A system that incorporates the subject disclosure may include, for example, a gaming system that cooperates with a graphical user interface to enable user modification and enhancement of one or more audio streams associated with the gaming system. In embodiments, the audio streams may include a game audio stream, a chat audio stream of conversation among players of a video game, and a microphone audio stream of a player of the video game. Additional embodiments are disclosed.

A switching method and system of interactive modes of a head-mounted device is provided. The interactive modes include gamepad tracking interactive mode and bare hand tracking interactive mode. A standard deviation of position data, a standard deviation of attitude data and a standard deviation of accelerometer data among IMU data are acquired, respectively. Whether the standard deviation of the position data, the standard deviation of the attitude data and the standard deviation of the accelerometer data meet a first preset condition is determined. Moreover, the standard deviation of the accelerometer data within a second preset duration is acquired in real time, and whether the standard deviation of the accelerometer data meets a second preset condition is determined. In cases where the standard deviation of the accelerometer data meets the second preset condition, the bare hand tracking interactive mode is paused, and the gamepad tracking interactive mode is started.

Embodiments described herein include an optical system, and associated method and computer program product. The optical system comprises one or more display devices, and one or more computer processors configured to transmit display signals comprising at least one virtual object for updating imagery displayed by the display devices, and to selectively defocus a focus of the virtual object.

Embodiments described herein include an optical system, and associated method and computer program product. The optical system comprises one or more display devices, and one or more computer processors configured to transmit display signals comprising at least one virtual object for updating imagery displayed by the display devices, and to selectively defocus a focus of the virtual object.

The specification discloses methods and systems for enabling users to configure one or more actuators in data communication with a user's computing device and positioned on a prop to generate and deliver feedback to a motion capture actor engaged with the prop. At least one graphical interface in the computing device is configured to enable the user to configure occurrence of at least one event during a scene, associate a time and duration of occurrence to the at least one event within an overall duration of the scene, select the prop, assign the at least one event and the associated time and duration of occurrence to at least one actuator on the prop, configure at least one parameter for the feedback, and activate the at least one actuator to generate and deliver the feedback to the actor in response to an occurrence of the at least one event.

A video server is configured to provide streaming video to players of computer games over a computing network. The video server can provided video of different games to different players simultaneously. This is accomplished by rendering several video streams in parallel using a single GPU (Graphics Processing Unit). The output of the GPU is provided to graphics processing pipelines that are each associated with a specific client/player and are dynamically allocated as needed. A client qualifier may be used to assure that only clients capable of presenting the streaming video to a player at a minimum level of quality receive the video stream. Video frames provided by the video server optionally include overlays added to the output of the GPU. These overlays can include voice data received from another game player.

A video server is configured to provide streaming video to players of computer games over a computing network. The video server can provided video of different games to different players simultaneously. This is accomplished by rendering several video streams in parallel using a single GPU (Graphics Processing Unit). The output of the GPU is provided to graphics processing pipelines that are each associated with a specific client/player and are dynamically allocated as needed. A client qualifier may be used to assure that only clients capable of presenting the streaming video to a player at a minimum level of quality receive the video stream. Video frames provided by the video server optionally include overlays added to the output of the GPU. These overlays can include voice data received from another game player.

A system and method of operation of an augmented reality system includes: a position sensor (140) for calculating a current location (144); an orientation sensor (142), coupled to the position sensor (140), for calculating a current orientation (146); and a control mechanism (118), coupled to the position sensor (140), for presenting a system object (126) based on the current location (144), the current orientation (146), an object location (128), an object orientation (130), an access right (120), a visibility (134), and a persistence (136).

A system and method of operation of an augmented reality system includes: a position sensor (140) for calculating a current location (144); an orientation sensor (142), coupled to the position sensor (140), for calculating a current orientation (146); and a control mechanism (118), coupled to the position sensor (140), for presenting a system object (126) based on the current location (144), the current orientation (146), an object location (128), an object orientation (130), an access right (120), a visibility (134), and a persistence (136).

There is provided an information processing apparatus, an information processing method, and an information processing apparatus-readable recording medium that are capable of adjusting sound caused by vibration of a vibration output unit that vibrates an input device in accordance with the surrounding situation of a game user. The information processing apparatus includes a vibration control unit. The vibration control unit controls vibration of a vibration output unit to change a sound caused by the vibration of the vibration output unit on a basis of surrounding environment information of an input device including a vibration output unit, the input device being held by a user.