A method includes determining a physical location of each of a plurality of peripheral devices communicatively coupled to a host computing device, the each of the plurality of peripheral devices including a computer mouse; generating a lighting sequence configured to activate visual output elements on the each of the plurality of peripheral devices; and modifying the lighting sequence based on the physical location of the computer mouse relative to at least one of the other plurality of peripheral devices. In some aspects, the plurality of peripheral devices further includes a mouse pad, and modifying the lighting sequence for the computer mouse is based on the location of the computer mouse relative to its position on the mouse pad. In some cases, modifying the lighting sequence for the computer mouse is based on the location of the computer mouse relative to its position to the other plurality of peripheral devices.

An input device that includes a mouse; a mousepad, that includes a sensor to detect a position of the mouse on a surface of the mousepad; a processor; an array of light-emitting diodes (LEDs) to, when activated by the processor, indicate a position of the mouse on the surface of the mousepad; wherein the mouse comprises a button that, when activated, causes the processor to initiate an action based on the detected position of the mouse relative to the surface of the mousepad.

A method can include: determining a physical location of each of a plurality of peripheral devices communicatively coupled to a host computing device; generating a lighting sequence configured to activate visual output elements on the each of the plurality of peripheral devices, wherein the lighting sequence is a time based sequence that traverses the plurality of peripheral devices; and modifying a timing parameter of the lighting sequence based on the respective physical location of each of the plurality of peripheral devices. In some cases, modifying the lighting sequence can include: determining a distance between at least two of the plurality of peripheral devices and modifying the timing parameter of the sequential pattern based on the distance between the at least two of the plurality of peripheral devices.

Systems and methods are disclosed for a smart mouse that may include transmitting, by the mechanical switch of the smart mouse, a signal to a microcontroller unit of the smart mouse in response to a movement of the smart mouse caused by a user, the movement causing the mechanical switch to be in a closed position, the signal indicating that the mechanical switch is in the closed position; receiving, by the microcontroller unit, the signal indicating that the mechanical switch is in the closed position; and in response to receiving the signal: causing, by a power switch of the smart mouse, at least one battery of the smart mouse to provide power to an optical unit of the smart mouse, the provided power causing the optical unit to be in an on state, the on state of the optical unit causing the smart mouse to be electrically enabled for use.

A method can include intercepting a command generated by a computer peripheral device; determining a function corresponding to the command; generating a lighting output schema configured to be output on one or more visual output elements on the computer peripheral device based on the determined function; identifying, based on the determined function, whether a second software component can accept the command; and in response to determining that the second software component can accept the command, sending the intercepted command to the second software component. The method can further include requesting confirmation data from the second software component that indicates whether the second software component can perform the determined function; receiving the confirmation data; and in response to the confirmation data indicating that the second software component cannot perform the determined function, preventing the intercepted command from being sent to the second software component at the intended destination.

A method, a computer readable medium, and an apparatus for wireless communication are provided. The apparatus may receive, via a radio frequency channel, a first data from a first human interface device at a first time slot of a frame. The apparatus may transmit the first data to a computing device. The apparatus may receive, via the radio frequency channel, a second data from a second human interface device at a second time slot of the frame. The apparatus may transmit the second data to the computing device. The apparatus may transmit, via the radio frequency channel at a third time slot of the frame, at least one of a first acknowledgment to the first data, a first lighting effect configuration data for the first human interface device, a second acknowledgment to the second data, or a second lighting effect configuration data for the second human interface device.

Systems and methods are disclosed for a smart mouse that may include transmitting, by the mechanical switch of the smart mouse, a signal to a microcontroller unit of the smart mouse in response to a movement of the smart mouse caused by a user, the movement causing the mechanical switch to be in a closed position, the signal indicating that the mechanical switch is in the closed position; receiving, by the microcontroller unit, the signal indicating that the mechanical switch is in the closed position; and in response to receiving the signal: causing, by a power switch of the smart mouse, at least one battery of the smart mouse to provide power to an optical unit of the smart mouse, the provided power causing the optical unit to be in an on state, the on state of the optical unit causing the smart mouse to be electrically enabled for use.

A method, a computer readable medium, and an apparatus for wireless communication are provided. The apparatus may receive, via a radio frequency channel, a first data from a first human interface device at a first time slot of a frame. The apparatus may transmit the first data to a computing device. The apparatus may receive, via the radio frequency channel, a second data from a second human interface device at a second time slot of the frame. The apparatus may transmit the second data to the computing device. The apparatus may transmit, via the radio frequency channel at a third time slot of the frame, at least one of a first acknowledgment to the first data, a first lighting effect configuration data for the first human interface device, a second acknowledgment to the second data, or a second lighting effect configuration data for the second human interface device.

A mouse for use with a computer system, the mouse including: a body, the body containing a chamber, the chamber to hold an earbud; a receiver to receive power from a source external to the mouse; and a controller, to allocate power received from the external source between charging a battery in the mouse and charging a battery in the earbud.

An input device that includes a mouse; a mousepad, that includes a sensor to detect a position of the mouse on a surface of the mousepad; a processor; an array of light-emitting diodes (LEDs) to, when activated by the processor, indicate a position of the mouse on the surface of the mousepad; wherein the mouse comprises a button that, when activated, causes the processor to initiate an action based on the detected position of the mouse relative to the surface of the mousepad.