Various systems, methods, and computer readable instructions are disclosed herein for dynamically allocating fixed bandwidth over a wireless link between a video game console and a wireless peripheral device. In an embodiment, the voice sample rate in a wireless microphone may be dynamically adjusted to free up bandwidth that can be repurposed for other operations. The sample rate adjustment can range from maximum where the bandwidth is filled with voice data to a lesser sample rate. In the case where the sample rate is less than max, the freed up bandwidth can be for used for other operations.

The present invention relates to a method for touch control in a mobile real-time simulation game. Particularly, the present invention relates to a touch control method which can provide a function selected among predetermined functions according to the interval from when a touch has been input to when the next touch is input and the pattern type of input touch. A method for touch control in a simulation game performed using multiple units according to one aspect of the present invention may comprises: a first step for displaying the simulation game through a display unit; a second step for inputting a touch having a first pattern on at least a partial area of the display unit; a third step for inputting a touch having a predetermined function, using the interval between when the touch having the first pattern is input and when the touch having the second pattern is input and the pattern type of the input touch having the first pattern and the input touch having the second pattern.

Disclosed is a toy interactive method and device. The method comprises: a medium sample is collected and reference sample information of the medium sample is generated; a playing content of a medium being played is collected; characteristic information of the collected playing content is extracted; the extracted characteristic information is matched with the reference sample information to obtain a matching result; according to the obtained matching result, a to-be-played content that is to be played after a predetermined time period in the medium being played is predicted; and according to the predicted to-be-played content, a toy is driven to synchronously execute an interactive content corresponding to the to-be-played content at a corresponding time point after the predetermined time period. Through the toy interactive method and device, the technical problem is solved.

A gaming system comprises a handheld user input device, a processor for receiving input data from the handheld user input device and a gaming application for receiving data from the processor based on the received input data from the handheld user input device. The handheld user input device emulates one of a plurality of different devices associated with the gaming application. Each of the plurality of different devices have a set of input commands associated therewith. The set of input commands associated with the one of a plurality of different devices includes a command based on one of motion and orientation of the handheld device.

A method for handling communication for a computer game is provided. Once example method includes executing an application for recording one or more audio messages authored by a user for automatic transmission to one or more recipients during game play of a video game. During game play, the method includes detecting that a qualifying event has occurred, and, in response, selecting an audio message from the one or more audio messages for the automatic transmission. The method further includes transmitting, automatically, the audio message to a client device of a predefined recipient for presentation of the audio message.

A system is provided, including the following: an input device, the input device including, a light emitting diode (LED) array; an image capture device configured to capture images of an interactive environment in which the input device is disposed, the image capture device configured to generate captured image data that is processed to determine a movement of the input device in the interactive environment; wherein a gearing is established that adjusts an amount by which the movement of the input device is mapped to movement of an image that is rendered to a display, the gearing changing to different settings during the movement of the image as the movement of the image is rendered to the display.

A gaming system comprises a handheld user input device, a processor for receiving input data from the handheld user input device and a gaming application for receiving data from the processor based on the received input data from the handheld user input device. The handheld user input device emulates one of a plurality of different devices associated with the gaming application. Each of the plurality of different devices have a set of input commands associated therewith. The set of input commands associated with the one of a plurality of different devices includes a command based on one of motion and orientation of the handheld device.

An example system includes at least one a first device and at least one second device. The first device includes a camera; memory for storing user-configurable name information and a picture captured by the camera; and communication circuitry for wirelessly transmitting the name information. The second device includes communication circuitry for wirelessly receiving the name information; a display controller for controlling display of a name based on the received name information; and a user interface for receiving, while the name is displayed, a user-supplied request for picture reception. The communication circuitry of the first device transmits the stored picture to the second device based on the picture reception request and the communication circuitry of the second device receives the transmitted picture.

A virtual encounter system includes a mannequin coupled to a camera for receiving a video image. The camera sends the video image to a communications network. The virtual encounter system also includes a processor for overlaying a virtual environment over one or more portions of the video image to form a virtual scene and a set of goggles to render the virtual scene.

Game client, game server, Web application server, and database server including database with data representative of a virtual world. Game client or server, or both, includes motifs, motif manager, character manager, scenes-a-faire manager, and display manager coupled to display, all in communication with game manager, and pseudorandomizer, which can instigate changing of a motif. Motifs are representative of a game character or environment. A user interface has mass sensor, accelerometer, haptic device, first device for visual input, output, or both, second device for audio input, output, or both, and tactile sensor, effector or both. Included may be automatic translator, or TTS/STT module. The online game can be virtual world representative of at least two of a northern continent, a western continent, a southern continent, a central continent, and an eastern continent. Methods provide game client, game server, and a database that manipulate character or environment motifs and scenes-a-faire.