Systems and methods of virtual world interaction, operation, implementation, instantiation, creation, and other functions related to virtual worlds (note that where the term “virtual world” is used herein, it is to be understood as referring to virtual world systems, virtual environments reflecting real, simulated, fantasy, or other structures, and includes information systems that utilize interaction within a 3D environment). Various embodiments facilitate interoperation between and within virtual worlds, and may provide consistent structures for operating virtual worlds. The disclosed embodiments may further enable individuals to build new virtual worlds within a framework, and allow third party users to better interact with those worlds.

Augmented reality presentations are provided at respective electronic devices. A first electronic device receives information relating to modification made to an augmented reality presentation at a second electronic device, and the first electronic device modifies the first augmented reality presentation in response to the information.

Systems and methods of virtual world interaction, operation, implementation, instantiation, creation, and other functions related to virtual worlds (note that where the term “virtual world” is used herein, it is to be understood as referring to virtual world systems, virtual environments reflecting real, simulated, fantasy, or other structures, and includes information systems that utilize interaction within a 3D environment). Various embodiments facilitate interoperation between and within virtual worlds, and may provide consistent structures for operating virtual worlds. The disclosed embodiments may further enable individuals to build new virtual worlds within a framework, and allow third party users to better interact with those worlds.

A combat control method for a game object, a computer readable storage medium, and an intelligent terminal are provided. The combat control method includes: controlling game objects comprising a game object in a first combat lineup and a game object in a second combat lineup to enter a combat state based on a combat process confirmation instruction; controlling a first game object in the first combat lineup to point to a second game object in the second combat lineup, and controlling a third game object in the first combat lineup to point to a fourth game object in the second combat lineup, until each game object in the first combat lineup or in the second combat lineup is configured with a pointed game object; calculating a combat result, and pointing the game object with a winning combat result in the first combat lineup to the game object with a winning combat result in the second combat lineup, until the game objects in either the first combat lineup or the second combat lineup are all defeated. In the technical solution, combat time can be shortened, thus improving experience of a game player.

Methods and systems are provided for executing a video game for a player. The method includes determining a golden path associated with a gameplay of a player. The golden path includes a plurality of main story quests associated with the golden path. The method includes processing the gameplay to identify player gaming metrics as the player progresses along the golden path. The method includes examining the player gaming metrics to identify a game region along the golden path where the player is determined to need assistance to advance in the video game. The method includes generating a dynamic quest for the player. The dynamic quest is generated with one or more sub-parts to enable acquisition of a reward that is useful for assisting the player to make advancement in said video game along the golden path. The method includes inserting the dynamic quest along the golden path, the inserting presents the dynamic quest to the player and enables said acquisition of said reward.

Provided are an information processing device, a data synchronization program, a data synchronization method, a data synchronization system, and a terminal device that suppress an increase in processing load and communication load in a situation in which a plurality of user terminals participate and data of the plurality of user terminals are synchronized. A server device is connected to a plurality of clients that synchronize an object with each other via a network, and includes: data reception means configured to receive a difference from a synchronization target object from a client having ownership of the object; data update means configured to update first, second, third replicas, and the like obtained by replicating the synchronization target object by using the difference; and data transmission means configured to transmit the difference to a client other than the client having the ownership among the plurality of clients.

A computing system retrieves historical event data for a plurality of games in a league. The historical event data includes (x,y) coordinates of players within each game and game context data. The computing system learns one or more attributes of each team in each game and each player on each team in each game. The computing system receives a request to simulate a play in a historical game. The request includes substituting a player that was in the play with a target player that was not in the play. The computing system simulates the play with the target player in place of the player based on the one or more attributes learned by the computing system. The computing system generates a graphical representation of the simulation.

Authoritative management of application state can be provided for a large number of participants using a set of application servers. Each participant in an active session will communicate with only a specific application server, where that server will have authority over the state information for that participant. When input is received from a participant, the input is passed to the authoritative server for processing. The authoritative server performs a simulation based on the input as of the time indicated by respective timestamps, enabling the server to utilize rewind and replay semantics to enable events performed in the past on various clients to be accurately simulated on the authoritative server, dramatically reducing the perceived latency. Results of the simulation are sent to the other application servers having authority over the state information for other participants in the session for updating the state for those participants.

A method of incentivizing location-based actions by groups is disclosed. A group of users of a game networking system is notified that an incentive reward is to be provided based on a number of members of the group performing a location-based action transgressing a threshold. The incentive reward is provided based on the number of members of the group performing the location-based action transgressing the threshold.

A method for displaying the relative positions of two players playing a game on a user device. The set of levels within an episode that a first player is playing are displayed on the graphical user interface of his computer device. These levels are set out in a predetermined order, wherein access to the next level is granted once the player has completed the preceding levels. Inputs from the player are received as the player plays each level. This enables the game to determine when the level has been completed, and to generate player data indicating the level the player is playing. In an episode race, the relative positions of the two players can then be displayed based on the time taken for the first and second players to complete one or more levels in their respective sets of levels. A player may compete against bots, created from historic user data, or against live opponents. In another feature, the user can select a specific theme from a group of themes to play an episode of the game in. In another feature, the user can invite another user to play in the same theme as him, even if the two players are playing different levels with different difficulties.