A system that incorporates the subject disclosure may include, for example, a processor coupled to a memory storing instructions and to a near field sensor. Execution of the instructions can cause the processor to perform operations including defining a zone corresponding to a portion of an accessory comprising the sensor, detecting a gesture of an object in the zone by sensing the object with the sensor, determining that the gesture is a new gesture not previously associated with the zone and not previously associated with a gaming action controlling presentations produced by a gaming application, associating the gesture with the zone and with the gaming action, subsequently detecting the gesture in the zone, obtaining the gaming action associated with the gesture, and transmitting the gaming action to the gaming application. Other embodiments are disclosed.

An information processing apparatus including a control section to generate a control signal that controls an operation of a tactile feedback apparatus including a tactile feedback section. The control section changes control on the tactile feedback apparatus on the basis of a type of the tactile feedback section which is recognized by the control section.

An information processing apparatus including a control section to generate a control signal that controls an operation of a tactile feedback apparatus including a tactile feedback section. The control section changes control on the tactile feedback apparatus on the basis of a type of the tactile feedback section which is recognized by the control section.

Methods and apparatus are disclosed for video transmission using tokens. According to one example, computer-readable storage media store instructions that cause a processor to: distribute, toward terminal devices of a plurality of viewers via a communication line, motion data or a first video including an animation of an avatar of a distributor generated on the basis of the motion data; distribute, toward the terminal devices of the plurality of viewer via the communication line, a second video related to a computer-implemented game generated on the basis of operation data by using a received web page; receive, via the communication line, token data indicating that any type of token among a plurality types of tokens is given to the distributor, the token data being generated by the terminal device of each viewer viewing the second video; calculate a score based on the total number of at least one type of tokens given to the distributor using the token data; and control a game object used in the game on the basis of the score.

Methods and apparatus are disclosed for video transmission. In one example, computer-readable storage media store instructions cause a processor to: generate first motion data; distribute, toward terminal devices of a plurality of viewers via a communication line, the first motion data; receive a web page; receive first operation data from a user interface; generate a second video related to a computer-implemented game on the basis of the first operation data by using the received web page; distribute the second video toward the terminal devices of the plurality of viewer; receive viewer data regarding a plurality of viewers; extract a selected game object out of a plurality of game objects to be used in the game; calculate a control parameter related to the selected game object on the basis of the viewer data; generate the second video including the selected game object; and distribute the second video toward the terminal devices.

Methods and apparatus are disclosed for video transmission. In one example, computer-readable storage media store instructions cause a processor to: generate first motion data; distribute, toward terminal devices of a plurality of viewers via a communication line, the first motion data; receive a web page; receive first operation data from a user interface; generate a second video related to a computer-implemented game on the basis of the first operation data by using the received web page; distribute the second video toward the terminal devices of the plurality of viewer; receive viewer data regarding a plurality of viewers; extract a selected game object out of a plurality of game objects to be used in the game; calculate a control parameter related to the selected game object on the basis of the viewer data; generate the second video including the selected game object; and distribute the second video toward the terminal devices.

Described herein are, among other things, techniques, devices, and systems for streaming pixel data from a host computer to a wireless display device with low latency. In some embodiments, a user mode driver is executed in user mode of the host computer to configure a wireless network interface controller of the host computer to operate in a low latency manner. The display device may use a Forward Error Correction (FEC) algorithm to reconstruct a frame from the data packets it receives from the host computer. Also disclosed are techniques for scrambling the transmission of a series of data packets using different antenna configurations, as well as setting a modulation and coding scheme (MCS) rate based at least in part on the amount of pixel data to be transmitted to the display device. The display device may comprise a head-mounted display (HMD) that renders virtual reality (VR) game imagery.

An interactive energy effect system that includes one or more sensors configured to generate a signal indicative of a position of a user-associated object in the system. The interactive energy effect system also includes a system controller that receives the signal and generates a first and second set of instructions based on the signal. The system controller transmits the first instructions to an energy emission system to cause the energy emission system to reposition and activate an energy emitter. The system controller transmits the second instructions to a multi-layer display system to cause the multi-layer display system to move towards or away from the user-associated object.

A rhythm-based video game (“game”) is disclosed. In the game, a player slashes blocks representing musical beats using a pair of energy blades resembling a lightsaber. A gaming console renders multiple digital objects, e.g., digital blocks, digital mines and digital obstacles, that are approaching a player in a virtual space. The gaming console also renders a digital representation of an instrument, e.g., a lightsaber (“digital saber”), using which the player slashes, cuts or otherwise interacts with the digital blocks to cause a digital collision between the digital saber and the digital blocks. The player can score by slashing the digital blocks, not hitting the digital mines and avoiding the digital obstacles. The game presents the player with a stream of approaching digital objects in synchronization with music, e.g., a song's beats, being played in the game. The pace at which the digital blocks approach the player increases with the beats.

A rhythm-based video game (“game”) is disclosed. In the game, a player slashes blocks representing musical beats using a pair of energy blades resembling a lightsaber. A gaming console renders multiple digital objects, e.g., digital blocks, digital mines and digital obstacles, that are approaching a player in a virtual space. The gaming console also renders a digital representation of an instrument, e.g., a lightsaber (“digital saber”), using which the player slashes, cuts or otherwise interacts with the digital blocks to cause a digital collision between the digital saber and the digital blocks. The player can score by slashing the digital blocks, not hitting the digital mines and avoiding the digital obstacles. The game presents the player with a stream of approaching digital objects in synchronization with music, e.g., a song's beats, being played in the game. The pace at which the digital blocks approach the player increases with the beats.