U.S. patent application number 13/235143 was filed with the patent office on 2012-03-29 for television interactive gaming having a local storage of game portal.
This patent application is currently assigned to The DIRECTV Group, Inc.. Invention is credited to Shahla C. Cisneros, Peter Klimczak, Jesus F. Mata, Steven M. Soloff.
Application Number | 20120077595 13/235143 |
Document ID | / |
Family ID | 33101190 |
Filed Date | 2012-03-29 |
United States Patent
Application |
20120077595 |
Kind Code |
A1 |
Cisneros; Shahla C. ; et
al. |
March 29, 2012 |
TELEVISION INTERACTIVE GAMING HAVING A LOCAL STORAGE OF GAME
PORTAL
Abstract
A system and method for interactive gaming includes a central
broadcast center transmitting signals over a first communications
network, a gaming system residing within the central broadcast
center, and users who access the gaming system via the first
communication network. The gaming system provides a plurality of
games that incorporate a scoring protocol that provides real time
scoring data transmitting from the plurality of users back to the
gaming system via a second communication network. The plurality of
users may review the real time scoring data via the first
communications network.
Inventors: |
Cisneros; Shahla C.; (Coral
Gables, FL) ; Klimczak; Peter; (Sunrise, FL) ;
Soloff; Steven M.; (Tamarac, FL) ; Mata; Jesus
F.; (Boca Raton, FL) |
Assignee: |
The DIRECTV Group, Inc.
El Segundo
CA
|
Family ID: |
33101190 |
Appl. No.: |
13/235143 |
Filed: |
September 16, 2011 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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10687474 |
Oct 14, 2003 |
8025571 |
|
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13235143 |
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Current U.S.
Class: |
463/42 |
Current CPC
Class: |
A63F 13/67 20140902;
A63F 2300/558 20130101; A63F 2300/401 20130101; A63F 13/12
20130101; A63F 13/77 20140902; A63F 13/48 20140902; A63F 2300/409
20130101; A63F 13/338 20140902; G07F 17/3295 20130101; A63F 13/80
20140902; A63F 13/46 20140902; A63F 2300/5546 20130101; A63F
2300/532 20130101; A63F 2300/61 20130101; A63F 13/798 20140902 |
Class at
Publication: |
463/42 |
International
Class: |
A63F 9/24 20060101
A63F009/24 |
Claims
1. A method of interactive gaming comprising: transmitting a gaming
application comprising a plurality of games from a gaming system to
a plurality of receivers via a first communications network;
storing the gaming application in at least one receiver in the
plurality of receivers; selecting a game from the plurality of
games in the gaming application, wherein each game in the plurality
of games is playable from a beginning of the game at a time of
selection, the time of selection being after a time of transmission
of the gaming application; and initiating the selected game in the
plurality of games of the gaming application at the beginning of
the selected game.
2. The method of claim 1, further comprising calculating a total
score for a user of the selected game.
3. The method of claim 2, wherein calculating the total score
comprises calculating a level score for each level of the selected
game and summing the level scores for each level completed by the
user.
4. The method of claim 2, further comprising transmitting the total
score from the at least one receiver to the gaming system via a
second communications network.
5. The method of claim 4, further comprising transmitting a ranking
of total scores received by the gaming system to the plurality of
receivers via the first communications network.
6. The method of claim 1, wherein when the selected game is
initiated, a set of questions is transmitted via the first
communications network to the receiver selecting the selected
game.
7. The method of claim 6, wherein the set of questions that is
transmitted is based on a selected skill level of the selected
game.
8. The method of claim 7, wherein the set of questions to be
transmitted is selected from a larger group of questions for the
selected skill level of the selected game.
9. The method of claim 1, wherein the first communications network
is a satellite broadcast network.
10. An apparatus for interactive gaming comprising: a plurality of
receivers coupled to a first communications network, wherein at
least one receiver in the plurality of receivers receives and
stores a gaming application comprising a plurality of games via the
first communication network; and a device, coupled to the at least
one receiver, for selecting a game from the plurality of games in
the gaming application, wherein each game in the plurality of games
is playable from a beginning of the game when the game is selected,
a time of selection being after a time of reception of the gaming
application, and for starting the selected game in the plurality of
games from the gaming application at the beginning of the selected
game.
11. The apparatus of claim 10, wherein the gaming application
further comprises a scoring protocol associated with the plurality
of games.
12. The apparatus of claim 11, wherein the at least one receiver
calculates a total score for a user of the selected game.
13. The apparatus of claim 12, wherein calculating the total score
comprises calculating a level score for each level of the selected
game and summing the level scores for each level completed by the
user.
14. The apparatus of claim 12, wherein the at least one receiver
transmits the total score via a second communications network.
15. The apparatus of claim 14, wherein the at least one receiver
receives a ranking of total scores via the first communications
network.
16. The apparatus of claim 10, wherein the first communications
network is a satellite broadcast network.
17. A method of interactive gaming comprising: receiving a gaming
application comprising a plurality of games at least one receiver
in a plurality of receivers through a first communications network;
after receiving the gaming application at the at least one
receiver, selecting a game from the plurality of games in the
gaming application, wherein each game in the plurality of games is
playable from a beginning of the game when the game is selected;
storing the gaming application in the at least one receiver in the
plurality of receivers; starting the selected game in the plurality
of games from the beginning of the selected game of the gaming
application at the at least one receiver in the plurality of
receivers.
18. The method of claim 17, further comprising the at least one
receiver calculating a total score for a user of the selected
game.
19. The method of claim 4, further comprising receiving a ranking
of total scores at the at least one receiver in the plurality of
receivers.
20. The method of claim 1, wherein the first communications network
is a satellite broadcast network.
Description
BACKGROUND OF THE INVENTION
[0001] 1. Field of the Invention
[0002] The present invention relates to interactive gaming via a
television system and communications network.
[0003] 2. Description of Related Art
[0004] Interactive gaming provides entertainment for the general
public in many forms, such as PC gaming, specific console formatted
gaming and gaming via a communications network with a central
server. Each form of interactive gaming presents various advantages
and disadvantages. Some gaming allows a multitude of players access
but may be subject to equipment specifications such as server
limitations, connection speeds, internet service provider,
broadband capabilities, video cards and/or peripheral equipment.
Specific formatted gaming is limited to participants with direct
access to the gaming console, i.e., Playstation, X-Box, and
Gameboy. Gaming via a communication network may allow many users
but is subject to the communication capabilities of each user and
are limited to users who have access to the communication network.
Frequently, users may lose their connection to the central gaming
server due to various network problems. By using existing
television systems for interactive gaming one may increase the
potential market for interactive gaming and diminish some of the
shortcomings associated with interactive gaming via a communication
network. Other interactive television gaming systems include Bell
ExpressVu in Canada and Visionik in Denmark. These interactive
systems however lack flexible and effective user friendly
functionality.
[0005] U.S. Pat. No. 6,193,610 to Junkin relates to an interactive
apparatus and method that allows participants to compete in an
interactive game occurring in real time or as a taped broadcast of
a real time event. The interactive gaming of Junkin may be
accomplished by accessing an online version of the game while the
corresponding event airs live or is rebroadcast to the participant
on a television. Junkin describes an interactive gaming scheme that
allows the participants to select individuals and/or teams, who are
engaged in an event being broadcast, from a contest roster
database. The participants form a team from the roster database and
scores are developed based upon the individual's and/or team's
performance in the televised event. The interactive gaming of
Junkin is specifically associated with the televised event and
dependant upon its outcome. Junkin does not discuss or disclose
methods of interactive gaming in an independent format where users
actively control the outcome and strategy related to the game via
the television system.
[0006] U.S. Pat. No. 6,227,974 to Eilat et al. relates to a gaming
method for use with an interactive game that a player plays with a
player unit having an interface device which is coupled to a
television and to at least one communication network. Eilat
describes a method which enables two players to engage in an
interactive game via a television through a communication network.
Eilat allows users to transmit their photos that are incorporated
in the interactive game and allows the players play the game while
viewing the game on their respective televisions. Eilat essentially
describes interactive games for two participants who view the game
on a television and other viewers may watch the interactive play.
U.S. Pat. No. 6,447,396 to Galyean, III et al. (Galyean) relates to
an interactive computer game with a television broadcast, where a
central control establishes a large virtual environment in which
viewers participate with characters either controlled or designed
by them. The interactive game of Galyean allows users to directly
control or influence characters within an active region with
defined boundaries that encompass part of the virtual environment
that is much less that the total environment.
SUMMARY OF THE INVENTION
[0007] The present invention relates to interactive gaming via a
participant's television. In one exemplary embodiment, the
interactive gaming involves a trivia game which consists of one or
more levels of play, wherein each level presents participants with
increasingly difficult questions. Participants answer multiple
questions related to a predetermined subject such as entertainment,
sports, science, culture, art and/or health. Upon completion of a
game or skill level within a game, participants may submit their
respective scores to a central database and registry at an
Interactive Game Center (IGC), i.e. server, where the score is
compared to scores submitted by other participants. The IGC tallies
scores in real time and sends the results back to each
participant's set-top box, thereby allowing the users to compete
with other players within a predetermined region. Participants may
periodically, i.e. upon completing a question or a skill level,
quit or pause the game for any desired time period. Participants
may execute the quit or pause function at any time during the
game.
[0008] Subscribers to the present invention may play the game
through a conventional television. Subscribers may compete with
other subscribers in real time due to the real time updates
provided through the IGC. The subscriber may view results that
include the subscriber's ranking or standing among the group of
participants within the particular game.
[0009] The present invention may use the DIRECTV Interactive
programming via the DIRECTV satellite system. Advantageously, a
broadcaster may generate revenue by charging subscribers for
playing the game and sponsors for advertising. The present
invention provides a new television interactive game that is more
exciting and user friendly than prior art. Subscribers have an
unlimited number of competitors who may reside any where in the
world. Participants may submit their respective scores to the IGC
for tallying and ranking, or participants may choose to merely play
without submitting their scores.
[0010] The present invention includes a database of questions that
reside within a set-top box where the database is refreshed every
hour. Participants may compete in a particular game at any time.
New games may be started at pre-determined periods of time, such as
every one or two weeks. Each new set of questions may give rise to
a new contest between the participants. The database of questions
may be associated with different skill levels to ensure a
challenging gaming experience for all participants.
[0011] Advantageously, participants may pause the game after any
question and turn off the television or switch to other
programming. Participants may then return to the game at any time.
At a predetermined level or after all of the proffered questions
have been asked, participants may submit their respective score to
be compared with others. The database of questions includes a
substantial volume of questions in order to avoid repetition and to
maintain the participant's interest.
[0012] During each game, each question must be answered within a
predetermined time period. A participant may achieve a higher score
by answering questions as quickly as possible. In one exemplary
embodiment, if the predetermined time period expires, then the
participant cannot answer the question, or in an alternative
embodiment, the participant may submit an answer after expiration
of the predetermined time period simply to determine if the
participant actually knew the correct answer. Other variations of
the general question/answer game format include supplying answers
immediately or not supplying answers until completion of
predetermined segments. If the participants are not supplied with a
correct answer, then the question or a related question may be used
again for this participant.
[0013] Participants subscribe to the interactive gaming via their
respective set-top box. The set-tip boxes permit multiple
participants to subscribe through a single set-top box. In an
alternative embodiment, some participants may play the interactive
games without subscribing, however unsubscribed participants merely
answer questions for entertainment purposes and may not directly
and interactively compete with any other participants. Furthermore,
several set-top boxes may be installed at a particular location
enabling a team of participants to compete with other teams within
a predetermined region.
[0014] In accordance with these and other objects which will become
apparent hereinafter, the instant invention will now be described
with particular reference to the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
[0015] FIG. 1A shows an exemplary schematic diagram of a data flow
according to the present invention.
[0016] FIG. 1B shows an exemplary set top box configuration
according to the present invention.
[0017] FIG. 2A shows a flowchart related to a scoring algorithm
according to the present invention.
[0018] FIG. 2B shows a second flowchart related to the scoring
algorithm according to the present invention.
[0019] FIG. 2C shows a third flowchart related to the scoring
algorithm according to the present invention.
[0020] FIG. 2D shows a fourth flowchart related to the scoring
algorithm according to the present invention.
[0021] FIG. 3 shows an exemplary illustration of a portal screen of
according to the present invention.
[0022] FIG. 4 shows an exemplary main game screen according to the
present invention.
[0023] FIG. 5 shows an exemplary question screen according to the
present invention.
[0024] FIG. 6 shows an exemplary correct answer screen according to
the present invention.
[0025] FIG. 7 shows an exemplary incorrect answer screen according
to the present invention.
[0026] FIG. 8 shows an exemplary level completion screen according
to the present invention.
[0027] FIG. 9 shows an exemplary a score registration screen
according to the present invention.
[0028] FIG. 10A shows a flowchart related to a gaming sequence
according to the present invention.
[0029] FIG. 10B shows the further steps of the flowchart related to
the gaming sequence according to the present invention.
[0030] FIG. 10C shows the further steps of the flowchart related to
the gaming sequence according to the present invention.
DETAILED DESCRIPTION
[0031] The present invention enables a dynamic interactive game
platform for use with a conventional television system. The present
invention allows multiple users to participate in an interactive
game via a television system that allows user interaction,
continuous real-time scoring, multiple achievement levels and
unique scoring schemes. The scoring scheme associated with the
present invention awards points for correct answers, correct
answers within a pre-determined time period, bonus points for
consecutive correct answers, weighted correct answers associated
with each achievement level, and tallies the score in dynamic real
time. The present invention accomplishes real time interaction
through the use of a satellite television system and a central
interactive gaming center.
[0032] A data flow for a system according to the present invention
is shown in FIG. 1A. A gaming system 25 includes a question
database 12 for use with a game application 14, such as an
application for a trivia game. The gaming system 25 transmits data
from the question database 12 and the trivia application 14 to a
real-time update server 16. The update server 16 transmits data to
an uplink server 18 that relays the data to a satellite 20. The
satellite 20 then transmits the data from the question database 12
and/or game application 14 to a user's television STB 22. The
questions and gaming application for playing the trivia game reside
in the user's STB 22. The user may then interactively review the
questions and provide answers via the STB 22. Questions are then
asked and answers evaluated from the STB 22. A central broadcast
center 10 includes, inter alia, the gaming system 25, the unlink
server 18, the real time server 16 and transaction server 24.
[0033] In an exemplary embodiment, approximately 100 questions per
level may be provided to a user periodically, i.e., hourly. The
user, after playing the game may then submit their final score for
a level or the entire game to a transaction server 24. The final
scores are transmitted through a telephone from the STB 22 to the
transaction server 24. However, other means for transmitting the
final scores are conceivable, such as data including scores from
several STBs 22 may be sent to the transaction server 24 for the
game. As shown in FIG. 1A, data from the STB 22 is transferred via
a modem to a point of presence (POP) 23 and then transmitted over
the internet 15 to the transaction server 24.
[0034] From the transaction server 24, the data sent by the STBs 22
is placed in a high score database 26. The high score database 26
stores the scores from several users for comparison and ranking
purposes. A list of high scores and other related data can then be
transmitted back via the uplink server 18 to the user so that the
user may see the user's score as compared with the other
competitors. Data transmission may be provided through a real time
update server 16 to an uplink server 18 and uplink server 18 then
transmits a question packet from the question database 12 and the
game application 14 to the STB 22. Based upon the data stored in
the high score database 26, a prize may be sent to the user with
the high score for a particular period such as two weeks, one month
or year. The present invention also facilitates the ability to
provide questions on different types of knowledge for various
gaming contests.
[0035] In one exemplary embodiment, the question database 12 and
the high score database 26 are stored in computer systems such as
the Sun Ultra 5 having a Sparc 400 MHz processor and 256 MB of RAM,
using the Solaris 8 operating environment and MySQL 3.53 database
management software. The uplink server 18 may be a Sun Ultra 10
having a Sparc 400 MHz processor and 256 MB of RAM, using the
Solaris 8 operating environment. The real-time update server 16 may
be an HP NetServer LPr with a Pentium III 800 MHz processor, using
Microsoft Windows 2000 Server operating system and the .NET
platform. The transaction server 24 may be a Sun Blade 100 having a
Sparc II 500 MHz processor. The RAM is preferred to be at least 512
MB and the computer may use the Sun Solaris 8 operating environment
and Tomcat 4.1 Web Server software. The STB 22 may be a GLA 2.5
version using OpenTV EN 2.1 software for its applications. In one
exemplary embodiment, the STB 22 has 2 MB of RAM and 3 MB of Flash
memory. Equivalent software and hardware for the servers, databases
and STBs may be substituted for the items described. Also, the
question database 12 and the high score database 26 may be located
in the same hardware system.
[0036] Referring now to FIG. 1B, a detail exemplary configuration
for the STB 22 is shown. Data flows into and from the STB 22 via
input 227 and output 229. A STB database 221 stores question
packets sent to the STB 22 from the gaming system 25. The STB 22
also includes a gaming application 223 which executes the
interactive gaming functionality for the user. The user interacts
with the STB 22 via a handheld device 22a that transmits user
commands to the STB 22 via a wireless transmission 22b. A user
transmitter/receiver 22c receives the commands from the handheld
device 22a and relays 223b these commands to the STB gaming
application 223. The transmissions to and from the STB gaming
application 223 include a question protocol to the television 220
and user replies, answers and commands, via the handheld device 11.
The gaming application 223 includes applications which tally store
a base score 223c and a bonus & time score 223d.
[0037] Referring to FIG. 2A, an exemplary scoring algorithm is
depicted. Initially, a score is calculated for a particular
question as shown in step 100. The algorithm then tallies a base
score, step 200, calculates time based component, step 300,
calculates a bonus score component, step 400 and then calculates a
score for the given level, step 500. To output the complete total
score, the algorithm sums the score for each completed level and
then outputs the sum as the total score for the particular user.
FIGS. 2B through 2D show sublevels associated with the total score
algorithm of FIG. 2A. Referring to FIG. 2B, the score for a
particular question, step 100, includes: calculation of the total
time to complete the question step 110; determination of the total
time to complete a question on level (i); and using these two time
components to determine the output score s.sub.j'(i) for a
particular question, step 120, where
s.sub.j'(i)=(t.sub.a(i)-t.sub.j/t.sub.a(i))+.epsilon., for correct
answers only where .epsilon.=a fudge factor. In calculating the
time base score step 300, the algorithm provides a sum total of
each score for all questions, step 310. The summation of the total
scores is then multiplied by the tally base score and a level
factor i, step 320. The result of the multiplication outputs a time
base score at step 330 which is used in step 300 of FIG. 2A. The
bonus score component step 400 of FIG. 2A is calculated according
to the steps of FIG. 2D. Initially, an input of the total number of
questions asked Q(i).sub.asked, step 410, is followed by an input
of the total number of questions correctly answered
Q(i).sub.correct, step 420. A ratio is calculated in order to
determine the percentage of correct answers. The correct percentage
is then multiplied by the base level bonus score times the level
factor i at step 440, then the bonus score component b.sub.i is
output at step 450. As one may ascertain from the above algorithm,
a user's score includes the number of correct answers, time
associated in supplying the correct answers and an implementation
of bonus scoring based thereon.
[0038] In one exemplary embodiment, the steps for playing the game
are as follows. A portal screen 28 is provided, as shown in FIG. 3.
The screen 28 allows the user to pick any of a number of games to
be provided. Once the user selects a game, the user is brought to a
main game screen 50 as shown in FIG. 4. The user enters a unique
identifier 52 to play the game, where the identifier 52 is shown
along with other information such as the location. On the initial
screen, the points and level of play have not yet been recorded for
the user. However, scores and rankings 56, 58 may be displayed for
those who have already entered their score. Although a limited
number of scores may be displayed on the screen, a scroll bar 60
may be used to display a longer list of scores. The main screen 50
allows the user to play 62, enter the results 64 or change the user
identifier playing the game 66. The user is also given directions
68 regarding the game.
[0039] After the user elects to play a particular game, the game
begins with a question screen 70 as shown in FIG. 5. As shown, the
question screen 70 provides information which the user may use for
competing in the game. As shown, data for the user includes level
of play 72, the number of questions asked for the level played 74,
number of correct answers toward the number needed to advance to
the next level 76, question category 78, time remaining to answer
80, points awarded for a rapid answer 82 and total points
accumulated so far 84. Extra points may be awarded based upon the
percentage of correct answers answered previously for the level
being played and upon the level of play. The display of these extra
points 86 is also shown on the question screen 70. Also on the
question screen 70 are the question 88 and the answer choices 90.
As shown, the number of right answers required per level is
ten.
[0040] If the user correctly answers the question in the allotted
time, a correct answer screen is provided 100, as shown in FIG. 6.
The number of correct answers 76 is incremented as well as the
points awarded 82 and the total points received 84. In addition,
the amount of extra points 86 earned is incremented for the higher
ratio of correct answers to questions asked. A message 92 informs
the user that the answer is correct and offers the user the choice
of moving forward or going back to the main menu.
[0041] If an incorrect answer is given, or time runs out, an
incorrect answer screen 101 is provided as shown in FIG. 7. In the
incorrect answer screen 101, the number of points 82 awarded is
shown to be zero, and the extra points 86 to be awarded is
diminished because the ratio of correct answers to answers given
has been lowered. A message 102 is provided which informs the user
that the answer is wrong. In addition, the message 102 offers the
user the choice of moving forward or going back to the main
menu.
[0042] After the number of answers needed to advance to the next
level is obtained, a level completion screen 110 is provided as
shown in FIG. 8. A message 112 is provided informing the user, and
a choice may be provided to continue to the next level or return to
the main menu. If the user returns to the main menu, the user may
elect to submit score results to the transaction server 24. The
score registration screen 120 shown at FIG. 9 is provided if the
user submits a score. As shown, the user's identifying information
52 and level score 53 is provided on the level completion screen. A
high score roster 122 is also provided. In the roster, the high
score list for the game currently residing in players' STBs is
provided to all users. This high score list is updated throughout
the residency of the game in the STBs. If an individual user makes
one of the high scores for the game, then the user's name is added
to the roster. The user's data is sent to the high score database
26 which is transmitted to the real-time update server and then
transmitted to the respective STB for each user.
[0043] The user's score may be visible for a level or the game
presented on the television almost instantly upon registration of
the score. A portion of this information may be given, or
additional information may be given, depending upon what type of
game is provided. For example, the game may be based upon math or
geography or any other field of knowledge. Appropriate information
may be provided to make each type of game interesting.
[0044] FIGS. 10A and 10B show a flow chart which sets forth the
steps for interactive gaming according to the present invention.
Initially, a user tunes to the game portal via the set top box,
step 810 and selects the interactive trivia game from the game
portal, step 820. Upon selection of the trivia game, the user
inputs a user id, step 870. The trivia game allows multiple users
to play the game via a single set top box. After the initial
selection of a user, the trivia game's main menu appears, step 830.
The user may choose four options while on the main menu exit the
game, step 840, play the game step 850, submit scores 860 or select
another user 870. If the user chooses to play the trivia game 850,
then the game sequence is initiated as shown in FIG. 10C. The
questions as sent from the gaming system 25 are uploaded for the
current level, step 880. The user begins the game by answering the
current question 890 and then continues to the next question and/or
next level if the user has completed the current level questions.
The user may also opt to end the game at any time after the
complete of a question. So the user answers the current question
890 and decides whether to continue 894. The gaming application 223
determines if the level is complete 896 based upon the number of
correct answers supplied by the user and notifies the user. Next
the gaming application 223 determines if the game has been played
through completion, step 898, if not then the trivia engine 223a
increments the user to the next level 882 or alternatively if the
game is complete the game ends. Upon incrementing to the next level
trivia game cycles back to step 880 and the user views and answers
the current question, step 890.
[0045] Further aspects of the interactive game include a three
level game that may be played at one or more levels, where the
point score equals zero, and the maximum score equals 12,000. Users
must provide ten correct answers to advance to the next level. The
score for each level has two components: (1) one component is based
upon how quickly the correct answer is provided; and (2) the other
component is based upon how many questions are required to get the
required ten correct answers.
[0046] Each question has a base value equal to 100 times the level
of the question. When presented with a question, the user will have
a predetermined period of time to answer the question, such as 30
seconds times the level of the question. The more time a user uses
to input a right answer, the fewer points received. A visual
indicator shows the time and available points ticking down. If the
points available drops to zero, the user can no longer answer the
question and the user must move on to the next question to keep
playing.
[0047] The first score component for a level is calculated by
summing up the score of each correctly answered question and
multiplying it by 100 times the level. The second score component
for a level is calculated by multiplying 100 times the level by the
ratio of number of questions answered correctly over the number of
questions asked in total. Preferably, the points available are
provided to the user in real time. Thus, a diminishing progress bar
tells the user the points available if the answer is given
instantaneously. The progress bar starts at 100% and drops
incrementally to 0%. Color change for the time bar as the time
lapses is also preferred. The second score component of the score
for completing the level is updated after each question is
answered. The cumulative score is updated after each question is
answered. Other scoring methods are contemplated, such as
eliminating the time factor in scoring or giving more value to the
time factor.
[0048] The instant invention has been shown and described herein in
what is considered to be the most practical and preferred
embodiment. It is recognized, however, that departures may be made
there from within the scope of the invention and that obvious
modifications will occur to a person skilled in the art.
* * * * *