The invention relates to a docking station (1) for connected glasses (3), comprising: a support for positioning the connected glasses (3), a downlink communication module configured to receive input data from a communication unit of the connected glasses (3), a memory unit configured to store said input data to obtain stored data, an uplink communication module configured to transfer output data obtained from said stored data to a backend platform (5) in order to synchronize a database of the backend platform (5) with said input data.

An information processing method, which is executed by a computer, includes detecting a first state in which an object is separated from an operation surface by a prescribed distance. detecting a second state in which the object comes in contact with the operation surface after the first state is detected. executing a first process which includes reading data from a first storage device and loading, into a second storage device, the data that are read, in response to the detecting of the first state, and executing a second process with respect to the data loaded into the second storage device, in response to the detecting of the second state.

In one embodiment, a method for managing a heatsink of an information handling system includes: determining, by a controller unit of the information handling system, that a vibration event is to occur, the vibration event associated with a vibration unit of the information handling system, the controller unit communicably coupled to the vibration unit, the vibration unit removably coupled to the heatsink; and causing, by the controller unit, the vibration unit to generate the vibration event, the vibration event causing the vibration unit to apply one or more vibrations to the heatsink, the one or more vibrations causing a boundary layer of particles to be removed from a surface of the heatsink.

According to certain embodiments of the disclosure, an electronic device comprising: a support member having a first hole; a first fingerprint sensor disposed in the first hole; and a non-conductive injection molding material integrally joining the support member and the first fingerprint sensor.

The technology provides for an electronic device with gesture detection. In this regard, the device may include a housing, and one or more sensors positioned along an inner periphery of the housing. The sensors may be adapted to detect user interaction with an outer surface of the housing. The device may further include one or more processors in communication with the plurality of sensors. The one or more processors may be configured to determine the user interaction and to determine a type of gesture based on the detected user interaction, determine a type of input command based on the determined gesture, and execute a task corresponding to the determined type of input command.

A portable electronic device may include an enclosure including a housing component and a front cover coupled to the housing component and defining a front exterior surface of the portable electronic device. The portable electronic device may also include a display positioned below the front cover, the display defining an active display region, a first hole surrounded by the active display region, and a second hole surrounded by the active display region. The portable electronic device may also include a first optical sensor positioned below the front cover and below the first hole, a second optical sensor positioned below the front cover and below the second hole, and a touch-sensing component configured to detect a first touch input applied to the front cover in the active display region of the display and a second touch input applied to the front cover over the first hole in the display.

A mobile phone may include a display, wireless communication circuitry, a battery, and an enclosure enclosing the display, the wireless communication circuitry, and the battery. The enclosure may include a front cover formed from a transparent material and defining a front exterior surface of the mobile phone, a rear cover formed from a glass material and defining a rear exterior surface of the mobile phone, and a first housing component including a first wall section defining a first side exterior surface of the mobile phone, a second wall section defining a second side exterior surface opposite to the first side exterior surface, and a mid-chassis section extending between the first wall section and the second wall section.

A holographic reality system and multiview display monitor a user position and provide virtual haptic feedback to the user. The holographic reality system includes a multiview display configured to display a multiview image, a position sensor configured to monitor the user position, and a virtual haptic feedback unit configured to provide the virtual haptic feedback. An extent of the virtual haptic feedback corresponds to an extent of a virtual control within the multiview image. The holographic reality multiview display includes an array of multiview pixels configured to provide different views of the multiview image by modulating directional light beams having directions corresponding to the different views and an array of multibeam elements configured to provide the directional light beams to corresponding multiview pixels.

The present disclosure relates to a method and device for detecting ambient light, an electronic device and a storage medium. The electronic device includes: a first screen, the first screen being a foldable flexible screen; multiple light sensors, orientations of light sensing surfaces of the multiple light sensors being different; and at least one processor electronically connected with the first screen and the light sensors respectively and configured to select a target light sensor from the multiple light sensors according to a present state of the first screen and obtain target detection data representing present ambient brightness according to detection data of the target light sensor.

Methods executed by a processor of computing device for launching a selected application on a computing device are disclosed. Various embodiments may include authorizing a user based on a fingerprint of a finger detected on a fingerprint sensor portion of a touchscreen display matching a fingerprint of an authorized user of the computing device, determining a selected application installed on the computing device from a selective engagement of the finger on the touchscreen display, continuous from the fingerprint sensor portion and unlocking the selected application in response to the selective engagement of the finger on the touchscreen display. In some embodiments, selection of an application may be based a continuous swipe movement by the finger on the touchscreen display from the fingerprint sensor portion toward an icon on the touchscreen display representing the selected application.