U.S. patent application number 13/473573 was filed with the patent office on 2012-11-29 for method and apparatus that control risk and uncertainty in a lottery game.
Invention is credited to Mark B. Davis, Michael D. Frick, Stan Pade.
Application Number | 20120299241 13/473573 |
Document ID | / |
Family ID | 47218713 |
Filed Date | 2012-11-29 |
United States Patent
Application |
20120299241 |
Kind Code |
A1 |
Frick; Michael D. ; et
al. |
November 29, 2012 |
METHOD AND APPARATUS THAT CONTROL RISK AND UNCERTAINTY IN A LOTTERY
GAME
Abstract
A process is provided. The process generates, with a lottery
machine apparatus, a predetermined quantity of unique combinations
of a set of game indicia. Further, the process prints, with a
lottery ticket printer, a set of lottery tickets for a lottery game
such that each of the lottery tickets in the set of lottery tickets
distinctly corresponds to one of the unique combinations of the set
of game indicia. In addition, the process distributes a subset of
the set of lottery tickets in a plurality of lots. The process also
determines a maximum prize winner by selecting a winning unique
combination from a subset of the predetermined quantity of unique
combinations of the first set of game indicia that is associated
with the subset of the set of lottery tickets.
Inventors: |
Frick; Michael D.;
(Crawfordville, FL) ; Davis; Mark B.; (San Juan,
IL) ; Pade; Stan; (North Arlington, NJ) |
Family ID: |
47218713 |
Appl. No.: |
13/473573 |
Filed: |
May 16, 2012 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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12258373 |
Oct 24, 2008 |
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13473573 |
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12254777 |
Oct 20, 2008 |
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12258373 |
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12250270 |
Oct 13, 2008 |
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12254777 |
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12206376 |
Sep 8, 2008 |
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12250270 |
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Current U.S.
Class: |
273/139 |
Current CPC
Class: |
G06Q 50/34 20130101;
A63F 3/081 20130101; G07F 17/329 20130101 |
Class at
Publication: |
273/139 |
International
Class: |
A63F 3/06 20060101
A63F003/06 |
Claims
1. A method comprising: generating, with a lottery machine
apparatus, a predetermined quantity of unique combinations of a set
of game indicia, each of the unique combinations having a same
quantity of game indicia; printing, with a lottery ticket printer,
a set of lottery tickets for a lottery game such that each of the
lottery tickets in the set of lottery tickets distinctly
corresponds to one of the unique combinations of the set of game
indicia; distributing a subset of the set of lottery tickets in a
plurality of lots; determining a maximum prize winner by selecting
a winning unique combination from a subset of the predetermined
quantity of unique combinations of the first set of game indicia
that is associated with the subset of the set of lottery tickets;
and determining a plurality of secondary prize winning matches
based upon a plurality of partial matches from the predetermined
quantity of unique combinations and a quantity of the plurality of
lots that is distributed.
2. The method of claim 1, wherein odds for winning a maximum prize
are based upon a quantity of the lottery tickets in the subset of
the set of lottery tickets.
3. The method of claim 1, wherein odds for winning a secondary
prize in a plurality of secondary prizes. are fixed.
4. The method of claim 1, wherein the subset of the set of lottery
tickets is distributed according to a single price.
5. The method of claim 1, wherein the subset of the set of lottery
tickets is distributed according to multiple prices that each
corresponds to a proportionate distribution of a prize.
6. The method of claim 1, further comprising determining the
plurality of lots according to a predetermined indicium that is
selected from the set of game indicia.
7. The method of claim 1, wherein the lottery machine apparatus
comprises a processor.
8. A method comprising: generating, with a lottery machine
apparatus, a first predetermined quantity of unique combinations of
a first set of first game indicia and a second predetermined
quantity of unique combinations of a second set of second game
indicia; printing, with a lottery ticket printer, a set of lottery
tickets for a lottery game such that each of the lottery tickets in
the set of lottery tickets distinctly corresponds to one of the
first predetermined quantity of unique combinations of a first set
of first game indicia and to one of the second predetermined
quantity of unique combinations of a second set of second game
indicia; distributing a subset of the set of lottery tickets in a
plurality of lots; determining a maximum prize winner by selecting
a winning unique combination from a subset of a set of the
predetermined quantity of unique combinations of the first set of
game indicia and the predetermined quantity of unique combinations
of the second set of game indicia that are associated with the
subset of the set of lottery tickets; and determining a plurality
of secondary prize winning matches based upon a plurality of
partial matches from the first predetermined quantity of unique
combinations of a first set of first game indicia and the second
predetermined quantity of unique combinations of a second set of
second game indicia.
9. The method of claim 8, wherein odds for winning a maximum prize
are based upon a quantity of the lottery tickets in the subset of
the set of lottery tickets.
10. The method of claim 8, wherein odds for winning a secondary
prize in a plurality of secondary prizes are fixed.
11. The method of claim 8, wherein the subset of the set of lottery
tickets is distributed according to a single price.
12. The method of claim 8, wherein the subset of the set of lottery
tickets is distributed according to multiple prices that each
corresponds to a proportionate distribution of a prize.
13. The method of claim 8, further comprising determining the
plurality of lots according to the first set of first game
indicia.
14. The method of claim 8, further comprising determining the
plurality of lots according to the second set of second game
indicia.
15. The method of claim 8, wherein the lottery machine apparatus
comprises a processor.
16. A computer program product comprising a computer useable medium
having a computer readable program, wherein the computer readable
program when executed on a computer causes the computer to:
generate a predetermined quantity of unique combinations of a set
of game indicia, each of the unique combinations having a same
quantity of game indicia; print a set of lottery tickets for a
lottery game such that each of the lottery tickets in the set of
lottery tickets distinctly corresponds to one of the unique
combinations of the set of game indicia; distribute a subset of the
set of lottery tickets in a plurality of lots; determine a maximum
prize winner by selecting a winning unique combination from a
subset of the predetermined quantity of unique combinations of the
first set of game indicia that is associated with the subset of the
set of lottery tickets; and determine a plurality of secondary
prize winning matches based upon a plurality of partial matches
from the predetermined quantity of unique combinations and a
quantity of the plurality of lots that is distributed.
17. The computer program product of claim 16, wherein odds for
winning a maximum prize are based upon a quantity of the lottery
tickets in the subset of the set of lottery tickets.
18. The computer program product of claim of claim 16, wherein odds
for winning a secondary prize in a plurality of secondary prizes
are fixed.
19. The computer program product of claim 16, wherein the computer
is further caused to determine the plurality of lots according to a
predetermined indicium that is selected from the set of game
indicia.
20. A computer program product comprising a computer useable medium
having a computer readable program, wherein the computer readable
program when executed on a computer causes the computer to:
generate, with a lottery machine apparatus, a first predetermined
quantity of unique combinations of a first set of first game
indicia and a second predetermined quantity of unique combinations
of a second set of second game indicia; print, with a lottery
ticket printer, a set of lottery tickets for a lottery game such
that each of the lottery tickets in the set of lottery tickets
distinctly corresponds to one of the first predetermined quantity
of unique combinations of a first set of first game indicia and to
one of the second predetermined quantity of unique combinations of
a second set of second game indicia; distribute a subset of the set
of lottery tickets in a plurality of lots; determine a maximum
prize winner by selecting a winning unique combination from a
subset of a set of the predetermined quantity of unique
combinations of the first set of game indicia and the predetermined
quantity of unique combinations of the second set of game indicia
that are associated with the subset of the set of lottery tickets;
and determine a plurality of secondary prize winning matches based
upon a plurality of partial matches from the first predetermined
quantity of unique combinations of a first set of first game
indicia and the second predetermined quantity of unique
combinations of a second set of second game indicia.
Description
RELATED APPLICATIONS
[0001] This application is a Continuation-In-Part application of
U.S. patent application Ser. No. 12/258,373, filed on Oct. 24,
2008, entitled METHOD AND APPARATUS THAT CONTROL RISK AND
UNCERTAINTY IN A PROMOTIONAL LOTTERY GAME WITH A HYRBRID PRIZE
STRUCTURE, which is a Continuation-In-Part application of U.S.
patent application Ser. No. 12/254,777, filed on Oct. 20, 2008,
entitled METHOD AND APPARATUS THAT CONTROL RISK AND UNCERTAINTY IN
A VARIABLE PRICED PROMOTIONAL LOTTERY GAME, which is a
Continuation-In-Part application of U.S. patent application Ser.
No. 12/250,270, filed on Oct. 13, 2008, entitled METHOD AND
APPARATUS THAT CONTROL RISK AND UNCERTAINTY IN A FREQUENCY PRICED
RAFFLE, which is a Continuation-In-Part application of U.S. patent
application Ser. No. 12/206,376, filed on Sep. 8, 2008 and entitled
METHOD AND APPARATUS THAT CONTROL RISK AND UNCERTAINTY IN A RAFFLE,
all of which are hereby incorporated by reference in their
entireties.
BACKGROUND
[0002] 1. Field
[0003] This disclosure generally relates to the field of gaming.
More particularly, the disclosure relates to a raffle game.
[0004] 2. General Background
[0005] Current raffle games typically offer a pre-established
number of prizes that are awarded to players in the raffle game
based upon a raffle drawing in which numbers or tickets are drawn
from the pool of tickets or raffle units sold. Accordingly, the
aggregate cost in absolute dollars of the prizes in a given game is
known before a single ticket is sold.
[0006] Traditional raffle games carry a financial risk related to
marketing factors. If enough raffle tickets are not sold to cover
the fixed prize costs in a traditional raffle game, profits may be
much lower than expected. The traditional raffle game may produce a
net loss if tickets sales volume is not enough to cover costs. In
other words, if enough tickets are not sold, the cost of running
the game can exceed revenues generated from ticket sales.
[0007] As an example, the quantity of total tickets or raffle units
available may be one million. Further, the costs of the ticket or
raffle unit may be ten dollars. A prize structure may provided
that, irrespective of ticket sales, two tickets or raffle units are
a match for a one million dollar prize, ten tickets or raffle units
are a match for a one hundred thousand dollar prize, one hundred
tickets or raffle units are a match for a ten thousand dollar
prize, one thousand tickets or raffle units are a match for a one
thousand dollar prize, and ten thousand tickets or raffle units are
a match for a one hundred dollar prize. Accordingly, the total cost
for the prizes is six million dollars. In this example, the cost of
the prizes alone would require that a minimum of sixty percent of
all available tickets or raffle units, i.e., six million dollars is
sixty percent of ten million dollars, be sold in order to avoid a
net loss.
[0008] As a result, lotteries need to sell a significantly high
percentage of available tickets to provide a raffle game that
offers substantial prizes and avoids the risk of a net loss. This
requisite high percentage has prevented significant growth of the
raffle game product segment.
SUMMARY
[0009] In one aspect of the disclosure, a process is provided. The
process generates, with a lottery machine apparatus, a
predetermined quantity of unique combinations of a set of game
indicia. Each of the unique combinations has the same quantity of
game indicia. Further, the process prints, with a lottery ticket
printer, a set of lottery tickets for a lottery game such that each
of the lottery tickets in the set of lottery tickets distinctly
corresponds to one of the unique combinations of the set of game
indicia. In addition, the process distributes a subset of the set
of lottery tickets in a plurality of lots. The process also
determines a maximum prize winner by selecting a winning unique
combination from a subset of the predetermined quantity of unique
combinations of the first set of game indicia that is associated
with the subset of the set of lottery tickets. Further, the process
determines a plurality of secondary prize winning matches based
upon a plurality of partial matches from the predetermined quantity
of unique combinations and a quantity of the plurality of lots that
is distributed.
[0010] In another aspect of the disclosure, a process is provided.
The process generates, with a lottery machine apparatus, a first
predetermined quantity of unique combinations of a first set of
first game indicia and a second predetermined quantity of unique
combinations of a second set of second game indicia. Further, the
process prints, with a lottery ticket printer, a set of lottery
tickets for a lottery game such that each of the lottery tickets in
the set of lottery tickets distinctly corresponds to one of the
first predetermined quantity of unique combinations of a first set
of first game indicia and to one of the second predetermined
quantity of unique combinations of a second set of second game
indicia. In addition, the process distributes a subset of the set
of lottery tickets in a plurality of lots. The process also
determines a maximum prize winner by selecting a winning unique
combination from a subset of a set of the predetermined quantity of
unique combinations of the first set of game indicia and the
predetermined quantity of unique combinations of the second set of
game indicia that are associated with the subset of the set of
lottery tickets. Further, the process determines a plurality of
secondary prize winning matches based upon a plurality of partial
matches from the first predetermined quantity of unique
combinations of a first set of first game indicia and the second
predetermined quantity of unique combinations of a second set of
second game indicia.
[0011] In yet another aspect of the disclosure, a computer program
product includes a computer useable medium having a computer
readable program. The computer readable program when executed on a
computer causes the computer to generate a predetermined quantity
of unique combinations of a set of game indicia, each of the unique
combinations having the same quantity of game indicia. Further, the
computer readable program when executed on the computer causes the
computer to print a set of lottery tickets for a lottery game such
that each of the lottery tickets in the set of lottery tickets
distinctly corresponds to one of the unique combinations of the set
of game indicia. In addition, the computer readable program when
executed on the computer causes the computer to distribute a subset
of the set of lottery tickets in a plurality of lots. The computer
readable program when executed on the computer also causes the
computer to determine a maximum prize winner by selecting a winning
unique combination from a subset of the predetermined quantity of
unique combinations of the first set of game indicia that is
associated with the subset of the set of lottery tickets. Further,
the computer readable program when executed on the computer also
causes the computer to determine a plurality of secondary prize
winning matches based upon a plurality of partial matches from the
predetermined quantity of unique combinations and a quantity of the
plurality of lots that is distributed.
[0012] In another aspect of the disclosure, a computer program
product includes a computer useable medium having a computer
readable program. The computer readable program when executed on a
computer causes the computer to generate, with a lottery machine
apparatus, a first predetermined quantity of unique combinations of
a first set of first game indicia and a second predetermined
quantity of unique combinations of a second set of second game
indicia. Further, the computer readable program when executed on
the computer causes the computer to print, with a lottery ticket
printer, a set of lottery tickets for a lottery game such that each
of the lottery tickets in the set of lottery tickets distinctly
corresponds to one of the first predetermined quantity of unique
combinations of a first set of first game indicia and to one of the
second predetermined quantity of unique combinations of a second
set of second game indicia. In addition, the computer readable
program when executed on the computer causes the computer to
distribute a subset of the set of lottery tickets in a plurality of
lots. The computer readable program when executed on the computer
also causes the computer to determine a maximum prize winner by
selecting a winning unique combination from a subset of a set of
the predetermined quantity of unique combinations of the first set
of game indicia and the predetermined quantity of unique
combinations of the second set of game indicia that are associated
with the subset of the set of lottery tickets. Further, the
computer readable program when executed on the computer also causes
the computer to determine a plurality of secondary prize winning
matches based upon a plurality of partial matches from the first
predetermined quantity of unique combinations of a first set of
first game indicia and the second predetermined quantity of unique
combinations of a second set of second game indicia.
BRIEF DESCRIPTION OF THE DRAWINGS
[0013] The above-mentioned features of the present disclosure will
become more apparent with reference to the following description
taken in conjunction with the accompanying drawings wherein like
reference numerals denote like elements and in which:
[0014] FIG. 1 illustrates a probabilities-based raffle prize
structure.
[0015] FIG. 2 illustrates a probabilities-based raffle prize
structure that is an alternative configuration of the
probabilities-based raffle prize structure illustrated in FIG.
1.
[0016] FIG. 3 illustrates a process that may be utilized to provide
a probabilities-based raffle game.
[0017] FIG. 4 illustrates a block diagram of a station or system
that composes and provides a probabilities-based raffle game.
[0018] FIG. 5 illustrates a frequency priced display. The frequency
price display includes a price field and a predetermined quantity
field.
[0019] FIG. 6 illustrates a process that may be utilized in a
frequency based raffle.
[0020] FIG. 7 illustrates a process that may be utilized with a
pari-mutuel based secondary prize.
[0021] FIG. 8 illustrates a process that may be utilized to provide
a subsequent random selection.
[0022] FIG. 9 illustrates a process that may be utilized as an
alternative to the process illustrated in FIG. 7.
[0023] FIG. 10 illustrates a promotional lottery prize
structure.
[0024] FIG. 11 illustrates a promotional lottery prize structure
that is an alternative configuration of the promotional lottery
prize structure illustrated in FIG. 10.
[0025] FIG. 12 illustrates process that may be utilized to provide
a promotional lottery game.
[0026] FIG. 13 illustrates a process that may be utilized in a
frequency priced promotional lottery game.
[0027] FIG. 14 illustrates a promotional lottery prize structure
with a variable price.
[0028] FIG. 15 illustrates an example of a display of price levels
for the variable price corresponding to predetermined maximum prize
thresholds.
[0029] FIG. 16 illustrates a process that may be utilized to
provide a variable pricing with promotional lottery tickets.
[0030] FIG. 17 illustrates a process that utilizes variable pricing
with frequency multiple pricing.
[0031] FIG. 18 illustrates a process that may be utilized with
variable pricing.
[0032] FIG. 19 illustrates a promotional lottery prize structure
with a predetermined minimum number of primary prizes and a
plurality of secondary prizes.
[0033] FIG. 20 illustrates a display of the odds as the number of
primary prizes stays constant and then changes.
[0034] FIG. 21 illustrates an example of a promotional lottery
ticket.
[0035] FIG. 22 illustrates a process that may be utilized to
implement multiple primary prizes.
[0036] FIG. 23 illustrates a promotional lottery prize
structure.
[0037] FIG. 24 illustrates another process that utilized to
implement multiple primary prizes.
[0038] FIG. 25 illustrates an example of a promotional lottery
ticket.
[0039] FIG. 26 illustrates a sample lottery game configuration.
[0040] FIG. 27 illustrates a process that may be utilized for a
lottery game.
[0041] FIG. 28 illustrates a sample lottery configuration that may
be utilized with multiple sets of game indicia.
[0042] FIG. 29 illustrates a process that may be utilized for a
lottery game.
DETAILED DESCRIPTION
[0043] A method and apparatus are disclosed that provide a
probabilities-based prize structure in a raffle game. The
probabilities-based prize structure provides a known universe of
prizes that would be awarded if all raffle tickets are sold.
However, the awarding of prizes and the number of prizes is
randomly determined based upon probabilities and odds regardless of
the volume of tickets or units sold. In contrast to a lottery game,
in one configuration, the raffle game would not provide for sharing
of a prize in the event of multiple winners. In further contrast to
a lottery game, in one configuration, the raffle game would not
allow for rollovers, i.e., prizes amounts that have not been won in
a particular drawing are not available for subsequent drawings.
[0044] FIG. 1 illustrates a probabilities-based raffle prize
structure 100. As an example, the ticket price 102 for a
probabilities-based raffle ticket may be fifty dollars. A payout
table 104 indicates the various prizes corresponding to particular
types of matches between a set of player numbers appearing on a
probabilities-based raffle ticket and a set of game numbers drawn
in a drawing. A match field 106 indicates the different types of
matches. For example, the match field 106 indicates a six of six
match 108, a five of six match 110, a four of six match 112, a
three of six match 114, and a two of six match 116.
[0045] Further, a number of tickets 118 is indicated for each of
the matches. For example, a six of six number of ticket field 122
indicates that one hundred tickets out of all the available
tickets, e.g., two hundred one million three hundred fifty nine
five hundred fifty tickets, have a winning six of six match.
Further, a five of six number of tickets field 124 indicates that
four hundred fourteen tickets out of all the available tickets,
e.g., two hundred one million three hundred fifty nine five hundred
fifty tickets, have a winning five of six match. In addition, a
four of six number of tickets field 124 indicates that thirty five
thousand one hundred ninety tickets out of all the available
tickets, e.g., two hundred one million three hundred fifty nine
five hundred fifty tickets, have a winning four of six match. A
three of six number of tickets field 128 indicates that one million
forty seven six hundred fifty six tickets out of all the available
tickets, e.g., two hundred one million three hundred fifty nine
five hundred fifty tickets, have a winning three of six match.
Further, a two of six number of tickets field 130 indicates that
twelve million nine hundred ninety thousand nine hundred thirty
nine tickets out of all the available tickets, e.g., two hundred
one million three hundred fifty nine five hundred fifty tickets,
have a winning two of six match.
[0046] An odds field 130 is also displayed. For example, a six of
six odds field 132 indicates that the odds of having a six of six
match are one in two hundred one million three hundred fifty nine
five hundred fifty. Further, a five of six odds field 134 indicates
that the odds of having a five of six match are one in four hundred
eighty six thousand three hundred seventy six. In addition, a four
of six odds field 136 indicates that the odds of having a four of
six match are one in five thousand seven hundred twenty two. A
three of six odds field 138 indicates that the odds of having a
three of six match are one in one hundred ninety two. Further, a
two of six odds field 140 indicates that the odds of having a two
of six match are one in sixteen.
[0047] A prize field is also displayed. For example, a six of six
match prize field 144 indicates that a prize of one billion dollars
is won for a full match of six of six. Further, a five of six match
prize field 146 indicates that a secondary prize of one million
dollars is won for a partial match of five of six. If all four
hundred fourteen tickets with five of six matches are sold, the
secondary prize of one million dollars is provided in its entirety
to each individual player. In one embodiment, the entirety of the
prize may be provided as an annuity over time, a cash lump sum, or
a discounted cash lump sum. In addition, a four of six match prize
field 148 indicates that a prize of ten thousand dollars is won for
a partial match of four of six. A three of six match prize field
150 indicates that a prize of one thousand dollars is won for a
partial match of three of six. Finally, a two of six match prize
field 152 indicates that a prize of one hundred dollars is won for
a partial match of two of six. In one embodiment, the overall odds
154 of winning any type of prize may be displayed. For example, the
overall odds 154 may be one in fourteen and thirty one tenths.
[0048] Unlike a typical raffle game, the probabilities-based raffle
game randomly selects a winning ticket that may not have been sold.
In other words, a typical raffle game selects a winning ticket from
the tickets that are sold. As a result, all the prizes have to be
paid out irrespective of whether ticket sales are enough for the
payment of the prizes. The probabilities-based raffle game provides
all the prizes if all the probabilities-based raffle game tickets
are sold. However, if all of the probabilities-based raffle game
tickets are not sold, the probabilities-based raffle game may not
provide all the prizes. The probabilities-based raffle game
randomly selects winning tickets from all possible tickets, not
from all tickets sold. In one embodiment, the random selection may
be implemented through a drawing of numbers. For example, a ball
hopper, a random number generator, etc. may be utilized. As an
example, a hopper may have seventy five balls from which six balls
are drawn to obtain the six numbers that are utilized to determine
potential matches illustrated in FIG. 1. In another embodiment, the
drawing is a single drawing.
[0049] The term expected payout percentage is intended to indicate
the expected payout of a prize category as a percentage of ticket
sales. The mathematically expected payout percentage can be derived
for each prize category assuming all tickets are sold. For example,
if all two hundred one million three hundred fifty nine five
hundred fifty tickets are sold, the gross ticket sales equal ten
billion sixty seven million nine hundred seventy seven thousand
five hundred dollars. Therefore, the expected payout percentage for
the maximum prize of one billion dollars, if paid as a cash lump
sum prize, in the six of six match prize category equals nine and
nine tenths percent.
[0050] Further, an analysis may be performed according to different
ticket sales intervals to assess risk. For example, the expected
payout percentage for the maximum prize category can be determined
on the assumption that only thirty percent of the available tickets
are sold. As a result, an entity can determine the risk level of
different potential ticket sales. The analysis may also be
performed for secondary prize categories.
[0051] In one embodiment, a secure process of random ticket
distribution is utilized. Accordingly, a change in ticket sales
should not substantially change the expected payout percentage for
the lower prize categories. In other words, the higher number of
prizes and the lower prizes in the lower prize categories prevents
a substantial change in expected payout percentage for a moderate
or even somewhat significant change in the ticket sales.
[0052] The mathematically expected payout percentage can also be
derived for a subset or all of the prize categories assuming all
tickets are sold. Further, an analysis may be performed according
to different ticket sales intervals to assess risk.
[0053] The probabilities-based prize structure 100 allows
volume-sensitive ticket pricing to be utilized to provide appealing
prizes based upon a mathematically expected minimum payout
percentage. The mathematically expected minimum payout creates a
buffer for relatively low sales volumes. For example, a prize
structure could be developed to allow for a fifty percent expected
payout percentage if less than thirty percent of total tickets are
sold. Similarly, a prize structure could be developed to permit a
sixty five percent payout if less than twenty percent of all
tickets are sold.
[0054] In one embodiment, a percentage of ticket sales may be
redistributed to the secondary prize categories. For example, if
three quarters of the available tickets are sold without a six of
six match, a percentage of the ticket sales can redistributed to
increase the secondary prizes. As an example, the five of six match
prize 146 may be increased to two million dollars. Accordingly, the
secondary prizes are guaranteed minimums that may be increased
based on ticket sales volume. In another embodiment, the secondary
prizes may be increased even if the maximum prize is won.
[0055] FIG. 2 illustrates a probabilities-based raffle prize
structure 200 that is an alternative configuration of the
probabilities-based raffle prize structure 100 illustrated in FIG.
1. The probabilities-based raffle prize structure 200 may utilize a
bonus ball ("BB") in addition to regular balls. In other words, six
numbers are drawn, and then an additional BB is drawn. In one
embodiment, that BB is simply one of the remaining balls, e.g., one
of the remaining sixty nine balls out of seventy five balls in a
hopper. In another embodiment, the BB is a ball drawn from a
separate hopper. In yet another embodiment, the BB has a different
indicia other than a number such as a color or a shape.
[0056] Accordingly, the probabilities-based raffle prize structure
200 has additional prizes for BB possibilities. For example, a five
of six plus BB match field indicates a five of six plus BB match.
Further, a five of six plus BB number of tickets field 204
indicates that six tickets have the winning five of six plus BB
match. In addition, a five of six plus BB match odds field 206
indicates that the odds of winning the five of six plus BB match
prize are one in thirty three million five hundred fifty nine
thousand five hundred fifty. Finally, a five of six plus BB match
prize field 208 indicates that a five of six plus BB match prize of
five million dollars may be won with a partial match of five of six
plus BB match. As another example, a four of six plus BB match
field 210 indicates a four of six plus BB match. Further, a four of
six plus BB number of tickets field 212 indicates that one thousand
twenty tickets have the winning four of six plus BB match. In
addition, a four of six plus BB match odds field 214 indicates that
the odds of winning the four of six plus BB match prize are one in
one hundred ninety seven thousand four hundred eleven. Finally, a
four of six plus BB match prize field 216 indicates that a four of
six plus BB match prize of one hundred thousand dollars may be won
with a partial match of five of six plus BB match.
[0057] In an alternative embodiment, the probabilities-based raffle
game may be supplemented with instant prizes to deliver value to
players in advance of the raffle drawing. Unlike the
probabilities-based prizes that are awarded in the raffle drawing
itself, the instant prizes would be awarded at predetermined
intervals or in predetermined quantities of tickets or defined
subsets of tickets to be sold. The instant prizes may be utilized
with any of the processes or system described herein.
[0058] In another embodiment, the probabilities-based raffle game
may be supplemented with early bird prizes intended to deliver
greater value to players who purchase tickets early in the sales
cycle. The additional early bird drawings could be conducted prior
to the main raffle drawing. Players who purchase tickets at the
beginning of the sales cycle would have progressively more chances
to win early bird prizes. Further, players who purchase tickets
later in the sales cycle would have progressively fewer chances to
win early bird prizes. A unique identified or ticket number may be
assigned to each unit sold for purposes of determining winners in
the early bird drawings. The early bird prizes may be utilized with
any of the processes or system described herein.
[0059] In yet another embodiment, the probabilities-based raffle
game may include multiple prices for different portions of
potential prize distributions. For example, a twenty five dollar
ticket may allow a winner to win only forty percent of the six of
six match prize 144 whereas a fifty dollar ticket may allow a
winner to win one hundred percent of the six of six match prize
144. Therefore, the player is incentivized to purchase a fifty
dollar ticket rather than two twenty five dollar tickets as the
fifty dollar ticket provides a higher prize than two twenty five
dollar tickets.
[0060] In another embodiment, the multiple pricing is directed
towards price-volume discounts. For example, twenty five dollars
may allow a player to purchase a single ticket whereas one hundred
dollars may allow a player to purchase five tickets. Therefore, the
player is incentivized to purchase five tickets for one hundred
dollars rather than four individual tickets as the five tickets
provide more opportunities to win a prize than four individual
tickets for the same total price of one hundred dollars.
[0061] FIG. 3 illustrates a process 300 that may be utilized to
provide a probabilities-based raffle game. At a process block 302,
the process 300 generates a predetermined number of unique
sub-combinations of a set of game numbers. Each of the
sub-combinations has the same quantity of numbers. Further, at a
process block 304, the process 300 prints a set of
probabilities-based raffle tickets for a probabilities-based raffle
game such that each of the probabilities-based raffle tickets in
the set of probabilities-based raffle tickets distinctly
corresponds to one of the unique sub-combinations of the set of
game numbers. In addition, at a process block 306, the process 300
indicates a maximum prize that a single player having a
probabilities-based raffle ticket with a full match wins. At a
process block 308, the process 300 also indicates a secondary prize
that each of a plurality of players having a probabilities-based
raffle ticket with a partial match wins. Each partial match is
distinct and has a same quantity of numbers matched. At a process
block 310, the process 300 also provides at least a subset of the
set of probabilities-based raffle tickets to a plurality of players
in the probabilities-based raffle game. Further, at a process block
312, the process 300 randomly selects a single subset of the set of
game numbers that has the same quantity of numbers as each of the
sub-combinations. In addition, at a process block 314, the process
300 provides the maximum prize to a single player if the single
player has a probabilities-based raffle ticket with a full match
between the unique sub-combination corresponding to the
probabilities-based raffle ticket and the single subset of the set
of game numbers that is selected. At a process block 316, the
process 300 also provides the secondary prize to each of a
plurality of players if the plurality of players each has a
probabilities-based raffle ticket with a partial match between the
unique sub-combination corresponding to the probabilities-based
raffle ticket and the single subset of the set of game numbers that
is selected.
[0062] In one embodiment, the process 300 also establishes, prior
to the providing the at least the subset of the set of
probabilities-based raffle tickets to the plurality of players in
the probabilities-based raffle game, a predetermined percentage of
tickets sales to be paid in prizes won for the probabilities-based
raffle game. For example, a lottery may determine that fifty
percent of tickets sales have to be utilized for paying prizes.
Accordingly, the process 300 may increase the secondary prize by an
additional amount if the total percentage of actual ticket sales
subtracted from the predetermined percentage of ticket sales
results in a remainder. The additional amount is less than or equal
to the remainder. In the example with the predetermined percentage
of fifty percent, if the total percentage of actual ticket sales is
only forty percent, a remainder of ten percent exists. A portion or
potentially all of that remainder may be utilized to increase the
secondary prize. Further, that remainder may be split amongst
multiple secondary prizes. In one configuration, the split within a
prize category is even, but the split amongst different prize
categories may be weighted. In one embodiment, the increase of the
secondary prize by the percentage of ticket sales is effectuated
prior to the random selection of the single subset of the set of
game numbers that has the same quantity of numbers as each of the
sub-combinations. In another embodiment, the increase of the
secondary prize by the percentage of ticket sales is effectuated
after the random selection of the single subset of the set of game
numbers that has the same quantity of numbers as each of the
sub-combinations. Further, in one embodiment, non-payment of the
maximum prize is a criterion for the increasing the secondary prize
by the percentage of ticket sales. In the example, less than fifty
percent of tickets would have to be sold and the maximum prize
would not be won by any of the sold tickets in order for the
secondary prize to be increased.
[0063] In one embodiment, the process 300 randomly selects an
unordered sub-combination of a set of game numbers. For example, if
the drawn sub-combination is the set of six of seventy five numbers
equaling ten, twenty, thirty, forty, fifty, and sixty, a ticket
holder can have those numbers in any order and win the maximum
prize. In an alternative embodiment, the process 300 selects an
ordered sub-combination of a set of game numbers. For example, one
hundred million tickets may be distributed. The tickets may be
numbered zero through ninety nine million nine hundred ninety nine
thousand nine hundred ninety nine. Each of eight digits would have
to be matched in the correct order to be a winning ticket. For
example, if the selected winning number is thirty one million one
hundred seventy thousand five hundred ninety one six hundred fifty
eight, the maximum prize winner has each of the digits on the
ticket in the same order as selected. In other words, the number
thirty one million one hundred fifty thousand seven hundred ninety
one six hundred fifty eight has the same numbers as the selected
number, but in a different order and therefore does not win the
maximum prize. In one embodiment, the secondary prizes are based on
having a whole number after the beginning digits. For example, the
number seventy one million one hundred seventy thousand five
hundred ninety one six hundred fifty eight is a seven of eight
match because the first digit was not a match, but the remaining
seven digits were in the identical order positions of the digits in
the selected number. In one embodiment, a predetermined percentage
of tickets sales to be paid in prizes won for the
probabilities-based raffle game may also be established. For
example, fifty percent of ticket sales may have to be paid in
prizes that are won. The secondary prizes may be increased as
described above if a remainder exists.
[0064] In another embodiment, the process 300 utilizes a drawing
for raffle prizes as a ratio of odds to units sold. The number of
secondary prizes actually distributed is based on the direct
proportion of odds to units sold. In another configuration, a
winning ticket may not have to have an ordered match of drawn
numbers. For example, if a raffle has one million tickets, the odds
of winning the maximum prize are one in one million. That prize
amount is static. However, the odds of winning a secondary prize
with ten thousand tickets in the one million tickets may be one in
one hundred. If only fifty percent of tickets are sold, then the
number of prizes that are distributed is only five thousand, i.e.,
the total number of secondary prizes is divided in half. Even
though the number of secondary prizes is reduced by this
proportion, each of those secondary prizes may be increased by an
additional amount of a remainder that may exist as described above.
In one configuration, a winning ticket has to have an ordered match
of drawn numbers.
[0065] The term maximum prize is defined herein to be the highest
amount of a prize that may be won for an instant lottery game
corresponding to an instant lottery ticket. Further, the term
secondary prize is defined herein to be an amount of a prize less
than the maximum that may be won for an instant lottery game
corresponding to an instant lottery ticket. The secondary prize may
be a prize that is the next lowest prize amount after the maximum
prize or may be a prize that has a lower amount than the maximum
prize and other prizes. In one embodiment, the process 300 may be
utilized for more a maximum prize and a plurality of different
secondary prizes that each have different prize amounts.
[0066] The processes described herein may be implemented in a
general, multi-purpose or single purpose processor. Such a
processor will execute instructions, either at the assembly,
compiled or machine-level, to perform the processes. Those
instructions can be written by one of ordinary skill in the art
following the description of the figures corresponding to the
processes and stored or transmitted on a computer readable medium.
The instructions may also be created using source code or any other
known computer-aided design tool. A computer readable medium may be
any medium capable of carrying those instructions and include a
CD-ROM, DVD, magnetic or other optical disc, tape, silicon memory
(e.g., removable, non-removable, volatile or non-volatile),
packetized or non-packetized data through wireline or wireless
transmissions locally or remotely through a network.
[0067] A computer is herein intended to include any device that has
a general, multi-purpose or single purpose processor as described
above. For example, a computer may be a lottery terminal, a kiosk,
a vending machine, a set top box ("STB"), cell phone, portable
media player, or the like.
[0068] FIG. 4 illustrates a block diagram of a station or system
400 that composes and provides a probabilities-based raffle game.
In one embodiment, the station or system 400 is implemented
utilizing a general purpose computer or any other hardware
equivalents. Thus, the station or system 400 comprises a processor
410, a memory 420, e.g., random access memory ("RAM") and/or read
only memory (ROM), a probabilities-based raffle prize module 440,
and various input/output devices 430, (e.g., audio/video outputs
and audio/video inputs, storage devices, including but not limited
to, a tape drive, a floppy drive, a hard disk drive or a compact
disk drive, a receiver, a transmitter, a speaker, a display, an
image capturing sensor, e.g., those used in a digital still camera
or digital video camera, a clock, an output port, a user input
device (such as a keyboard, a keypad, a mouse, and the like, or a
microphone for capturing speech commands)).
[0069] It should be understood that the probabilities-based raffle
prize module 440 may be implemented as one or more physical devices
that are coupled to the processor 410. For example, the
probabilities-based raffle prize module 440 may include a plurality
of modules. Alternatively, the probabilities-based raffle prize
module 440 may be represented by one or more software applications
(or even a combination of software and hardware, e.g., using
application specific integrated circuits (ASIC)), where the
software is loaded from a storage medium, (e.g., a magnetic or
optical drive, diskette, or non-volatile memory) and operated by
the processor in the memory 420 of the computer. As such, the
probabilities-based raffle prize module 440 (including associated
data structures) of the present disclosure may be stored on a
computer readable medium, e.g., RAM memory, magnetic or optical
drive or diskette and the like.
[0070] Any of the configurations discussed above may be utilized
with a frequency priced raffle. In other words, a player may
purchase a larger quantity of tickets for a higher price. FIG. 5
illustrates a frequency priced display 500. The frequency price
display 500 includes a price field 502 and a predetermined quantity
field 504. The price field 502 may include a first price category
506 and a second price category 508. Further, the quantity field
504 may include a first predetermined quantity 510 that corresponds
to the first price category 506 and a predetermined second quantity
512 that corresponds to the second price category 508. As an
example, the first price category 506 may be fifty dollars and the
first predetermined quantity 510 may be one ticket. Further, the
second price category 508 may be one hundred dollars and the second
predetermined quantity 512 may be three tickets. Accordingly, a
ratio of the second price category to the second predetermined
quantity of one or more probabilities-based raffle tickets is less
than a ratio of the first price category to the first predetermined
quantity of one or more probabilities-based raffle tickets. In
other words, the ratio of one hundred dollars to three tickets is
less than the ratio of fifty dollars to one ticket. As a result, a
player is incentivized to purchase a group of three tickets for one
hundred dollars rather than purchase three individual tickets
separately for a total of one hundred fifty dollars.
[0071] FIG. 6 illustrates a process 600 that may be utilized in a
frequency based raffle. At a process block 602, the process 600
generates a predetermined number of unique sub-combinations of a
set of game numbers. Each of the sub-combinations having the same
quantity of numbers. Further, at a process block 604, process 600
prints a set of probabilities-based raffle tickets for a
probabilities-based raffle game such that each of the
probabilities-based raffle tickets in the set of
probabilities-based raffle tickets distinctly corresponds to one of
the unique sub-combinations of the set of game numbers. In
addition, at a process block 606, the 600 process indicates a first
price category and a second price category from which one or more
probabilities-based raffle tickets can be purchased such that (i)
the first price category corresponds to a first predetermined known
quantity of one or more probabilities-based raffle tickets and the
second price category corresponds to a second predetermined known
quantity of one or more probabilities-based raffle tickets and (ii)
a ratio of the second price category to the second predetermined
quantity of one or more probabilities-based raffle tickets is less
than a ratio of the first price category to the first predetermined
quantity of one or more probabilities-based raffle tickets. At a
process block 608, the process 600 also indicates a maximum prize
that is won by a player having a probabilities-based raffle ticket
with a full match. Further, at a process block 610 the process
indicates a secondary prize that is won by a player having a
probabilities-based raffle ticket with a partial match. In
addition, at a process block 612, the process 600 provides at least
a subset of the set of probabilities-based raffle tickets to a
plurality of players in the probabilities-based raffle game. At a
process block 614, the process 600 also randomly selects a single
subset of the set of game numbers that has the same quantity of
numbers as each of the sub-combinations. Further, at a process
block 616, the process 600 provides the maximum prize to a player
if the player has a probabilities-based raffle ticket with a full
match between the unique sub-combination corresponding to the
probabilities-based raffle ticket and the single subset of the set
of game numbers that is selected. In addition, at a process block
618, the process 600 provides the secondary prize to a player if
the player has a probabilities-based raffle ticket with a partial
match between the unique sub-combination corresponding to the
probabilities-based raffle ticket and the single subset of the set
of game numbers that is selected.
[0072] The station or system 400 described herein may be utilized
to implement the process 600 in a hardware configuration. Modules
may be utilized to implement software and/or hardware components in
the station or system 400. In any of the configurations provided
herein, the secondary prize may be pari-mutuel based. In other
words, the secondary prize may be based on a portion of ticket
sales. Accordingly, an indication of the secondary prize may be an
estimate. In other words, the actual secondary prize that is
distributed may be the exact estimate, less than the estimate, or
greater than the estimate.
[0073] FIG. 7 illustrates a process 700 that may be utilized with a
pari-mutuel based secondary prize. At a process block 702, the
process 700 generates a predetermined number of unique
sub-combinations of a set of game numbers. Each of the
sub-combinations has the same quantity of numbers. Further, at a
process block 704, the process 700 prints a set of
probabilities-based raffle tickets for a probabilities-based raffle
game such that each of the probabilities-based raffle tickets in
the set of probabilities-based raffle tickets distinctly
corresponds to one of the unique sub-combinations of the set of
game numbers. In addition, at a process block 706, the process 700
indicates a maximum prize that a single player having a
probabilities-based raffle ticket with a full match wins. At a
process block 708, the process 700 also indicates a secondary prize
that is a pari-mutuel based prize based on a predetermined portion
of ticket sales. The secondary prize is won by a player having a
probabilities-based raffle ticket with a partial match. At a
process block 710, the process 700 also provides at least a subset
of the set of probabilities-based raffle tickets to a plurality of
players in the probabilities-based raffle game. Further, at a
process block 712, the process 700 randomly selects a single subset
of the set of game numbers that has the same quantity of numbers as
each of the sub-combinations. In addition, at a process block 714,
the process 700 provides the maximum prize to a single player if
the single player has a probabilities-based raffle ticket with a
full match between the unique sub-combination corresponding to the
probabilities-based raffle ticket and the single subset of the set
of game numbers that is selected. At a process block 716, the
process 700 also provides the secondary prize to each of a
plurality of players if the plurality of players each has a
probabilities-based raffle ticket with a partial match between the
unique sub-combination corresponding to the probabilities-based
raffle ticket and the single subset of the set of game numbers that
is selected.
[0074] The station or system 400 described herein may be utilized
to implement the process 700 in a hardware configuration. Modules
may be utilized to implement software and/or hardware components in
the station or system 400.
[0075] In any of the configurations discussed above, the maximum
prize may not be won in an initial random selection such as an
initial drawing. For example, if thirty percent of the tickets are
sold, the ticket with the full match may potentially be in the
seventy percent of the tickets that were not sold. In one
embodiment, a subsequent random selection such as a subsequent
drawing may be performed from the sets of numbers on the tickets
that were sold to ensure a full match winner for the maximum
prize.
[0076] FIG. 8 illustrates a process 800 that may be utilized to
provide a subsequent random selection. At a process block 802, the
process 800 generates a predetermined number of unique
sub-combinations of a set of game numbers. Each of the
sub-combinations has the same quantity of numbers. Further, at a
process block 804, the process 800 prints a set of
probabilities-based raffle tickets for a probabilities-based raffle
game such that each of the probabilities-based raffle tickets in
the set of probabilities-based raffle tickets distinctly
corresponds to one of the unique sub-combinations of the set of
game numbers. In addition, at a process block 806, the process 800
indicates a maximum prize that a single player having a
probabilities-based raffle ticket with a full match wins. At a
process block 808, the process 800 also indicates a secondary prize
that each of a plurality of players having a probabilities-based
raffle ticket with a partial match wins. Each partial match is
distinct and has a same quantity of numbers matched. At a process
block 810, the process 800 establishes a predetermined percentage
of tickets sales to be paid in prizes won for the
probabilities-based raffle game. At a process block 812, the
process 800 also provides at least a subset of the set of
probabilities-based raffle tickets to a plurality of players in the
probabilities-based raffle game. Further, at a process block 814,
the process 800 randomly selects a single subset of the set of game
numbers that has the same quantity of numbers as each of the
sub-combinations. In addition, at a process block 816, the process
800 provides the maximum prize to a single player if the single
player has a probabilities-based raffle ticket with a full match
between the unique sub-combination corresponding to the
probabilities-based raffle ticket and the single subset of the set
of game numbers that is selected. At a process block 818, the
process 800 also provides the secondary prize to each of a
plurality of players if the plurality of players each has a
probabilities-based raffle ticket with a partial match between the
unique sub-combination corresponding to the probabilities-based
raffle ticket and the single subset of the set of game numbers that
is selected. Finally, at a process block 820, the process 800
randomly selects a second single subset of the set of games
numbers, subsequent to the randomly selecting the first single
subset of the set of game numbers, from the unique sub-combinations
of the set of game numbers printed on the at least the subset of
the set of probabilities-based raffle tickets provided to the
plurality of players in the probabilities-based raffle game if (i)
the first single subset of the set of game numbers is not printed
on one of the at least the subset of the set of probabilities-based
raffle tickets provided to the plurality of players in the
probabilities-based raffle game and (ii) a predetermined percentage
of tickets have been sold. In one embodiment, the predetermined
percentage of tickets that have to be sold is determined by meeting
a lottery's profit criteria.
[0077] The station or system 400 described herein may be utilized
to implement the process 800 in a hardware configuration. Modules
may be utilized to implement software and/or hardware components in
the station or system 400.
[0078] FIG. 9 illustrates a process 900 that may be utilized as an
alternative to the process 700 illustrated in FIG. 7. At a process
block 902, the process 900 generates a predetermined number of
unique sub-combinations of a set of game numbers. Each of the
sub-combinations has the same quantity of numbers. Further, at a
process block 904, the process 900 prints a set of
probabilities-based raffle tickets for a probabilities-based raffle
game such that each of the probabilities-based raffle tickets in
the set of probabilities-based raffle tickets distinctly
corresponds to one of the unique sub-combinations of the set of
game numbers. In addition, at a process block 906, the process 900
indicates a maximum prize that a single player having a
probabilities-based raffle ticket with a full match wins. At a
process block 908, the process 900 also indicates an estimate of a
secondary prize. The secondary prize is won by a player having a
probabilities-based raffle ticket with a partial match. At a
process block 910, the process 900 also provides at least a subset
of the set of probabilities-based raffle tickets to a plurality of
players in the probabilities-based raffle game. Further, at a
process block 912, the process 900 randomly selects a single subset
of the set of game numbers that has the same quantity of numbers as
each of the sub-combinations. In addition, at a process block 914,
the process 900 provides the maximum prize to a single player if
the single player has a probabilities-based raffle ticket with a
full match between the unique sub-combination corresponding to the
probabilities-based raffle ticket and the single subset of the set
of game numbers that is selected. At a process block 916, the
process 900 also provides the secondary prize to each of a
plurality of players if the plurality of players each has a
probabilities-based raffle ticket with a partial match between the
unique sub-combination corresponding to the probabilities-based
raffle ticket and the single subset of the set of game numbers that
is selected.
[0079] The station or system 400 described herein may be utilized
to implement the process 900 in a hardware configuration. Modules
may be utilized to implement software and/or hardware components in
the station or system 400.
[0080] The configurations and prize structures described above are
not limited to a probabilities-based raffle game. For example, any
of the configurations and prize structures described above may be
utilized with a lottery game. In one embodiment, the lottery game
is a promotional lottery game.
[0081] FIG. 10 illustrates a promotional lottery prize structure
1000. The promotional lottery prize structure 1000 has the same
prize structure as the probabilities-based raffle prize structure
100, but is utilized with a promotional lottery game rather than a
probabilities-based raffle game.
[0082] FIG. 11 illustrates a promotional lottery prize structure
1100 that is an alternative configuration of the promotional
lottery prize structure 1000 illustrated in FIG. 10. The
promotional lottery prize structure 1100 has the same prize
structure as the probabilities-based raffle prize structure 200
illustrated in FIG. 2, but is utilized with a promotional lottery
game rather than a probabilities-based raffle game.
[0083] FIG. 12 illustrates process that may be utilized to provide
a promotional lottery game. At a process block 1202, the process
1200 generates a predetermined number of unique sub-combinations of
a set of game numbers. Each of the sub-combinations has the same
quantity of numbers. Further, at a process block 1204, the process
1200 prints a set of promotional lottery tickets for a promotional
lottery game such that each of the promotional lottery tickets in
the set of promotional lottery tickets distinctly corresponds to
one of the unique sub-combinations of the set of game numbers. In
addition, at a process block 1206, the process 1200 indicates a
maximum prize that is won by a player having a promotional lottery
ticket with a full match. At a process block 1208, the process 1200
also indicates a secondary prize that is won by a player having a
promotional lottery ticket with a partial match. Further, at a
process block 1210, the process 1200 provides at least a subset of
the set of promotional lottery tickets to a plurality of players in
the promotional lottery game. In addition, at a process block 1212,
the process 1200 randomly selects a single subset of the set of
game numbers that has the same quantity of numbers as each of the
sub-combinations. At a process block 1214, the process 1200 also
provides the maximum prize to a player if the player has a
promotional lottery ticket with a full match between the unique
sub-combination corresponding to the promotional lottery ticket and
the single subset of the set of game numbers that is selected.
Finally, at a process block 1216, the process 1200 provides the
secondary prize to a player if the player has a promotional lottery
ticket with a partial match between the unique sub-combination
corresponding to the promotional lottery ticket and the single
subset of the set of game numbers that is selected.
[0084] Further, any of the configurations for the promotional
lottery described herein may be utilized with a frequency priced
promotional lottery. In other words, a player may purchase a larger
quantity of tickets for a higher price. Accordingly, the frequency
priced display 500 may also be utilized to provide a display of
price and quantity of frequency priced promotional lottery tickets
similar to the display of price and quantity of frequency priced
probabilities-based raffle tickets. A ratio of the second price
category to the second predetermined quantity of one or more
promotional lottery tickets is less than a ratio of the first price
category to the first predetermined quantity of one or more
promotional lottery tickets. For example, a player is incentivized
to purchase a group of three promotional lottery tickets for one
hundred dollars rather than purchase three individual promotional
lottery tickets separately for a total of one hundred fifty
dollars.
[0085] FIG. 13 illustrates a process 1300 that may be utilized in a
frequency priced promotional lottery game. At a process block 1302,
the process 1300 generates a predetermined number of unique
sub-combinations of a set of game numbers. Each of the
sub-combinations has the same quantity of numbers. Further, at a
process block 1304, the process 1300 prints a set of promotional
lottery tickets for a promotional lottery game such that each of
the promotional lottery tickets in the set of promotional lottery
tickets distinctly corresponds to one of the unique
sub-combinations of the set of game numbers. In addition, at a
process block 1306, the process 1300 indicates a first price
category and a second price category from which one or more
promotional lottery tickets can be purchased such that (i) the
first price category corresponds to a first predetermined known
quantity of one or more promotional lottery tickets and the second
price category corresponds to a second predetermined known quantity
of one or more promotional lottery tickets and (ii) a ratio of the
second price category to the second predetermined quantity of one
or more promotional lottery tickets is less than a ratio of the
first price category to the first predetermined quantity of one or
more promotional lottery tickets. At a process block 1308, the
process 1300 also indicates a maximum prize that is won by a player
having a promotional lottery ticket with a full match. Further, at
a process block 1310, the process 1300 indicates a secondary prize
that is won by a player having a promotional lottery ticket with a
partial match. In addition, at a process block 1312, the process
1300 provides at least a subset of the set of promotional lottery
tickets to a plurality of players in the promotional lottery game.
At a process block 1314, the process 1300 also randomly selects a
single subset of the set of game numbers that has the same quantity
of numbers as each of the sub-combinations. Further, at a process
block 1316, the process 1300 provides the maximum prize to a player
if the player has a promotional lottery ticket with a full match
between the unique sub-combination corresponding to the promotional
lottery ticket and the single subset of the set of game numbers
that is selected. In addition, at a process block 1318, the process
1300 provides the secondary prize to a player if the player has a
promotional lottery ticket with a partial match between the unique
sub-combination corresponding to the promotional lottery ticket and
the single subset of the set of game numbers that is selected.
[0086] In an alternative embodiment, the configurations provided
herein for the probabilities-based raffle game or promotional
lottery game may utilized with variable pricing. In other words,
the price of a lottery ticket has an initial value and may change
based on the size of the maximum prize, which may increase in size
based on ticket sales. Irrespective of which variable price the
ticket was purchased, the player may win the final prize value. In
other words, a player that buys a ticket before the variable price
changes has the same opportunity to win the same maximum prize as a
player that buys a ticket after the variable price increases.
Accordingly, a player is incentivized to purchase a ticket as early
as possible.
[0087] FIG. 14 illustrates a promotional lottery prize structure
1400 with a variable price. As an example, the initial ticket price
1402 is twenty five dollars. Further, the maximum prize has an
initial annuity value of five hundred million dollars. If lottery
ticket sales surpass a predetermined ticket sales threshold, the
maximum prize may be increased. As an example, the predetermined
ticket sales threshold may be four hundred million dollars of
ticket sales. In one embodiment, the predetermined ticket sales
threshold may be determined by the lottery as an amount needed to
fund the illustrated prize values. In another embodiment, the
predetermined ticket sales threshold may be determined by the
lottery as an amount that meets profit margin criteria. Once the
predetermined ticket sales threshold is surpassed, the maximum
prize may grow. In one embodiment, the maximum prize increases by a
percentage of ticket sales. For example, a portion of every ticket
sold after the predetermined ticket sales threshold is surpassed is
allocated to an increase in the maximum prize. Further, once the
maximum prize increases such that the maximum prize value surpasses
a predetermined maximum prize value, the variable price increases.
For example, once the maximum prize increases to six hundred
million dollars, the variable ticket price may increase to thirty
dollars.
[0088] The promotional lottery prize structure 1400 may utilize a
BB in addition to regular balls. In other words, six numbers are
drawn, and then an additional BB is drawn. In one embodiment, that
BB is simply one of the remaining balls, e.g., one of the remaining
sixty nine balls out of seventy five balls in a hopper. In another
embodiment, the BB is a ball drawn from a separate hopper. In yet
another embodiment, the BB has a different indicia other than a
number such as a color or a shape.
[0089] The promotional lottery prize structure 1400 has a display
1404 that has a match field 1406, a number of tickets field 1408,
an odds filed 1410, and a prize field 1412. As an example, the
match field 1406 indicates that a six of six match 1414 exists for
one ticket 1416 to win a maximum prize initial annuity value 1420
of five hundred million dollars wits odds of one in two hundred one
million three hundred fifty nine thousand five hundred fifty.
Further, the promotional lottery prize structure 1400 has
additional prizes for BB possibilities. For example, a five of six
plus BB match 1422 exists for six tickets 1424 two win a secondary
prize of two million five hundred thousand dollars 1428 with odds
of one in thirty three million five hundred fifty nine thousand
five hundred fifty 1426. A five of six match 1430 exists for four
hundred fourteen tickets 1432 two win a secondary prize of five
hundred thousand dollars 1436. Further, a four of six plus BB match
1438 exists for one thousand twenty tickets 1440 for a fifty
thousand dollar prize 1444 with odds of one in one hundred ninety
seven thousand four hundred eleven 1442. In addition, a four of six
match 1446 exists for thirty five thousand one hundred ninety
ticket 1448 for a secondary prize of five thousand dollars 1452
with odds of one in five thousand seven hundred twenty two 1450. A
three of six match 1454 exists for one million forty seven thousand
six hundred fifty six tickets 1456 for a secondary prize 1460 of
five hundred dollars with odds of one in one hundred ninety two
1458. Further, a two of six match 1462 exists for twelve million
nine hundred ninety thousand nine hundred thirty nine tickets 1464
for a secondary prize of fifty dollars 1468 with odds of one in
sixteen 1466. The overall odds of winning a prize are one in
fourteen and thirty one one hundredths.
[0090] FIG. 15 illustrates an example of a display 1500 of price
levels for the variable price corresponding to predetermined
maximum prize thresholds. The display 1500 illustrates a variable
price field 1502 and a predetermined maximum prize threshold field
1504. The variable price field indicates different price level
increases based on particular predetermined maximum prize
thresholds. In the example illustrated in FIG. 15, the initial
variable price is twenty five dollars and the maximum prize has an
initial maximum prize value of five hundred million dollars. If the
maximum prize surpasses a predetermined maximum prize threshold,
the variable price is increased. For example, if the maximum prize
increases in value over a predetermined maximum prize threshold
1516 of six hundred million dollars, the variable price increases
to a variable price 1506 of thirty dollars. Further, if the maximum
prize increase in value over a predetermined maximum prize
threshold 1518 of seven hundred million dollars, the variable price
increases to a variable price 1508 of thirty five dollars. In
addition, if the maximum prize increases in value over a
predetermined maximum prize threshold 1520 of eight hundred million
dollars, the variable price increases to a variable price 1510 of
forty dollars. If the maximum prize increases in value over a
predetermined maximum prize threshold 1522 of nine hundred million
dollars, the variable price increases to a variable price 1512 of
forty five dollars. Finally, if the maximum prize increases in
value over a predetermined maximum prize threshold 1524 of one
billion dollars, the variable price increases to a variable price
1514 of fifty dollars. If the prize grows to be one billion
dollars, a player wins irrespective of whether he or she bought the
ticket at the variable price of twenty five dollars, thirty
dollars, thirty five dollars, forty dollars, forty five dollars, or
fifty dollars. Accordingly, the player is incentivized to purchase
the lottery ticket earlier to obtain a chance at a winning a prize
that can grow to be significantly large at a lower price than those
players that wait until that prize actually increases to the final
maximum prize value. In one embodiment, a lottery may place a cap
on the maximum prize. For example, the lottery may place a one
billion dollar cap on the size of the maximum prize. In an
alternative embodiment, the threshold can be reached rather than
surpassed for the variable price change to be triggered. For
example, an increase of the maximum prize in value to a
predetermined maximum prize threshold 1516 of six hundred million
dollars may result in the variable price increasing to a variable
price 1506 of thirty dollars.
[0091] FIG. 16 illustrates a process 1600 that may be utilized to
provide a variable pricing with promotional lottery tickets. At a
process block 1602, the process 1600 generates a predetermined
number of unique sub-combinations of a set of game numbers, each of
the sub-combinations having the same quantity of numbers. Further,
at a process block 1604, the process 1600 prints a set of
promotional lottery tickets for a promotional lottery game such
that each of the promotional lottery tickets in the set of
promotional lottery tickets distinctly corresponds to one of the
unique sub-combinations of the set of game numbers. In addition, at
a process block 1606, the process 1600 indicates a maximum prize
that a player having a promotional lottery ticket with a full match
wins. At a process block 1608, the process 1600 also establishes an
initial maximum prize value for the maximum prize. Further, at a
process block 1610, the process 1600 provides at least a subset of
the set of promotional lottery tickets to a plurality of players in
the promotional lottery game through ticket sales. In addition, at
a process block 1612, the process 1600 increments the maximum prize
above the initial maximum prize value if ticket sales surpass a
predetermined ticket sales threshold. At a process block 1614, the
process 1600 also indicates a variable price at which a promotional
lottery player can purchase a promotional lottery ticket. Further,
at a process block 1616, the process 1600 maintains the variable
price at a first price until the maximum prize increases over a
predetermined maximum prize threshold. The predetermined maximum
prize threshold is greater than the initial maximum prize value. In
addition, at a process block 1618, the process 1600 increments the
variable price to a second price after the maximum prize increases
over the predetermined maximum prize threshold. At a process block
1620, the process 1600 also randomly selects a single subset of the
set of game numbers that has the same quantity of numbers as each
of the sub-combinations. Finally, at a process block 1622, the
process 1600 provides the maximum prize to a player, irrespective
of whether the player purchased the promotional lottery ticket at
the variable price being the first price or at the variable price
being the second price, if the player has a promotional lottery
ticket with a full match between the unique sub-combination
corresponding to the promotional lottery ticket and the single
subset of the set of game numbers that is selected.
[0092] In yet another embodiment, the variable pricing
configuration may be utilized with frequency multiple pricing. For
example, prior to a maximum prize increasing in size to the
predetermined maximum prize threshold of six hundred million
dollars, a player may purchase a single ticket for twenty five
dollars or five tickets for one hundred dollars. Accordingly, the
player is incentivized to purchase five tickets for one hundred
dollars rather than five individual tickets for a total of one
hundred twenty five dollars. After the maximum prize increases in
size to the predetermined maximum prize threshold of six hundred
million dollars, the variable price may increase to thirty dollars
for a single ticket and five tickets for one hundred twenty five
dollars. Accordingly, the player may still purchase a ticket for
the previous price of twenty five dollars, but has to purchase five
tickets. Alternatively, the player may still purchase a ticket for
a price that is slightly higher than the pervious price, e.g.,
thirty dollars, but has to purchase five tickets. Therefore, the
player is incentivized to purchase tickets early in the lottery
game.
[0093] FIG. 17 illustrates a process 1700 that utilizes variable
pricing with frequency multiple pricing. Further, at a process
block 1702, the process 1700 generates a predetermined number of
unique sub-combinations of a set of game numbers. Each of the
sub-combinations has the same quantity of numbers. Further, at a
process block 1704, the process 1700 prints a set of promotional
lottery tickets for a promotional lottery game such that each of
the promotional lottery tickets in the set of promotional lottery
tickets distinctly corresponds to one of the unique
sub-combinations of the set of game numbers. In addition, at a
process block 1706, the process 1700 indicates a maximum prize that
a player having a promotional lottery ticket with a full match
wins. At a process block 1708, the process 1700 also establishes an
initial maximum prize value for the maximum prize. Further, at a
process block 1708, the process 1710 provides at least a subset of
the set of promotional lottery tickets to a plurality of players in
the promotional lottery game through ticket sales. In addition, at
a process block 1712, the process 1700 increments the maximum prize
above the initial maximum prize value if ticket sales surpass a
predetermined ticket sales threshold. At a process block 1714, the
process 1700 also indicates a first variable price category and a
second variable price category from which one or more promotional
lottery tickets can be purchased such that (i) the first variable
price category corresponds to a first predetermined known quantity
of one or more promotional lottery tickets and the second variable
price category corresponds to a second predetermined known quantity
of one or more promotional lottery tickets and (ii) a ratio of the
second variable price category to the second predetermined quantity
of one or more promotional lottery tickets is less than a ratio of
the first price variable category to the first predetermined
quantity of one or more promotional lottery tickets. Further, at a
process block 1716, the process 1700 maintains the first variable
price category at a first initial price and the second variable
price category at a second initial price until the maximum prize
increases over a predetermined maximum prize threshold, the
predetermined maximum prize threshold being greater than the
initial maximum prize value. In addition, at a process block 1716,
the process 1700 increments the first variable price category to a
first subsequent price and the second variable price category to a
second subsequent price after the maximum prize increases over the
predetermined maximum prize threshold. At a process block 1718, the
process 1700 also randomly selects a single subset of the set of
game numbers that has the same quantity of numbers as each of the
sub-combinations. Finally, at a process block 1720, the process
1700 provides the maximum prize to a player, irrespective of
whether the player purchased the promotional lottery ticket at the
first initial price, the first subsequent price, the second initial
price, or the second subsequent price, if the player has a
promotional lottery ticket with a full match between the unique
sub-combination corresponding to the promotional lottery ticket and
the single subset of the set of game numbers that is selected.
[0094] The variable pricing configurations described herein may be
implemented with a maximum prize that that does not have an initial
value. For example, the maximum prize may be a progressive prize
that starts with a value of zero and builds in value based on
portions of tickets sold.
[0095] FIG. 18 illustrates a process 1800 that may be utilized with
variable pricing. At a process block 1802, the process 1800
generates a predetermined number of unique sub-combinations of a
set of game numbers, each of the sub-combinations having the same
quantity of numbers. Further, at a process block 1804, the process
1800 prints a set of promotional lottery tickets for a promotional
lottery game such that each of the promotional lottery tickets in
the set of promotional lottery tickets distinctly corresponds to
one of the unique sub-combinations of the set of game numbers. In
addition, at a process block 1806, the process 1800 indicates a
maximum prize that a player having a promotional lottery ticket
with a full match wins. At a process block 1808, the process 1800
also provides at least a subset of the set of promotional lottery
tickets to a plurality of players in the promotional lottery game
through ticket sales. Further, at a process block 1810, the process
1800 increments the maximum prize by at least a portion of each
ticket sold. In addition, at a process block 1812, the process 1800
indicates a variable price at which a promotional lottery player
can purchase a promotional lottery ticket. At a process block 1814,
the process 1800 also maintains the variable price at a first price
until the maximum prize increases over a predetermined maximum
prize threshold. Further, at a process block 1816, the process 1800
increments the variable price to a second price after the maximum
prize increases over the predetermined maximum prize threshold. In
addition, at a process block 1818, the process 1800 randomly
selects a single subset of the set of game numbers that has the
same quantity of numbers as each of the sub-combinations. Finally,
at a process block 1820, the process 1800 provides the maximum
prize to a player, irrespective of whether the player purchased the
promotional lottery ticket at the variable price being the first
price or at the variable price being the second price, if the
player has a promotional lottery ticket with a full match between
the unique sub-combination corresponding to the promotional lottery
ticket and the single subset of the set of game numbers that is
selected.
[0096] The configurations described herein are not limited to a
single lottery matrix. For example, the numbers drawn may be from a
multi-lottery matrix such as a dual matrix. As an example, the dual
matrix may be five of fifty six number and one of forty six
numbers. Further, one or more ball hoppers may be utilize for a
lottery drawing.
[0097] Further, the subsequent random selection may also be
utilized for the promotional lottery, variable pricing, and/or
variable pricing with frequency pricing configurations described
herein. For example, if thirty percent of the promotional lottery
tickets with variable pricing are sold, the ticket with the full
match may potentially be in the seventy percent of the tickets that
were not sold. In one embodiment, a subsequent random selection
such as a subsequent drawing may be performed from the sets of
numbers on the promotional lottery tickets that were sold to ensure
a full match winner for the maximum prize.
[0098] In addition, the increase of secondary prizes discussed with
respect to the process 300 may be utilized for the promotional
lottery, variable pricing, and/or variable pricing with frequency
pricing configurations described herein. Accordingly, a secondary
prize may be increased by an additional amount if the total
percentage of actual ticket sales subtracted from the predetermined
percentage of ticket sales results in a remainder. The additional
amount is less than or equal to the remainder. In one embodiment,
the actual ticket sales are the ticket sales that fall within a
cap. For example, a cap may be one billion dollars. Accordingly, at
most a total percentage of one billion dollars may be utilized for
purposes of being subtracted from the predetermined percentage of
ticket sales. The cap may be utilized with the probabilities-based
raffle game or the promotional lottery game to calculate a
secondary prize increase.
[0099] The types of secondary prizes described herein may also be
utilized for the promotional lottery, variable pricing, and/or
variable pricing with frequency pricing configurations described
herein. For example, a pari-mutuel secondary prize may be utilized.
Further, an estimate of the secondary prize may be displayed. Any
of the configurations described herein may be utilized with a
single primary prize or a plurality of primary prizes. The term
primary prize is intended to be a prize that is larger in value
than a secondary prize. The primary prize may or may not be a
maximum prize. A hybrid prize structure may be utilized. For
example, one type of random selection may be utilized for a first
prize category and another type of random selection may be utilized
for a second prize category that is distinct from the first prize
category.
[0100] FIG. 19 illustrates a promotional lottery prize structure
1900 with a predetermined minimum number of primary prizes and a
plurality of secondary prizes. As an example, the ticket price 1902
may be twenty dollars for a single ticket or three tickets for
fifty dollars. However, any of the pricing structures described
herein by be utilized. Further, the promotional lottery prize
structure 1900 has a display 1904. The display 1904 illustrates a
prize category 1906 filed, a prize cost field 1908, a number of
winners field 1910, an odds field 1912, and a payout percentage
field 1914. The price category field 1906 has various prize levels
with a corresponding number of winners. The prize category has
primary prizes and secondary prizes. The primary prizes are one
million dollars prizes and the secondary prizes are all other
prizes with a lesser value such as one hundred thousand dollars,
ten thousand dollars, two hundred fifty dollars, one hundred
dollars, and fifty dollars. In one embodiment, the minimum number
of primary prizes is won in each promotional lottery game. For
example, at a minimum, one hundred tickets are winning tickets of
the one million dollar prize. To ensure such a minimum, one hundred
different sets of digits are drawn from the sets of digits actually
sold on tickets. Accordingly, no one million dollar prizes are
selected from tickets that have not been sold. However, the
secondary prizes may not necessarily all be provided to each of the
indicated number of winners. For example, the only two hundred
winners of the one hundred thousand dollar prize may be selected
from the sold tickets and the other three hundred numbers may have
been selected from the unsold tickets. In one embodiment, the
winning tickets of a secondary prize level share the payout
percentage of that particular secondary prize. For example, two
hundred winners of the one hundred thousand dollar prize may share
slightly under three percent of the total sales. That share may be
less than, equal to, or greater than one hundred thousand dollars.
As described herein, the secondary prizes may be pari-mutuel,
estimates, etc. In another embodiment, the number of winning
tickets is not displayed and the prize level is constant with a
chance of increasing if a remainder as described herein exists.
Accordingly, the number of winning tickets is determined based on
the payout percentage of the actual tickets sales such that, at a
minimum, the constant secondary prize, e.g., one hundred thousand
dollars or an annuity thereof, is provided.
[0101] In one embodiment, the predetermined minimum number of
primary prizes may increase. For example, a predetermined
percentage of tickets sales to be paid in prizes won for the
promotional lottery game may be established. The quantity of
primary prizes may be increased over the predetermined minimum
number of primary prizes based on a remainder being greater than or
equal to a primary prize in the predetermined minimum number of
primary prizes. The remainder resulting from the total percentage
of actual ticket sales subtracted from the predetermined percentage
of ticket sales. In one embodiment, the predetermined percentage of
ticket sales is a percentage that generates enough revenue to equal
costs of prizes in the promotional lottery. For example, the number
of primary prizes may be increased to one hundred fifty one million
dollar prizes. In one embodiment, a guarantee may be provided for
some or all of the amount of sales that achieve a break event
status of revenues equaling costs.
[0102] FIG. 20 illustrates a display 2000 of the odds as the number
of primary prizes stays constant and then changes. At first, the
odds of winning a primary prize are relatively good and then
decrease towards the break even point. After the break even points
is surpassed, the odds increase again as the number of primary
prizes is increased. As an example, for each two million dollar
increase in sales above the break even point, one additional
primary prize may be provided. Accordingly, no additional risk is
added by providing that additional primary prize. Therefore, a
guarantee is provided for a portion or all of sales up until the
break even point and then is no longer needed.
[0103] FIG. 21 illustrates an example of a promotional lottery
ticket 2100. The promotional lottery ticket 2100 may have a unique
set of digits 1402. In one embodiment, a drawing of a set of digits
is performed for each prize. Accordingly, the first one hundred
sets of digits drawn are for the one million dollar prize, the next
five hundred numbers drawn are for the one hundred thousand dollar
prize, etc. In another embodiment, iterations are performed for the
primary prize. For example, the first one hundred sets of digits
drawn are for the one million dollar prize. Instead of drawing
numerous sets of digits for a large number of secondary prizes, an
additional set of digits may be drawn for the secondary prizes.
Certain criteria based on that single set of digits may be
determined. For example a match of the first six or last six
numbers of the ordered set of digits may result in one of the
secondary prizes. In another embodiment, some additional iterations
may be performed for some of the secondary prizes and a single
additional set of digits may be selected and utilized for other
secondary prizes.
[0104] FIG. 22 illustrates a process 2200 that may be utilized to
implement multiple primary prizes. At a process block 2202, the
process 200 generates a predetermined number of unique combinations
of a set of game digits. Each of the combinations has the same
quantity of digits. Further, a process block 2204, the process 2200
prints a set of promotional lottery tickets for a promotional
lottery game such that each of the promotional lottery tickets in
the set of promotional lottery tickets distinctly corresponds to
one of the unique combinations of the set of game digits. In
addition, at a process block 2206, the process 2200 indicates a
predetermined minimum number of primary prizes. At a process block
2208, the process 2200 also provides at least a subset of the set
of promotional lottery tickets to a plurality of players in the
promotional lottery game through ticket sales. Further, at a
process block 2210, the process 2200 randomly selects, according to
a predetermined number of iterations that equals the predetermined
minimum number of primary prizes, a distinct unique combination of
the set of game digits, in each iteration, from the combinations of
the set of game digits appearing on the promotional lottery tickets
in the subset of the set of promotional lottery tickets provided to
the plurality of players in the promotional lottery game through
ticket sales such that each of the predetermined minimum number of
primary prizes is won in the promotional lottery game. In addition,
at a process block 2212, the process 2200 provides each of the
predetermined minimum number of primary prizes to each player with
a distinct unique combination of the set of game digits from the
combinations of the set of game digits appearing on the promotional
lottery tickets in the subset of the set of promotional lottery
tickets provided to the plurality of players in the promotional
lottery game through ticket sales. In another embodiment, the
process 2200 may be utilized to implement a single primary prize.
In yet another embodiment, the process 2200 may be utilized to
implement a predetermined minimum number of prizes having a single
primary prize, and the number of primary prizes may surpass that
predetermined minimum number.
[0105] FIG. 23 illustrates a promotional lottery prize structure
2300. The predetermined number of minimum primary prizes is similar
to that of the promotional lottery prize structure 1900 illustrated
in FIG. 19. For example, one hundred iterations of are performed to
select one hundred sets of digits from the sets of digits printed
on promotional lottery tickets actually sold. However, the
secondary prize winning tickets are selected according to a lottery
matrix. For example, a separate set of numbers, which is selected
from a larger set of numbers, may be printed on a lottery ticket.
For example, seven numbers may be selected from twenty one numbers.
Accordingly, different secondary prizes may be provided based on
the type of match with the secondary prize. For example, a seven of
twenty one match may result in a twenty five thousand dollar prize,
a six of twenty one match may result in a one thousand dollar
prize, a five of twenty one match may result in a fifty dollar
prize, and a four of twenty one match may result in a thirty dollar
prize. The types of secondary prizes and possible increases in
primary prizes are configured similarly to the promotional lottery
prize structure 1900 illustrated in FIG. 19. The primary prize data
illustrated in FIG. 23 is dependent upon all tickets being sold and
the number of primary prizes not increasing. If these conditions
are changed, the primary prize data may be different.
[0106] FIG. 24 illustrates another process 2400 that utilized to
implement multiple primary prizes. At a process block 2402, the
process 2400 generates a predetermined number of unique
combinations of a set of game digits. Each of the combinations has
the same quantity of digits. Further, at a process block 2406, the
process 2400 generates a predetermined number of unique
sub-combinations of a set of game numbers such that each of the
sub-combinations having the same quantity of numbers and randomly
selecting a single subset of the set of game numbers that has the
same quantity of numbers as each of the sub-combinations. In
addition, at a process block 2408, the process 2400 prints a set of
promotional lottery tickets for a promotional lottery game such
that each of the promotional lottery tickets in the set of
promotional lottery tickets corresponds to one of the unique
sub-combinations of a set of game numbers and distinctly
corresponds to one of the unique combinations of the set of game
digits. At a process block 2410, the process 2400 also indicates a
predetermined minimum number of primary prizes. Further, at a
process block 2412, the process 2400 indicates a plurality of
secondary prizes. Each of the secondary prizes in the plurality of
secondary prizes has a lesser value than each of the predetermined
minimum number of primary prizes. In addition, at a process block,
the process 2400 provides at least a subset of the set of
promotional lottery tickets to a plurality of players in the
promotional lottery game through ticket sales. At a process block
2414, the process 2400 also randomly selects, according to a
predetermined number of iterations that equals the predetermined
minimum number of primary prizes, a distinct unique combination of
the set of game digits, in each iteration, from the combinations of
the set of game digits appearing on the promotional lottery tickets
in the subset of the set of promotional lottery tickets provided to
the plurality of players in the promotional lottery game through
ticket sales such that each of the predetermined minimum number of
primary prizes is won in the promotional lottery game. Further, at
a process block 2416, the process 2400 randomly selects a single
subset of the set of game numbers that has the same quantity of
numbers as each of the sub-combinations. In addition, at a process
block 2418, the process 2400 provides each of the predetermined
minimum number of primary prizes to each player with a distinct
unique combination of the set of game digits from the combinations
of the set of game digits appearing on the promotional lottery
tickets in the subset of the set of promotional lottery tickets
provided to the plurality of players in the promotional lottery
game through ticket sales. Finally, at a process block 2420, the
process 2400 provides a secondary prize from the plurality of
secondary prizes to a player based on a type of match on a
promotional lottery ticket of the player between the unique
sub-combination corresponding to the promotional lottery ticket and
the single subset of the set of game numbers that is selected.
[0107] FIG. 25 illustrates an example of a promotional lottery
ticket 2500. The promotional lottery ticket 2500 may have a unique
set of digits 2502 and a set of numbers 2504. In one embodiment, a
drawing of a set of digits is performed for each prize primary
prize. Accordingly, the first one hundred sets of digits drawn are
for the one million dollar prize. Further, a drawing is performed
from lottery matrix, e.g., six of twenty nine.
[0108] In yet another embodiment, a lottery game may be provided
such that a maximum prize win has to occur from lottery tickets
that are sold. For example, a set of one million lottery tickets
may be printed with various possible combinations. If only five
hundred thousand lottery tickets are sold, a maximum prize winner
is selected from the tickets that are sold rather than the universe
of tickets with possible combinations that may not have been sold.
Further, the secondary prizes may be provided from the universe of
possible combinations rather than the tickets that are sold. For
example, some partial matches may occur from the tickets that are
sold whereas other partial matches may occur from combinations for
tickets that have not been sold. As a result, a winner of the
maximum prize is ensured whereas a winner of all of the secondary
prizes is not ensured. In contrast with a traditional raffle where
all of the advertised prizes have to be distributed even if the
revenues of the raffle do not cover such costs, this configuration
allows a lottery to control the costs of implementing a raffle game
or other type of lottery game by not having to provide prizes for a
winning sets of game indicia. Therefore, the lottery is able to
offer raffle type lottery games and control the costs of such
games.
[0109] FIG. 26 illustrates a sample lottery game configuration
2600. A player may receive a lottery ticket with a set of game
indicia. Game indicia may include numbers, symbols, or the like.
For example, player set of game indicia 2602 may include the
numbers two, four, six, eight, and ten. These numbers may be
generated from a predetermined quantity of unique combinations of
sets of five possible numbers. The lottery may then utilize a
lottery machine apparatus, e.g., processor, ball hopper, random
indicia generator apparatus, or the like, to randomly generate a
combination from the set of possible game indicia that have been
sold. Accordingly, a full match prize winner is ensured. The
partial match prizes may be based upon partial matches that may or
may not be in the lottery tickets that have been sold. As an
example, the lottery may draw the set of numbers 2604 two, four,
six, eight, and seven. The player has a partial match of four of
five as the player has the numbers two, four, six, eight, and ten.
Alternatively, some partial matches may not be in the quantity of
tickets sold. For example, the partial match of two, four, six,
eight, and nine may not be in the quantity of tickets sold.
Accordingly, a partial match prize does not have to be provided to
a player for that winning partial match. As a result, the lottery
may control costs.
[0110] An example set of game indicia is a set of numbers of one
through forty nine. Various other sets of game indicia may be
utilized.
[0111] In one embodiment, a lot configuration may be utilized. For
example, a predetermined indicium may be selected. For instance,
the number seven may be selected. As a result, the lottery tickets
may be generated and distributed such that tickets with the number
seven are not distributed together. Such a lot configuration avoids
clustering of possible partial match prizes. For example, the
lottery may draw a set of indicia that includes the number seven.
If a cluster of lottery tickets is sold with the number seven, a
large portion of partial match prizes may have to be distributed
even if a large enough quantity of lottery tickets have not been
sold to cover the costs of the partial match prizes. Alternatively,
any of the configurations provided for herein may be utilized
without a lot configuration.
[0112] FIG. 27 illustrates a process 2700 that may be utilized for
a lottery game. At a process block 2702, the process 2700
generates, with a lottery machine apparatus, a predetermined
quantity of unique combinations of a set of game indicia. Each of
the unique combinations has the same quantity of game indicia.
Further, at a process block 2704, the process 2700 prints, with a
lottery ticket printer, a set of lottery tickets for a lottery game
such that each of the lottery tickets in the set of lottery tickets
distinctly corresponds to one of the unique combinations of the set
of game indicia. In addition, at a process block 2706, the process
2700 distributes a subset of the set of lottery tickets in a
plurality of lots. At a process block 2708, the process 2700 also
determines a maximum prize winner by selecting a winning unique
combination from a subset of the predetermined quantity of unique
combinations of the first set of game indicia that is associated
with the subset of the set of lottery tickets. Further, at a
process block 2710, the process 2700 determines a plurality of
secondary prize winning matches based upon a plurality of partial
matches from the predetermined quantity of unique combinations and
a quantity of the plurality of lots that is distributed.
[0113] FIG. 28 illustrates a sample lottery configuration 2800 that
may be utilized with multiple sets of game indicia. As an example,
a player may receive a first set of game indicia 2802 and a second
set of game indicia 2804. For instance, the first set of game
indicia may be the numbers two, four, six, eight, and ten. Further,
the second set of game indicia may be the number thirty two. For
example, the first set of game indicia may be selected from a set
of numbers one through forty nine. As another example, the second
set of game indicia may be selected from a set of numbers one
through thirty five. The lottery may draw a set of game indicia
2806 from the same set of indicia as the first set of game indicia.
For example, the lottery may draw the numbers two, four, six,
eight, and ten. Further, the lottery may draw a set of game indicia
2808 from the same set of indicia as the second set of game
indicia. As an example, the lottery may draw the number thirty.
Accordingly, the first set of game indicia 2802 and the second set
of game indicia 2804 may be combined for the set of player indicia.
The set of player indicia is compared with the combination of the
set of game indicia 2806 and the set of game indicia 2808 drawn by
the lottery. For example, the player may have a partial match win
of five of six as the numbers two, four, six, eight, and ten
match.
[0114] In one embodiment, a lot configuration may be utilized with
the lottery game configuration 2800. For example, the second set of
game indicia 2804 may be utilized as a lot indicator to avoid
clustering. For instance, the various combinations of the first set
of game indicia may be generated by lottery for the second set of
game indicia with a one. Subsequently, the various combinations of
the first set of game indicia may be generated by lottery for the
second set of game indicia with a two. These lots may be generated
as lottery tickets are sold. The lottery may then know the quantity
of possible partial match prizes based upon the quantity of lots
sold. For example, the lottery may know that ten five of six
partial match prizes are possible if ten lots are sold. Such a
configuration helps prevent the possibility of all thirty two five
of six partial match prizes being won in a cluster of tickets sold
early on in the ticket sales process.
[0115] Although two sets of game indicia are illustrated, any
number of multiple sets of game indicia may be utilized. The
multiple sets of game indicia may be combined into a set of game
indicia for a comparison between player game indicia and lottery
drawn game indicia.
[0116] FIG. 29 illustrates a process 2900 that may be utilized for
a lottery game. At a process block 2902, the process 2900
generates, with a lottery machine apparatus, a first predetermined
quantity of unique combinations of a first set of first game
indicia and a second predetermined quantity of unique combinations
of a second set of second game indicia. Further, at a process block
2904, the process 2900 prints, with a lottery ticket printer, a set
of lottery tickets for a lottery game such that each of the lottery
tickets in the set of lottery tickets distinctly corresponds to one
of the first predetermined quantity of unique combinations of a
first set of first game indicia and to one of the second
predetermined quantity of unique combinations of a second set of
second game indicia. In addition, at a process block 2906, the
process 2900 distributes a subset of the set of lottery tickets in
a plurality of lots. At a process block 2908, the process 2900 also
determines a maximum prize winner by selecting a winning unique
combination from a subset of a set of the predetermined quantity of
unique combinations of the first set of game indicia and the
predetermined quantity of unique combinations of the second set of
game indicia that are associated with the subset of the set of
lottery tickets. Further, at a process block 2910, the process 2900
determines a plurality of secondary prize winning matches based
upon a plurality of partial matches from the first predetermined
quantity of unique combinations of a first set of first game
indicia and the second predetermined quantity of unique
combinations of a second set of second game indicia.
[0117] In another embodiment, the first set of first game indicia
may include a same quantity of game indicia. In another embodiment,
the second set of second game indicia may include a same quantity
of game indicia.
[0118] Any of the configurations provided for herein may be
utilized with a single pricing structure. Alternatively, any of the
configurations provided for herein may be utilized with a multiple
pricing structure that allows a lottery ticket to be purchased for
a proportionate amount of a potential prize win based upon the
price purchased.
[0119] In another embodiment, a hybrid game may be utilized that
allows multiple sets of game indicia to be provided to a player.
The lottery may then also draw multiple set sets of game indicia.
Each respective set of game indicia may then be compared with a
corresponding set of draw indicia to determine prize distribution.
In one embodiment, the maximum prize is won by a player with full
matches for the multiple sets of game indicia. Other possible prize
configurations may be utilized to determine a maximum prize
win.
[0120] Any of the configurations described herein may also be
utilized for multiple maximum prize winners. As an example, the set
of possible outcomes described herein may be utilized with a
predetermined set of unique outcomes. If all tickets are sold with
such unique outcomes, the lottery may generate additional lottery
tickets with those possible outcomes. As a result, multiple tickets
may have a full match of the set of game indicia drawn by the
lottery.
[0121] In another embodiment, a proration process may be utilized
to provide a lottery game. For example, the odds of winning a
maximum prize may be variable based upon the number of tickets sold
whereas the odds of winning a secondary prize may be fixed.
Accordingly, the quantity of available secondary prizes may be
adjusted based upon the number of tickets sold.
[0122] Any of the configurations described above are not limited to
the utilization of numbers. Any type of indicia or symbols may be
utilized.
[0123] The term combination of game indicia utilized herein is
intended to mean an assortment of game indicia selected from a set
of game indicia. The assortment may be less than or equal to in
quantity of the game indicia in the set of game indicia. As an
example, a five of forty nine combination is a selection of any
five game indicia from the set of forty nine game indicia.
[0124] It is understood that the processes and systems described
herein may also be applied in other types of processes and systems.
Those skilled in the art will appreciate that the various
adaptations and modifications of the embodiments of the processes
and systems described herein may be configured without departing
from the scope and spirit of the present processes and systems.
Therefore, it is to be understood that, within the scope of the
appended claims, the present processes and systems may be practiced
other than as specifically described herein.
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