the first end portion can be angled upward relative to the central portion and the second end portion can be angled upward relative to the central portion. In one embodiment, the dice settle at only either of the first end portion or the second end portion of the platform which are at opposing sides of the platform.

As a gaming device, one embodiment of the invention can, for example, include at least: a game console providing a user interface for game play, the user interface including a display region that displays gaming object values; and a gaming object flipping apparatus coupled to the game console. The gaming object flipping apparatus can include at least: a container configured to contain gaming objects, and an actuator mechanically coupled to the gaming object flipping apparatus. The container can have a top portion, a bottom portion and a plurality of sides, with at least a substantial portion of at least one of the sides being transparent. The container can contain a flipping structure. The flipping structure can include a platform. The platform can have a first end portion, a central portion and a second end portion, the first end portion can be angled upward relative to the central portion, and the second end portion can be angled upward relative to the central portion. The gaming objects settle at the first end portion or the second end portion of the platform, the first end portion and the second end portion being at opposing sides of the platform.

As another gaming device, one embodiment of the invention can, for example, include at least: a game console providing a user interface for game play, the user interface including a display region that displays dice values; and a dice flipping apparatus coupled to the game console. The dice flipping apparatus can include at least: a container configured to contain dice, and an actuator mechanically coupled to the dice flipping apparatus. The container can have a top portion, a bottom portion and a plurality of sides, with at least a substantial portion of at least one of the sides being transparent. The container can contain a flipping structure. The flipping structure can include a platform. The platform can have a first end portion, a central portion and a second end portion, the first end portion can be angled upward relative to the central portion, and the second end portion can be angled upward relative to the central portion. The dice settle at only either of the first end portion or the second end portion of the platform, the first end portion and the second end portion being at opposing sides of the platform.

As a gaming object randomizing apparatus, one embodiment of the invention can, for example, include at least a container configured to contain gaming objects and an actuator. The container can have a top portion, a bottom portion and a plurality of sides, at least a substantial portion of at least one of the sides being transparent. The container can also contain a flipping structure. The actuator can be mechanically coupled to the flipping structure. The flipping structure can include a platform having a first end portion, a central portion and a second end portion. The flipping structure can be configured such that the gaming objects settle at either the first end portion or the second end portion of the platform, the first end and the second end portions being at opposing sides of the platform.

As a dice flipping apparatus, one embodiment of the invention can, for example, include at least a container configured to contain dice and an actuator. The container can have a top portion, a bottom portion and a plurality of sides, with at least a substantial portion of at least one of the sides being transparent. The container can also contain a flipping structure. The actuator can be mechanically coupled to the flipping structure. The flipping structure can include a platform having a first end portion, a central portion and a second end portion. The first end portion of the platform can be angled upward relative to the central portion, and the second end portion of the platform can be angled upward relative to the central portion. The flipping structure can also be configured such that the dice settle at either the first end portion or the second end portion of the platform, where the first end and the second end portions are at opposing sides of the platform.

As a method of randomizing a set of dice, one embodiment of the invention can, for example, include at least: receiving a dice flip request; inducing a flip action to flip the dice based at least in part on the dice flip request; permitting the dice to settle following the flip action; acquiring at least one image of the dice as settled following the flip action; and determining dice values from the at least one image of the dice.

Other aspects and advantages of the invention will become apparent from the following detailed description taken in conjunction with the accompanying drawings which illustrate, by way of example, the principles of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will be readily understood by the following detailed description in conjunction with the accompanying drawings, wherein like reference numerals designate like elements, and in which:

FIG. 1 illustrates a front view of a dice flipping apparatus according to one embodiment.

FIG. 2 illustrates a front view of a dice flipping apparatus according to another embodiment.

FIGS. 3A-3C illustrate front views of a dice flipping apparatus according to still another embodiment.

FIG. 3D illustrates a front view of a dice flipping apparatus according to yet still another embodiment.

FIG. 4 is a block diagram of a flipping control system according to one embodiment.

FIG. 5 is a schematic diagram of a top structure according to one embodiment.

FIGS. 6A-6C are schematic diagrams of a flipping action in which gaming objects, such as dice, are able to be flipped and thus randomized, according to one embodiment.

FIG. 7 is a flow diagram of a dice flipping process according to one embodiment.

FIG. 8A is a side perspective view of a gaming machine having a gaming object flipper in accordance with one embodiment.

FIG. 8B is a front view for the gaming machine having the gaming object flipper in accordance with the embodiment.

FIG. 8C is a rear view for the gaming machine having the gaming object flipper in accordance with the embodiment.

FIG. 8D is a right side view of the gaming machine having the gaming object flipper in accordance with the embodiment.

FIG. 8E is a left side view for the gaming machine having the gaming object flipper in accordance with the embodiment.

FIG. 8F is a top view for the gaming machine having the gaming object flipper in accordance with the embodiment.

FIG. 8G is a bottom view for the gaming machine having the gaming object flipper in accordance with the embodiment.

FIG. 8H illustrates the visual display of the electronic gaming machine implementing an exemplary touch screen display.

FIG. 8I illustrates the visual display of the electronic gaming machine implementing the exemplary touch screen display, such as shown in FIG. 8H.

FIG. 9 is a block diagram of an electronic gaming machine according to one embodiment.

FIG. 10 is an exemplary block diagram of a wide area interactive table gaming machine system according to one embodiment.

DETAILED DESCRIPTION OF CERTAIN EMBODIMENTS

In one implementation, the container and the object flipping platform can have an elongated or oblong configuration. In another implementation, the container and the object flipping platform can have a round or circular configuration. In still another implementation, the container and the object flipping platform can have a square (e.g., rounded square) configuration. Although the embodiments described depicted below are principally elongated or oblong, it should be understood that various other shapes or configurations can be used.

In one embodiment, the dice flipping platform can be controlled to cause dice, settled at a first side, to be flipped towards a second (opposite) side. Once flipped, the dice land back on the dice flipping platform and settle on the second side. Hence, the flipping induced by the control of the dice flipping portion is from the first side to the second side. However, in the next flip of the dice, the dice settled at the second side are then flipped towards the first (opposite) side. Regardless of which direction the flipping occurs, the dice can be reliably and randomly flipped with an airborne flip.

Embodiments of various aspects of the invention are discussed below with reference to FIGS. 1-10. However, those skilled in the art will readily appreciate that the detailed description given herein with respect to these figures is for explanatory purposes as the invention extends beyond these limited embodiments.

Various embodiments to devices, systems and methods for providing, conducting and facilitating play of wagering games (or chance games) at personalized or individualized interactive electronic table gaming machines can be implemented. Such gaming machines or devices can mimic use of live physical table game components in a self-contained and individualized manner, while using physical table game components (e.g., dice, cards, balls, wheels, and the like). As such, this disclosure may be applied to the individualized machine implementation of any live table game, such as Baccarat, Blackjack, Roulette, Craps, Pai Gow, SicBo, Poker, Bingo, Keno, card games, and the like, as well as any other type of table game having physical components that result in game outcomes. The various embodiments disclosed herein can be applied with respect to individual gaming machines, entire systems involving multiple gaming machines, and methods of operating games on such machines and systems.

FIG. 1 illustrates a front view of a dice flipping apparatus 100 according to one embodiment. The dice flipping apparatus 100 includes a container 102. Within the container is a flipping structure 104 having a first end 106 and a second end 108. The flipping structure 104 is mounted on a pivot structure 110. During operation, the flipping structure 104 can operate to flip gaming objects, such as dice, from either the first end 106 through the air to the second end 108 or from the second end 108 through the air to the first end 106. The flipping of the gaming objects serves to randomize the gaming objects (e.g., dice values). At least a front side of the container 102 is substantially transparent. As a result, as illustrated in FIG. 1, the flipping structure 104 and any flipping of the gaming objects are visible through the front side of the container 102.

In addition, the dice flipping apparatus 100 can also include at least one camera 112 and/or one or more light sources 114. In one implementation, the at least one camera 112 and/or the one or more light sources 114 can be provided in an upper or top portion of the dice flipping apparatus 100. The at least one camera 112 can be used to acquire images of the gaming objects, such as when the gaming objects have settled at either the first end 106 or the second end 108 of the flipping structure 104. The one or more light sources 114 can be used to provide illumination to the upper or top portion of the container 102 or an internal area of the container 102 (such as to illuminate the flipping structure 104 and gaming objects thereon), or both.

FIG. 2 illustrates a front view of a dice flipping apparatus 200 according to another embodiment. The dice flipping apparatus 200 includes a bottom structure 202, a top structure 204, a first side 206 and a second side 208. The bottom structure 202 can be part of the dice flipping apparatus 200 or, alternatively, can be associated with another apparatus to which the dice flipping apparatus 200 is being attached.

The dice flipping apparatus 200 forms a container. The front surface of the container is bounded by the bottom structure 202, the top structure 204, the first side 206 and the second side 208. The front surface of the container also has a transparent front side 210. A rear side of the container is not shown but can be transparent, translucent or non-transparent.

Within the container is a flipping structure 212. Since the front side 210 of the container is transparent, the flipping structure 212 is visible through the front side 210. The flipping structure 212 includes a first end portion 214 and a second end portion 216 that are on opposite sides of the flipping structure 212. The first end portion 214 is angled upward or inward with respect to a central portion of the flipping structure. Likewise, the second end portion 216 is angled upward or inward with respect to the central portion of the flipping structure. In one implementation, the flipping structure 212 is generally oblong and the cross-section of the container.

FIG. 3A illustrates a front view of a dice flipping apparatus 300 according to still another embodiment. The dice flipping apparatus 300 includes a bottom structure 302, a top structure 304, a first side 306 and a second side 308. The bottom structure 302 can be part of the dice flipping apparatus 300 or, alternatively, can be associated with another apparatus to which the dice flipping apparatus 300 is being attached.

The dice flipping apparatus 300 forms a container. The front surface of the container is bounded by the bottom structure 302, the top structure 304, the first side 306 and the second side 308. The front surface of the container also has a transparent front side 310. A rear side of the container is not shown but can be transparent or non-transparent. As shown in FIG. 3A, the container can be tapered inward from the bottom portion to the top portion, and the first side 306 and the second side 308 can also be tapered inward.

Within the container is a flipping structure 312. Since the front side 310 of the container is transparent, the flipping structure 312 is visible through the front side 310. The flipping structure 312 includes a first end portion 314 and a second end portion 316 that are on opposite sides of the flipping structure 312. The first end portion 314 is angled upward or inward with respect to a central portion of the flipping structure. Likewise, the second end portion 316 is angled upward or inward with respect to the central portion of the flipping structure. In one implementation, the flipping structure 312 is generally oblong as is the cross-section of the container.

The tapering of the container can facilitate the edges of the first end portion 314 and the second end portion 316 being and remaining tightly adjacent the opposing sides of the container. The first side 306 and the second side 308 are also correspondingly tapered inward. Advantageously, the tapering of the container is such that the dice remain on or above the flipping structure 312 since there are unable to pass between the edges of the first end portion 314 and the second end portion 316 and the opposing sides of the container. In one embodiment, the edges of the first and second portions 314, 316 can have elevated edges that extend upward.

Optionally, the edges of the first end portion 314 and the second end portion 316 can be raised upward. The raised edges can be provide a lip. In one implementation, a first raised edge can extend upward and is provided adjacent a corresponding one of the sides of the container, and a second raised edge can extend upward and is provided adjacent another corresponding one of the sides of the container.

FIG. 3B illustrates a front view of the dice flipping apparatus 300 shown in FIG. 3A after the flipping structure 312 within the container has flipped dice from the second end portion 316 to the first end portion 314.

FIG. 3C illustrates a front view of the dice flipping apparatus 300 shown in FIG. 3A after the flipping structure 312 within the container has flipped dice from the first end portion 314 to the second end portion 316.

FIG. 3D illustrates a front view of a dice flipping apparatus 350 according to yet still another embodiment. The dice flipping apparatus 350 is generally similar to the dice flipping apparatus 300 shown in FIG. 3A, but further include a camouflage element 352 that is provided below the flipping structure 312 and serves to camouflage any mechanical structures (e.g., for movement of the flipping structure 312) from being visible from a user of either the dice flipping apparatus 350 or another apparatus to which the dice flipping apparatus 350 is attached. In one implementation, the camouflage element 352 can be deformable and typically light weight to expand or contract as the flipping structure 312 moves. For example, in this implementation, the camouflage element 352 can be formed of a fabric, a polymer (e.g., deformable plastic sheet), paper, etc. In another implementation, the camouflage element 352 can be rigid or semi-rigid but able to expand or contract as the flipping structure 312 moves. For example, in this implementation, the camouflage element 352 can be formed of a metal (e.g., metal sheet) or plastic (e.g., rigid plastic sheet), etc.

FIG. 4 is a block diagram of a flipping control system 400 according to one embodiment. The flipping control system 400 operates to induce movement to a flipping structure 402 to cause dice residing on the flipping structure 402 to be flipped and thus randomized. The flipping control system 400 includes a motor 404 and a motor controller 406. The motor controller 406 generates one or more control signals that are provided to the motor 404 for controlling operation of the motor 404 which in turn causes movement to the flipping structure 402. The motor controller 406 includes a wired or wireless interface to communicate with another electronic apparatus. For example, the motor controller 406 can receive commands or data from a separate system or apparatus, such as a gaming system, a gaming apparatus, a user input device, a microprocessor, etc. Under the control of the motor controller 406, the motor 404 induces movement of the flipping structure 402. In one embodiment, the movement can be an abrupt movement to induce flipping action. In an alternative embodiment, the movement can be less abrupt such that a flipping action is not induced. In doing so, a pivot structure 408 for the flipping structure 402 can be mechanically manipulated by a drive transfer 410 mechanically coupled to the motor 404. The mechanical coupling used by the pivot structure 408 and/or the drive transfer 410 can include one or more gears and/or one or more belts and or any other suitable coupling technology.

FIG. 5 is a schematic diagram of a top structure 500 according to one embodiment. The top structure 500 is, for example, suitable for the top structure 204 illustrated in FIG. 2 or the top structure 304 illustrated in FIG. 3A. The top structure 500 can include one or more cameras 502 and/or one or more light sources 504. As illustrated in FIG. 5, in one embodiment, the top structure 500 can include two cameras 502, where a first of the cameras 502 can be directed to a first end portion (214, 314) and a second of the cameras 502 can be directed to a second end portion (216, 316). As also illustrated in FIG. 5, in one embodiment, the top structure 500 can include one or more (i.e., three) light sources 504. These light sources 504 can be distributed within the top structure 500. In one embodiment, the top structure 500 can also include one or more light diffusers that can be placed proximate to the light sources 504, such as placed between the light sources 504 and the associated container so that light from the light sources 504 can be diffused.

FIGS. 6A-6C are schematic diagrams of a flipping action in which gaming objects, such as dice, are able to be flipped and thus randomized, according to one embodiment.

FIG. 6A illustrates a flipping structure 600 having a first angled end 602 and a second angled end 604. In the position of the flipping structure 600 shown in FIG. 6A, the second angled end 604 is position downward such that the second angled end 604 is substantially horizontal, while the first angled end 602 is positioned upward with the first angled end 602 being significantly vertical. Dice 608 are shown as settled on the second angled end 604. This position of the flipping structure 600 and the dice 608 can be referred to as a rest position or a start position. For example, the angled end 602 and/or the second angled end 604 can be angled upward 5-30% relative to a central portion of the flipping structure 600.

FIG. 6B illustrates the flipping structure 600 after a flipping action has been induced. Specifically, as shown in FIG. 6B, the second angled end 604 is now significantly vertical while the first angled end 602 is substantially horizontal. The dice 608 have been rendered airborne by the rapid moving of the flipping structure 600 from its position shown in FIG. 6A to its position shown in FIG. 6B. Advantageously, the dice 608 are able to be forced airborne into a rather high arc of movement which provide increased airtime and thus more spinning and rotating of the dice on any given flip via the flipping structure 600.

FIG. 6C illustrates the flipping structure 600 after the flipping action has been induced and also after the dice 608 have settled at the first angled end 602. Once the dice 608 have settled following the flipping action, the value of the individual dies have been randomized by the flipping action. In one embodiment, the top surfaces of the first angled end 602 and the second angled end 604 can include a layer of felt (or other material) that allows the dice to settle more quickly and in a reliable final position. Additionally, if the associated dice flipping apparatus includes a camera, the camera can be used to acquire one or more images of the resultant die values (after they have settled) which can be used to electronically determine the value of the dies through image recognition. These die values can then be displayed or otherwise utilized by an associated apparatus, such as a gaming machine, gaming console, and the like.

FIG. 7 is a flow diagram of a dice flipping process 700 according to one embodiment. The dice flipping process 700 can, for example, be performed by a dice flipping apparatus, such as any of the dice flipping apparatus illustrated in FIGS. 1, 2 and 3A-3D.

The dice flipping process 700 can begin with a decision 702 that determines whether a dice flipping apparatus (or some component thereof) is in a ready position. The ready position is a position from which the dice are settled and ready to be flipped for randomization. When the decision 702 determines that a dice flipping apparatus is not presently in a ready position, the dice flipping process 700 can reset 704 the dice flipping apparatus to the ready position.

Alternatively, if the decision 702 determines that the dice flipping apparatus is in the ready position (or following the reset 704 to the ready position), the dice flipping process 700 can acquire 706 one or more images of the dice in a rest state. Here, the images being acquired 706 can be images of the dice prior to a flipping action and/or of the dice after settling in response to a prior flipping action. In one embodiment, the block 706 can be eliminated, since it is optional.

Next, a decision 708 can determine whether a dice flip request has been received. Here, the associated apparatus (e.g., gaming apparatus) can initiate a dice flip request to the dice flipping apparatus. Hence, when the decision 708 determines that no dice flip request has been received, a decision 710 can determine whether the dice flipping process 700 should end. When the decision 710 determines that the dice flipping process 700 should end, the dice flipping process 700 can end. On the other hand, when the decision 710 determines that the dice flipping process 700 should not end, then the dice flipping process 700 returns to repeat the decision 708 and subsequent blocks so that the dice flipping process 700 can continue to await a dice flip request.

Once the decision 708 determines that a dice flip request has been received, a flip action can be activated 712. The flip action can, for example, induce flipping of the dice. For example, as illustrated in FIG. 6A prior to a flip action the dice can be in a rest state at one end of a flipping structure, and then following the flip action, the dice as shown in FIG. 6B are rendered airborne towards another end of the flipping structure, and then subsequently the dice assume a rest state at the another end. Hence, following the activation 712 of the flip action, the dice flipping process 700 awaits 714 a new rest state. Thereafter, one or more images of dice in the new rest state can be acquired 716. Dice values from the images can then be determined 718. In one implementation, using image recognition from the dice values of the dice as settled in the new rest rate can be electronically determined. Thereafter, the dice values can be output 720. For example, the dice flipping apparatus might display the dice values, and/or the associated apparatus (gaming apparatus) might display the dice values. Following the output 720 of the dice values, the dice flipping process 700 can return to repeat the decision 702 and subsequent blocks so that additional dice flipping operations can be similarly performed.

FIGS. 8A-8G are illustrations of a gaming machine 800, such as a gaming console, having a gaming object flipper in accordance with one embodiment. The gaming object flipper can operate to flip physical gaming objects (e.g., dice) that are use at or by the gaming machine to provide a randomized input for a wager-based game.

FIG. 8A is a side perspective view of the gaming machine 800 in accordance with the one embodiment.

FIG. 8B is a front view for the gaming machine 800 in accordance with the one embodiment.

FIG. 8C is a rear view for the gaming machine 800 in accordance with the one embodiment.

FIG. 8D is a right side view of the gaming machine 800 in accordance with the one embodiment.

FIG. 8E is a left side view for the gaming machine 800 in accordance with the one embodiment.

FIG. 8F is a top view for the gaming machine 800 in accordance with the one embodiment.

FIG. 8G is a bottom view for the gaming machine 800 in accordance with the one embodiment.

In one embodiment, the gaming machine 800 shown in FIGS. 8A-8H is an electronic gaming machine 800. The electronic gaming machine 800 can also support wagering on one or more wager-based games, such as on the one or more table type games.

The electronic gaming machine 800 can include a base portion 802 and a top portion 804. The top portion 804 can include an object flipping apparatus 806. The object flipping apparatus 806 is a randomizing component. The object flipping apparatus 806 can flip physical objects (e.g., gaming objects) that are used with the one or more table type games. The physical object can pertain to one or more of dice, cards, balls, coins, and the like, which can be used individually, as group or in combination.

The base portion 802 can include a visual display 808, which can include a touch screen and/or other player input and output devices. One or more player (or user) inputs, such as button 810, can be used for a variety of player input functions, such as to facilitate activation of the object flipping apparatus 806. Alternatively, the player inputs can be provided using other devices, e.g., joystick, mouse, track ball, touch pad, and the like.

The base portion 802 can also include an acceptor 812, a printer 814 and a player tracking sub-system 816. The acceptor 812 can accept bills, tickets or vouchers and provide player credit for game play at the electronic gaming machine 800. The printer 814 can print tickets or vouchers. The player tracking sub-system 816 can include a player card reader 816a and an associated screen 816b. Further still, the base portion 802 can also include wrist pads 818 to facilitate user comfort. Other items not shown may also be included, with such items including, for example, cameras, additional displays, lights, additional inputs (e.g., trackball, mouse), speakers, seats, and the like.

The object flipping apparatus 806 provides randomness to one or more game objects that are used with wager-based games being performed by the electronic gaming machine 800. The game objects can represent any game objects or objects as might be found on a live gaming table, including for example, dice, cards, balls, and the like, which may be presented alone or in any combination. The object flipping apparatus 806 can include means to randomize results associated with the game objects, such as thought a flipping action. The game objects can be used to provide a substantially random outcome that yields game input(s) to the wager-based game, which can then yield a game result for a player of the electronic gaming machine 800.

In one embodiment, the object flipping apparatus 806 can include a flipping platform 822 that can service to flip gaming objects, namely dice 824, to thereby randomize their die values. For example, if the game objects consist of three dice 824, then each die after being flipped can yield a die value for use with a wager-based game. Although the dice 824 can serve as the game objects, it will be readily appreciated that other game objects could be used as well.

Variations in the randomizing action of the game objects can be impacted by programming and/or by one or more player inputs provided via the electronic gaming machine 800. For example, variations in characteristics (e.g., rate, force, speed or duration) of the flipping action can be impacted by player inputs via the button 810, touch screen, or any other player input device. The manner in which the player interacts with the button 810 can also impact the characteristics of the flipping action. For example, a hard push or pounding of button 810 might result in a stronger flipping action, while a soft push of the button 810 might result in a gentle flipping action. Also, or in addition, the timing of the press of the button 810 might affect the timing of one or more physical activations that provide a new game object outcome. Such timings may affect when the physical actuation starts, when it stops, and/or its duration, for example. Such timings might also coincide with other visual or audio outcomes or cues provided by the electronic gaming machine 800, such as on the visual display 808 or elsewhere.

Other types of player input components could also be used, with similar and/or additional effects to the physical game components. Such other player activation components could include, for example, plungers, touch screens adapted to accept various touches, swipes or the like, motion or gesture reading sensors, voice recognition devices, and the like. For example, a motion sensor might be adapted to help the device or system recognize a hard flip player activation based upon a rapid or fast motion or gesture by a player, and/or to recognize a soft flip player activation based upon a gentle or slow motion or gesture by the player. Alternatively, and/or in addition, a microphone and voice recognition device might be adapted to help the device or system recognize various voice commands, as well as volume levels.

The top portion 804 can include a top member 820, which may or may not be game or theme related. The top portion 804 can also include one or more cameras that are configured to capture images of the dice 824. One the dice 824 have settled after a flipping action, the resulting values of the dies can be computer recognized and thus determined from the captured images of the dice 824. The flipping action of the flipping platform 822 causes one side to flip upward, while the opposing side flips down. The object flipping apparatus 806 can also include a camouflage skirt 826 provide below the flipping platform 822 to provide an aesthetic effect, namely, covering any mechanical members under the flipping platform.

The top portion 804 also forms a compartment 828. The compartment 828 securely contains the object flipping apparatus 806 and the dice 824. In this regard, the flipping platform 822 and the container 828 are configured to have their respective sides or edges in close proximity so that the dice 824 remain in the container 828 and above the flipping platform 822 (even during flipping). As such, the dice 824 are not able to pass between the edges of the flipping platform 822 and the sides of the container 828. The compartment 828 has rigid side ends 830, 832. The compartment 828 also has a transparent (or slightly translucent) front side 834. The compartment 828 can also have a transparent (or slightly translucent) back side. Advantageously, during a flipping action, a user of the electronic gaming machine 800 can see the dice 824 undergoing flipping through the front side 834. One or more additional items may also be included in or on top portion 804, such as a top glass, bezel, speaker, light, additional displays, input or output components, or the like. Also, various items that might be located in the top member 804 may instead be included on the bottom portion 802, and vice versa.

In various embodiments, the base portion 802 can be removable from and interchangeable with top portion 804 and other similar top portions, and vice versa. Similarly, top portion 804 can be removable from and interchangeable with bottom portion 802 and other similar bottom portions. Under any such arrangement, the object flipping apparatus 806 may also comprise a separate item that goes with or is removable from and/or interchangeable with the bottom portion 802, the top portion 804, or both. In some embodiments, the object flipping apparatus 806 and/or the top portion 804 can be modular from the remainder of the electronic gaming machine 800, such that different physical randomizing components can be swapped in and out of the electronic gaming machine 800 as may be desired.

In various embodiments, one or more cameras, sensors, or other detection devices can be used to detect the actual outcomes on the one or more game objects (e.g., dice 824). Sensors could include, for example, cameras, RFID readers, magnetic readers or detectors, barcode readers or the like, pressure sensors, motion detectors, among other possible sensors. Such a camera(s) and/or other sensor(s) can be located about the top portion 804, at or within the object flipping apparatus 806, and/or at other locations at or along the electronic gaming machine 800 (e.g., bottom portion 802), as may be appropriate. In some embodiments, these cameras and/or other sensors can remain with the base portion 802 while a given randomizing component is interchanged or swapped out for another one. Replaceable sensor components and/or other randomizing component items can add to the varieties of user selection and preferences for the electronic gaming machine 800.

FIG. 8H illustrates the visual display 808′ of the electronic gaming machine 800 implementing an exemplary touch screen display 850. The exemplary touch screen display 850 can present a plurality of selectable betting opportunities, which can be referred to as a bet board. The touch screen display 850 is capable of receiving a user touch section of one or more of the selectable betting opportunities being displayed.

FIG. 8I illustrates the visual display 808″ of the electronic gaming machine 800 implementing the exemplary touch screen display 850, such as in FIG. 8H. In this implementation, the visual display 808″ can further include a current dice region 852, a dice flipping image(s) region 854 and a previous dice region 856. The current dice region 852 can display the most recent dice values that result from dice randomization, namely, a dice flipping action. The dice flipping image(s) region 854 can display one or more visual images (still or video) of such dice being “flipped” or otherwise being randomized. This can occur in real-time. Alternatively or additionally, the dice flipping image(s) region 854 can display one or more visual images of such dice after they have settled following being “flipped” or otherwise being randomized. The previous dice region 856 can display an integer number of most recent dice values that result from prior dice randomizations. The previous dice region 856 thus provides historical resulting dice values.

It will be readily appreciated that the electronic gaming machine 800 can be provided in numerous other configurations and formats, such that the provided example is for illustrative purposes only. In various embodiments, an electronic gaming machine can be designed or configured similar to a standard “slot machine,” such that only one actual player sits at or otherwise occupies the machine, and is the only player that is permitted to make wagers and plays on the game outcomes at the device. Of course, other people may watch or comment as the one player plays at the electronic gaming machine designed for individualized play. In some embodiments, other players might be allowed to make wagers on the game outcomes, such as where remote monitoring and play is permitted across a system of electronic gaming machines.

In one embodiment, an electronic gaming machine can have a dedicated gaming object flipping apparatus. The electronic gaming machine 800 illustrated in FIG. 8A is one example of such an embodiment.

Still further, it should be appreciated that an electronic gaming apparatus or system can utilized a shared gaming object flipping apparatus. Typically, the electronic gaming apparatus or system is provided in various multi-player configurations. In one embodiment, a gaming object flipping apparatus can be shared by a plurality of electronic gaming machines (e.g., slot machines, gaming terminals, electronic gaming tables, etc.). In one implementation, the plurality of electronic gaming machines can be provided in a carousel arrangement. In such an arrangement, the shared gaming object flipping apparatus can be provided in a center region of the carousel arrangement of the plurality of electronic gaming machines, For example, four to twelve electronic gaming machines arranged in a carousel arrangement might not themselves include an gaming object flipping apparatus but instead a shared gaming object flipping apparatus (which can be referred to as a community gaming object flipping apparatus) can be provided and shared by the various gaming machines. In another implementation, the plurality of electronic gaming machines can be provided in a stadium arrangement. In such an arrangement, the shared gaming object flipping apparatus can be provided at a front stage area and be used by all the plurality of electronic gaming machines provided in the stadium arrangement,

FIG. 9 is a block diagram of an electronic gaming machine 900 according to one embodiment. The electronic gaming machine 900 can, for example, pertain to the electronic gaming machine 800 illustrated in FIG. 8. The electronic gaming machine 900 can include a processor 902 that controls operation of the electronic gaming machine 900. The processor 902 can be coupled to a memory 904 that stores a game control program 906. The game control program 906 when executed by the processor 902 provides a wager-based game on the electronic gaming machine 900. The wager-based game can pertain to a primary game and/or a bonus game. The electronic gaming machine 900 can also receive user input and/or provide user output via a player input/output device 908. The player input/output device 908 can pertain to one or more of a button, display, touch screen, and the like.

The electronic gaming machine 900 also includes a dice flipping apparatus 910 that operates to flip dice and provide a randomized input for the wager-based game. The dice flipping apparatus 910 provide a mechanism to flip dice to provide a randomized input to the wager-based game. The dice flipping apparatus 910 can, for example, be implemented as shown in any of the embodiments discussed above.

The electronic gaming machine 900 can include at least one camera 912 and one or more light sources 914. The at least one camera 912 can capture images of the dice in the dice flipping apparatus 910. The one or more light sources can illuminate the dice flipping apparatus 910 and/or other portions of the electronic gaming apparatus.

The memory 904 can also store an image recognition program 914 and a dice images/values log 918. The image recognition program 916 pertains to program code that, when executed by the processor 902, can digitally evaluate the images (e.g., from the at least one camera 912) of the dice in the dice flipping apparatus 910 to determine values (e.g., 1, 2, 3, 4, 5 or 6) of each of the dies as settled following the flipping. The dice images/values log 918 can store in the memory 904 images of the dies and/or the determined values for the dies.

The electronic gaming machine 900 can further include a touch screen display 920 that provide the player with an touch input surface as well as a display screen from a graphical user interface.

The memory 904 can also store a pay table 922 and bet options 924. The pay table 922 can be used internally and/or presented to a player, such as on a display or touch screen (e.g., the touch screen display 920). In one implementation, the pay table 922 can be provided to the player when the player engages the input/output device 908 or the touch screen display 920. The bet options 924 can store an indication of the one or more wagers or bets the player has invoked for the wager-based game, such as for example based on input received by the touch screen display 920, the player input/output device 908 and/or a peripheral device.

Still further, the memory 904 can also store a game play log 926 of all game information pertaining to the play of the wager-based game. The game play log 926 as well as the dice images/values log 918 can be advantageous for accounting reconciliation, regulation audits, and any other desired gaming functions.

The electronic gaming machine 900 also includes a network interface 928 to couple to one or more wired or wireless networks. The electronic gaming machine 900 can, for example, communicate with a server computer, such as a gaming management server of a gaming establishment. In one embodiment, the server computer can interact with the electronic gaming machine 900 to provide the wager-based game. In another embodiment, the electronic gaming machine 900 can assist the server computer (or vice versa) in providing the wager-based game or with any other gaming functions.

In addition, the electronic gaming machine 900 can also include one or more peripheral devices. As shown in FIG. 9, the electronic gaming machine 900 can include a player tracking system 930 (which can include a card reader and a small display), a Ticket-In-Ticket-Out (TITO) system 932, and a bill acceptor 934. Although illustrated with a few peripheral devices, this is not intended to be limiting as the electronic gaming machine 900 may have any number of peripheral devices.

FIG. 10 is an exemplary block diagram of a wide area interactive gaming machine system 1000 according to one embodiment. In this implementation, the gaming machine system 1000 is a table gaming machine system. The gaming machine system 1000 can utilize multiple electronic gaming machines (EGMs) 1002, one or more remote system servers, and various other system components across one or multiple locations. The gaming machine system 1000 can include a wide variety of components and items, such as a bank 1004, a games router 1006, and a financial clearinghouse 1008, among other items. A network 1010 can couple these items to the EGMs 1002, terminals, game servers, casinos, and other distributed components, as may be desired. Various networked casinos, game servers, EGMs 1002 and other remote terminals can also be coupled through the network 1010 in the gaming machine system 1000. The network 1010 can be of wired (Ethernet, Token Ring, Serial multidrop, ATM, etc.) or wireless variety (802.11x, BlueTooth, LTE, 2G/3G/4G cellular, Zigbee, Ultra Wide Band, etc.) known in the art, as may be suitable or desired.

One or more game servers may be present in the gaming machine system 1000, and each may operate in a particular manner to facilitate the play of the various networked EGMs 1002 set forth above. In such embodiments, a game server can collect live game information from each of the self-contained EGM 1002, apply game rules, determine game results, determine winning amounts, and any other gaming operation information and/or data. Besides monitoring and controlling the games, the game server can also keep track, such as in a database, the game history of each of the EGMs 1002 and its associated physical components, accounting information, revenue reports, bonuses and bonusing progress, mystery jackpots, maintenance information, and the like. Each of these individual functions can be performed by a separate application on a separate server, or integrated into one application running on one comprehensive server. The determination of one or multiple servers and applications depends on the number of EGMs, game stations, casinos, and other associated devices, both local and remote, that are being connected across the gaming machine system 1000. For example, a specialized system server or processor can be dedicated to tracking playing card IDs and locations.

Additional functions of the servers in the gaming machine system 1000 can include game resolution at various EGMs 1002, the handling of financial transactions from EGMs 1002 and/or remote game terminals, the push of live game information to a game server to be broadcast to other EGMs 1002 and other remote gaming terminals, matchmaking between various system devices and stations, providing communications between system components, and other pertinent gaming system functions.

Additional details regarding these and other gaming system functions can be found at, for example, U.S. Pat. Nos. 8,808,077; 8,684,830; and 8,821,239 each of which are incorporated by reference herein for such purposes, and also U.S. patent application Ser. Nos. 13/893,340; 13/844,617; and 14/508,922, each of which are incorporated by reference herein for such purposes.

Those skilled in the art will readily appreciate that any of the systems and methods of the disclosure may include various computer and network related software and hardware, such as programs, operating systems, memory storage devices, data input/output devices, data processors, servers with links to data communication systems, wireless or otherwise, and data transceiver terminals, and may be a standalone device or incorporated in another platform, such as an existing electronic gaming machine, portable computing device or electronic platforms with multiple player positions. Those skilled in the art will further appreciate that the precise types of software and hardware used are not vital to the full implementation of the methods of the disclosure so long as players and operators thereof are provided with useful access thereto or the opportunity to play the game as described herein.

Further, the object flipping structure/platform described herein, including the flipping structure 104, 212, 312, 402, 600 or the flipping platform 822, can be formed or constructed in various way from various materials. In one implementation, the object flipping structure/platform can be rigid, such as metal or hard plastic, and can also include a soft top surface such as felt. In another implementation, the object flipping structure/platform can include a rigid layer, such as a metal or hard plastic layer, a compliant layer, such as rubber, elastomeric or other flexible material, and also a soft top layer such as felt. In another implementation, the object flipping structure/platform can include a compliant layer, such as rubber, elastomeric or other flexible material, and may but need not have a rigid or soft layer, but could have a structural support, such as an underlying frame. More generally, the flipping structure/platform can have a laminate construction. In yet another implementation, the ends of the flipping structure/platform (or at least a layer thereof) can be thinner that the center portion for added flexibility at the ends.

The various aspects, features, embodiments or implementations of the invention described above can be used alone or in various combinations.

Embodiments of the invention can, for example, be implemented by software, hardware, or a combination of hardware and software. Embodiments of the invention can also be embodied as computer readable code on a computer readable medium. In one embodiment, the computer readable medium is non-transitory. The computer readable medium is any data storage device that can store data which can thereafter be read by a computer system. Examples of the computer readable medium generally include read-only memory and random-access memory. More specific examples of computer readable medium are tangible and include Flash memory, EEPROM memory, memory card, CD-ROM, DVD, hard drive, magnetic tape, and optical data storage device. The computer readable medium can also be distributed over network-coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

Numerous specific details are set forth in order to provide a thorough understanding of the present invention. However, it will become obvious to those skilled in the art that the invention may be practiced without these specific details. The description and representation herein are the common meanings used by those experienced or skilled in the art to most effectively convey the substance of their work to others skilled in the art. In other instances, well-known methods, procedures, components, and circuitry have not been described in detail to avoid unnecessarily obscuring aspects of the present invention.

In the foregoing description, reference to “one embodiment” or “an embodiment” means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase “in one embodiment” in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Further, the order of blocks in process flowcharts or diagrams representing one or more embodiments of the invention do not inherently indicate any particular order nor imply any limitations in the invention.

The many features and advantages of the present invention are apparent from the written description. Further, since numerous modifications and changes will readily occur to those skilled in the art, the invention should not be limited to the exact construction and operation as illustrated and described. Hence, all suitable modifications and equivalents may be resorted to as falling within the scope of the invention.

	Number	Date	Country
Parent	16167455	Oct 2018	US
Child	16877232		US

GAMING OBJECT FLIPPING APPARATUS FOR ELECTRONIC GAMING MACHINE

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CROSS-REFERENCE TO RELATED APPLICATION

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