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.

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.

An electronic device capable of adjusting light emitting frequency includes an oscillator used to generate an oscillation signal, a microcontroller connected to the oscillator, and a light emitting module connected to the microcontroller. The microcontroller is used to define that an oscillation times of the oscillator within a unit time period is an original oscillation times. The microcontroller sets a correspondence between a switching period and the original oscillation times. The microcontroller is further used to receive the oscillation signal to calculate a time elapse. The microcontroller is configured to control on or off of the light emitting module according to the switching period and the time elapse.

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.

The present application satisfies the need to provide a teaching aid system that can connect to a projector, television or screen for interaction by means of a light pen. The electronic system comprises, among others elements, a fixed piece and a movable piece with an internal pivot shaft, the fixed part containing a wireless routing system. The fixed part has outlet ports for video, and Ethernet network and communication ports. The movable piece contains an image capture sensor, a sound sensor and an infrared radiation source sensor. The system also comprises internal components such as an integrated computer that is connected to a motherboard. The sound sensor and the infrared radiation source sensor are contained in the movable part and are connected by means of flexible wires to the motherboard or directly to the integrated computer. The motherboard and the integrated computer are connected together. The integrated computer has a single printed circuit board and is formed by an integrated circuit that contains, in the same encapsulation, a single- or multiple-core processor, a graphics processing unit and a dynamic random access memory. In addition, the integrated computer of the system has integrated circuits for the administration of ports and connectors and a non-volatile memory card. The infrared radiation source sensor is formed by a CMOS image sensor, an external infrared filter and a microchip that processes the signals from the image sensor. The system also includes a casing and a pen-type pointer that acts as a mouse for interacting with the computer.

A portable hands-free computer accessory having a housing, a controller, and a first and second button separated by a surface area configured to accommodate a foot of a user. The controller is configured to detect a first set of two or more commands associated with a first set of one or more actuation types of the first button, each command from the first set of commands corresponding to a respective actuation type from the first set of actuation types, detect a second set of two or more commands associated with a second set of one or more actuation types of the second button, each command from the second set of playback commands corresponding to a respective different actuation type from the second set of actuation types, and, based on the first and second sets of commands, control playback of a video displayed on a computing device.

The subject matter of this specification can be embodied in, among other things, a system that includes a tracking device to generate movement information for use in moving a user interface object on a graphical user interface. The tracking device is configured to receive at least a portion of a user's finger. The system also includes a base device configured to receive the tracking device. The base device is configured to translate movement of the base device relative to an adjacent surface for use in moving the user interface object.

A method, a computer-readable medium, and an apparatus for adjusting feedback parameters are provided. The apparatus may determine a duration of pressing a button of an input device based on a signal associated with the button. To determine the duration of pressing the button, the apparatus may calculate the duration based on a start time and an end time. The start time may be a first time instance at which the button is pressed and the end time may be a second time instance at which the pressed button is released. The apparatus may classify the press force applied on the button of the input device into a category of a plurality of categories based on the duration. The apparatus may adjust a parameter of a feedback corresponding to the press force based on the category. The apparatus may control the feedback based on the parameter.

A mouse having a movable lighting structure includes a mouse body, the movable lighting structure, a lighting module and a wire. The mouse body has a longitudinal axis defining a longitudinal axis direction, and has a top surface and a bottom surface opposite to each other. The movable lighting structure is movably disposed on the mouse body, and has an accommodating space formed therein. The lighting module is disposed in the accommodating space, and has at least one light-emitting element. The wire is connected between the mouse body and the lighting module for supplying power required by the lighting module.

Examples described herein relate to a pointing device. For instance, a pointing device may comprise a plurality of buttons disposed on a body, a scrolling mechanism to transition between a plurality of configuration categories when the pointing device is in a configuration mode, and a light source to indicate a selected configuration category of the plurality of configuration categories when the pointing device is in the configuration mode.