An information processing apparatus includes controlling movement of any of first objects arranged on a field, controlling movement of a second object fed to any of the first objects, and carrying out control such that a first object satisfying prescribed proximity relation with the second object among the first objects acquires the second object. The controlling movement of a second object includes ejecting the second object to the field from a prescribed position in a direction determined based on an accepted first user operation input and moving the second object over the field in accordance with an accepted second user operation input. The controlling movement of any of the first objects moves any of the first objects toward the second object ejected to the field and moves any of the first objects toward the second object that moves over the field.

A non-limiting example game system includes a main body apparatus, and this main body apparatus is provided attachably and detachably with a left controller and a right controller. In a first operation mode, a movement and an action of a player character are controlled according to an operation of a player. In a second operation mode, an offensive character is made to appear, and a movement and an action of the offensive character are controlled according to an operation of the player. Therefore, the movement of the player character is restricted in the second operation mode. A direction and a position of a virtual camera are controlled so as to follow the player character in the first operation mode and to respectively capture the player character and the offensive character in the second operation mode.

In a multiplayer video game, virtual cameras are controlled by continually assessing and ranking storylines relating to the interactions of various players during a game session. A ranking for each storyline may be based on various factors such as, but not limited to, what the players can see, the distance between certain players, nearby game items or in-game. Subsequently, at least one virtual camera is navigated to provide a view of the highest-ranking storyline, subject to certain limitations on how the camera can move, transition, or otherwise display the interactions between players. In embodiments, a set of rules including rules of cinematography, are used to provide additional control of the movement of the virtual camera. In embodiments, movements of a human camera-person are used on a mocap system to control the movement of the virtual camera.

An information processing program is for improving operability of a player when aiming at one of a plurality of non-player objects. The information processing program causes a computer to function as: a camera control unit that controls an imaging range or an imaging direction of a virtual camera in a virtual space, a display control unit that causes a display unit to display an image taken by the virtual camera, an action control unit that controls an action of a player object in the virtual space according to an operation to an operating unit, and a setting unit that sets any one of the plurality of non-player objects other than the player object as a target object to aim at. The setting unit is capable of setting one of the plurality of non-player objects arranged outside the imaging range of the virtual camera as the target object.

In a multiplayer video game, virtual cameras are controlled by continually assessing and ranking storylines relating to the interactions of various players during a game session. A ranking for each storyline may be based on various factors such as, but not limited to, what the players can see, the distance between certain players, nearby game items or in-game. Subsequently, at least one virtual camera is navigated to provide a view of the highest-ranking storyline, subject to certain limitations on how the camera can move, transition, or otherwise display the interactions between players.

In a multiplayer video game, virtual cameras are controlled by continually assessing and ranking storylines relating to the interactions of various players during a game session. A ranking for each storyline may be based on various factors such as, but not limited to, what the players can see, the distance between certain players, nearby game items or in-game. Subsequently, at least one virtual camera is navigated to provide a view of the highest-ranking storyline, subject to certain limitations on how the camera can move, transition, or otherwise display the interactions between players.

A method for generating views of a game. The method including receiving game state data and user data of one or more players participating in a gaming session of a video game being played by the one or more players. The method including identifying a spectator zone-of-interest in the gaming session, the spectator zone-of-interest having a scene of a virtual gaming world of the video game that is viewable from one or more camera perspectives in the virtual gaming world. The method including identifying a first camera perspective of the spectator zone-of-interest based on a first AI model trained to generate one or more corresponding camera perspectives of corresponding scenes of corresponding spectator zones-of-interest.

A method for generating views of a game. The method including receiving game state data and user data of one or more players participating in a gaming session of a video game being played by the one or more players. The method including identifying a spectator zone-of-interest in the gaming session, the spectator zone-of-interest having a scene of a virtual gaming world of the video game that is viewable from one or more camera perspectives in the virtual gaming world. The method including identifying a first camera perspective of the spectator zone-of-interest based on a first AI model trained to generate one or more corresponding camera perspectives of corresponding scenes of corresponding spectator zones-of-interest.

A non-transitory computer-readable recording medium having computer-readable instructions stored thereon, which when executed, causes a computer to execute a process of a game program, is provided. The process includes a step (a) of setting a default position of a virtual camera; a step (b) of calculating an outer edge of multiple objects arranged in a given region in the virtual space; a step (c) of determining a target position in an interior of the outer edge, to which the virtual camera is directed; a step (d) of adjusting a height of the virtual camera at the default position so as to display all of the plurality of objects in the region when the virtual camera is directed from the default position to the target position; and a step (e) of operating the virtual camera to be directed to the target position from the adjusted height of the default position.

A non-transitory computer-readable recording medium having computer-readable instructions stored thereon, which when executed, causes a computer to execute a process of a game program, is provided. The process includes a step (a) of setting a default position of a virtual camera; a step (b) of calculating an outer edge of multiple objects arranged in a given region in the virtual space; a step (c) of determining a target position in an interior of the outer edge, to which the virtual camera is directed; a step (d) of adjusting a height of the virtual camera at the default position so as to display all of the plurality of objects in the region when the virtual camera is directed from the default position to the target position; and a step (e) of operating the virtual camera to be directed to the target position from the adjusted height of the default position.