US 20040212150 A1
The present invention relates to an enhanced casino game in which the principles of the standard Roulette game are applied to a standard deck of playing cards. The use of standard gaming tools for this improved game of roulette provides an enhanced experience for the player while bringing flexibility in the choice of the casino house income ratio for the casino management team.
 This application is a divisional of U.S. Ser. No. 09/912,428 filed on Jul. 26, 2001.
 The present invention relates to the use of standard gaming tools for playing a live casino table game. More particularly, the invention relates to a use of standard gaming tools for playing a live casino table game offering new betting options in addition to the wagering options offered in classical roulette casino games and associated with more various and advantageous odds.
 Casino owners are always interested in introducing new casino games that generate more benefits for the casino house.
 More particularly, the game must sustain the interest of the player as long as possible in order to optimize the time spent by the player at the table and his participation in the game.
 The Roulette is a very popular table game that is found in almost all casinos. Roulette consists essentially in wagering on at least one number from a plurality of numbers, believing that the wagered number will be randomly drawn from the plurality of numbers. Players make wagers by positioning, on a game surface, some chips, tokens or markers on one or many areas, each area corresponding to one or many betting numbers.
 The European Roulette has 37 betting numbers i.e. 1-36 and 0 and the American Roulette has 38 betting numbers i.e. 1-36, 0 and 00.
 The game surface forms a rectangular pattern of thirty-six (36) squares laid out in twelve (12) stacked rows, each row having three (3) adjacent squares, each square associated with a particular number from 1 to 36.
 A plurality of betting squares are on the edge of the rectangular pattern. One square represents a zero
 A player makes his or her bet by placing his positioning markers, chips or tokens at the appropriate place on the playing surface.
 A player chooses his or her betting risk level by making a wager identifying 1, 2, 3, 4, 6, 12 or 18 numbers and consequently, a player chooses his or her level of winning bet payout. For the European and American Roulettes the payout table is as shown in Table 1.
 For example, if a player has wagered on the number 24 in a
 When a betting period ends, a dealer starts the random selection process. In live table roulette, the dealer typically launches a ball in the roulette in rotation. The random selection is performed when the ball positions itself in one of the notches arranged side-by-side on the internal side of the roulette rim, each notch being associated with a betting number. The dealer distributes the payouts to the players according to the payout table.
 An important advantage of the roulette game is that the roulette game is based solely on a random event wherein wins and losses made by players or the casino house are independent of player skill. The players appreciate the simplicity of the game which triggers feelings of enjoyment and relaxation.
 The casino house appreciates the fact that the income percentage is constant and not influenced by player experience and skill compared to other games such as Poker and Blackjack card games where the casino house's losses depend on player strategies and skills.
 Another advantage of the Roulette is the various levels of betting risk offered: players appreciate to choose and control their own level of betting risk according to their gut feeling and their wealth. The casino house appreciates that conservative players as well as high-rollers may be at ease to participate in a casino game that favors an optimal table activity in terms of number of players and dedication to the game.
 A random process independent of player skill and a variability of betting risk levels are two advantages that have contributed to make the Roulette a very popular and appreciated table game among players and casino management.
 However, the Roulette numbers are less attractive to players than playing cards. The cards show colorful betting symbols in addition to numbers such as objects:
 Furthermore, the income percentage cannot be changed for a roulette game without changing the game itself. For example, the casino income ratio for the European Roulette is 1/37, or approximately 2,70% and for the American Roulette is 2/38, or approximately 5,26%. Consequently, the casino house cannot adjust the income percentage according to market competition or the casino activity.
 The possibility of modifying the casino income percentage without changing the roulette game would be a great advantage. For example, a casino could decrease the Roulette income percentage to create an incentive to players during low casino activity periods or to create some frenzied hours enjoyed by players. Also, a casino having regular customers and low or no competition such as local or governmental casinos, could appreciate and find advantageous for the casino house to increase its income percentage on crowded periods.
 Therefore, a need exists for an enhanced roulette game that retains the advantages of classical roulette games, such as many betting risk levels on a same event, the socializing atmosphere, and the speed of the game, but overcomes classical roulette disadvantages by offering flexible casino incomes and more attractive features to players.
 It has been found that to appeal and sustain the interest of players in new casino games, the games have to possess some elements familiar to the players, in order not to frighten them, and, at the same time, to offer new interesting features, in order to provide a new source of excitement and enjoyment for the player and interest for casinos.
 The present invention provides a method and system for playing an enhanced roulette casino game by combining the advantages of classical European and American Roulette with new features that solve some disadvantages of classical roulette games.
 More precisely, the present invention provides an enhanced roulette game based on a random event wherein player and casino wins or losses are independent of player skill and offers a variability of risk levels to players with new advantages such as attractive betting symbols and flexible casino house income percentages.
 The present invention further provides a method and system for playing an enhanced casino game, which offers to players familiar, and well known appreciated Roulette betting options wherein odds may be different without it being apparent to players and without changing the style of the game.
 The present invention also provides a method and system for playing a casino game that offers new and additional betting options.
 According to one aspect of the present invention, there is provided a use of a standard deck of playing cards and a betting layout for a casino game simulating roulette allowing for a bet to be placed in association with a variable number of symbols with inversely proportional payouts. A payout-determining playing card is randomly selected from the standard deck of playing cards, the payout determining card being any card from the deck. A player places at least one gaming bet, each gaming bet choosing a number n of betting cards displayed on the layout, and, when the random selection matches one of the n betting cards, a payout is calculated using the payout determining card for the player for each gaming bet, the payout amounting to 48/n.
 According to another aspect, there is provided a use of a roulette gaming device having at least roulette numbers 1 to 36 and 0, two types of markers and a betting layout for a roulette casino game allowing for a bet to be placed on a variable number of symbols with inversely proportional payouts and for bets to be held. A player places at least one standard bet using a first type of markers, each standard bet choosing a series n of betting numbers displayed on the layout of roulette numbers and a securing bet using a second type of markers, the securing bet choosing a series s of betting numbers as bet securing numbers, wherein the bet securing numbers allow the player to modify a casino house income ratio. A payout-determining number being randomly selected from the set of roulette numbers, when the payout-determining number matches one of the n betting numbers chosen, a payout is calculated using the payout determining number, for the player, for each standard bet, the payout amounting to 36/n.
 A player has an opportunity to bet on the outcome of a random card selection from a deck of playing cards. A player selects a number of cards among cards identified as betting cards and bets on the occurrence of one of the number of cards will be randomly selected from the deck. The selected number of cards are identified by one or many following card features: rank, color, suit, parity, rank range or by a geometrical characteristic as column, block, circle etc. The player decides which level of betting risk he or she wants to take on the outcome of the random event in selecting a number of cards and in deciding his or her betting amount. A random card selection from a deck of playing cards is performed.
 If there is a match between at least one card identified by the bet made by the player, his or her bet is a winning bet. A payout is credited to the player accordingly to a payout chart.
 The method offers a new possible spectrum of payout odds as follows: 48 (47:1); 24 (23:1); 16 (15:1); 12 (11:1); 8 (7:1); 6 (5:1); 4 (3:1); 3 (2:1); 2 (1:1); compared to the payout odds of European or American roulette games: 36 (35:1); 18 (17:1); 12 (11:1); 9 (8:1); 6 (5:1); 4 (3:1); 2 (1:1).
 The use of playing cards, adding new betting options and various colorful features, compared to betting options of classical roulette games, is attractive to players.
 In one embodiment, a play board is provided with a game surface and betting locations. The game surface presents areas corresponding to cards of a playing deck and arranged in a geometric pattern. Geometrical characteristics formed by playing card areas of the game surface, such as: column, row, square, block, circle are used for identifying a number of playing cards. Each playing card area provides a betting location accepting a marker, token or chip and permitting players to make a wager on corresponding playing cards. The geometrical characteristic area accepts a marker and permits players to wager on a number of playing cards. A player makes a wager in placing markers, tokens or chips on an area identifying a card or a geometrical characteristic area. A random drawing from a deck of playing cards selects a payout-determining card. A principal game payout is calculated when the payout-determining card matches one betting card identified and, otherwise, a payout of zero is determined when the payout-determining card does not match any of betting cards identified. The player is credited with the payout.
 According to one aspect of the invention, a system is provided comprising: an accepting means for accepting a bet identifying a number (n) of cards of a deck of playing cards; a random card selector for selecting at random at least one card of the deck; that is in comparing the identified number (n) cards to at least one the random selected card, the bet is a winning bet if there is a match between at least one card of the number (n) cards and one card of the randomly selected card.
 For example, in one embodiment, a play board provides a game surface with 52 areas representing 52 playing cards. Forty-eight (48) playing card areas representing the forty-eight playing cards identified as betting cards are arranged in a rectangular configuration counting four (4) columns and twelve (12) rows. In the present embodiment, players enjoy familiar betting options similar to that of the Roulette, such as:
 For example, in European or American roulette games, the spectrum of payout odds is: 36 (35:1); 18 (17:1); 12 (11:1); 9 (8:1); 6 (5:1); 4 (3:1); 2 (1:1). According to the present invention, the method offers for the same betting options and a new possible spectrum of payout odds as follows: 48 (47:1); 24 (23:1); 16 (15:1); 12 (11:1); 8 (7:1); 6 (5:1); 4 (3:1); 3 (2:1); 2(1:1).
 If a player has wagered on two cards with a
 The invention is appealing to players because of the familiar roulette betting options with a different spectrum of odds.
 In addition, in one embodiment, the remaining cards, not identified as betting cards, are identified as
 Preferably, at least one of the
 Preferably, at least one card of the outside cards is a
 A casino house determines the income percentage per game by modifying from turn to turn or setting the selection of
 For example, a casino takes a deck of playing cards having 52 playing cards, identifies 48 cards as betting cards and the four remaining cards as outside cards.
 The casino chooses one among the four
 Preferably, at least one of the betting cards is an
 A betting option on an
 A betting option on an
 Preferably, a player has the possibility to make a bet identifying a number s of betting cards as
 The possibility of identifying a
 These and other features, aspects and advantages of the present invention will become better understood with regard to the following description and accompanying drawings wherein:
FIG. 1A is a schematic representation of a prior art classical American roulette game surface and FIG. 1B is an auxiliary game surface layout;
FIG. 2 is a schematic view and representation of the system of the present invention;
FIG. 3 is a flow chart representing the method of a preferred embodiment of the present invention;
FIG. 4 is a schematic representation of the game surface of the present invention;
FIG. 5 is a block diagram of the apparatus of the present invention;
FIGS. 6A and 6B are combined to form a flow chart representing the steps and one method of playing at the game of the present invention without randomly selected auxiliary prize;
FIG. 7 is a block diagram of the apparatus for granting a randomly selected auxiliary prize; and
FIG. 8 is a flow chart representing the steps and one method of playing at the game of the present invention with randomly selected auxiliary prize.
 Referring to FIG. 1A, which is a representation of the betting layout of a classical American roulette game and FIG. 1B which is an auxiliary betting layout, the thirty-six (36) squares are shown, each one being associated to a number 1 to 36, laid out in twelve (12) stacked rows, of three (3) adjacent squares each. There are also two special areas, representing a zero
 A player chooses his or her betting risk level by positioning markers, chips or tokens on areas corresponding to the betting options typically offered by classical roulette games. Examples of such bets are illustrated in FIG. 1A, wherein the dark circles are tokens shown are the
FIG. 1B, is an auxiliary roulette layout. Some auxiliary roulette games associated with a principal roulette game offer players the opportunity to make an additional or a side bet by selecting one of the conventional numbers of the roulette game, i.e. 1-36, 0 or 00 without regards to parity or color. Shown are the thirty-six (36) squares laid out in twelve (12) stacked rows, each row of three (3) adjacent squares, each one. associated with a particular number from 1 to 36 and two additional squares labeled
 How to play the present enhanced roulette game and use the system may be understood by referring to FIG. 2 of the drawings, which shows a live table casino game played by a dealer 38 and a plurality of players 40 surrounding a casino table 42. The betting game surface layout 44 is placed in an efficient and aesthetic manner allowing a dealer and players to properly accomplish their movements in an easy and efficient manner. A random selector 46 randomly selects a card and a player position. In the present embodiment, the random card and player position selector 46 is an electronic apparatus, known in the art, comprising a random selector controller 48, which manages electronic commands. A random card and player position selector control 50 connected to the random card and player position selector controller 48 is provided with a button, or a switch, which activates a random card and player position selection and a displaying of the selected card on the screen 52 and the selected player position on the selected screen among screens 54 of the display 56.
 A random prize selector 58 is also provided with the present invention and can be used, optionally, with some auxiliary games. In the present embodiment, the random prize selector 58 is an electronic apparatus known in the art, comprising a random prize selector controller 60, which manages various electric signals.
 A random prize selector control 62, in communication with the random prize selector controller 60, is provided with a button or switch that activates a random prize selection and a displaying of the prize on the display 63. The display 63 provides two screens 65, 67 for displaying data and various visual animations such as prize amounts, and other winning symbols, such as a happy face. Furthermore, visual communication means, such as a light 69, are provided for accompanying and indicating the various steps such as the prize generation process, the prize selection process and the prize granting and communicating processes.
 Furthermore, a dealer console 64 connected to the random card and player position selection controller 48 and to the random prize selection controller 60 is provided with the present invention in order to input commands required before the selection processes, such as the activation of the random card and player position selector control 50 and the random prize selector control 60.
 It will be easily understood that the random selector and the display apparatus can be integrated, or not, in the same apparatus.
 It will also be understood that each random selector, such as the random card selector, the random player position selector, and the random prize selector, can be considered as individual and separate apparatuses that can be integrated, or not, in one or more apparatuses.
 It will also be understood that the random card selector, can take many embodiments. For example, it can be a mechanical apparatus such as a roulette wheel with 52 notches, wherein inside each notch is shown a card among the 52 playing cards of a deck; an electromechanical card shuffler capable of picking up a card randomly, or any other analogous apparatus can also be used. In the present embodiment, the random generator is an electronic apparatus known in the art. In the preferred embodiment, the random card selector is an electronic random generator due to the reliability and speed needed for the occurring random event.
 In addition to the random card selector, the present invention also provides a random player selector. Again, the player position selector apparatus can take various embodiments, such as a dice-prism with eight faces, each face representing a particular player position with a number between 1 and 8 or one of the 8 chip colors: a ball associated with a wheel of a minimum of eight pockets or notches, each one representing a number from 1 to 8 and/or a chip color. In the present embodiment, the random player selector is an electronic random selector. The reason is the reliability and the speed necessary for the random process. In the. present embodiment, there is a maximum of 8 players at each table.
 It will be furthermore understood that various combinations of switches and buttons are possible for reaching the same objective. The number and the activation sequence of the buttons or switches and their association to the dealer and/or the random selector control depend on various considerations, such as the speed of the game, and the interest of the player. For example, for each random selection of a card or a player position, a particular button or switch can be provided for each of the following steps: a first switch or button for starting a random generation process; a second switch or button for stopping the random generation process, and executing a random selection; a third switch or button for displaying the selected item on the screen, and another switch or button for resetting the random selector and display.
 As it is understood, all these functions can be integrated in one or more operations, started by one or more switches.
 Referring now to FIG. 3, shown is a flow chart representing a preferred embodiment of the method of the present invention. The term
 The method comprises a step of Identifying cards from a deck of playing cards as betting cards 70. Preferably 48 cards are identified as betting cards.
 The playing cards possess various betting symbols such as numbers and colors allowing Roulette betting options such as
 In addition to numbers, various and different betting symbols such as
 Playing card decks usually have 52 or 54 cards comprising 13 cards as follows: Ace, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, Jack, Queen and King for each of the four suits, usually
 In a preferred embodiment of the present invention, the deck has 52 cards. But, a skilled person in the field will appreciate the key features of the present method described, will understand, and will be able to apply the present method to a deck of cards having a lesser or a greater number of cards.
 In the preferred embodiment, the choice of a bet identifying a number of betting cards among at least a minimal number of 48 betting cards provides a set of various risk levels depending of the number (n) of cards, such as: 24, 16, 12, 8, 6, 4, 3, 2, 1 allowing one to calculate a payout of 48/n wherein the payout amount is an integer.
 For example, a player selects one card with a
 The method of the present invention virtually provides 47 levels of betting risk i.e. 1 to 47 betting cards identified by a single bet. For example, if 13 betting cards have been identified in a single bet and the randomly selected payout-determining card matches one card among those 13 identified betting cards, the payout multiplication factor will be 48/13 or approximately 3.6923, a non-integer for which a payout amount is more difficult, long and complex to calculate for an individual. Of course, if an electronic apparatus is used to calculate the corresponding payout amount, it is easier, faster and more accurate. If the present enhanced roulette game is played on an electronic apparatus or device, such as a video game or slot machine, non-integer payout multiplication factors do not necessarily create a problem and may still provides advantages to players and casinos.
 However, on a live table game, non-integer layout multiplication factors are unsuitable. The time for calculating a layout by the dealer, even if he or she has an electronic calculator, would most likely be unacceptable and would result in more mistakes. The player could have more difficulties to choose his or her betting risk and would take more time to wager in reason of large number of various betting risks.
 Furthermore, betting risks offered in such a large number of choices could require additional features and/or conventions to record a bet from a player identifying a number between 1 and 47 among betting cards and could overload processes or rules of the game. In a context of live casino table game, a large set of betting risk levels, i.e. a number of 1 to 47 betting cards identified by a single bet from a player, could put a disadvantage to rapidity and simplicity of the present enhanced roulette game in a live casino environment.
 The payout table preferably provides various payouts that represent various integer multiplication factors that allows to calculate the payout rapidly and easily by players and dealers. A restricted number of payout integer multiplication factors such as 48 (1:47), 24 (1:23), 16 (1:15); 12 (1:11), 8 (1:7), 6 (1:5), 4 (1:3), 3 (1:2),2 (1:1) from which a payout amount to players is easily calculated by a dealer, provides rapidity for the game and accuracy for credit transactions which favor enhanced Roulette table profitability.
 For a conventional roulette game, 8 levels of betting risk on the random selection of number from 1 to 36 is provided, such as 36 (1:35); 18 (1:17); 12 (1:11); 9 (1:8); 6 (1:5); 4 (1:3); 3 (1:2); 2 (1:1), corresponding to various integer dividing factors of the number 36. According to the preferred embodiment of the present invention, the spectrum of betting risk has 9 different betting risk levels, such as: 48 (1:47); 24 (1:23); 16 (1:15); 12 (1:11); 8 (1:7); 6 (1:5); 4 (1:3); 3 (1:2); 2 (1:1), corresponding to various integer dividing factors of the number 48.
 According to the present invention, offering a larger spectrum of risk levels attracts the players because of the larger flexibility and control in the determination of the betting risk on the random event. Furthermore, offering different betting risks compared with the betting risks offered in classical roulette games, provides an appeal to players in the game of the present invention because it renews the betting strategies of the roulette game.
 Referring back to FIG. 3, the method comprises the step of identifying remainder cards from the deck of playing cards as outside cards 72.
 The choice of cards as outside cards, allows to use the totality of cards of the playing deck, and at the same time, to obtain a suitable minimum multifactorial number such as 48 for the number of betting cards. The number of remainder cards depends on the number of cards of the playing deck used.
 As previously noted, the number of remainder cards can be considerable if a convenient number of extra cards are added to a deck of 52 playing cards.
 The number of outside cards can vary depending of the number of cards of the playing deck; the objective being to obtain at least a number of 48 betting cards. In the present preferred embodiment, the number of outside cards is 4 or 6 depending of the number of cards available in the deck of playing cards: 52 or 54 cards (with two jokers).
 When a bet from a player identifies all of the betting cards in a same suit, it would be preferable that a number (n) of the betting cards are identified such that the payout multiplication factor calculated be an integer amount. In a preferred embodiment, a card from each suit is selected as an outside card such that when a bet from a player identifies all betting cards in a same suit, a number n=12 of the betting cards is identified and a payout is calculated such that 48/n is an integer.
 Preferably, the outside cards are four cards of odd face value so that when a bet from a player identifies all of the betting cards of a same parity
 Preferably, the outside cards are four cards of a same face value 7 so that when a bet from a player identifies all of the betting cards in a same range of face values, in one of the two ranges of face value lower or higher than face value 7, a number of n=24 of the betting cards, all of the betting cards in a same range of values is identified and a payout is calculated such as 48/n is an integer.
 Therefore, the card which is preferably removed from each suit of a standard deck of cards is preferably the card with a face value of 7.
 The classical European and American roulette games are commonly characterized by the same spectrum of betting options with the corresponding payout chart table shown in table 2.
 Numbers without parentheses represent total amounts received by the player. The amount corresponds to 36/n and comprises the bet amount refund to the player plus the bet amount from the player times the winning odds of the bet expressed in parentheses. For example, for a winning
 The European or American Roulette games offer players the same type of betting options with the same payout chart table, with the same rules and betting options.
 The difference between the European Roulette casino house income ratio of 1/37 or approximately 2.71% and the American Roulette casino house income ratio of 2/38 or approximately 5.26% comes essentially from the number of
 Therefore, by modifying only the number of
 For example, if a betting option has two times less chances than an other type of betting option to be a winning bet, for example comparing a
 As it can be appreciated, for the Roulette game, the casino house income percentage can be changed by decreasing or increasing the number of
 Unfortunately, modifying the casino house income ratio for one or another of the classical European and American roulette games by varying the number of
 An important constraint is that a modification to the casino house income percentage by modifying the number of
 The deletion of an
 Adding an
 Another important constraint is that each time an
 In the preferred embodiment, for a 52 playing card deck, the four chosen cards as
 The choice of the 7's, and Jokers from a deck of 54 playing cards, as
 Referring back to FIG. 3, the method comprises the step of identifying none, one or some of the outside cards as
 An outside card identified as a
 The method further comprises the step of identifying none, one or some of outside cards as
 An outside card identified as an
 Preferably, at least one card of the outside cards is identified as an
 In identifying the
 For example, with a deck of 54 playing cards, from 0 to 6 cards can be identified as
 It can be appreciated that switching between the seven casino income ratios is done by changing the number of cards identified as
 The method further comprises the step of identifying none, one or some of the outside cards as
 An outside card identified as an
 Preferably, at least one card of the
 A betting option on an
 If a payout amount calculated is the same as that of a winning
 For example, during a normal game of the enhanced roulette game, it is decided that, for the next game, an
 The method further comprises the step of identifying none, one, or some of betting cards as
 Preferably, a player has the possibility to make a bet in which a number s of the betting cards are identified as
 For example, a game surface having 54 areas corresponding to 54 playing cards and arranged in a geometric pattern is shown in FIG. 4. The two jokers are identified as
 Also, in the present example, the casino house offers to players an opportunity to identify one of the two
 A practical example is as follows: a player makes a bet identifying an
 S is the minimal bet amount required to identify a betting card as a
 IR is the statistical casino income ratio on a bet identifying a number n of betting cards before identification of a betting card as a
 IR* is the statistical casino income ratio on a bet identifying a number n of betting cards after identification of a betting card as a
 N is the turning-point total betting amount comprising the bet amount identifying a number n of betting cards (M) and the minimal bet amount required to identify a betting card as a
 M is the bet amount identifying a number n of betting cards with IR*;
 (1−IR) and (1−IR*) are corresponding statistical player refund ratios.
 In the current example, the winning bet
 If a player bets a betting amount of $52.00, it will be more favorable for him or her to identify a
 On the contrary, if a player bets a betting amount of $50.00, it will be more favorable to him or her to bet a total amount of $50.00 for identifying a number n of betting cards with a statistical player refund ratio of 48/51 and a statistical player refund amount of $47.06 rather than identifying a
 Consequently, the player who has made a bet identifying a betting card as a
 A Roulette game wherein
 Referring back to FIG. 3, the method further comprises the step of recording a bet from a player identifying a number n of betting cards 80.
 In preferred embodiments, players position markers, chips or tokens on corresponding betting areas on a playing game surface. It is understood that electronic betting devices or apparatus can replace physical markers and game surfaces, and allow players to choose and record bets.
 The method further comprises the step of recording a bet from a player identifying a number s of betting cards as
 In preferred embodiments, the markers and the manner used to identify a betting card as a
 The method comprises the step of drawing at random from a deck of playing cards a payout-determining card 82.
 The random card selection can be started by a player or the dealer, manually with one or more decks of playing cards counting 52 or 54 cards, mechanically with a mechanical apparatus such as a roulette wheel where each notch represents a card of the deck, in an electromechanical manner with an electromechanical apparatus such as a card shuffler or electronically with an electronic apparatus such as an electronic random card selector.
 In preferred embodiments, the random selection of a payout-determining card is performed by a random card selector because of the rapidity, low cost and fairness of the card selection process provided by an electronic apparatus compared with a physical roulette wheel. But, in some circumstances, a mechanical roulette wheel is more appropriate as a random card selector because of other aspects such as aesthetics, higher familiarity or preference of the players, dealers or casino owners for mechanical devices.
 The method then comprises the step of calculating a payout when a payout-determining card matches one of the cards identified by a bet from a player 84.
 By comparing the outcome of the random event i.e. the payout-determining card with the cards identified by bets made by players, the wins and the losses of the game are resolved according to the payout table. The predetermined payout charts determine the amount of payout.
 In the preferred embodiment, the dealer compares the result of the outcome of the random event i.e. the payout-determining card with the cards identified by bets from players, calculates the amount of payout determined by the predetermined payout chart and resolves the wins and losses of the players.
 The payout amount is calculated by multiplying an amount of a winning bet made by a player by the winning bet payout multiplication factor of the corresponding bet. The amount paid to the player corresponds to the payout amount added with his or her bet amount.
 For example, a player made a
 Finally, the method comprises the step of crediting player with the payout 86.
 The amount of the payout can be credited to players in cash, tokens, chips, tickets, goods, services or any objects to which a monetary value can be attributed.
 In preferred embodiments, the dealer takes from the bank and gives to the players a number of makers, chips or tokens corresponding to the calculated payout amount and returns to the player the bet amount wagered by the player.
 It is to be understood that, when the game is played on an electronic support such as a slot machine, a video game or with an electronic player wagering console, credits can be on an electronic support instead of material credit support such as markers, tokens or chips.
 Referring now to FIG. 4, which is a representation of the surface game of the present invention, the 54 squares are shown wherein 48 squares are laid out in 12 staked rows of 4 adjacent squares. Each square represents one of the 54 cards, which compose a 54 playing card deck. The 6 cards identified as
 In addition to typical classic roulette betting options, players can bet on additional betting options, such as a card suit:
 Referring back to FIG. 1, the steps of the preferred embodiment will be described more in detail. The dealer 38 invites players 40 to choose among the different betting options and to wager on the game surface 44. The players, with the help of colored chips, wherein each color is assigned to one player, select betting options and amounts by placing, on the game surface 44 layout, a number of chips on the corresponding card squares or on the intersection of rows and/or columns to signify a bet on a number or a group of numbers or on squares representing a player position. The dealer 38 calls for the end of the betting period. Referring now to FIG. 5, the dealer enters the game starting operation data into the dealer console 64. The dealer console 64 sends a game-starting signal to the random card and player position selector controller 48 . The random selector controller, sends an activation signal, and activates the card and player position random selector control 50. The dealer 38, or a designated player 40, starts the position and card random selection process via a random card and player position selector control 50 which is connected to the random card and player position selector 46. The randomly selected card and position data are sent to the display 56 that displays the randomly chosen payout-determining card and player position. In comparing the final outcome of a game, the randomly selected card, the randomly selected player position displayed by the display 56, and the betting options chosen by players, the dealer resolves the wins and losses according to the payout charts.
FIG. 6A and FIG. 6B, are joined to form a flow chart, which represents the steps of a method of playing the game of the present invention without randomly selected auxiliary prizes. The dealer and players first prepare for playing the game 128. The step may include clearing the table of wagers, tokens, markers or chips from previous games and letting players take their position for participating in a new game. The dealer calls players to participate in a new game; which may include one or both of a principal and an auxiliary game 130. Players interested in playing indicate their willingness and betting choices by placing markers, chips or tokens on card areas or on intersections of rows and/or columns.
 In this preferred embodiment, the auxiliary game is abet on the player position that will be chosen by the random selector. It will be understood that other auxiliary games could be played.
 According to the present method, players may decide to participate in principal and auxiliary games independently or in combination. A player that decides to participate in the principal game 132, indicates his or her participation by positioning principal betting selections 134 with the help of chips, markers or tokens, on the game surface layout 44.
 A player who decides to participate in an auxiliary game 136 places his or her auxiliary betting selections 138 by making an auxiliary bet on at least one of eight (8) additional areas numbered from 1 to 8 108 each one representing a player position.
 After allowing the to players to bet on the principal and auxiliary games, the dealer calls for the end of the betting period 140.
 A new game begins 142. The dealer selects an individual who will start the random card and player position selection process 144. A designated individual, the dealer or one of players activates a signal for starting a random card and position selection process 146. The activation operation and the signal sent, take various forms depending on apparatus used as random selectors.
 For example, when the selection apparatus is a mechanical wheel, the activation operation consists in spinning the wheel and the signal is the ball launched into the spinning wheel. In the case of an electromechanical shuffler or an electronic random card selector, the activation operation is to begin the random generation process, and the activation signal is an electric signal started in activating a switch or button. The switch can be a footswitch, an electromechanical lever switch, a wired electric switch, an unwired electromagnetic switch, etc.
 In the present embodiment, the card and player position random selector control 50 is an electromagnetic wired switch connected to the random card selector, and random player position selector 46, so that, in sending the random activation signal, the two processes take place at same time.
 In the present embodiment, the switch takes the form of a slap button. When pressed, it sends a signal to the random card and random player position selector 46, for executing a random card and player position selection.
 During a random selection process, the display 56 can display multiple changing cards and player positions accompanied with some sounds to enhance the excitement among players.
 As soon as a card and a player position have been randomly selected 148 by the random card and player position selector 46, the selected card and player position are immediately displayed 150 on one or a plurality of screens 54, 52 of the display 56 for enabling dealer and players to see the random outcome events.
 By comparing and matching the randomly selected card and player principal betting selections 152 indicated on the game surface layout 8, the dealer determines wins and losses according to the principal game payout chart 154.
 For illustration purposes, two payout charts among a plurality of possible payout charts are provided herein: TABLE 4 is used preferably if the principal game uses exclusively a single
 In addition, by comparing and matching the randomly selected player position and card displayed with the player auxiliary betting selections 156, the dealer determines wins and losses using the auxiliary payout chart 158.
 For illustration purposes, two possible auxiliary payout charts among many are presented. TABLE 6 is preferably used if, in the principal game, a single
 Then, when the dealer has determined the wins and losses, the game ends 160.
 Also, in conjunction with the randomly selected player position and card, another random feature, such as a random auxiliary prize selection can also be added.
 One way to include an auxiliary randomly selected prize is by offering the opportunity, upon the occurrence of a predetermined random event in the auxiliary game, to start a random prize selection. The opportunity of winning an auxiliary randomly selected prize allows to give larger payouts.
 By comparing the player auxiliary betting option with the card and player position randomly selected, a matching between a predetermined event in the principal game, such as the occurrence of a
 Referring now to FIG. 7 which is a block diagram of the apparatus for granting a randomly selected auxiliary prize according to the present invention and FIG. 8 which is a flow chart representing the steps of a method of playing the game of the present invention with a randomly selected auxiliary prize.
 From the comparison of the player auxiliary betting option data and the card and player position selected in the principal game 126, the dealer 38 can determine if none, one or some player auxiliary betting options correspond to predetermined occurring events in the auxiliary game 162 which give opportunities of randomly selecting an auxiliary prize.
 If a match happens between the predetermined auxiliary event and one or more of the player auxiliary betting options, then the dealer 8 records the auxiliary player position and the auxiliary bet amount corresponding to each the corresponding player 164, into the dealer console 64. Then, the auxiliary bet data and player position data are transmitted to the random prize selector controller 60 at the same time, the random prize selector controller 60 sends an activation random prize selection control signal and triggers the random prize selector control 62. Upon this trigger set in function, an indication is produced for communicating the actual activation of the random prize selector control 62. In the present embodiment, the indication is a visual indication means, such as a light 69. It is understood that the indication can take other embodiments and can be associated with audible, visual or sensing effects.
 Upon the designation of the dealer, the auxiliary winning identified player 166 activates the random prize selection process 22 via the selector random prize selector control 12. The random prize selected 168 is displayed after a short moment on the random prize display 63. According to the randomly selected auxiliary prize displayed 170, the dealer grants the randomly selected prize 172 and resolves the wins and losses along the auxiliary paying chart 158. Then the game ends 160.
 In a preferred embodiment, by comparing matches between a predetermined auxiliary event and a randomly selected player position, selected card and the auxiliary bets, the dealer resolves wins and losses along the auxiliary payout chart and determines if there is any winning auxiliary players. Then, to determine an auxiliary random prize, the dealer enters, on the dealer console 10, the auxiliary bet amount of the winning auxiliary player. The dealer invites the winning auxiliary player, if any, to slap on the second slap button 22. By punching the button 22, a random selection process of the winning prize in the auxiliary game is started. On the random prize display, 63, a random selected prize is displayed on one of screens 65 or 67. On the other screen, for example on screen 65, the auxiliary bet made by the winning auxiliary player, and entered on the console by the dealer, is displayed. A short period after, the total prize corresponding to the multiplication of the random selected prize by the corresponding auxiliary bet, is displayed on the first screen, 67. In addition, an optional happy face or other symbol can randomly appear on the second screen, 65.
 If a happy face appears on a second screen, a special prize is awarded to the winning auxiliary player in addition of the total prize displayed. The bonus prize can take many embodiments: a certain number of special chips, tokens or markers that constitute an entry in a future grand tournament between many casinos, an entry ticket for a special gaming event or any types of prizes such as a car, a trip or a monetary amount.
 As it will be appreciated by a person skilled in the art, the method and system of the present invention could be totally or partially connected to any other electronic apparatus, device or system enabling the creation of the enhanced principal and auxiliary games played by a plurality of players from a plurality of local or remote physical locations such as various casinos, hotels, houses etc.
 Although the present invention has been explained herein above by way of preferred embodiments thereof, it should be noted that any modifications to these preferred embodiments within the scope of the appended claims is not deemed to alter or change the nature and scope of the present invention.