A video game includes an audio-video stream combined with game graphics and game sounds. The game graphics are overlaid on the video stream and updated in synchronization with the stream. Update of the game graphics and sounds depends on inputs received from a game player. The game player may provide input using a game controller coupled to the video game by an adapter. The video game may play on a Blu-ray player.

This game system (1) includes multiple game machines (2A, 2B) connected to a network (5), allows a player of a game machine to select one of selective items on a game prepared in advance, and allows the player to play a game having content reflecting the selected item. This game system is provided with a device (32) for storing relation data for determining whether or not a predetermined connection exists between players, a device (11) for determining the selection state pertaining to the items selected by the players on the game machines, a device (11, 12) for determining, based on the relation data, other players that have the predetermined connection with the player, and a device (21) which, when the player is making the selection from the selective items, presents the player making the selection with the selection state of other players having the predetermined connection with that player.

Aspects of the disclosure relate generally to computer software and musical gameplay elements. More specifically, aspects of the disclosure provide a method of using multiple musical tracks of varying intensity based on well-timed user inputs and/or player advancement in a rhythm-based video game. Other aspects of the disclosure relate to techniques to improve player on beat inputs in a rhythm-based video game.

Procedurally generating live experiences for a virtualized music-themed world, including: providing a headless content management system supporting management of back end; coupling a virtual world client to the back end of the content management system using an interface that provides a content packaging framework to enable customized event scheduling and destination management; and procedurally generating a plurality of content elements in a real-time game engine for live experiences in the virtualized music-themed world.

A music based video game provides a user directed sound generation feature. In some embodiments, the user is provided a video game controller simulating a musical instrument, which the user may operate similarly to its real musical instrument counterpart. A free play feature is provided for users to operate the video game controller, where a processor of a video game console receives input signals from the video game controller and outputs audio samples based on the received input signals. During the free play feature, multiple suggestions as to how to operate the video game controller are simultaneously provided to give users some guidance as to what to play using the video game controller.

A portable device includes a speaker; a first sensor that detects movement of the device; a second sensor that detects a direction in which the device is facing; and a controller that, when time-series variation of the movement detected by the first sensor indicates a jump movement, causes a sound corresponding to the direction detected by the second sensor to be output from the speaker.

A game device is provided. Such a game device includes an operation unit for receiving an operation input from a player, a display unit for displaying an image for instructing the operation input to the operation unit; and a control unit for controlling display of the image. At least a part of the operation unit is provided at the vicinity of the display unit so as to protrude from the display unit. This configuration makes it possible to give a player a sense of immersion and a sense of spurting of a video game.

The disclosure is generally directed to in-vehicle entertainment systems and methods. An example method executed by processor of a vehicle may include displaying an iconic representation containing a first icon representing a musical instrument and a second icon representing a vehicle component. The processor may detect an assigning of the musical instrument to the vehicle component. The assigning may be carried out, for example, by a driver of the vehicle executing a drag-and-operation to overlap the first icon with second icon. The processor may then detect a physical contact made upon the vehicle component and generate, based on detecting the physical contact, a musical sound corresponding to the musical instrument.

Aspects of the disclosure relate generally to computer software and musical gameplay elements. More specifically, aspects of the disclosure provide a method of using multiple musical tracks of varying intensity based on well-timed user inputs and/or player advancement in a rhythm-based video game. Other aspects of the disclosure relate to techniques to improve player on beat inputs in a rhythm-based video game.

Exemplary venues allow for members of an audience at different locations within these venues to simultaneously interact with an interactive content. The interactive content can convey one or more requisite actions to be performed by the members of the audience. However, the one or more requisite actions can reach members of the audience at different instances in time. These exemplary venues can effectively compensate for these different instances in time such that the accuracy and/or the synchronization of one or more response actions, which are performed by the members of the audience in response to the one or more requisite actions, can be characterized as no longer being dependent upon their distance from the interactive content. Rather, the accuracy and/or the synchronization of the one or more response actions by the members of the audience to the one or more requisite actions can be considered as being related to the performance, for example, timing, of the one or more response actions themselves.