The disclosure provides a live streaming interaction method and apparatus, an electronic device, and a computer-readable storage medium. The method comprises: receiving an invitation request from a first terminal; transmitting the invitation request to a second terminal, and receiving an acceptance information for the invitation request that is returned by the second terminal; and on the basis of the acceptance information, transmitting to a viewer terminal a connection instruction used for connecting with a second GS so that the viewer terminal stops the connection with a live streaming server and connects to the second GS so as to control a character of the same game as an anchor terminal. In the live streaming interaction method disclosed in the disclosure, a game can be combined with live streaming.

A method and apparatus for game teaming in live streaming, and an electronic device and a computer-readable storage medium, relating to the technical field of computers. The method comprises: receiving a game teaming request, the game teaming request comprising user information of multiple game participants, the multiple game participants comprising a live streaming anchor user and at least one live streaming viewer user, the live streaming viewer user satisfying a specified live streaming teaming condition (S210); sending the game teaming request to a gaming platform (S220); and displaying a game teaming instruction returned by the gaming platform, so that the multiple game participants enter the gaming platform according to the game teaming instruction (S230).

Computer-implemented systems and methods are provided for tracking user activity and managing quests. By way of example, a method may include receiving, from a website server, first identity data representing an identity of a user and data identifying a quest activated by the user, the quest comprising one or more activities to be performed at a physical location, and receiving, from at least one reporting device, second identity data representing the identity of the user at the physical location, and activity tracking data in response to the user performing an activity associated with the quest at the physical location. The method may also include identifying the user and the quest activated by the user based on the first identity data and data identifying the quest, further identifying the user and activity data related to the quest based on the second identity data and activity tracking data, and monitoring a progress of the user.

An example method of performing interactive videogame verification using cryptographically protected transaction records includes: receiving, by a videogame server, from a first videogame client device, a first transaction record reflecting a first set of events associated with an interactive videogame session, wherein the first transaction record is cryptographically signed by a first private cryptographic key associated with the first videogame client device; receiving, from a second videogame client device, a second transaction record reflecting a second set of events associated with the interactive videogame session, wherein the second transaction record is cryptographically signed by a second private cryptographic key associated with the second videogame client device; and validating the first transaction record based on the second transaction record.

A computing system is configured to execute a computer program on a server and to provide a video stream of the program output to a geographically remote client over a communication network. The computing system is further configured to provide executable content of the computer program to the client over the communication network in parallel with the video stream. When a sufficient amount of the executable content has been provided to the client execution of the computer program is transitioned from the server to the client. The transition optionally includes communicating a state of the computer program from the server to the client. The executable content can be provided to the client in an order that is determined based on the state of the computer program. Those parts of the executable content deemed most likely to be necessary to support game play on the client are given priority.

A computing system is configured to execute a computer program on a server and to provide a video stream of the program output to a geographically remote client over a communication network. The computing system is further configured to provide executable content of the computer program to the client over the communication network in parallel with the video stream. When a sufficient amount of the executable content has been provided to the client execution of the computer program is transitioned from the server to the client. The transition optionally includes communicating a state of the computer program from the server to the client. The executable content can be provided to the client in an order that is determined based on the state of the computer program. Those parts of the executable content deemed most likely to be necessary to support game play on the client are given priority.

A multi-region game server fleet may span a plurality of computing regions including a home computing region and one or more remote computing regions. A fleet management service operating in the home computing region may receive a request to perform a modification to the multi-region game server fleet, such as adding an additional remote computing region, removing an existing remote computing region, or making a configuration change. The modification may be performed, at least in part, by one or more region specific worker processes hosted in the home region. The fleet management service operating in the home computing region may also receive a request to perform an interaction with a specific remote region game server. An instruction corresponding to the interaction may be transmitted, by a region-specific computing function hosted in the home region, to the specific remote region game server.

The field of the invention relates to multi-user online gaming systems, and more particularly to systems and methods that enable customizable teams for online active games. In an embodiment, the system includes an online game session server system communicatively coupled to a network for access by a plurality of users to establish a plurality of real-time interactive games sessions, wherein each game session includes at least one team and wherein the at least one team may be established in accordance with a preferred composition defined by a user.

The field of the invention relates to multi-user online gaming systems, and more particularly to systems and methods that enable customizable teams for online active games. In an embodiment, the system includes an online game session server system communicatively coupled to a network for access by a plurality of users to establish a plurality of real-time interactive games sessions, wherein each game session includes at least one team and wherein the at least one team may be established in accordance with a preferred composition defined by a user.

Features are described to use data from game play to construct social networks of users. For example determining that a user played a game with a certain player, a certain number of times, can indicate compatibility between the user and the player. The compatibility may suggest the potential for a social network connection between the user and the player. Social network connections could be within the particular game platform, or the connection may be outside the game such as via other social networking platforms. In addition, a type of connection via the service may be identified. For example, some services allow users to follow or friend other users, where each type of connection is associated with different data security features.