U.S. patent application number 14/159184 was filed with the patent office on 2014-05-15 for data access and communication system.
This patent application is currently assigned to Aristocrat Technologies Australia Pty Limited. The applicant listed for this patent is Aristocrat Technologies Australia Pty Limited. Invention is credited to Stephen Johnson.
Application Number | 20140135110 14/159184 |
Document ID | / |
Family ID | 28795710 |
Filed Date | 2014-05-15 |
United States Patent
Application |
20140135110 |
Kind Code |
A1 |
Johnson; Stephen |
May 15, 2014 |
DATA ACCESS AND COMMUNICATION SYSTEM
Abstract
A gaming machine has a display and a game controller arranged to
control images of symbols displayed on the display. The game
controller is arranged to play a game wherein at least one random
event is caused to be displayed on the display and, if a predefined
winning event occurs, the machine awards a prize. The gaming
machine includes a determining module for determining whether or
not at least one further prize, following the awarding of an
initial prize, is to be awarded, the determining module using the
value of that initial prize in determining the probability of the
player successfully winning the at least one further prize.
Inventors: |
Johnson; Stephen; (Rosebery,
AU) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Aristocrat Technologies Australia Pty Limited |
North Ryde |
|
AU |
|
|
Assignee: |
Aristocrat Technologies Australia
Pty Limited
North Ryde
AU
|
Family ID: |
28795710 |
Appl. No.: |
14/159184 |
Filed: |
January 20, 2014 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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11957141 |
Dec 14, 2007 |
8657670 |
|
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14159184 |
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10692480 |
Oct 24, 2003 |
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11957141 |
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Current U.S.
Class: |
463/25 |
Current CPC
Class: |
G07F 17/3244 20130101;
G07F 17/3267 20130101; G07F 17/32 20130101 |
Class at
Publication: |
463/25 |
International
Class: |
G07F 17/32 20060101
G07F017/32 |
Foreign Application Data
Date |
Code |
Application Number |
Oct 29, 2002 |
AU |
2002952317 |
Claims
1-36. (canceled)
37. A method for use with a gaming machine playing a game, said
game having a plurality of sequential stages, each stage having an
associated prize, the method comprising: determining an outcome of
a current stage; accumulating a current prize from a plurality of
prizes each of which is associated with a unique one of the stages;
determining an average prize based on said current prize and at
least one probability value via at least one mathematical function;
and awarding said average prize and progressing to a next stage if
said outcome of said current stage is a successful outcome.
38. The method as claimed in claim 37, wherein determining a
current prize comprises obtaining a randomly selected integer and
comparing the randomly selected integer to a range of integers.
39. The method as claimed in claim 37, wherein the average value is
one of a plurality of average values, further comprising
associating each of the average values with one of the stages.
40. The method as claimed in claim 39 wherein each of the average
values is different from any other of the average values.
41. The method as claimed in claim 37, wherein the at least one
mathematical function comprises: (Prize 0*P.sub.s0)+Prize
1*(P.sub.s1+ . . . +P.sub.sn)=NC.sub.1; (Prize 0*P.sub.s0)+Prize
1*(P.sub.s1+ . . . +P.sub.sn)+Prize 2*(P.sub.s2+ . . .
+P.sub.sn)=NC.sub.2 (Prize 0*P.sub.s0)+Prize 1*(P.sub.s1+ . . .
+P.sub.sn)+Prize 2*(P.sub.s2+ . . . +P.sub.sn)+ . . . +Prize
n*(P.sub.sn)=NC.sub.n. P.sub.s0+P.sub.s1+P.sub.s2+ . . .
+P.sub.sn=1; wherein P.sub.s1 to P.sub.sn are, respectively,
probabilities of the associated stage outcome corresponding to a
successful outcome; P.sub.s0 is the probability of the stage
outcome for a first of the stages corresponding to the unsuccessful
outcome; Prize 0 is a value of a consolation prize that may be
awarded to the player if the stage outcome for the first of the
stages corresponds to an unsuccessful outcome; NC.sub.1 to NC.sub.n
each represents an average value of a respective prize.
Description
RELATED APPLICATIONS
[0001] This application claims priority to and benefit as a
continuation of U.S. patent application Ser. No. 10/692,480, filed
on Oct. 24, 2003, entitled "Gaming Machine Feature," which claims
priority to Australian Application No. 2002952317, filed on Oct.
29, 2002, each of which is herein incorporated by reference in its
entirety.
FIELD OF THE INVENTION
[0002] This invention relates to a gaming machine. More
particularly, the invention relates to a gaming machine and to an
improvement to game features played on such a gaming machine.
BACKGROUND TO THE INVENTION
[0003] More and more gaming machines are offering games which have
bonus features. These bonus game features are, normally, in the
form of secondary features resulting from a trigger condition in a
base game. The features often have higher payouts than the
underlying base game. It is necessary to ensure that a theoretical
return to player of a gaming machine incorporating such a feature
does not exceed a certain amount which would render the gaming
machine unprofitable to an operator of the gaming machine.
[0004] Legislation in various jurisdictions provides that a gaming
machine must return a predetermined minimum amount, on average, to
players. In the jurisdiction of New South Wales, Australia, the
minimum return to player is set at 85% of the total amount wagered.
Operators of the gaming machines are aware of this value and budget
to receive their percentage as operating costs and as a source of
revenue.
[0005] Were the gaming machines to exceed the minimum return to
player, it could become unprofitable for operators of the gaming
machines.
[0006] Further, certain of the game features offer the player
various options where an apparent exercise of skill may be
involved. This apparent exercise of skill may give the appearance
of affecting the average return to player of the game. However, in
reality, to ensure that the machines remain profitable for
operators thereof, the exercise of skill by the player cannot
affect the average return to player but may affect the outcome of
the feature.
SUMMARY OF THE INVENTION
[0007] According to a first aspect of the invention, there is
provided a gaming machine having a display and a game controller
arranged to control images of symbols displayed on the display, the
game controller being arranged to play a game wherein at least one
random event is caused to be displayed on the display means and, if
a predefined winning event occurs, the machine awards a prize, the
gaming machine including a determining module for determining
whether or not at least one further prize, following the awarding
of an initial prize, is to be awarded, the determining means using
the value of that initial prize in determining the probability of
the player successfully winning the at least one further prize.
[0008] The determining module may be implemented in software and
forms part of the game controller.
[0009] In a preferred form of the invention, the game comprises an
underlying base game and, when a predetermined trigger condition
occurs in the base game, a game feature is awarded. The game
feature may be a bonus game, a second screen feature, or the like.
In general, the invention applies to the game feature but need not
do so.
[0010] In one embodiment of the invention, any prize won may be in
the form of a number of credits and a probability of success in
winning any further prize may be determined based upon the average
credits awarded to players of the game. More particularly, the
probability of success may be determined so that the average number
of credits won in respect of the game after completion of the
determination of the probability of success is approximately the
same as the number of credits won before the completion of the
determination of the probability of success.
[0011] This embodiment of the invention may apply where, if the
player elects to continue with the game, having already won at
least one prize, the player risks losing at least a portion of the
already won prize if any subsequent outcome is unsuccessful.
[0012] Another embodiment of the invention may comprise the
addition of prizes to an already won prize to determine the
probability of success of winning any further prizes.
[0013] The controller may have a plurality of pathways and the
player may be able to choose one of the pathways as an initial step
in playing the game. In each subsequent step of the game, assuming
a preceding step resulted in a successful outcome, the player may
be able to switch from one pathway to another pathway.
[0014] Further, in this embodiment of the invention, no loss of any
already won prize or prizes occurs.
[0015] Each pathway may have a predetermined number of steps. Each
pathway may have the same number of steps.
[0016] A numerical constant may be applied to each step in each
pathway in determining the probability of successfully completing
that step in the pathway if selected by the player, the numerical
constant being related to an average prize won up to that point in
the game. Corresponding steps in each of the pathways may have the
same numerical constant associated with them.
[0017] In each step along the pathway, to determine if the player
wins the prize associated with that step, ie obtains a successful
outcome in that step, the probability is calculated using the
numerical constant. The numerical constants may be predetermined.
Typically, the numerical constant selected for the corresponding
steps of each pathway may fall within a predetermined range.
[0018] The numerical constants may be determined such that the
effect of a player switching pathways is obviated. In other words,
the constants may be selected so that it is of no advantage or
disadvantage which path is selected by the player. The possible
prizes gained may be dependent on player selection and the
probability of successfully winning any further prizes may be
determined so that, overall, the average prize won remains the
same.
[0019] According to a second aspect of the invention, there is
provided a method of operating a gaming machine, the gaming machine
having a display and a game controller arranged to control images
of symbols displayed on the display, the game controller being
arranged to play a game wherein at least one random event is caused
to be displayed on the display means and, if a predefined winning
event occurs, the machine awards a prize, the method including
determining whether or not at least one further prize, following
the awarding of an initial prize, is to be awarded by using the
value of that initial prize in determining the probability of the
player successfully winning the at least one further prize.
[0020] In one embodiment of the invention, any prize won may be in
the form of a number of credits and the method may include
determining the probability of success in winning any further prize
based upon the average credits awarded to players of the game. The
method may include determining the probability of success so that
an average number of credits won in respect of the game after
completion of the determination of the probability of success is
approximately the same as the number of credits won before the
completion of the determination of the probability of success.
[0021] The method may includes the player risking at least a
portion of the already won prize if any subsequent outcome is
unsuccessful.
[0022] In another embodiment of the invention, the method may
include adding prizes to an already won prize to determine the
probability of success of winning any further prizes. The
controller may have a plurality of pathways and the method may
include allowing the player to choose one of the pathways as an
initial step in playing the game.
[0023] The method may include, in each subsequent step of the game,
allowing the player to switch from one pathway to another
pathway.
[0024] Each pathway may have a predetermined number of steps, with
each pathway having the same number of steps and the method may
include applying a numerical constant to each step in each pathway
in determining the probability of successfully completing that step
in the pathway if selected by the player, the numerical constant
being related to an average prize won up to that point in the game.
The method may include applying the same numerical constants to
corresponding steps in each of the pathways.
[0025] The method may include predetermining the numerical
constants before the game is played. The method may include
determining the numerical constants such that the effect of a
player switching pathways is obviated.
BRIEF DESCRIPTION OF THE DRAWINGS
[0026] The invention is now described by way of example with
reference to the accompanying diagrammatic drawings in which:
[0027] FIG. 1 shows a perspective view, of a gaming machine, in
accordance with the invention; and
[0028] FIG. 2 shows a block diagram of a control circuit of the
gaming machine.
DETAILED DESCRIPTION OF THE DRAWINGS
[0029] In FIG. 1, reference numeral 10 generally designates a
gaming machine, including a game, in accordance with the invention.
The machine 10 includes a console 12 having a display means in the
form of a video display unit 14 on which a game 16 is played, in
use. The video display unit 14 may be implemented as a cathode ray
screen device, a liquid crystal display, a plasma screen, or the
like. The game 16 is a spinning reel game which simulates the
rotation of a number of spinning reels 18 and includes a bonus game
feature. Typically the bonus game feature is awarded upon the
occurrence of a trigger condition in the spinning reel game. A
midtrim 20 of the machine 10 houses a bank 22 of buttons for
enabling a player to play the game 16. The midtrim 20 also houses a
credit input mechanism 24 including a coin input chute 24.1 and a
bill collector 242.
[0030] The machine 10 includes a top box 26 on which artwork 28 is
carried, The artwork 28 includes paytables, details of bonus
awards, etc.
[0031] A coin tray 30 is mounted beneath the console 12 for cash
payouts from the machine 10.
[0032] Referring now to FIG. 2 of the drawings, a control means or
control circuit 32 is illustrated. A program which implements the
game and user interface is run on a processor 34 of the control
circuit 32. The processor 34 forms part of a controller 36 that
drives the screen of the video display unit 14 and that receives
input signals from sensors 38. The sensors 38 include sensors
associated with the bank 22 of buttons and touch sensors mounted in
the screen of the video display unit 14. The controller 36 also
receives input pulses from the mechanism 24 to determine whether or
not a player has provided sufficient credit to commence playing.
The mechanism 24 may, instead of the coin input chute 24.1 or the
bill collector 24.2, or in addition thereto, be a credit card
reader (not shown) or any other type of validation device.
[0033] The processor 34 includes a software implemented determining
module that governs the awarding of prizes in a feature as will be
described in greater detail below.
[0034] Finally, the controller 36 drives a payout mechanism 40
which, for example, may be a coin hopper for feeding coins to the
coin tray 30 to make a pay out to a player when the player wishes
to redeem his or her credit.
[0035] In determining the result of game features where player
choice is involved, it is necessary for the processor 34 to ensure
that the overall, average return to player of the gaming machine 10
on which the game feature is played remains at the chosen
percentage. This also simplifies the mathematical calculations
involved in determining returns to player as, where results may
occur as a result of player choice, it would be necessary to take
this into account in calculating the prizes awarded to the player
and the return to player.
[0036] This invention relates to using the determining module of
the processor 34 to ensure that the expected return to player of a
gaming machine is unchanged where player choice is involved in
playing a game feature. Two embodiments of the invention are
described below.
[0037] In a first embodiment of the invention, a feature is awarded
where, if a player continues playing the feature, a loss of at
least a portion of the prize or prizes accumulated up to then in
the feature may occur.
[0038] In playing the feature, it is assumed that at least one
prize is awarded at random. This occurs as an initial step each
time the feature is played and no player skill is involved. For
ease of explanation, the already won prize or prizes are referred
to below as the guaranteed prize.
[0039] After obtaining the guaranteed prize, the player is offered
an opportunity of continuing to play the feature. The player thus
has a prospect of adding to the guaranteed prize but with the risk
of losing at least a portion of the guaranteed prize. Thus, if the
player were to continue playing after the guaranteed prize had been
won, the player risks losing, say, half of the guaranteed
prize.
[0040] It is to be noted that, in each playing of the feature, the
guaranteed prize won by a player need not always be the same amount
of credits but varies with each playing of the feature. The value
of the guaranteed prize is also determinative of the prospect of
success should the player continue playing the feature. In other
words, the more the player risks to gain an increased prize, the
greater the probability of success to reflect the increased risk.
The average return to player remains unaffected by the choice of
the player but the specific prize changes with each playing of the
feature.
[0041] In this embodiment, in each playing of the feature, a
guaranteed prize is awarded at random. Any further prize offered
may be known or unknown to the player and the player has the choice
to try and win the further prize by risking a portion of the
guaranteed prize already won.
[0042] The probability of successfully winning any additional
prize, which may be a randomly determined prize or a fixed prize,
is determined by the following equation where the probability of
success, P.sub.S, is between 0 and 1:
P.sub.S=number of credits gambled/(number of credits gambled+new
credits to be gained). Equation 1
[0043] The average credits after the calculation has been completed
is identical to the credits won by the player before the
calculation has been completed. Using the example where the player
has to risk half the credits comprising the guaranteed prize to
gain the additional prize and assuming the guaranteed prize
amounted to a total of 60 credits and the additional prize for
which the player is playing is 10 credits,
P S = 30 / ( 30 + 10 ) = 0.75 ##EQU00001##
using Equation 1 above. Conversely, the probability of failure,
P.sub.F, where the player would only win half the 60 credits, i.e.
30 credits, is:
P F = 1 - P S = 1 - 0.75 = 0.25 . ##EQU00002##
[0044] It will therefore be noted that, overall, the average
credits after the calculation is:
0.75 * 70 + 0.25 * 30 = 52.5 + 7.5 = 60 credits . ##EQU00003##
[0045] As a second example of this embodiment, assuming the
guaranteed prize amounted to 70 credits and half of those credits
were then risked to gain another 10 credits:
P S = 35 / ( 35 + 10 ) = 0.77777 . ##EQU00004##
[0046] Therefore,
P F = 1 - 0.77777 = 0.22223 ##EQU00005##
[0047] Therefore, in this example, overall, the average credits
after the calculation is:
0.77777 * 80 + 0.22223 * 35 = 62.22223 + 7.77777 = 70 credits .
##EQU00006##
[0048] In a second embodiment of the invention, it is assumed that
no guaranteed prize is awarded in the playing of the feature but
that a player has a choice of various pathways. Each pathway is
made up of a number of steps and each step has a prize associated
with it.
[0049] It will be appreciated that, in this embodiment of the
invention there is no guaranteed prize so that, in the taking of a
first step, a player could fail. In other words, moving from a
start position may result in failure. Failure at the first step may
result in the paying of a consolation prize. This needs to be taken
into account in assessing the probability of success. It will also
be appreciated that, should the player fail at taking the first
step, the feature is regarded as concluded.
[0050] To allow a calculation of the probability of successfully
taking any step to be determined, a numerical constant, related to
an average prize accumulated by players up to that point in the
feature, is associated with the taking of each step. As shown in
Table 1 below, for the example indicated in that table, numerical
constants of 9.9, 14.5 and 16.5 are associated with the taking of
the first step, the second step and the third step respectively, in
each pathway. It is to be noted that the corresponding step of each
pathway has the same numerical constant associated with it. It is
further to be noted that, for the first and second steps, the
numerical constants need not be the same for each pathway provided
they are below the value of the numerical constants for the third
step which remains the same for each pathway.
TABLE-US-00001 TABLE 1 Start 20 20 20 Finish Start 15 15 15 Finish
Start 10 10 10 Finish Numerical 9.9 14.5 16.5 constant (NC)
[0051] The numerical constants that are employed will only work on
a limited amount of prize numbers and it is necessary to determine
the numerical constant within a predetermined range. Further, it is
to be noted that Table 1 is a simplified version of the table that
will occur in a game feature and is shown in that format for ease
of explanation. These numerical constants are, in fact, the average
number of credits that are determined to be the average number of
credits which have been accumulated by players up to that point of
the feature.
[0052] It is also assumed that after the player has chosen an
initial pathway, the player is not compelled to continue on that
pathway. In other words, in taking the first step on a first
pathway which results in a successful outcome the player then has
the option, in taking the next step, to continue on the same
pathway or at least taking the corresponding step on to an adjacent
pathway. Thus, for example, in Table 1 above, if the player starts
on the first pathway with prizes of 20 credits for each step then,
if the player is successful after the first step, the player has
the option of taking the second step on the same pathway for a
further prize of 20 credits or taking a second step on to the
middle pathway for a prize of 15 credits. If the player had started
on the middle pathway and had a successful first outcome, the
player would have three options for taking the second step, i.e. to
move on to the first pathway, to continue on the second pathway or
to move on to the third pathway.
[0053] The chance of winning any prize is calculated using the
following mathematical formulae:
(Prize 0*P.sub.S0)+Prize 1*(P.sub.S1+ . . .
+P.sub.Sn)=NC.sub.1;
(Prize 0*P.sub.S0)+Prize 1*(P.sub.S1+ . . . +P.sub.Sn)+Prize
2*(P.sub.S2+ . . . +P.sub.Sn)=NC.sub.2
(Prize 0*P.sub.S0)+Prize 1*(P.sub.S1+ . . . +P.sub.Sn)+Prize
2*(P.sub.S2+ . . . +P.sub.Sn)+Prize 3*(P.sub.S3+ . . . +P.sub.Sn)+
. . . +Prize n*(P.sub.Sn)=NC.sub.n. Equation 2
and
P.sub.S0+P.sub.S1+P.sub.S2+P.sub.S3+ . . . +P.sub.Sn-1 Equation
3
where P.sub.S1 to P.sub.Sn are, respectively, the probabilities of
success of winning the first to the nth prizes; P.sub.S0 is the
probability of failure in taking the first step; Prize 0 is the
consolation prize that may be awarded if the player fails in taking
the first step. (It is to be noted that there is no guarantee that
a consolation is payable where the player fails in taking the first
step. It is at the discretion of the game designer as to whether or
not to offer a consolation prize.); and NC.sub.1 to NC.sub.n are,
respectively, the numerical constants associated with the first to
nth steps.
[0054] Using Table 1 above as an example, to determine if a player
is going to be successful in taking a first step in the feature, a
probability of success is calculated based on the first Numerical
Constant in Table 1.
[0055] As a first example, the player is assumed to take a step
along the first pathway for a prize of 20 credits. There are two
possible outcomes which need to be taken into account being 20
credits for a successful outcome and 0 credits for an unsuccessful
outcome, it being assumed in this example that no consolation prize
is payable. The probability of each occurring can be calculated to
lie between 0 and 1. Using Equations 2 and 3 above:
0*P.sub.S0+20*(P.sub.S1.+-.P.sub.S2+P.sub.S3)=9.9; and
P.sub.S0+P.sub.S1+P.sub.S2+P.sub.S3=1.
[0056] Therefore, solving for (P.sub.S1+P.sub.S2+P.sub.S3), which
is the probability of successfully continuing with the feature,
gives a value of 0.495 and a probability of failure, P.sub.S0, of
0.505.
[0057] If, for the succeeding step, the player selects the middle
prize of 15 credits, ie the second step along the middle pathway,
there are two possible outcomes being a prize of 20 credits if the
step results in an unsuccessful outcome and a prize of 35 credits
if the prize results in a successful outcome. From the preceding
calculation the probability of obtaining 0 credits is 0.505. Also,
from Table 1 it is to be noted that the Numerical Constant
associated with the second column is 14.5. Therefore, Equation 2
becomes:
0*P.sub.S0+20*P.sub.S1+35*(P.sub.S2+P.sub.S3)=14.5
and Equation 3 becomes
0.505+P.sub.S1+P.sub.S2+P.sub.S3=1.
[0058] Solving Equations 2 and 3 for P.sub.S1, the probability of
successfully taking the first step but then not successfully
continuing any further in the feature, and (P.sub.S2.+-.P.sub.S3),
the probability of successfully continuing beyond the second step
in the feature, results in a probability of successfully continuing
beyond the second step, (P.sub.S2+P.sub.S3), of 0.3067. This
results in the probability of successfully taking the first step
but then not successfully continuing any further in the feature of
0.1883.
[0059] Assuming that the player had been successful in the
preceding steps, it is now assumed that, for the following step, it
is assumed the player again chooses the top row, ie. the player
attempts to win a further prize of 20 credits when taking the
following step. Applying Equations 2 and 3 again gives the
following:
0*0.505+20*0.1883+35*P.sub.S2+55*P.sub.S3=16.5
and
0.505+0.1883+P.sub.S2+P.sub.S3=1
Solving the two equations gives P.sub.S2=0.2067. Hence, the
probability of successfully completing the second step but then not
successfully continuing any further in the feature is 0.2067. From
this it can be determined that the probability of successfully
completing the third step and, hence, the feature is:
P.sub.S3=1-(0.505+0.1883+0.2067)=0.1.
[0060] This means that the player has a probability of completing
the feature of 0.1.
[0061] Considering a second example, if the player starts,
initially, at the third pathway in the hope of winning an initial
prize of 10 credits there are, once again, two possible outcomes
being a successful outcome resulting in a prize of 10 credits or an
unsuccessful 25 outcome resulting in a prize of 0 credits (because
no consolation prize is payable in this example).
[0062] Once again, applying these figures to Equations 2 and 3
results in a probability of successfully continuing with the
feature, (P.sub.S1+P.sub.S2+P.sub.S3), of 0.99 and a probability of
failure, P.sub.S1, of 0.01.
[0063] Assuming, once again, that the player then selects the
middle prize of 15 credits in the middle row for the next step,
there are two possible outcomes being a prize of 10 credits for an
unsuccessful outcome and a prize of 25 credits for a successful
outcome.
[0064] Once again it needs to be taken into account that some
players may have been unsuccessful in taking the first step.
Applying Equations 2 and 3 again leads to the following:
0*P.sub.S0+10*P.sub.S1+25*(P.sub.S2+P.sub.S3)=14.5
0.01+P.sub.S1+P.sub.S2+P.sub.S3=1
[0065] Solving the above two equations for (P.sub.S2+P.sub.S3), the
probability of successfully continuing with the feature is 0.3067
and the probability of successfully taking the first step in the
feature but then not successfully continuing any further in the
feature, P.sub.S1, is 0.6833.
[0066] Assuming that the player now chooses the lowest pathway and
had been successful in the previous steps, equations 2 and 3
become:
0*0.01+10*0.6833+25*P.sub.S235* P.sub.S3=16.5
and
0.01+0.6833+P.sub.S2+P.sub.S3=0.200
which gives P.sub.S2=0.1067 and P.sub.S3=0.200
[0067] To determine if the player is going to be successful, prior
to commencement of the feature, the controller 36 selects a random
number in the range from 1 to 100. The probabilities at each step
are summed and compared with the selected number. If the selected
number falls within the range, the player is unsuccessful and the
feature concludes.
[0068] Using the first example of the second embodiment described
above, if, for example, the number selected is 72, then, in the
case of the first step, the range is 1 to 50.5. Because the
selected number falls outside the range, the player is successful
and the feature 25 continues. In the case of the next step, the
range is 1 to 69.33 (1 to (50.5+18.83)). The player is again
successful and the feature continues. In the following step, the
range is 1 to 90 (1 to (69.33+20.67)). Because the selected number
falls in this range, the player is unsuccessful ,does not complete
the third step and the feature concludes.
[0069] In both embodiments above, it will therefore be noted that
in determining the probability of success of any subsequent step in
a feature the value of an earlier prize is taken into account.
[0070] Accordingly, although pseudo skill is involved in that the
player is offered the possibility of making selections, the
controller 36 uses Equation 1 or Equations 2 and 3 in ensuring that
the expected return to player remains the same independently of any
selection made by the player. As a result, it is an advantage of
the invention that the expected return to player of the gaming
machine is not affected by any player choice.
[0071] It will be appreciated by persons skilled in the art that
numerous variations and/or modifications may be made to the
invention as shown in the specific embodiments without departing
from the spirit or scope of the invention as broadly described. The
present embodiments are, therefore, to be considered in all
respects as illustrative and not restrictive.
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