According to one embodiment, a shooting game control method, which is executed by a computer incorporated in a device including a display and a touch panel, includes accepting a touch operation on the touch panel; displaying a first frame indicative of a shooting effective range on the display in accordance with a position of the touch operation; accepting an instruction for an attack on an attack target in a state in which the first frame is displayed; determining whether the attack target in a game image displayed on the display is within the first frame or not, at a time point when the instruction for the attack has been accepted; and controlling the attack on the attack target in the game image in accordance with a result of the determining.

A system for providing an interactive experience for multiple game-players. The experience is provided in a light-controlled setting where the game-players may wear or hold one or more of various toys (e.g., gloves). The system detects and recognizes the toy along with gestures and pointing efforts performed by the game-player and the system generates an effect based on the type of toy and the type of gesture. The system also generates one or more visual targets that are visible to the game-player such as projections, holograms, and displays of one or more of various fantasy virtual adversaries. The generated effects may include any combination of sensory effects including visual, audio, tactile, and smell/taste. The generated effect may be directed based on the pointing efforts of the game-player. The system may then register the effect on the target, if the pointing efforts intersect with the virtual location of the target.

A system for providing an interactive experience for multiple game-players. The experience is provided in a light-controlled setting where the game-players may wear or hold one or more of various toys (e.g., gloves). The system detects and recognizes the toy along with gestures and pointing efforts performed by the game-player and the system generates an effect based on the type of toy and the type of gesture. The system also generates one or more visual targets that are visible to the game-player such as projections, holograms, and displays of one or more of various fantasy virtual adversaries. The generated effects may include any combination of sensory effects including visual, audio, tactile, and smell/taste. The generated effect may be directed based on the pointing efforts of the game-player. The system may then register the effect on the target, if the pointing efforts intersect with the virtual location of the target.

The present invention provides a screen shooting range and a method of playing a screen shooting game using artificial intelligence technologies. The screen shooting range includes a set studio including a plurality of shooting spaces virtually divided so as to continue a movement line of a user, wherein each of the divided shooting spaces is decorated according to different themes; a plurality of structures disposed in the shooting spaces; a sensor unit configured to detect a motion or position of the user; a plurality of image display units disposed in the shooting space to display images; a moving means provided so that the structure or the image display unit can be moved; a main server for storing a plurality of images as a manual and receiving position information of the laser point; and a controller for controlling internal configurations of the shooting space as a whole.

The present invention provides a screen shooting range and a method of playing a screen shooting game using artificial intelligence technologies. The screen shooting range includes a set studio including a plurality of shooting spaces virtually divided so as to continue a movement line of a user, wherein each of the divided shooting spaces is decorated according to different themes; a plurality of structures disposed in the shooting spaces; a sensor unit configured to detect a motion or position of the user; a plurality of image display units disposed in the shooting space to display images; a moving means provided so that the structure or the image display unit can be moved; a main server for storing a plurality of images as a manual and receiving position information of the laser point; and a controller for controlling internal configurations of the shooting space as a whole.

A virtual object control method includes: displaying a path drawing interface that comprises a map of a virtual environment; obtaining a path finding instruction associated with a virtual object in the virtual environment according to an operation track of a drawing operation performed in the path drawing interface. The drawing operation is performed on the map of the virtual environment. The method also includes generating a moving path according to the path finding instruction; and controlling the virtual object to move along the moving path in the virtual environment.

A video game inventory coach AI model may suggest video game inventory items to discard, obtain, and/or use based on a user's gameplay style and clusters of other players. The inventory coach model may be turned on and off at a target player's discretion.

A method for managing and controlling a target shooting session includes initiating the target shooting session includes receiving a stream of video frames; displaying a graphic image representative of the target; processing the stream of video frames to generate a series of video images; processing the series of video images to detect a target area exhibiting a difference; analyzing the target area in the consecutive video images to determine if the difference is representative of target penetration; updating the graphic image to show a graphic target penetration; determining a participant score; and updating the graphic image on the display device to show the participant score. A system for managing and controlling a target shooting session includes a target assembly, a video camera, and a user computing device. In another embodiment, the system includes a target assembly, a video camera, and a non-transitory computer-readable medium storing a target shooting application program.

A method for managing and controlling a target shooting session includes initiating the target shooting session includes receiving a stream of video frames; displaying a graphic image representative of the target; processing the stream of video frames to generate a series of video images; processing the series of video images to detect a target area exhibiting a difference; analyzing the target area in the consecutive video images to determine if the difference is representative of target penetration; updating the graphic image to show a graphic target penetration; determining a participant score; and updating the graphic image on the display device to show the participant score. A system for managing and controlling a target shooting session includes a target assembly, a video camera, and a user computing device. In another embodiment, the system includes a target assembly, a video camera, and a non-transitory computer-readable medium storing a target shooting application program.

An amusement park system includes a modular attraction system having a ride vehicle having seats to accommodate passengers, an on-board system integrated with the ride vehicle and having on-board game systems connected via a network. Each on-board game system is configured to provide an augmented reality (AR) experience, or a virtual reality (VR) experience, or both, via a respective visual experience generator device. The AR experience, or the VR experience, or both, is provided within a game shared between the on-board game systems. The on-board game systems are integrated into the ride vehicle, and are connected via the network to one another in a manner that allows for ready removal of all or a portion of one of the on-board game systems without affecting operation of the remaining on-board game systems.