Systems and methods for enabling remote viewers to participate in a multi-player video game play session

Information

  • Patent Grant
  • 12083440
  • Patent Number
    12,083,440
  • Date Filed
    Monday, June 5, 2023
    a year ago
  • Date Issued
    Tuesday, September 10, 2024
    3 months ago
Abstract
The present specification describes systems and methods that enable non-players to participate as spectators in online video games and, through a collective voting mechanism, determine the occurrence of certain events or contents of the gameplay in real time. Game event options are generated and presented to non-players. A specific one of the game event options is then selected based on a collective vote of the non-players. Once selected, the specific one or more of the game event options are then generated as actual gaming events and incorporated into a video game stream that is transmitted to the players as part of the gameplay session. In this manner, non-players may be able to directly affect the course of gameplay.
Description
FIELD

The present specification is related generally to the field of gaming, animation and computer graphics. More specifically the present specification is related to a system and method for enabling non-player third parties, such as audience members, to participate in a multi-player video game play session by influencing or effecting game events.


BACKGROUND

The proliferation of reliable and affordable broadband services allows for a greater number of people to enjoy computer or video games of various genres. For example in some computer games, players conquer territories of complete other missions for ever-increasing rewards. In many role-playing games (RPG) or first-person shooter (FPS) games, each player controls the actions of at least one character. In addition, players develop unique characters and by controlling the actions of the characters they create during gameplay, the players (via their characters) accumulate various objects and abilities through extended play. The rules for how quickly, how many and what type of abilities and objects a character may earn or gain usually involves several ratings or statistics. These ratings determine the outcome of various chance or future events that lead to new objects and abilities.


Along with the popularity of online gaming, demand for live streaming or pre-stored replays of video gameplay sessions has grown. Furthermore, many gamers are increasingly sharing their gameplay through social networks. In many game titles or genres, a video game player may compete against another player either in person or via an online platform. Many online games offer leaderboards which allow a player to judge how a particular game play session compared against other game players. Most leaderboards measure a level achieved and certain standard statistics, such as the amount of time played to achieve the level. Simple performance metrics are often used to display basic statistics on performance. Examples of such metrics include the number of kills, kill/death ratio, scores, achievements, timings, and levels passed. This data is sent by the game client running on the player's home console or personal computer (PC) to the leaderboards service hosted at the back end of the gaming system.


From a player's perspective, certain games may have an endpoint or hit a plateau where the player's enjoyment stagnates because the player has achieved the biggest challenge possible or has used all of the assets available to him or her in achieving an objective. Users may then want to try other games in the same genre, but they also have a tendency to be discouraged if they do not win or acquire any assets in a few consecutive games, if they are not able to play at a level they are accustomed to, if they perceive a game level to be too complex, or if the game rewards are not forthcoming.


Further, several players of a video game are not always engaged with the video game. Some players may play the game intermittently. Other players may visit the game website or use the game app only in rare instances. Especially in the smart device market segment, users are very time sensitive and tend to skip or switch to another game, application, channel or device webpage, whenever they do not feel engaged with a game.


Unlike real live action sports, where even an audience feels very involved in a game, spectators of online virtual games may not feel as engaged with the game. Conventional gaming systems are limited in the manner in which users can engage with or provide inputs on other users' gameplay. For example, commentary on a virtual game is typically performed by recording the gameplay as a media file, overlaying the speech of commentary on the recorded video and then sharing it. This is because the load on storage and network infrastructure imposed by live streaming of video gameplay sessions can be quite large, potentially causing delays and dissatisfaction for end users and maintenance problems for system administrators. Thus, having the users participate in a game as spectators or contribute to the game content in real time is very difficult. Thus, there is a need for systems and methods that maximize player engagement and retention and also improve the experience of playing and performing in video games for players.


There is also a need for systems and methods that encourage more participation and response from users who attend organized, live, multiplayer competitive video gaming events, also known as electronic sports or e-sports events, which are increasing in popularity. A large part of the audience still tends to prefer to watch matches in such competitions via internet streaming or television broadcast. The percentage of viewers who form a live audience can be low. As such, there is also a need for systems and methods that encourage live participation from viewers and that also keep online or remote spectators engaged. Such a system would not only allow the users to participate as spectators in video games, but also enable them to contribute towards the events or contents of the gameplay in real time. It is also desirable that such a video game system does not overload the storage and network infrastructure.


SUMMARY

The following embodiments and aspects thereof are described and illustrated in conjunction with systems, tools and methods, which are meant to be exemplary and illustrative, and not limiting in scope. The present application discloses numerous embodiments.


The present specification discloses a method for incorporating non-player inputs into a gameplay session, wherein the gameplay session is at least partially generated by a computer system and at least partially transmitted to a plurality of end user devices and wherein the computer system includes one or more processors executing a video game streaming application for generating and streaming the gameplay session, the method comprising: determining if a threshold number of non-players exists to trigger a generation of a plurality of game event options for potential inclusion in the gameplay session; based on said determination, generating the plurality of game event options; transmitting data indicative of a user interface to at least some of the end user devices, wherein, when executed by at least some of the end user devices, the user interface presents the generated plurality of game event options and receives non-player inputs indicative of a desire to include at least one of the plurality of game event options into the gameplay session; determining a function of the non-player inputs; selecting at least one of the plurality of game event options based on the function of the non-player inputs; and incorporating the selected at least one of the plurality of game event options into a data stream representative of the gameplay session.


Optionally, the threshold number of non-players is monitored in real time.


Optionally, the threshold number of non-players is at least 1.


Optionally, the non-players include individuals watching the gameplay session remotely on at least some of the end user devices or individuals watching the gameplay session live at a competitive video gaming event.


Optionally, the plurality of game event options include an occurrence of one or more earthquakes, meteor showers, storms, rain, wind, fires, lightning, or other natural disasters.


Optionally, the plurality of game event options include an occurrence of available items for purchase during the gameplay session.


Optionally, the plurality of game event options include a timing and content of supplies and rewards available to specific players in the gameplay session.


Optionally, the plurality of game event options include a placement or existence of armor, weapons, treasure, or other resources available to specific players in the gameplay session.


Optionally, the plurality of game event options include placement or existence of hazards, threats, or challenges presented to specific players in the gameplay session.


Optionally, the plurality of game event options include changes in a layout of a game map.


Optionally, the plurality of game event options are randomly generated.


Optionally, the plurality of game event options are generated to benefit a specific player or team based on a number of non-players supporting, or opposing, the specific player or team.


Optionally, the method further comprises iteratively generating a new plurality of game event options depending on events occurring within the gameplay session and the selected at least one of the plurality of game event options previously incorporated into the data stream representative of the gameplay session.


Optionally, iteratively generating the new plurality of game event options includes generating game event options that were not historically presented to the non-players.


The present specification also discloses a system for incorporating non-player inputs into a gameplay session, wherein system comprises a computer system for at least partially generating the gameplay session and transmitting it to a plurality of end user devices and wherein the computer system includes one or more processors executing a video game streaming application for generating and streaming the gameplay session and executing a non-player input application, wherein, when executed, the non-player input application: determines if a threshold number of non-players exists to trigger a generation of a plurality of game event options for potential inclusion in the gameplay session; based on said determination, generates the plurality of game event options; transmits data indicative of a user interface to at least some of the end user devices, wherein, when executed by at least some of the end user devices, the user interface presents the generated plurality of game event options and receives non-player inputs indicative of a desire to include at least one of the plurality of game event options into the gameplay session; determines a function of the non-player inputs; selects at least one of the plurality of game event options based on the function of the non-player inputs; and causes the selected at least one of the plurality of game event options to be incorporated into a data stream representative of the gameplay session.


Optionally, the threshold number of non-players is at least 1.


Optionally, the plurality of game event options include an occurrence of one or more earthquakes, meteor showers, storms, rain, wind, fires, lightning, or other natural disasters.


Optionally, the plurality of game event options include an occurrence of available items for purchase during the gameplay session.


Optionally, the plurality of game event options include a timing and content of supplies and rewards available to specific players in the gameplay session.


Optionally, the plurality of game event options include a placement or existence of armor, weapons, treasure, or other resources available to specific players in the gameplay session.


Optionally, the plurality of game event options include placement or existence of hazards, threats, or challenges presented to specific players in the gameplay session.


Optionally, the plurality of game event options include changes in a layout of a game map.


Optionally, the non-player input application is configured to randomly generate the plurality of game event options.


Optionally, the non-player input application is configured to generate the plurality of game event options to benefit a specific player or team based on a number of non-players supporting, or opposing, the specific player or team.


Optionally, when executed, the non-player input application is configured to iteratively generate a new plurality of game event options depending on events occurring within the gameplay session and the selected at least one of the plurality of game event options previously incorporated into the data stream representative of the gameplay session.


Optionally, the iterative generation of the new plurality of game event options includes generating game event options that were not historically presented to the non-players.


The aforementioned and other embodiments of the present shall be described in greater depth in the drawings and detailed description provided below.





BRIEF DESCRIPTION OF THE DRAWINGS

These and other features and advantages of the present specification will be further appreciated, as they become better understood by reference to the following detailed description when considered in connection with the accompanying drawings:



FIG. 1 illustrates an exemplary system of generating and distributing video game streams, according to an embodiment of the specification;



FIG. 2 depicts a block diagram of a video game stream (VGS) application, according to an embodiment of the specification;



FIG. 3 is a flowchart depicting a process of generating a video game stream, according to an embodiment of the specification;



FIG. 4 is a block diagram of illustrating the components of a non-player participation system, according to an implementation of the present specification.



FIG. 5 is a flowchart illustrating the operation of an audience monitoring engine, according to one embodiment of the present specification; and



FIG. 6 is a flowchart illustrating an exemplary method of incorporating spectator inputs into gameplay.





DETAILED DESCRIPTION

The present specification describes systems and methods that enable non-players to participate as spectators in online video games and, through a collective voting mechanism, determine the occurrence of certain events or contents of the gameplay in real time. In one embodiment, the present systems and methods generate gaming events that are inserted into a video game stream, thereby directly effecting the events, actions, course, objects, resources, or other elements of a real-time gameplay session. Operationally, a plurality of game event options are generated by the present system and presented to a plurality of non-players. A specific one or more of the plurality of game event options is then selected based on a collective vote of the plurality of non-players. Once selected, the specific one or more of the plurality of game event options are then generated as actual gaming events and incorporated into a Video Game Stream (“VGS”) that is transmitted to the plurality of players as part of the gameplay session. In this manner, non-players may be able to directly affect the course of gameplay. In another embodiment, the present specification provides methods and systems to encourage more participation and response from non-players who attend live competitive video gaming events.


The term “non-player” refers to any individual who is not actively playing in a gaming session and may include individuals who were formerly players or spectators who were never players in the gaming session, such as non-players who are attending a live gaming event in person or viewing the live gaming event remotely. The term “game event options” refers to programmatically generated events, actions, objects, or resources of a real-time gameplay session and may include any element that is experienced by a player of a gameplay session, such as, but not limited to, the type of weapon that will appear next in a gameplay session, the occurrence of natural disasters or other “acts of God” (e.g., earthquakes, meteor showers, storms, rain, wind, fires, lightning, or other natural disasters), the occurrence of available items for purchase during a gameplay session, the timing and content of supplies and rewards, the placement or existence of armor, weapons, treasure, or other resources, the placement or existence of hazards, threats, or challenges, the placement or existence of random destructive events, whether any of the above are applied to, or made available to, specific players and changes in the layout of the game map. The term “elected game event” refers to those game event options that have been elected by a collective vote, decision, or selection by the non-players. The term “Video Game Stream” refers to a programmatically generated data stream that, when executed by a client device or end user device, generates a gameplay session.


While aspects of the invention may be described herein with reference to particular types of video game genres, the system and method described in detail herein may be used in any genre of a multiplayer video game, including where audience members choose to watch the multiplayer video game in person or via an online platform or where former players become spectators once they are out of the game and waiting for a current match to finish.


The present specification is directed towards multiple embodiments. The following disclosure is provided in order to enable a person having ordinary skill in the art to practice the invention. Language used in this specification should not be interpreted as a general disavowal of any one specific embodiment or used to limit the claims beyond the meaning of the terms used therein. The general principles defined herein may be applied to other embodiments and applications without departing from the spirit and scope of the invention. Also, the terminology and phraseology used is for the purpose of describing exemplary embodiments and should not be considered limiting. Thus, the present invention is to be accorded the widest scope encompassing numerous alternatives, modifications and equivalents consistent with the principles and features disclosed. For purpose of clarity, details relating to technical material that is known in the technical fields related to the invention have not been described in detail so as not to unnecessarily obscure the present invention.


In the description and claims of the application, each of the words “comprise” “include” and “have”, and forms thereof, are not necessarily limited to members in a list with which the words may be associated. It should be noted herein that any feature or component described in association with a specific embodiment may be used and implemented with any other embodiment unless clearly indicated otherwise.


As used herein, the indefinite articles “a” and “an” mean “at least one” or “one or more” unless the context clearly dictates otherwise. The disclosed inventions are directed to an improvement in computer-related technology, namely enabling non-players to affect the progress and occurrence of events in video gameplay sessions, thereby increasing non-player interest and viewing of a video gameplay session. In particular, Applicant's specification discloses specific teachings regarding how the claimed inventions enable integrating non-player involvement in a video gameplay session. Accordingly, Applicant's claimed inventions do not preempt all approaches to managing the relations between parties and, instead, are directed to an improvement in video gaming technology grounded firmly in a specific way of achieving the desired outcome of having non-players effect, in real-time, the progress and occurrence of events in video gameplay sessions.


To the extent the claimed inventions are still considered to be “abstract” in nature, it should be appreciated that each of the claim limitations, when viewed as an ordered combination, amount to significantly more than just an abstract idea or concept. The methods and systems of the present invention represent technical improvements to a form of computer technology, video games, by providing a specialized computer system configured to host a plurality of concurrently executing video game streaming applications (for example, anywhere from at least 20 video game streaming applications to at least 1,000,000 video game streaming applications or any increment therein), host a plurality of client devices associated with remotely located non-players (for example, anywhere from at least 10 client devices associated with non-players to at least 3,000,000 client devices associated with non-players or any increment therein), and perform a series of programmatic steps designed to generate electronic user interfaces that present a plurality of game event options, which are specific to the video game applications, receive inputs from the non-players indicative of a desire to include at least one of the plurality of game event options into the gameplay session, and incorporate the selected game event options into a data stream representative of the gameplay session.


Exemplary System Architecture



FIG. 1 illustrates an exemplary system 100 of generating and distributing video game streams, according to an implementation of the present specification. In one implementation, system 100 may include a computer system 110, one or more databases 130, one or more end user devices 140 in communication with the computer system 110 over a network 102, and/or other components.


Computer System 110


In one embodiment, computer system 110 may be configured as a server (e.g., having one or more server blades, processors, and other server components as are known to those of skill in the art), a gaming console, a handheld gaming device, a personal computer (e.g., a desktop computer, a laptop computer, and the like), a smartphone, a tablet computing device, and/or other device that is programmed to encode, decode, and/or distribute game streams as described herein.


Computer system 110 may include one or more processors 112 (also interchangeably referred to herein as processors 112, processor(s) 112, or processor 112 for convenience), one or more storage devices 114 (which may store a VGS application 120), and/or other components. Processors 112 may be programmed by one or more computer program instructions. For example, processors 112 may be programmed by video game stream application 120 and/or other instructions. VGS application 120 may include various instructions that program computer system 110. As described herein, VGS application 120 will be described as programming computer system 110 to perform various operations. However, it should be understood that a portion (or all) of VGS application 120 may, alternatively or additionally, program other system components (e.g., end user device 140) to perform at least some of the functions of VGS application 120.


End User Devices 140


In one embodiment, end user device 140 may be configured as a gaming console, a handheld gaming device, a personal computer (e.g., a desktop computer, a laptop computer, and the like), a smartphone, a tablet computing device, and/or other device that can be programmed to present a video game to be played, view a video game replay, encode a game log, generate a metadata track, and/or perform other functions described herein. Although not illustrated in FIG. 1, end user devices 140 may include one or more physical processors programmed by computer program instructions. For example, end user device 140 may be programmed by all or a portion of VGS application 120.


Although illustrated in FIG. 1 as a single component, computer system 110 and end user device 140 may each include a plurality of individual components (e.g., computer devices) each programmed with at least some of the functions described herein. In this manner, some components of computer system 110 and/or end user device 140 may perform some functions while other components may perform other functions, as would be appreciated. The one or more processors 112 may each include one or more physical processors that are programmed by computer program instructions. The various instructions described herein are exemplary only. Other configurations and numbers of instructions may be used, so long as the processor(s) 112 are programmed to perform the functions described herein.


Furthermore, it should be appreciated that although the various instructions are illustrated in FIG. 1 as being co-located within a single processing unit, in implementations in which processor(s) 112 includes multiple processing units, one or more instructions may be executed remotely from the other instructions.


The description of the functionality provided by the different instructions described herein is for illustrative purposes, and is not intended to be limiting, as any of instructions may provide more or less functionality than is described. For example, one or more of the instructions may be eliminated, and some or all of its functionality may be provided by other ones of the instructions. As another example, processor(s) 112 may be programmed by one or more additional instructions that may perform some or all of the functionality attributed herein to one of the instructions.


The various instructions described herein may be stored in a storage device 114, which may comprise random access memory (RAM), read only memory (ROM), and/or other memory. The storage device may store the computer program instructions (e.g., the aforementioned instructions) to be executed by processor 112 as well as data that may be manipulated by processor 112. The storage device may comprise floppy disks, hard disks, optical disks, tapes, or other storage media for storing computer-executable instructions and/or data.


Databases 130


The various databases 130 described herein may be, include, or interface to, for example, an Oracle™ relational database sold commercially by Oracle Corporation. Other databases, such as Informix™, DB2 (Database 2) or other data storage, including file-based, or query formats, platforms, or resources such as OLAP (On Line Analytical Processing), SQL (Structured Query Language), a SAN (storage area network), Microsoft Access™ or others may also be used, incorporated, or accessed. The database may comprise one or more such databases that reside in one or more physical devices and in one or more physical locations. The database may store a plurality of types of data and/or files and associated data or file descriptions, administrative information, or any other data.


The various components illustrated in FIG. 1 may be coupled to at least one other component via a network, which may include any one or more of, for instance, the Internet, an intranet, a PAN (Personal Area Network), a LAN (Local Area Network), a WAN (Wide Area Network), a SAN (Storage Area Network), a MAN (Metropolitan Area Network), a wireless network, a cellular communications network, a Public Switched Telephone Network, and/or other network. In FIG. 1, as well as in other drawing figures, different numbers of entities than those depicted may be used. Furthermore, according to various implementations, the components described herein may be implemented in hardware and/or software that configure hardware.


VGS Application 120



FIG. 2 depicts a block diagram of VGS application (shown as 120 in FIG. 1), according to an implementation of the present specification. The instructions of VGS application 120 may include, without limitation, a VGS encoder 222, elected game event data 224, gameplay session data 223, a VGS decoder 226, a media converter 230, an Application Programming Interface (“API”) 232, and/or other instructions 236 that program computer system 110 to perform various operations, each of which are described in greater detail herein. As used herein, for convenience, the various instructions will be described as performing an operation, when, in fact, the various instructions program the processors 112 and therefore computer system 110, both shown in FIG. 1, to perform the operation.


In an implementation, VGS encoder 222 may obtain elected game event data 224, as further described below, and integrate the elected game event data with gameplay session data 223 that is conventionally generated by the computer system 110. VGS encoder 222 may assign an identifier to the obtained elected game event data and store the elected game event data and its corresponding identifier (as well as any video game information) in a VGS database, such as a database 130. Elected game event data 224 may be persistently stored in the VGS database 130 for later search and retrieval. In this manner, elected game event data of interest may be searched for or otherwise obtained.


In an implementation, optional VGS decoder 226 may obtain a VGS and decode the VGS to provide the gameplay session with integrated elected game event data. VGS decoder 226 may include (or be part of) the game engine, in which case VGS decoder 226 may be specific for a particular game or set of games for which the game engine provides gameplay. In other instances, VGS decoder 226 may be generic to different types of game engines (and therefore different types of games), in which case VGS decoder 226 may identify an appropriate game engine to use to read the elected game event data and gameplay session data to provide the gameplay session. VGS decoder 226 may use the identifying information to identify an appropriate game engine to use.


Media converter 230 may generate the visual and auditory display of the gameplay session (e.g., using VGS decoder 226) and then convert the playback to a conventional gaming media format. Such conversion may occur via server-based processing (e.g., on computer system 110), distributed processing using end user devices 140, cloud services processing (e.g., via cloud computer systems), and/or through other computer processing techniques.


In an implementation, API 232 may provide access to the elected game event data 223 to facilitate sharing of elected game events 223. For instance, a user may, through end user device 140, request to share an elected game event from a gameplay session being played or already played. API 232 may share the elected game event data 223, in any format described herein, to social sharing networks (e.g., YouTube™, Facebook™, Instagram™ or any other social media network platform). Although described herein as relating to a video game session for convenience, the elected game event data 223 may relate to a continuous type of game (e.g., a virtual world simulation) that has no discrete ending. In these instances, the elected game event data 223 may refer to a segment of time during a portion of the continuous game, as well as specific events in the course of the game.



FIG. 3 depicts a process 300 of generating a video game stream, according to an implementation of the present specification. The various processing steps and/or data flows depicted in FIG. 3 (and in the other drawing figures) are described in greater detail herein. The described steps may be accomplished using some or all of the system components described in detail above and, in some implementations, various steps may be performed in different sequences and various steps may be omitted. Additional steps may be performed along with some or all of the steps shown in the depicted flow diagrams. One or more steps may be performed simultaneously. Accordingly, the steps as illustrated (and described in greater detail below) are exemplary by nature and, as such, should not be viewed as limiting.


Referring to FIG. 3, in the first step 302, process 300 includes obtaining elected game event data, the generation of which is described below. The elected game event data may be obtained from a game engine substantially in real-time as gameplay is occurring or the elected game event data may be pre-stored and introduced at some later point in time as gameplay is occurring. Process 300 may be performed by a game engine or a system component separate from the game engine, in which case the system component may obtain the elected game event data directly or indirectly from the game engine. The elected game event data may include or be associated with identifying information.


In the next step 304, gameplay session data is obtained from the game engine and, in step 306, an insertion point is identified in the gameplay session data, at which point the elected game event data is overlaid, inserted, or otherwise integrated with the conventionally generated gameplay session data. It should be appreciated that, alternatively, a game engine may generate gameplay session data with the elected game event data 302 already incorporated, integrated, or combined therein, thereby eliminating a separate integration step. Accordingly, the VGS, or portions thereof, is configured to obtain elected game event data 302, as identified by an identifier, and overlay, insert, or otherwise integrate it with a secondary data stream (conventional gameplay session data) to generate a final video game stream that is communicated to client devices.


The next step 308 comprises generating a VGS of the complete gameplay session with both the gameplay session data and the elected game event data incorporated therein. Subsequently, at step 310, the VGS is transmitted to end user devices via a network. The end user device may then process the VGS to generate the gameplay session in real-time.


Generating Elected Game Event Data Based on Non-Player Input


As discussed above, in several multiplayer games, non-players may participate in, and contribute towards, a gameplay session by voting on the occurrence of gameplay events, thereby generating elected game event data. For example, in an action or combat game where random weapons are generated from time to time, non-players may vote for the type of weapon that will appear next. Other examples of elements spectators could vote on include, but are not limited to, the occurrence of natural disasters or other “acts of God” (e.g., earthquakes, meteor showers, storms, rain, wind, fires, lightning, or other natural disasters), the occurrence of available items for purchase during a gameplay session, the timing and content of supplies and rewards, the placement or existence of armor, weapons, treasure, or other resources, the placement or existence of hazards, threats, or challenges, the placement or existence of random destructive events, whether any of the above are applied to, or made available to, specific players and changes in the layout of the game map—for example, in a large map, certain areas may be removed or closed to access such as by removing a bridge, locking a door, or placing an obstacle, such as fallen trees or a building, to block a path, among other options.



FIG. 4 is a block diagram illustrating the components of a non-player participation system 400, according to an implementation of the present specification. Referring to FIG. 4, in one embodiment, the system 400 comprises a Non-Player Input application 401, which is in communication with a VGS application 402 (shown as 120 in FIG. 1 and FIG. 2), such that the content selected by non-players, namely the elected game event data, may be incorporated into a video game stream (VGS). The instructions of Non-Player Input application 401 may include, without limitation, an audience monitoring engine 403, a voting options generation module 404, an iterative options generation module 405 and a user interface generation module 406, and/or other instructions that program computer system (110 of FIG. 1) to perform various operations, each of which are described in greater detail herein. As used herein, for convenience, the various instructions will be described as performing an operation, when, in fact, the various instructions program the processors 112 and therefore computer system 110, both shown in FIG. 1, to perform the operation.


Audience Monitoring Engine


Referring to FIG. 4, the Non-Player Input application 401 comprises an audience monitoring engine 403. The audience monitoring engine 403 is configured to monitor a number of on-line access streams, each of the on-line access streams being representative of a client device that is watching a gameplay session. In one embodiment, options to elect one or more game events during a gameplay session are triggered only when the number of non-players meets or exceeds a threshold number. In one embodiment, the number of non-players, represented by one or more data streams associated with unique or distinct MAC addresses, is monitored in real time, thereby allowing the system to determine if a threshold number of players is available. In an embodiment, the threshold number is at least one non-player.


In some embodiments, a threshold number of non-player votes may be different for different types or categories of game event options. In an embodiment, the game event options may be categorized based on the severity of their effect on the gameplay. For example, a game event option of selecting a weapon may require at least X % of votes from the non-players whereas a game event option of generating a natural disaster may require at least Y % of votes, wherein Y % is greater than X % since the natural disaster has a more severe impact on the gameplay compared to the weapon being incorporated into the gameplay. In some embodiments, the severity of the effect of an elected game event option, on a gameplay, may increase with increasing number of percentage of votes. For example, at least 75% votes may be needed to incorporate an earthquake in the gameplay, but the severity of the earthquake may scale up with the voting percentage such that a 99% vote may trigger a major earthquake in the gameplay. Stated differently, game event options have differing levels of severity and an engine, as further described below, may require game event options of higher levels of severity to have a higher threshold number of non-player votes as compared to game event options of lower levels of severity.


In one embodiment, the feature of selecting events based on non-player input is available to non-players watching a gameplay session remotely on their devices, as well as to a live audience watching a game at a competitive video gaming event or e-sports event.



FIG. 5 is a flowchart illustrating the operation of the audience monitoring engine. Referring to FIG. 5, in conjunction with FIG. 4, in the first step 511 the audience monitoring engine 403 determines on an on-going and real-time basis, using a first plurality of programmatic instructions, the number of non-player on-line access streams that are concurrently accessing a given gameplay session. The first plurality of programmatic instructions may also be configured to receive data indicative of the number of non-players watching the gameplay session in person, as opposed to via on-line access streams.


In the next step 512, using a second plurality of programmatic instructions, the audience monitoring engine 402 time stamps the monitored number of on-line access streams and/or number of non-players watching the gameplay session in person (collectively, the monitored non-players). Next, in step 513, the system transmits the time stamped monitored number of non-players to a database for storage. Next, in step 514, using a third plurality of programmatic instructions, the audience monitoring engine 403 accesses the time stamped monitored number of non-players and applies one or more functions to determine if and when a sufficient number of non-players exists in order to trigger the non-player participation system 400, as described below. In one embodiment, the one or more functions may include averaging the time stamped monitored number of non-players over a predefined period of time and, if the averaged time stamped monitored number of non-players is above a predefined number or threshold number, as shown in steps 515 and 516, the audience monitoring engine 403 transmits an activation signal to the voting options generation module 404, described below. If the averaged time stamped monitored number of non-player is not above a predefined number, the audience monitoring engine 403 does not transmit an activation signal to the voting options generation module and, instead, continues monitoring the number of non-players. Accordingly, non-player inputs selectable by means of votes are available only when there are sufficient or threshold numbers of non-players watching the gameplay session. In an embodiment, the threshold number is at least one non-player.


Voting Options Generation Module


Referring back to FIG. 4, once the audience monitoring engine 403 recognizes that a sufficient or threshold number of non-players are available as described above, the voting options generation module 404 in the Non-Player Input application 401 determines a plurality of game event options related to future events of gameplay that are to be presented to the non-players for voting. In some embodiments, the game event options are related to dynamic events, depending upon a state and/or course of gameplay, in addition to future events of gameplay. Accordingly, different instances of the same point in the same level of a game may lead to different game event options based upon the historical success of one or more players, the experience level of one or more players, the average experience level of all players, the health level of one or more players, the average health level of all players, the weapons possessed by one or more players, the number of kills of one or more players, the average number of kills of all players, or any other metric taken individually, collectively, or some other function thereof.


In one embodiment, non-players may vote to assist or hinder one, some, or all the players playing in an ongoing gameplay session. Their vote may be used to change the status of or affect the health, damage, speed, armor, weapons, skills, items, spells, and other items or attributes available to one or more players. It may be noted however, that such events that can be decided by the non-players' votes are generated by the voting options generation module 404 such that these events have the potential to affect all players equally and keep the gameplay session fair. That is, the generation of these game event options is preferably designed such that a true randomized, non-biased and neutral gaming environment is achieved. The occurrence of events and the gaming environment is designed with boundaries such that extremes of disincentives and excess incentives are avoided.


In one embodiment, the voting options generation module 404 uses a plurality of instructions to execute multiple methods by which game event options will be drawn, preferably randomly, during a gameplay session. In one embodiment, pseudo random number generators (PRNGs) are executed to draw game event options. Non-limiting examples of PRNGs comprise Linear Congruential Generator, Middle Square Weyl Sequence PRNG, and Mersenne Twister based PRNG. According to one aspect of the present system for example, the voting options generation module 404 may use a plurality of instructions to draw events from multiple groups, with each group having a fixed probability of being selected. According to another aspect, the voting options generation module 404 may use a plurality of instructions to select an event group via a “counter value” method, wherein the maximum number of draws allowed is set before a given group of events is chosen. The probability of generating an event from the group in a smaller number of draws than the maximum is set to be independent of the draw number. In an embodiment of the counter value method for example, the voting options generation module 404 uses a mathematical formula to ensure that each event has an equal chance of being selected to be put up for voting. In another embodiment, the voting options generation module 404 initializes the draw numbers for events such that unusually poor events are not successively generated in a game. Thus, the voting options generation module 404 ensures that the timing and delivery of an event for selection by vote is done in a manner that takes fairness and randomness into account.


In one embodiment, randomness and fairness in the game is ensured by the type of events that are generated by the voting options generation module 404 and presented as options to the non-players for voting. For example, events such as natural disasters or “acts of God” have the potential to affect the playing field equally, and therefore affect all players. Other examples of events that affect competing players equally include allowing a particular weapon to be available for a certain amount of time at a particular location, so that all players have an equal chance of trying to obtain it; providing a health and energy boost to each team's weakest member, or closing a common area on the game map, so that both the teams have to adopt a different route and/or strategy. In one embodiment, competing players are provided with notice of a forthcoming elected game event after the non-players' votes have been tallied, to allow them time to prepare for the elected game event. For example, if the non-players vote for a natural disaster, such as an earthquake, the players may receive a notification that an earthquake will strike within 2 minutes or some other time frame.


One of ordinary skill in the art would appreciate that although the plurality of game events options presented for voting are selected in a random but equitable manner, the vote of the non-players may be configured to specifically help or hurt one set of players. For example, non-players may give the losing team members a boost by choosing to provide them a weapon whose owner is decided by voting, or the non-players may vote to disable one of the winning team's special powers or other attributes. Thus, the non-players may be allowed to affect gameplay by affecting the game balance or by introducing random, unpredictable scenarios.


In some embodiments, the voting options generation module 404 segments non-players into, at least, a first group that is provided access to a first set of game event options and into a second group that is provided access to a second set of game event options, where the first set of game event options is greater than the second set of game event options and where the segmentation is based upon attributes, achievements, profile elements, or other characteristics of the non-players themselves. In an embodiment, the voting options generation module 404 determines if a non-player meets a threshold number of conditions out of a plurality of predefined conditions such as, but not limited to, the number of hours of a game played, whether the non-player is a live audience member or viewing the game remotely, the non-player's experience gained in a particular game, the non-player's level achieved in a game, the non-player's ranking in a game, the number of times the non-player attended a live event, the number of times the non-player attended a specific e-sports arena, and the number of times the non-player attended an event featuring a particular team.


If the threshold number of conditions are met then the voting options generation module 404 presents a higher number of game event options to the non-player, as a reward, in comparison to other non-players who do not meet the threshold number of conditions. Alternatively or additionally, if a certain type of condition is met by a non-player, the voting options generation module 404 presents a specific game event option and/or a higher number of game event options to that non-player in comparison to other non-players who do not meet satisfy the certain type of condition. For example, if a non-player A attends an e-sports event as a live audience member (certain type of condition), then the non-player A is presented with more number of game event options to vote for as compared to another non-player B who may be viewing the game remotely and not physically present at the e-sports event.


In some implementations, the plurality of game event options are presented to the non-players for voting only after the non-players overcome at least one challenge. In embodiments, the voting options generation module 404 implements a plurality of instructions to generate and present at least one challenge to the non-players which needs to be accomplished before the plurality of game event options are presented to the non-players for voting. In some embodiments, the at least one challenge may be in the form of an interactive mini-game (for example, a short duration game) wherein the outcome of the non-players playing the mini-game impacts which non-player will be presented with game event options for voting and/or other rewards. As illustrative non-limiting examples, a) non-players who complete the mini game or achieve a certain score or objective unlock an ability to vote on presented game event options, b) which ever fan group receives the highest score in the mini-game, has the largest number of fans completing an objective in the mini-game or a combination of the two unlocks a benefit for their team, c) non-players who complete an objective in the mini-game are entered into a random draw (apart from unlocking the ability to vote on the presented game event options) and at least one winner gets to directly interact into the live game, and d) non-players who complete an objective in the mini-game are entered into a random drawing (apart from unlocking the ability to vote on the presented game event options) and at least one winner who achieves a score above a threshold score, for example, gets a chance to play in a get-together, such as a party, with their favorite streamer or player.


Iterative Options Generation Module


The Non-Player Input application 401 further comprises an iterative game event options generation module 405 which uses a plurality of instructions to iteratively generate new options for game events that can be selected by non-player vote. In one embodiment, the new options generated by the iterative options generation module 405 depend on at least one of a plurality of factors such as, but not limited to, the course of the game, namely how the gameplay progresses, the historical options presented to and/or selected by the non-players, number of players or teams that have been eliminated, how far the game has progressed, time left in game, player proximity to each other (e.g., too many players in a boring zone). In one embodiment, the new options are generated by the iterative options generation module 405 in real-time, as the game is played. For example, if one or more of previous events selected by vote have caused one of the playing teams to considerably enhance their strength, the iterative options generation module 405 may execute a plurality of instructions to generate new options which provide the users a chance to vote for an event that enhances the strength of the lagging team. As another example, if an event causes “heavy rain” in the game, subsequent options generated by the iterative options generation module 405 may allow the users to select “flooding” of one or more areas on the game map, thereby making it inaccessible to all players of the game. Thus, the iterative options generation module 405 provides voting options in line with prior events and the course of the game. In one embodiment, the iterative options generation module 405 determines a plurality of additional game event options based on inferred non-player interest. Thus, for example, if a majority of non-players appear to prefer a particular maneuver in a combat based game, as inferred from non-player votes and other data, the iterative options generation module 405 may generate similar maneuvers as one of the plurality of game event options to the non-players in future.


User Interface Generator


After determining the options for gameplay events on which non-players can vote, the user interface generator module 406 in the Non-Player Input application 401 uses a plurality of instructions to generate a user interface in the client device of non-players that presents the plurality of game event options to the non-players and allows them to select one of the plurality of game event options at various points in time during the gameplay using their devices.


In an embodiment, the Non-Player Input application 401 communicates with the VGS application 402 to generate a user interface with voting options on the client devices, in accordance with the instructions executed by the user interface generator module 406. In an embodiment, the user interface is generated at the end user device(s) by the VGS decoder (referred as 226 in FIG. 2). The user interface thus generated by the VGS decoder may be overlaid on the gameplay session, for the non-players, and may include hotspots or other interactive elements configured to receive user inputs. Operationally, the VGS decoder 226 causes a user interface with selectable inputs to be provided at the client device, in accordance with the plurality of instructions executed by the voting options generation module 404 and the user interface generator module 406, that allow a user to specify which of the plurality of game event options should be integrated into the gameplay session. In a voting system, the choices of all the non-players are communicated through the user interface to the game engine, and the votes are tallied to determine which of the plurality of game event options will constitute an elected game event and, therefore, be used in the gameplay session.


The elected game event module 408 is configured to receive, from non-players client devices, data indicative of which of the plurality of game event options has been selected by the non-players. The elected game event module 408 is preferably in communication with one or more databases to store the number, timing, and association of each vote with specific non-players relative to each of the plurality of game event options. The elected game event module 408 further determines which of the plurality of game event options receives enough votes to warrant being incorporated into a gameplay session and, therefore, constitute an elected game event. The determination of which of the plurality of game event options receives enough votes to warrant being incorporated into a gameplay session is achieved by comparing the number of votes to one or more threshold values.


It should be appreciated that a non-player may be exercising multiples votes at the same time, either in a particular match or across multiple matches in an arena. For example if there are two matches happening simultaneously in the arena, a non-player or spectator may be able to vote on both of those matches. In some embodiments, voting is limited depending upon the proximity of the spectator. For example, if a non-player is seated in an area designated as spectating for a particular match, then he can only vote on that match. In some embodiments, certain events can only be voted on by those non-players who are live audience members, or by those in certain designated seats or physical proximity. In some embodiments, certain events can only be voted by those non-players who are watching virtually or remotely while certain events can be voted on by any spectator live or remote. The restriction regarding who may vote may be effectuated by the voting options generation module or by a filter in the user interface generator.


Using the VGS Application for Incorporating Selected Events into the Video Game Stream


In an embodiment, the Non-Player Input application 401 communicates with the VGS application 402 to generate a user interface with voting options on non-player client devices. Referring to FIG. 4 in conjunction with FIG. 2, while the VGS decoder (referred as 226 in FIG. 2) in the VGS application causes a user interface with selectable inputs to be provided at the client device, the VGS encoder (referred as 222 in FIG. 2) is configured to accept user-provided content from the end user device(s). In one embodiment, VGS encoder 222 may include an input interface configured to receive voting inputs from non-player end user devices. In one embodiment, the VGS application 402 includes a communication module, which is configured to obtain voting inputs and/or action requests from the non-players, via the user interface, and transmit it to the VGS encoder for implementation.



FIG. 6 is a flowchart summarizing an exemplary method of incorporating non-player inputs into gameplay, using the non-player participation system of FIG. 4. Referring to FIG. 6 in conjunction with FIG. 4, in the first step 601, the audience monitoring engine 403 of the Non-Player Input application 401 determines if and when a sufficient threshold audience exists in order to make the voting system available. That is, non-player inputs selectable by means of votes are available only when there are sufficient or threshold numbers of non-player watching the gameplay. For this purpose, in one embodiment, the number of non-player is monitored in real time. In the next step 602, after it is determined that a sufficient audience exists, the voting options generation module 404 of the Non-Player Input application 401 determines the plurality of game event options that are to be presented as voting options to the non-players. In the next step 603, the user interface generator 406 causes a user interface associated with the voting options to be generated on the end-user client devices, by means of the VGS from the VGS application 402. The user interface puts forward various selectable options to the non-players and allows them to select one of the multiple options at various points in time during the gameplay. In the next step 604, the game events corresponding to the options selected by majority vote of the non-players is incorporated into the video game stream (VGS) at the appropriate time, which is enabled by the VGS application, as described above. In one embodiment, the system iteratively generates new options for game events that can be selected by non-player votes depending on the course of the game, as the game is played, and the historical options presented and/or selected, as shown in step 605.


Participation of Live and Remote Audiences During a Competitive Gaming Event


In yet another embodiment, the present specification describes a system and method for encouraging participation of viewers in a live video gaming event and actively engaging both live and remote audiences of such events.


In an implementation, the present system allows for the “crowd advantage” that is commonly seen in live sports events, to be simulated in the user devices of non-players who are viewing a live gameplay session remotely. In an instance, a live crowd response at an e-sports event may be used to create an in-game effect for the users viewing the game remotely. This effect may include cheering and/or clapping from the audience, which is heard on end user devices as well. In one embodiment, to simulate the effect of crowd advantage, virtual effects are introduced that may work to the advantage or disadvantage of a competing player or team. For example, when the decibel level of home crowd in a live e-sport event reaches a certain threshold, as determined by a sound monitor in data communication with the Non-Player Input application 401, an effect may be introduced against the visiting team—such as lowering the headphone volume of the visiting team, or introducing static in their headphones to further disrupt communication. This provides an incentive for the spectators to participate in live e-sports events by making such an event more engaging for them and motivating them to watch the event live to support their team. In one embodiment, crowds in such live e-sports events may be seated in different sections based on their interest in the team they would like to support, with sound monitors customized to process sound data from a particular section as being indicative of support for, or rooting against, a particular team or player. One of ordinary skill in the art would appreciate that the present system does not just allow in game effects for a home crowd, but accounts for audience response seated in the visiting sections as well.


In an implementation, as a variation of the above instance, the present system allows remote viewers to specify using their devices, which team they are supporting. In one embodiment, the team with more fans watching may receive an advantage in the match. For example, the elected game events module 408 may be configured to receive data indicative of which player or team has more supporters. Such data may be in the form of directs votes, cheering sounds, booing sounds, or other communications indicative of either support of, or opposition to, a particular player or team. Once the elected game events module 408 receives such data, it automatically selects one or more game events to be incorporated into the VGS. Such automatically elected game events may include 1) dimming the visual experience of gameplay for a team or player having fewer supporters or having more opposition among the non-players, 2) lowering the headphone or auditory volume of gameplay for a team or player having fewer supporters or having more opposition among the non-players, 3) adding static to the visual or auditory experience for the gameplay of a team or player having fewer supporters or having more opposition among the non-players, or 4) creating momentary “blackouts” of the visual or auditory experience of the gameplay for a team or player having fewer supporters or having more opposition among the non-players.


In an implementation, as another variation of the above instance, the present system accounts for and incentivizes live audiences for various audio levels and characteristics of crowd cheering, chanting or singing that add to the communal experience and entertainment value. For example, when the decibel level of a home crowd in a live e-sport event reaches a certain threshold, as determined by a sound monitor in data communication with the Non-Player Input application 401, certain predetermined in-game digital items may be unlocked for the fans and/or the crowd may get entitled for other forms of reward such as, but not limited to, discount coupons, favorite team based accessories, and autographed items. In various embodiments, the sound monitor in data communication with the Non-Player Input application 401 may additionally be configured to recognize a plurality of characteristics of the crowd audio such as, but not limited to, a degree of unison in which the live audiences may be singing, chanting (similar to European style football or terrace chants), presence of specific words in an order and/or above a threshold decibel level and similarity to one of a plurality of hymns, popular music, folk songs, specific songs, advertising jingles, nursery rhymes and theme tunes. It should be appreciated that rewards may be distributed using a digital distribution system, such as by automatically allocating a reward to the game account of a non-player, or using a physical distribution system.


In some embodiments, the audience monitoring engine 403 (FIG. 4) executes a plurality of instructions to implement a system to weigh votes of the non-players. Votes of a non-payer may be weighed based on at least one of a plurality of criteria or characteristics associated with the non-player such as, but not limited to, the number of hours for which the non-player has played a game, the non-player's experience gained in a particular game, the non-player's level achieved in a game, the non-player's ranking in a game, number of times the non-player attended a live event, number of times the non-player attended a specific e-sports arena, and the number of times the non-player attended an event featuring a particular team. In some embodiments, non-players can accrue or lose points that are then translated as appropriate weights and applied to their votes. For example, non-players can accrue points by performing certain activities such as, but not limited to, attending, watching or spectating matches wherein attending a match as live audiences may accrue more points as compared to attending a match remotely, playing the game or completing a plurality of in-game objectives.


In one embodiment, non-player inputs obtained from the audience watching a match live may be used to select the view of the gameplay being streamed or broadcast. A VGS may comprise multiple camera angles or perspectives of a gameplay session. In one embodiment, non-players may be allowed to select one of several different views of the gameplay session, including an aerial view, a first-person-view of a particular player in a multi-player game, or a side perspective view of the gameplay session. In one embodiment, the collective choice of the audience, as represented by majority non-players votes, may be used as a basis for selecting a particular viewpoint to be displayed on an e-sports broadcast or live stream of the gameplay session. In one embodiment, the non-players who are able to vote include the live audience—who may vote using an app or a user device, as well as remote audience who may vote using the device they are viewing the gameplay session on. In some embodiments, this feature is only available to a live audience, in order to encourage live participation in the gaming events. It may be appreciated that a VGS may comprise a plurality of different tracks, thereby enabling non-players to choose which track to use, effectively enabling non-players to toggle between different views.


In one embodiment, members of the audience may be selected to participate in an ongoing game. For example, in a combat or fight based game, a member of the audience or a fan may be invited for operating a gun turret or a tower in the ongoing game or match. The member may be chosen in a variety of ways, including, but not limited to random selection using a draw of lots, winning a contest held prior to the event or during the e-sports event, paying for the opportunity, making in-game purchases while playing the game online, playing in specific online tournaments, watching advertisements while playing the game online or watching advertisements during the event, among other options. It may be appreciated that this feature of selecting an audience to participate in an ongoing game may be applied to viewers watching the video gaming event live or remotely. In some embodiments, this feature is only available to a live audience, in order to encourage live participation in the gaming events.


In another embodiment, viewers watching an e-sports event live may be rewarded with prizes, rewards or entitlements based on the outcome of the gaming event. For example, user A, who plays a video game and is also a fan of Team X in the game, designates Team X as his favorite team in a live match that he or she watches at an event. If Team X wins, user A is given an in-game reward or entitlement, such as bonus points or levels, tools or weapons that can be used while playing the game, a rare set of in-game supplies or a discount on a game, in-game digital item or a physical item. In embodiments, the discount may or may not have a time limit on them. For example, a coupon or code/token may represent a discount for a limited (or unlimited period of time. It may be appreciated that the outcomes which generate rewards for viewers are not limited to just their favorite team winning, but may include any other events or outcomes in the game that may be deemed fit to encourage user engagement. Examples of such outcomes include the favorite player of a viewer getting the ‘most favorable player’ award, a team picked by the non-player winning the match, or a score exceeding a certain threshold, among other scenarios.


In one embodiment, the appropriate outcome-based reward is given to a non-player on confirming his or her presence as a live audience member, such as by producing a ticket he or she bought or by confirming a geographical location tag (geotagging). Such location may be based on Internet Protocol address information, network connection information (e.g., network devices used to connect the user to the Internet), Global Positioning System data, or other location information based on a location device or receiver.


In one embodiment, a plurality of conditions may be applicable to trigger an outcome-based reward for a non-player. In other words, if an attendee is a) physically present in an e-sports arena b) possesses a physical object and c) a specific match outcome occurs then a reward is triggered for the non-player. For example, a non-player a) attends an e-sports event (as a live audience), b) buys a team souvenir at the event and c) his team wins the match then the non-player gets a reward in the game.


The above examples are merely illustrative of the many applications of the system and method of present specification. Although only a few embodiments of the present specification have been described herein, it should be understood that the present specification might be embodied in many other specific forms without departing from the spirit or scope of the specification. Therefore, the present examples and embodiments are to be considered as illustrative and not restrictive, and the specification may be modified within the scope of the appended claims.

Claims
  • 1. A method for enabling two or more non-players to participate in a multi-player gameplay session, wherein the multi-player gameplay session is at least partially generated by a computer system and at least partially transmitted to a plurality of end user devices and wherein the computer system includes one or more processors executing a video game streaming application for generating and streaming the multi-player gameplay session, the method comprising: providing the two or more non-players viewing access to the multi-player gameplay session;causing an interface to be provided to each of the two or more non-players, wherein the interface is configured to present one or more options to the two or more non-players;receiving inputs, via the interface, from the two or more non-players;based on the received inputs, determining a view of the multi-player gameplay session; andtransmitting said determined view of the multi-player gameplay session.
  • 2. The method of claim 1, wherein the one or more options represent a plurality of different views of the multi-player gameplay session.
  • 3. The method of claim 2, wherein the plurality of different views comprise an aerial view, a first-person view of a particular player in the multi-player gameplay session, and a side perspective view of the multi-player gameplay session.
  • 4. The method of claim 1, wherein the determined view is at least one of an aerial view, a first-person view of a particular player in the multi-player gameplay session, or a side perspective view of the multi-player gameplay session.
  • 5. The method of claim 1, wherein the received inputs are weighted based on one or more characteristics of each of the two or more non-players.
  • 6. The method of claim 5, wherein the one or more characteristics comprise at least one of a number of hours for which the two or more non-players has played a game, an amount of the two or more non-players' experience, the two or more non-player's achievement level, the two or more non-player's ranking, a number of times the two or more non-players attended a live event, a number of times the two or more non-players attended a specific e-sports arena, or a number of times the two or more non-players attended an event featuring a particular team.
  • 7. The method of claim 1, further comprising determining a location of each of the two or more non-players.
  • 8. The method of claim 7, further comprising using at least one of an Internet Protocol address, network connection information, or global positioning data to determine said location of each of the two or more non-players.
  • 9. The method of claim 7, further comprising generating a reward for at least one of the two or more non-players based at least in part on said location.
  • 10. A system for enabling two or more non-players to participate in a multi-player gameplay session, wherein the system comprises a computer system for at least partially generating the multi-player gameplay session and transmitting it to a plurality of end user devices and wherein the computer system includes one or more processors executing a video game streaming application for generating and streaming the multi-player gameplay session, the computer system comprising a computing device programmed to execute a plurality of programmatic instructions that, when executed: provides the two or more non-players viewing access to the multi-player gameplay session;causes an interface to be provided to each of the two or more non-players, wherein the interface is configured to present one or more options to the two or more non-players;receives inputs, via the interface, from the two or more non-players;based on the received inputs, determines a view of the multi-player gameplay session; andtransmits said determined view of the multi-player gameplay session.
  • 11. The system of claim 10, wherein the one or more options represent a plurality of different views of the multi-player gameplay session.
  • 12. The system of claim 11, wherein the plurality of different views comprise an aerial view, a first-person view of a particular player in the multi-player gameplay session, and a side perspective view of the multi-player gameplay session.
  • 13. The system of claim 10, wherein the determined view is at least one of an aerial view, a first-person view of a particular player in the multi-player gameplay session, or a side perspective view of the multi-player gameplay session.
  • 14. The system of claim 10, wherein the received inputs are weighted based on one or more characteristics of each of the two or more non-players.
  • 15. The system of claim 14, wherein the one or more characteristics comprise at least one of a number of hours for which the two or more non-players has played a game, an amount of the two or more non-players' experience, the two or more non-player's achievement level, the two or more non-player's ranking, a number of times the two or more non-players attended a live event, a number of times the two or more non-players attended a specific e-sports arena, or a number of times the two or more non-players attended an event featuring a particular team.
  • 16. The system of claim 10, wherein the computing device is further programmed to execute a plurality of programmatic instructions that, when executed, determine a location of each of the two or more non-players.
  • 17. The system of claim 16, wherein the computing device is further programmed to execute a plurality of programmatic instructions that, when executed, use at least one of an Internet Protocol address, network connection information, or global positioning data to determine said location of each of the two or more non-players.
  • 18. The system of claim 16, wherein the computing device is further programmed to execute a plurality of programmatic instructions that, when executed, generate a reward for at least one of the two or more non-players based at least in part on said location.
  • 19. A computer readable non-transitory medium comprising a plurality of executable programmatic instructions wherein, when said plurality of executable programmatic instructions are executed by a processor in a computing device, a process for enabling two or more non-players to participate in a multi-player gameplay session is executed, wherein the multi-player gameplay session is at least partially generated by the computing device and at least partially transmitted to a plurality of end user devices and wherein said plurality of executable programmatic instructions are executed by the processor to execute a video game streaming application for generating and streaming the multi-player gameplay session, the plurality of executable programmatic instructions comprising: programmatic instructions, stored in the computer readable non-transitory medium, for providing the two or more non-players viewing access to the multi-player gameplay session;programmatic instructions, stored in the computer readable non-transitory medium, for causing an interface to be provided to each of the two or more non-players, wherein the interface is configured to present one or more options to the two or more non-players;programmatic instructions, stored in the computer readable non-transitory medium, for receiving inputs, via the interface, from the two or more non-players;programmatic instructions, stored in the computer readable non-transitory medium, for determining, based on the received inputs, a view of the multi-player gameplay session; andprogrammatic instructions, stored in the computer readable non-transitory medium, for transmitting said determined view of the multi-player gameplay session.
  • 20. The computer readable non-transitory medium of claim 19, wherein the one or more options represent a plurality of different views of the multi-player gameplay session.
CROSS-REFERENCE

The present application is a continuation application of U.S. patent application Ser. No. 17/447,801, entitled “Systems and Methods for Determining Game Events Based on a Crowd Advantage of One or More Players in the Course of a Multi-Player Video Game Play Session” and filed on Sep. 15, 2021, which is a continuation application of U.S. patent application Ser. No. 16/787,398, entitled “Systems and Methods for Providing a Crowd Advantage of One or More Players in the Course of a Multi-Player Video Game Play Session”, filed on Feb. 11, 2020, and issued as U.S. Pat. No. 11,148,063 on Oct. 19, 2021, which is a continuation application of U.S. patent application Ser. No. 16/054,507, entitled “Systems and Methods for Enabling Audience Participation in Multi-Player Video Game Play Sessions”, filed on Aug. 3, 2018, and issued as U.S. Pat. No. 10,596,471 on Mar. 24, 2020, which relies on U.S. Patent Provisional Application No. 62/609,374, of the same title and filed on Dec. 22, 2017, for priority. The aforementioned applications are incorporated herein by reference in their entirety.

US Referenced Citations (321)
Number Name Date Kind
5530796 Wang Jun 1996 A
5561736 Moore Oct 1996 A
5563946 Cooper Oct 1996 A
5685775 Bakoglu Nov 1997 A
5706507 Schloss Jan 1998 A
5708764 Borrel Jan 1998 A
5736985 Lection Apr 1998 A
5737416 Cooper Apr 1998 A
5745678 Herzberg Apr 1998 A
5768511 Galvin Jun 1998 A
5825877 Dan Oct 1998 A
5835692 Cragun Nov 1998 A
5878233 Schloss Mar 1999 A
5883628 Mullaly Mar 1999 A
5900879 Berry May 1999 A
5903266 Berstis May 1999 A
5903271 Bardon May 1999 A
5911045 Leyba Jun 1999 A
5920325 Morgan Jul 1999 A
5923324 Berry Jul 1999 A
5969724 Berry Oct 1999 A
5977979 Clough Nov 1999 A
5990888 Blades Nov 1999 A
6014145 Bardon Jan 2000 A
6025839 Schell Feb 2000 A
6059842 Dumarot May 2000 A
6069632 Mullaly May 2000 A
6081270 Berry Jun 2000 A
6081271 Bardon Jun 2000 A
6091410 Lection Jul 2000 A
6094196 Berry Jul 2000 A
6098056 Rusnak Aug 2000 A
6104406 Berry Aug 2000 A
6111581 Berry Aug 2000 A
6134588 Guenthner Oct 2000 A
6144381 Lection Nov 2000 A
6148328 Cuomo Nov 2000 A
6185614 Cuomo Feb 2001 B1
6201881 Masuda Mar 2001 B1
6222551 Schneider Apr 2001 B1
6271842 Bardon Aug 2001 B1
6271843 Lection Aug 2001 B1
6282547 Hirsch Aug 2001 B1
6311206 Malkin Oct 2001 B1
6334141 Varma Dec 2001 B1
6336134 Varma Jan 2002 B1
6337700 Kinoe Jan 2002 B1
6353449 Gregg Mar 2002 B1
6356297 Cheng Mar 2002 B1
6411312 Sheppard Jun 2002 B1
6426757 Smith Jul 2002 B1
6445389 Bossen Sep 2002 B1
6452593 Challener Sep 2002 B1
6462760 Cox, Jr. Oct 2002 B1
6469712 Hilpert, Jr. Oct 2002 B1
6473085 Brock Oct 2002 B1
6499053 Marquette Dec 2002 B1
6505208 Kanevsky Jan 2003 B1
6525731 Suits Feb 2003 B1
6549933 Barrett Apr 2003 B1
6567109 Todd May 2003 B1
6618751 Challenger Sep 2003 B1
RE38375 Herzberg Dec 2003 E
6657617 Paolini Dec 2003 B2
6657642 Bardon Dec 2003 B1
6684255 Martin Jan 2004 B1
6717600 Dutta Apr 2004 B2
6734884 Berry May 2004 B1
6765596 Lection Jul 2004 B2
6781607 Benham Aug 2004 B1
6819669 Rooney Nov 2004 B2
6832239 Kraft Dec 2004 B1
6836480 Basso Dec 2004 B2
6886026 Hanson Apr 2005 B1
6948168 Kuprionas Sep 2005 B1
RE38865 Dumarot Nov 2005 E
6993596 Hinton Jan 2006 B2
7028296 Irfan Apr 2006 B2
7062533 Brown Jun 2006 B2
7143409 Herrero Nov 2006 B2
7209137 Brokenshire Apr 2007 B2
7230616 Taubin Jun 2007 B2
7249123 Elder Jul 2007 B2
7263511 Bodin Aug 2007 B2
7287053 Bodin Oct 2007 B2
7305438 Christensen Dec 2007 B2
7308476 Mannaru Dec 2007 B2
7404149 Fox Jul 2008 B2
7426538 Bodin Sep 2008 B2
7427980 Partridge Sep 2008 B1
7428588 Berstis Sep 2008 B2
7429987 Leah Sep 2008 B2
7436407 Doi Oct 2008 B2
7439975 Hsu Oct 2008 B2
7443393 Shen Oct 2008 B2
7447996 Cox Nov 2008 B1
7467181 McGowan Dec 2008 B2
7475354 Guido Jan 2009 B2
7478127 Creamer Jan 2009 B2
7484012 Hinton Jan 2009 B2
7503007 Goodman Mar 2009 B2
7506264 Polan Mar 2009 B2
7515136 Kanevsky Apr 2009 B1
7525964 Astley Apr 2009 B2
7552177 Kessen Jun 2009 B2
7565650 Bhogal Jul 2009 B2
7571224 Childress Aug 2009 B2
7571389 Broussard Aug 2009 B2
7580888 Ur Aug 2009 B2
7596596 Chen Sep 2009 B2
7640587 Fox Dec 2009 B2
7667701 Leah Feb 2010 B2
7698656 Srivastava Apr 2010 B2
7702784 Berstis Apr 2010 B2
7714867 Doi May 2010 B2
7719532 Schardt May 2010 B2
7719535 Tadokoro May 2010 B2
7734691 Creamer Jun 2010 B2
7737969 Shen Jun 2010 B2
7743095 Goldberg Jun 2010 B2
7747679 Galvin Jun 2010 B2
7765478 Reed Jul 2010 B2
7768514 Pagan Aug 2010 B2
7773087 Fowler Aug 2010 B2
7774407 Daly Aug 2010 B2
7782318 Shearer Aug 2010 B2
7792263 Bruce Sep 2010 B2
7792801 Hamilton, II Sep 2010 B2
7796128 Radzikowski Sep 2010 B2
7808500 Shearer Oct 2010 B2
7814152 McGowan Oct 2010 B2
7827318 Hinton Nov 2010 B2
7843471 Doan Nov 2010 B2
7844663 Boutboul Nov 2010 B2
7847799 Taubin Dec 2010 B2
7856469 Chen Dec 2010 B2
7873485 Castelli Jan 2011 B2
7882222 Dolbier Feb 2011 B2
7882243 Ivory Feb 2011 B2
7884819 Kuesel Feb 2011 B2
7886045 Bates Feb 2011 B2
7890623 Bates Feb 2011 B2
7893936 Shearer Feb 2011 B2
7904829 Fox Mar 2011 B2
7921128 Hamilton, II Apr 2011 B2
7940265 Brown May 2011 B2
7945620 Bou-Ghannam May 2011 B2
7945802 Hamilton, II May 2011 B2
7970837 Lyle Jun 2011 B2
7970840 Cannon Jun 2011 B2
7985138 Acharya Jul 2011 B2
7990387 Hamilton, II Aug 2011 B2
7996164 Hamilton, II Aug 2011 B2
8001161 George Aug 2011 B2
8004518 Fowler Aug 2011 B2
8005025 Bodin Aug 2011 B2
8006182 Bates Aug 2011 B2
8013861 Hamilton, II Sep 2011 B2
8018453 Fowler Sep 2011 B2
8018462 Bhogal Sep 2011 B2
8019797 Hamilton, II Sep 2011 B2
8019858 Bauchot Sep 2011 B2
8022948 Garbow Sep 2011 B2
8022950 Brown Sep 2011 B2
8026913 Garbow Sep 2011 B2
8028021 Reisinger Sep 2011 B2
8028022 Brownholtz Sep 2011 B2
8037416 Bates Oct 2011 B2
8041614 Bhogal Oct 2011 B2
8046700 Bates Oct 2011 B2
8051462 Hamilton, II Nov 2011 B2
8055656 Cradick Nov 2011 B2
8056121 Hamilton, II Nov 2011 B2
8057307 Berstis Nov 2011 B2
8062130 Smith Nov 2011 B2
8063905 Brown Nov 2011 B2
8070601 Acharya Dec 2011 B2
8082245 Bates Dec 2011 B2
8085267 Brown Dec 2011 B2
8089481 Shearer Jan 2012 B2
8092288 Theis Jan 2012 B2
8095881 Reisinger Jan 2012 B2
8099338 Betzler Jan 2012 B2
8099668 Garbow Jan 2012 B2
8102334 Brown Jan 2012 B2
8103640 Lo Jan 2012 B2
8103959 Cannon Jan 2012 B2
8105165 Karstens Jan 2012 B2
8108774 Finn Jan 2012 B2
8113959 De Judicibus Feb 2012 B2
8117551 Cheng Feb 2012 B2
8125485 Brown Feb 2012 B2
8127235 Haggar Feb 2012 B2
8127236 Hamilton, II Feb 2012 B2
8128487 Hamilton, II Mar 2012 B2
8131740 Cradick Mar 2012 B2
8132235 Bussani Mar 2012 B2
8134560 Bates Mar 2012 B2
8139060 Brown Mar 2012 B2
8139780 Shearer Mar 2012 B2
8140340 Bhogal Mar 2012 B2
8140620 Creamer Mar 2012 B2
8140978 Betzler Mar 2012 B2
8140982 Hamilton, II Mar 2012 B2
8145676 Bhogal Mar 2012 B2
8145725 Dawson Mar 2012 B2
8149241 Do Apr 2012 B2
8151191 Nicol, II Apr 2012 B2
8156184 Kurata Apr 2012 B2
8165350 Fuhrmann Apr 2012 B2
8171407 Huang May 2012 B2
8171408 Dawson May 2012 B2
8171559 Hamilton, II May 2012 B2
8174541 Greene May 2012 B2
8176421 Dawson May 2012 B2
8176422 Bergman May 2012 B2
8184092 Cox May 2012 B2
8184116 Finn May 2012 B2
8185450 Mcvey May 2012 B2
8185829 Cannon May 2012 B2
8187067 Hamilton, II May 2012 B2
8199145 Hamilton, II Jun 2012 B2
8203561 Carter Jun 2012 B2
8214335 Hamilton, II Jul 2012 B2
8214433 Dawson Jul 2012 B2
8214750 Hamilton, II Jul 2012 B2
8214751 Dawson Jul 2012 B2
8217953 Comparan Jul 2012 B2
8219616 Dawson Jul 2012 B2
8230045 Kawachiya Jul 2012 B2
8230338 Dugan Jul 2012 B2
8233005 Finn Jul 2012 B2
8234234 Shearer Jul 2012 B2
8234579 Do Jul 2012 B2
8239775 Beverland Aug 2012 B2
8241131 Bhogal Aug 2012 B2
8245241 Hamilton, II Aug 2012 B2
8245283 Dawson Aug 2012 B2
8265253 D Amora Sep 2012 B2
8310497 Comparan Nov 2012 B2
8334871 Hamilton, II Dec 2012 B2
8360886 Karstens Jan 2013 B2
8364804 Childress Jan 2013 B2
8425326 Chudley Apr 2013 B2
8442946 Hamilton, II May 2013 B2
8496531 Youm Jul 2013 B2
8506372 Chudley Aug 2013 B2
8514249 Hamilton, II Aug 2013 B2
8554841 Kurata Oct 2013 B2
8607142 Bergman Dec 2013 B2
8607356 Hamilton, II Dec 2013 B2
8624903 Hamilton, II Jan 2014 B2
8626836 Dawson Jan 2014 B2
8692835 Hamilton, II Apr 2014 B2
8721412 Chudley May 2014 B2
8827816 Bhogal Sep 2014 B2
8838640 Bates Sep 2014 B2
8849917 Dawson Sep 2014 B2
8911296 Chudley Dec 2014 B2
8992316 Smith Mar 2015 B2
9083654 Dawson Jul 2015 B2
9152914 Haggar Oct 2015 B2
9205328 Bansi Dec 2015 B2
9286731 Hamilton, II Mar 2016 B2
9299080 Dawson Mar 2016 B2
9364746 Chudley Jun 2016 B2
9525746 Bates Dec 2016 B2
9583109 Kurata Feb 2017 B2
9669293 Kornmann Jun 2017 B1
9682324 Bansi Jun 2017 B2
9764244 Bansi Sep 2017 B2
9789406 Marr Oct 2017 B2
9808722 Kawachiya Nov 2017 B2
20030158827 Ansari Aug 2003 A1
20040224741 Jen Nov 2004 A1
20050049045 Abe Mar 2005 A1
20050113158 Sterchi May 2005 A1
20050113164 Buecheler May 2005 A1
20050161878 Nally Jul 2005 A1
20050192097 Farnham Sep 2005 A1
20060098013 Wong May 2006 A1
20070060337 Abe Mar 2007 A1
20070087835 Van Luchene Apr 2007 A1
20070173323 Johnson Jul 2007 A1
20070281285 Jayaweera Dec 2007 A1
20080268943 Jacob Oct 2008 A1
20090075738 Pearce Mar 2009 A1
20090113448 Smith Apr 2009 A1
20100304839 Johnson Dec 2010 A1
20110117982 Nguyen May 2011 A1
20110263312 De Waal Oct 2011 A1
20120010734 Youm Jan 2012 A1
20120094762 Khan Apr 2012 A1
20120122552 Youm May 2012 A1
20120142429 Muller Jun 2012 A1
20120276992 Moinuddin Nov 2012 A1
20120282995 Allen Nov 2012 A1
20130252737 Mescon Sep 2013 A1
20140004960 Soti Jan 2014 A1
20140011595 Muller Jan 2014 A1
20140113718 Norman Apr 2014 A1
20140344725 Bates Nov 2014 A1
20140364201 Tanibuchi Dec 2014 A1
20150231502 Allen Aug 2015 A1
20150273340 Cudak Oct 2015 A1
20160001181 Marr Jan 2016 A1
20160001184 Sepulveda Jan 2016 A1
20160005270 Marr Jan 2016 A1
20160067611 Ware Mar 2016 A1
20160067612 Ntoulas Mar 2016 A1
20160082350 Bansi Mar 2016 A1
20160184708 Ziaja Jun 2016 A1
20160191671 Dawson Jun 2016 A1
20160346694 Fisher Dec 2016 A1
20170001111 Willette Jan 2017 A1
20170252654 Hong Sep 2017 A1
20180169515 Rice Jun 2018 A1
20190070502 Hirose Mar 2019 A1
20200094149 Gonzales, II Mar 2020 A1
20210142828 Prakash May 2021 A1
20220134225 Omote May 2022 A1
Foreign Referenced Citations (71)
Number Date Country
768367 Mar 2004 AU
2005215048 Oct 2011 AU
2143874 Jun 2000 CA
2292678 Jul 2005 CA
2552135 Jul 2013 CA
1334650 Feb 2002 CN
1202652 Oct 2002 CN
1141641 Mar 2004 CN
1494679 May 2004 CN
1219384 Sep 2005 CN
1307544 Mar 2007 CN
100407675 Jul 2008 CN
100423016 Oct 2008 CN
100557637 Nov 2009 CN
101001678 May 2010 CN
101436242 Dec 2010 CN
101801482 Dec 2014 CN
668583 Aug 1995 EP
0627728 Sep 2000 EP
0717337 Aug 2001 EP
0679977 Oct 2002 EP
0679978 Mar 2003 EP
0890924 Sep 2003 EP
1377902 Aug 2004 EP
0813132 Jan 2005 EP
1380133 Mar 2005 EP
1021021 Sep 2005 EP
0930584 Oct 2005 EP
0883087 Aug 2007 EP
1176828 Oct 2007 EP
2076888 Jul 2015 EP
2339938 Oct 2002 GB
2352154 Jul 2003 GB
3033956 Apr 2000 JP
3124916 Jan 2001 JP
3177221 Jun 2001 JP
3199231 Aug 2001 JP
3210558 Sep 2001 JP
3275935 Feb 2002 JP
3361745 Jan 2003 JP
3368188 Jan 2003 JP
3470955 Sep 2003 JP
3503774 Dec 2003 JP
3575598 Jul 2004 JP
3579823 Jul 2004 JP
3579154 Oct 2004 JP
3701773 Oct 2005 JP
3777161 Mar 2006 JP
3914430 Feb 2007 JP
3942090 Apr 2007 JP
3962361 May 2007 JP
4009235 Sep 2007 JP
4225376 Dec 2008 JP
4653075 Dec 2010 JP
5063698 Aug 2012 JP
5159375 Mar 2013 JP
5352200 Nov 2013 JP
5734566 Jun 2015 JP
117864 Aug 2004 MY
55396 Dec 1998 SG
2002073457 Sep 2002 WO
20020087156 Oct 2002 WO
2004086212 Oct 2004 WO
2005079538 Sep 2005 WO
2007101785 Sep 2007 WO
2008037599 Apr 2008 WO
2008074627 Jun 2008 WO
2008095767 Aug 2008 WO
2009037257 Mar 2009 WO
2009104564 Aug 2009 WO
2010096738 Aug 2010 WO
Related Publications (1)
Number Date Country
20230302369 A1 Sep 2023 US
Provisional Applications (1)
Number Date Country
62609374 Dec 2017 US
Continuations (3)
Number Date Country
Parent 17447801 Sep 2021 US
Child 18329474 US
Parent 16787398 Feb 2020 US
Child 17447801 US
Parent 16054507 Aug 2018 US
Child 16787398 US