A method that incorporates teachings of the subject disclosure may include, for example, receiving, by a device comprising a processor, a first signal from a motion-sensitive component of the device; receiving, by the device, a second signal from a touch-sensitive interface of the device, detecting, by the device, from a combined signal comprising the first signal and the second signal, a selection of a portion of the device; and causing, by the device, a sensory feedback generator to provide a feedback signal in accordance with the combined signal. The feedback signal may comprise an audible sound, a visual effect, a tactile effect, or any combination thereof. Additional embodiments are disclosed.

A method that incorporates teachings of the subject disclosure may include, for example, receiving, by a device comprising a processor, a first signal from a motion-sensitive component of the device; receiving, by the device, a second signal from a touch-sensitive interface of the device, detecting, by the device, from a combined signal comprising the first signal and the second signal, a selection of a portion of the device; and causing, by the device, a sensory feedback generator to provide a feedback signal in accordance with the combined signal. The feedback signal may comprise an audible sound, a visual effect, a tactile effect, or any combination thereof. Additional embodiments are disclosed.

A video game controller can include a body with a top surface and a bottom surface, multiple control inputs (e.g., thumbsticks, directional pads, buttons), and a face plate removably coupleable to the body over the top surface so that the plurality of control inputs extend through the face plate. One or more of the multiple control inputs are removable and replaceable without the use of tools by decoupling the face plate from the body and decoupling the control input from the body without disassembling the body.

A video game controller can include a body with a top surface and a bottom surface, multiple control inputs (e.g., thumbsticks, directional pads, buttons), and a face plate removably coupleable to the body over the top surface so that the plurality of control inputs extend through the face plate. One or more of the multiple control inputs are removable and replaceable without the use of tools by decoupling the face plate from the body and decoupling the control input from the body without disassembling the body.

A computing system is provided. The computing system includes a server having one or more processors configured to receive from a user computing device run-time telemetry data, the run-time telemetry data being recorded during execution of a target program of a plurality of programs by the user computing device and being indicative of communication between the user computing device and a user input device. The one or more processors are further configured to determine a performance metric based on the run-time telemetry data, determine an updated driver parameter for the target program based on the determined performance metric, send the updated driver parameter to the user computing device, and apply the updated driver parameter for use during a subsequent execution of the target program.

This application provides a mark processing method performed by a computer device. The method includes: displaying a display picture of a virtual environment; displaying an aiming prompt mark on the display picture of the virtual environment, the aiming prompt mark being used for indicating a target aimed position at which a target virtual object in the virtual environment aims; displaying a position prompt mark on the display picture of the virtual environment according to a first transparency, the position prompt mark being used for indicating a target environment position in the virtual environment; and adjusting the transparency of the position prompt mark in response to a change in relative positions between the aiming prompt mark and the position prompt mark.

An electronic device may receive audio during play of a game on a game console over a network. The electronic device may detect one or more sounds during the monitoring of the audio. The electronic device may control, based on the detected one or more sounds, operation of a game controller that interacts with the game during play. The controlling of the operation of the game controller may comprise adjusting sensitivity of the game controller. The electronic device may determine directionality of the detected one or more sounds and adjust the sensitivity of the game controller based on the determined directionality of the detected one or more sounds. The electronic device may increase and/or decrease the sensitivity of the game controller in response to changes in the determined directionality of the detected one or more sounds.

An electronic device may receive audio during play of a game on a game console over a network. The electronic device may detect one or more sounds during the monitoring of the audio. The electronic device may control, based on the detected one or more sounds, operation of a game controller that interacts with the game during play. The controlling of the operation of the game controller may comprise adjusting sensitivity of the game controller. The electronic device may determine directionality of the detected one or more sounds and adjust the sensitivity of the game controller based on the determined directionality of the detected one or more sounds. The electronic device may increase and/or decrease the sensitivity of the game controller in response to changes in the determined directionality of the detected one or more sounds.

A directional input device includes a base and a head selectively connected to the base by a twist-lock mechanism. The head and base define a center axis of the directional input device. The twist-lock mechanism includes a post oriented in an axial direction of the center axis, at least one flange protruding in a radial direction from the post, a receiver configured to receive the post and the flange, and an angularly oriented channel in the receiver configured to allow the post and flange to rotate into the channel and capture the flange in the axial direction.

A joystick assembly applicable to a game controller includes a base, a shaft, a movement sensing device, a memory and a processor. The shaft is pivotally disposed at the base. The movement sensing device is disposed in the base and configured to sense the movement of the shaft relative to the base to generate a movement signal. The memory is disposed in the base and stores an identification number of the joystick assembly and pieces of calibration data. The processor is disposed in the base and configured to determine whether to output the movement signal according to the calibration data.