Progressive gaming method, apparatus, and program product for lottery-type gaming systems. Lottery ticket dispensing machine for multiple priced tickets based on variable ratios. Lottery game based on combining player selections with lottery draws to select objects from a third set of indicia. Extension to a lottery game for which winning indicia are set by selections made by winners of a base lottery game.
Gaming device having a wagering game wherein a wager amount is automatically determined based on a quantity of player selections. On-line lottery game in which supplemental lottery-selected indicia are available for purchase. On-line lottery extension game having an instant component and a draw-based component. Method and apparatus for operating lotteries and for generating and processing lottery entries.
Lottery game played on a geometric figure using indicia with variable point values. Preprinted lottery tickets using a player activated electronic validation machine. Gaming device having a selection game with player choice and a predetermined game outcome. Gaming system and method having multi-level mystery triggered progressive awards. Gaming system and method for providing multiple level progressive awards with increased odds of winning higher level progressive awards.
Systems and methods for interactive wagering using multiple types of user interfaces. Gaming system and method providing a multiplayer bonus game having a plurality of award opportunities. Method and apparatus for providing a lottery game with linear position based prizes. Gaming system and method enabling player participation in selection of seed for random number generator.
Gaming system and method providing a plurality of awards and a cumulative award. Gaming device having a game with multiple selections and progressive game incrementation. Gaming system and method with multiple progressive award levels and a skill based determination of providing one of the progressive award levels.
Gaming device and method providing relatively large awards with variable player participation levels. Gaming system, gaming device, and method for providing a game having a first evaluation based on drawn symbols and a second evaluation based on an order in which the symbols are drawn. Method and apparatus for providing an instant lottery game and a supplemental game. Gaming system and method for providing a multi-dimensional cascading symbols game with player selection of symbols.
Gaming system and method for providing a multi-dimensional symbol wagering game with rotating symbols. Gaming system and method providing a server that determines a reel set for an initial game play and reel sets for subsequent game plays. Gaming system and method providing a user device that receives and stores a reel set for an initial game play and reel sets for subsequent game plays. Gaming system and method providing a collection game including at least one customizable award collector.
Gaming system and method providing a user device that receives and stores reel sets for subsequent game plays. Gaming system and method providing a server that determines reel sets for subsequent game plays. System and method for determining the volatility of a game based on one or more external data feeds. Central determination gaming system and method for providing a persistence game with predetermined game outcomes. Gaming system and method for converting primary game outcomes to secondary game outcomes.
System, method and article of manufacture for providing a progressive-type prize awarding scheme in an intermittently accessed network game environment. Do you have better odds of winning if you buy tickets early in the morning or late at night? Will you have more chances if you purchase tickets the first day after the previous draw, or wait for an hour before the buying deadline? The truth is that any claim is this department is merely a theory. However, here is something that you can use.
If you plan on buying ten tickets, try to spread the purchases a bit. For example, purchase one ticket tomorrow morning, and then another one the day after that in the afternoon. The idea is that you might have better odds if you cover all times of the day. Instead, you can purchase tickets at any time of day and night.
This tip has a lot to do with basic math. The odds of winning the jackpot are quite slim as they are set at ,, However, those chances apply to a single ticket purchased for the drawing. If you apply basic calculations, purchasing ten tickets will improve the odds to ,, The chances are still not favorable, but they are ten times better than if you buy a single ticket!
That is why you should consider purchasing more tickets. You will improve your odds of winning other prizes, too, which increases the chances of at least getting your investment back.
You should aim to buy more tickets even if that means you need to miss a round or two. It is better to play a single round with better odds than multiple rounds with slim chances!
We understand that deciding the numbers to put on your tickets is a big part of the gaming experience for many lottery players. Here is the idea — if the odds of winning a jackpot are ,, that theoretically means that your combination will be drawn every , sessions. While this is also nothing but a theory, you can analyze the numbers pulled out from the drum over several weeks.
If you notice that you hit a particular number twice, replace it, but keep the rest of the combination. Here is a different take on observing your lottery odds.
This lottery format has 8. That selection type all odd is available in 74, combinations. If we do the math, every th combination contains all odd numbers, so we will see it every sessions. This is one of 2,, potential combinations that contain a balanced odd and even number mixture. The probability theory indicates we will see this combination type every three draws. Here are the formulas used above:. Our question is, what is better — playing a combination that has the probability of getting drawn every sessions or those with a probability of appearing in every third draw?
If we are talking about the lottery, playing a single combination in a game with jackpot winning odds of ,, means only one of million combinations can secure you the grand prize.
Ultimately, the odds are nothing but the relationship between the desired outcome and the undesirable outcomes.
As for probability, it discusses how likely a particular event is to happen. Now, a single combination might have the odds of ,, But if you play an equal balance of odd and even numbers, those take , potential combinations. Here is an interesting formula that includes both odds and probability, and shows how they are connected:. Source: Towards Data Science. The similar rates apply to low and high numbers and even numbers from different decades. If you stick to the highest probability, that means you have the best chances of your combination type appearing during the draw.
The law of large indicates that the bigger the sample, the higher the chances of achieving the expected results. Jacob Bernoulli offered proof for this theorem, which is now used in various industries. That includes everything from economics and finances to entertainment and gaming businesses. It says that the estimated frequency for three odd and three even number combinations is 33 out of draws. In reality, it might appear in 26 of the first draws. The point is that the more draws are made, the higher the chances of the probability of achieving the expected rate.
A possible refusal to correct the timing unit 25 can be, for example, in the case when, after the last correction of said block, an insufficiently large time period has passed. Other cases of refusal of a correction will be considered below.
The further functioning of the system depends on the nature of the event, the data source of which is denoted by numeral 1, and also the nature of the user's 3 participation in it. If the user is a participant of the lottery or sporting totalizator without desiring to predict the actions of, for example, sportsmen in the course of the game itself, as a result of the termination of one or several actions included in some event the hypothetical data are recorded in the memory of the PSD before it starts.
The term event can be understood as running a lottery, chess match or game, a heavyweight boxing match, a tennis match, basketball game, game of roulette etc. In this case, some actions could be cited which are going to exist in these events: dropping the winning number out of the lototron, moves in the chess game, efforts of the boxer to prolong the bout after he has missed a knockout blow, drawing of the next ball tennis, basketball, football, water polo etc.
The requisite data on all events and actions which participate in the lottery or totalizator are stored in the memory of the computer 17, after which they arrive in the memory of the CD 7. A preliminary selection of the requisite data is carried out with the aid of the preliminary data processing means 16, the functions of which, as was mentioned above, can be fulfilled by a human operator selecting data participating in the draw from the CSD 14, which is constructed, for example, in the form of a video recorder at whose input data arrives, firstly, about the event from the source 1 with the aid of one or several actual data sensors 15 or via one of the communication channels 2 and, secondly, from the timer The exchange of data between the computer 17 and terminals 11 is effected via the communication channels 10 which, in particular, contain specialized adaptors: universal synchronous-asynchronous transceivers USART.
If, after the termination of the event, the user won a large prize, he evidently must present the PSD at one of the points where the terminal 11 is arranged where, after direct connection marked by the dotted line 8 in Figure 1, firstly, the appropriate data are read from the memory of the PSD to the memory of the CD 7, secondly, said data are compared with those data which have arrived in the memory of the CD 7 from the data collecting centre 9 and, thirdly, the sum of the winnings is calculated in accordance with the result of this comparison and also with the conditions and rules set out by the organizers of the event.
The winnings may be handed over to the user in cash or transferred without cash to his account or card through one of the data output devices In the case of small winnings, the reading of the appropriate data from the memory of the PSD to the memory of the CD 7 can be performed via one of the communication channels 5. To identify the user in the data collecting centre 9 or where the terminal 11 is arranged in the permanent internal memory of a PSD, it is possible to keep a corresponding code.
Connecting the PSD to the communication channel 8 is also expedient in the case when there is a prize draw intended to attract viewers to the event being run. The following indices can be taken into account in the abovementioned data comparison: the level of coincidence between the hypothetical and actual data, the difference T1 i -t i , the difference T2 i -t i , and the difference T i -t i. Some variants in the concrete use of said indices when calculating the amount of the winnings will be considered below.
As already mentioned, the communication channels 8, 10 serve to connect the interface devices included in the PSD to the terminals 11 or to other interface devices included in said terminals.
It may be noted that the basic type of said channels which are used in teleprocessing systems is the separate dedicated telephone channel.
At the same time, it is usual to envisage the possibility of using switched telephone channels, telegraph channels and, in certain cases, broadband channels with a higher transmission speed. A range of methods is possible for organizing the connection between terminals subscriber points , the data collecting centre 9 and the PSD 4.
The following basic types of systems can be named among them: those with direct connections radial systems , those with multipoint communication lines, those with concentrators multiplexers , those with packet-type or normal radio communication, and those with local networks.
Of course, in real computer networks it is possible to use different combinations of the systems indicated, depending on the needs arising. It is, of course, also possible to transmit data, for example, recorded on a magnetic carrier, by post or by courier to the point where the terminal 11 is arranged. It is very convenient for the user to be able to make a preliminary check of the results of the draw on their home PC, which in this case is used as the CD 7.
Data, and also software required for such checking can be received through communication channels 6, for which it is possible to use the internet, for example.
Recording the hypothetical result of the termination of the selected i-th event in the memory of the PSD is performed after storing the event code in said memory, and this is done by pressing on the key 38 "input code". The process of recording in the memory consists in sequentially composing appropriate signs figures or letters with the aid of keys included in the keyboard 36, and subsequently pressing on the key 43, in which process all the abovementioned data are represented on panel The numerical alphanumeric, letter codes of all the events are set up, as a rule, once and not changed subsequently.
An example which can be given is the possible numerical codes which can correspond to certain events basketball - 01, football - 02, boxing - 03, chess match - 04, chess game - 05, "sport-loto" lottery 06, "policy" game - 07 , and also certain actions included in said events free throw in basketball - At the same time as the hypothetical data composed by the user 3 are recorded, the current time value, which has been established by the timing unit 25, is also recorded in the internal memory 23; in this case, the term current time is understood as only one point date and current time or the start of time reading after recording in the memory of the PSD of the corresponding data which point lies on the time axis.
In other variants of the PSD, when the hypothetical data are first input the timing unit 25 is switched on and operates, in this case, as a timer.
The possibility of simultaneous recording in the internal memory 23 of the hypothetical data and the current time value, and also of carrying out other actions connected, for example, to inputting and outputting said data from the PSD is ensured with the aid of appropriate software and a standard microprocessor structure which can be implemented on a monocrystalline microcomputer constructed in accordance with KNOP - a technology which is of low power consumption mu W.
A typical microcomputer comprises the following, connected by the common internal bus the processor 34, the internal memory 23, the controllers 21, 24, 26, 28, 31 and the bus adaptor, which contains at least the transceiver 24 and the interface block with the communication line A continuation of the internal bus is the external bus, to which it is possible in our case to connect input devices interfaces of the communication line of one of the communication channels 6 or a controller included in the microcomputer 7.
The PSD contains a decoding element 18 as one of the input devices. The following may be used, for example, as output devices contactless optical, ultrasonic, acoustic, electromagnetic radiators, a magnetic storage device on microcassette. The controllers are intended for interfacing corresponding devices 25, 20, 32, 29, 27 with the internal bus 22 of the microcomputer. The adaptor of the buses fulfils the function of electric and, possibly, logical interfacing.
It should be noted that in the example given above the user can refuse the correction of the timing unit 25, since after the acquisition of the PSD by the user, or after his last correction, the readings of the timing unit may not be very significantly lead the readings of the timer Thus, in order for the hypothetical data action 51 to participate in the next draw of the i-th event, it is sufficient to record them not later than the time value T i -g, where g is the maximum error accumulated in the PSD after its last correction.
Note that for the purpose of practical implementation of the possibility presented participation in the game without correction of the PSD the timing unit 25 must be set in such a way that the relative error of the time reading is only positive under any condition. In other words, at any moment of time except for the moment of the correction itself the timing unit 25 must be ahead of the actual time fixed by the timer Let us examine below the general functioning of the system on the basis of some concrete examples.
We may take as first example, as mentioned above, the most widespread variant of the football totalizator, where it is necessary to guess the results of three separate football matches. To participate in said totalizator, the user must make a stake by any known method and at any time prior to the start of the first of the three matches. Similarly, at any time prior to the start of the first of these matches or prior to the start of any of said matches, if permitted by the rules, the user 3 records in the memory of the PSD the code of said variant of the totalizator and the hypothetical score of each match.
All the data code, results of the matches are indicated on the panel In the case where the user is participating in the lottery, it is necessary to record in the memory of the PSD the lottery code and the desired quantity of variants of the numbers participating in said lottery.
The presence of the elements 15, 14, 16, 13, 17, 7, 12, 10 is not obligatory for the variants under consideration, since after conclusion of the series of football matches or of the lottery the comparison, and also the calculation of the amount of winnings can be carried out manually of course, after reading in the data collecting centre 9 or in the place of the arrangement of the terminal 11 from the memory of the PSD the hypothetical data and the time coordinate of its recording on the basis of the currently existing technology.
As has already been mentioned, data from the internal memory of the PSD can be read both by contact methods and by contactless ones.
Let us further examine one of the variants of the construction of the PSD directly during the course of some event, using the example of games of basketball, chess, football, and also boxing. If, before the start of running said event a sufficiently long time has elapsed after the last correction of the PSD, it is desirable though not obligatory to run it again "YES" in condition 48 , since the presence of an error in the time measurement can falsify the value t i , and thus the parameters taken into account when determining the extent of the winnings.
Note that depending on the complexity of the timing unit 25, the frequency of the required correction can be within the limits of several weeks up to several months. A correction itself is carried out directly using a contact or contactless method by transmitting to the timing unit 25 a special correcting signal intended to bring the readings of the timing unit 25 into unique correspondence with the readings of the timer 13 or with the current value of exact or world time.
In the case of using a contact method, the correcting signal arrives via one of the input devices 27, which is constructed in the simplest case in the form of a connector.
In the case of a contactless method, an input signal arrives at the input to the decoding element 18 and is used to derive a correcting signal by amplification, preliminary processing and decoding.
Amplification and preliminary processing are performed in the receiver 19, and decoding in the decoder The type of receiver 19 and decoder 20 is selected as a function of the type of input signal radio signal, optical and acoustic ones and its type of modulation.
Let us consider below several variants of conducting the correction process. The first variant is related to the PSD correction carried out in the place specially set aside therefor. In the case of the use of this variant, it is expedient or even necessary to transmit together with the correcting signal a certain non-repeating code which, after storage in the PSD, will serve to ensure the truth of the correcting signal. If the correction is carried out in an arbitrary place using acoustic, telephone or radio signals of exact time, in the case of subsequent reading with the aim of excluding deliberate attempts to reduce the readings read by the timing unit 25, it is desirable to check the truth of such a correction.
One of the possible methods of such checking consists in separately determining and comparing the relative errors of the timing unit 25 relating to two time periods. The first period falls within its two last corrections, and the second between the last correction and the moment of the abovementioned reading. If the signal of exact time is true, and not a preliminary recording, for example on a tape recorder, the values of the relative errors will be equal, to the given accuracy.
To increase the trustworthiness of such checking, it is necessary to have several identical independent timing units 25, the value of the time reading of each of which is recorded and kept in the corresponding memory area of the PSD.
In this case, a conclusion on the trustworthiness or falsity of the exact time signal used is reached on the basis of the criterion of achieving a given number of such timing units 25 which passed the abovementioned checking. The other variants of correction can comprise the following operations: joint transmission of the correcting signal and code, which is repeated twice once prior to the start of the event, and a second time prior to its conclusion , joint transmission of the correcting signal and code.
Note also the method of storing the time t i which in no way requires correction of the readings of the timing unit The essence of this method consists in the fact that the time coordinate which is fixed by the PSD at the moment of recording the hypothetical data is "attached" at the moment they are read. In other words, after data are recorded in the memory of the PSD, one or several timing units 25 start to function as timers, each of which separates two events.
One of these events is the moment of storing the data after pressing on the key 43, 41 or 42 , while the other is the moment they are read after pressing, for example, on the corresponding key located on the PSD or CD 7. Thus, a need exists for a method of playing a lottery game which reduces or eliminates player error resulting from the player choosing his or her own set of lottery numbers. For the foregoing reasons, there is a need for a method of playing a lottery game which does not require the use of a lottery ticket or game card or betting slip or selecting a set or series of numbers, the lottery ticket and selection process tending to decrease the profitability of the lottery game and increase player error in obtaining a set of lottery numbers.
The present invention substantially overcomes these and other prior art problems. The preferred embodiment of the method of the present invention solves the aforementioned problems in a straightforward and simple manner. An object of the present invention is to provide an improved method of playing a lottery game which does not require the use of a lottery ticket or game card or betting slip.
Another object of the present invention is to provide a faster and more convenient method of playing a lottery game. Another object of the present invention is to provide a method of playing a lottery game that is more profitable than the current methods of playing a lottery game. Another object of the present invention is to provide a more accessible and user-friendly method of playing a lottery game. Still another object of the present invention is to provide a method of playing a lottery game which includes a multiplicity of games with different odds and prize structures.
The present invention is directed to a method of playing a lottery game without the use of a lottery ticket. The method requires a currency bill or bank note bearing an alphanumeric code, such as a serial number, and denomination. The currency bill or bank note is inserted into a locally situated machine which reads the alphanumeric code and denomination of the currency bill or bank note. Alternatively, this information can be entered manually by a lottery agent, such as the retailer who is licensed to operate the machine.
The locally situated machine then stores the alphanumeric code and denomination of the currency bill or bank note as a set of numbers in the machine's memory. The machine then prints out a receipt bearing the alphanumeric code and denomination of the currency bill or bank note along with the day of drawing of the lottery game being played.
The set of numbers stored in the locally situated machine's memory is then transferred to a remotely located main computer's central memory. The computer then randomly selects by running an appropriate software program a set or series of numbers from among the sets or series of numbers transferred to the computer.
The selected set of numbers wins the lottery game. The selection of winning numbers can be for one or more sets e. In a preferred embodiment of the present invention, the main computer stores the number of times the currency bill or bank note has been inserted into all locally situated machines, along with the alphanumeric code and denomination of the currency bill or bank note, as a set of numbers. In the most preferred embodiment of the present invention, the computer stores the alphanumeric code and denomination of the currency bill or bank note, along with the number of times the currency bill or bank note has been inserted into all locally situated machines, as a set of numbers and letters.
In the present invention, it is important to understand that any bill can be played numerous times since currency changes hands. For example, a person could play a bill on one locally situated machine in Pensacola, Fla. These and other features, aspects, and advantages of the present invention will become better understood with regard to the following description, and appended claims. The present invention is directed to a method of playing a lottery game in which the players' wagers are placed in a common pool and selectively divided among them in accordance with their own selections and the rules of the game.
The present invention comprises a method of playing a lottery game without the use of a lottery ticket or game card or betting slip. The currency bill or bank note is inserted 14 into one of many machines, located throughout the lottery's geographic area, which reads 16 the alphanumeric code and denomination of the currency bill or bank note.
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