A wireless game management system includes a plurality of game pieces, each game piece including a wireless module configured to transmit a location signal, and a wireless game management processor configured to determine the absolute or relative positions of at least two game pieces based on the location signals, determine a game status based on the absolute or relative positions of the at least two game pieces, and convey game status information through a user interface associated with the wireless game management processor.

One aspect of the disclosure relates to providing players pricing of in-game virtual items associated with their experience and their progress in the game. For example, the first player and the second player may have similar triggers, similar in-game events, and actually have different prices and currencies inside each story depending on each player's progress in the game, thus creating an individualized experience that may alter from player to player.

One aspect of the disclosure relates to providing players pricing of in-game virtual items associated with their experience and their progress in the game. For example, the first player and the second player may have similar triggers, similar in-game events, and actually have different prices and currencies inside each story depending on each player's progress in the game, thus creating an individualized experience that may alter from player to player.

Methods, systems, and computer readable media for predictive preloading of game data are described. In some implementations, a method can include using a machine learning model of player data to predict which games (or game-related data assets) to begin preloading prior to a user making a game selection. Once the user makes a selection, any preloading not related to the selection can be terminated. Thus, during the time period when the user is viewing available game selections, a given number of selections can begin to be preloaded based on predictions from the machine learning model. The preloading can help reduce latency from game selection by the user to game start time.

A game provided to users of a game space may include a task to be performed by the users. A plurality of virtual chance items may be composed. Individual ones of the virtual chance items may be configured to be activated by the users in the game space to obtain virtual awards in the game space. The virtual awards may include one or more primary awards and one or more secondary awards. Composing the virtual chance items may include determining probabilities that the individual virtual chance items will provide a primary award and/or a secondary award upon activation. The virtual chance items may be distributed to the users that complete the task responsive to these users completing the task. The virtual awards may be provided to the users in accordance with the probabilities assigned to the virtual chance items in response to the users activating the virtual chance items.

Methods and apparatus provide for: facilitating communication between one or more controller devices operated by one or more users, respectively, and a data processing apparatus running an application program, wherein each controller device includes a plurality of actuation elements that are operable to be manipulated by a respective one of the one or more users to input desired operations to the data processing apparatus for use by the application program; obtaining a respective controller identifier from each of the one or more controller devices; and storing in a memory the controller identifiers in response to the control section in a sequential table, such that each entry in the sequential table includes at least a sequential table entry number and a respective one of the controller identifiers.

Methods and apparatus provide for: facilitating communication between one or more controller devices operated by one or more users, respectively, and a data processing apparatus running an application program, wherein each controller device includes a plurality of actuation elements that are operable to be manipulated by a respective one of the one or more users to input desired operations to the data processing apparatus for use by the application program; obtaining a respective controller identifier from each of the one or more controller devices; and storing in a memory the controller identifiers in response to the control section in a sequential table, such that each entry in the sequential table includes at least a sequential table entry number and a respective one of the controller identifiers.

A head mounted display (HMD) is provided. The HMD includes a housing and a view port of the housing. The view port has a screen for rendering an augmented reality scene. Included is a communications device for exchanging streaming data over a network. A depth camera integrated in the housing and oriented to capture depth data of an environment in front of the housing is included. A processor is configured to use the depth data captured by the depth camera to identify spatial positioning of real objects in the environment. A real object is rendered into the augmented reality scene, and the real object is tracked such that insertion of augmented reality objects are placed in coordination with movements of the real object shown in the augmented reality scene. The real object captured by the depth camera is the environment where a user wearing the HMD is located.

A head mounted display (HMD) is provided. The HMD includes a housing and a view port of the housing. The view port has a screen for rendering an augmented reality scene. Included is a communications device for exchanging streaming data over a network. A depth camera integrated in the housing and oriented to capture depth data of an environment in front of the housing is included. A processor is configured to use the depth data captured by the depth camera to identify spatial positioning of real objects in the environment. A real object is rendered into the augmented reality scene, and the real object is tracked such that insertion of augmented reality objects are placed in coordination with movements of the real object shown in the augmented reality scene. The real object captured by the depth camera is the environment where a user wearing the HMD is located.

A video game processing program product causes a user terminal to realize functions to control progress of a video game. The functions include: an updating function configured to update a position of a character; a first displaying function configured to display, in a normal mode, a normal game screen; and a second displaying function configured to display, in a photographing mode, a photographing game screen based on a photographing operation. In a first case where a user operates the user character to change position while the photographing screen is displayed in the photographing mode, a change in position of the user character does not affect a status of the normal mode. The status of the normal mode of the video game is configured to be updated in a second case while the photographing screen is displayed in the photographing mode.