A composite device with a high security level is provided. A composite device capable of inhibiting unauthorized use favorably is provided. The composite device includes a control portion, a detection portion, an authentication portion, and a memory portion. The detection portion has a function of detecting a touch and a function of obtaining first fingerprint data of a finger touching the detection portion. The authentication portion has a function of executing user authentication processing. The memory portion has a function of retaining second fingerprint data registered in advance. The control portion has a function of bringing a system into an unlocked state when the authentication portion authenticates a user and a function of comparing the first fingerprint data obtained by the detection portion and the second fingerprint data when the detection portion detects a touch, and bringing the system into a locked state in the case where those data do not match.

An optical sensor includes at least one interferometer having a pair of semi-transparent mirrors spaced apart and oppositely arranged, and at least one position of the pair of semi-transparent mirrors can be displaced, at least one collimating element overlapping the at least one interferometer, and at least one photoelectric conversion element having sensitivity in the visible and near infrared light bands and receiving light passing through the interferometer and the collimating element.

A method for touch detection and fingerprint unlocking includes detecting a finger of a user being in contact with a multiresolution touch interface having a low-resolution mode and a high-resolution mode. The method also includes in response to the detecting the finger of the user being in contact with the multiresolution touch interface, determining a touch interaction associated with the detected finger under the low-resolution mode. The method also includes in response to the multiresolution touch interface being locked, switching a finger contact area of the multiresolution touch interface into the high-resolution mode, wherein the finger contact area is determined based at least in part on the determined touch interaction associated with the detected finger. The method also includes detecting a fingerprint in the finger contact area, and unlocking the multiresolution touch interface based at least in part on the detected fingerprint.

Disclosed is a vehicle controlling apparatus for controlling a vehicle having a display. The vehicle controlling apparatus includes: a communication unit configured to communicate with the display; and a processor configured to set at least one region among an entire region of the display as a display region, based on a sight line range changed according to a position of a passenger who got on the vehicle, and configured to control the communication unit so that visual information is displayed on the display region.

A transparent display can allow viewing of real world content through the display, while rendering virtual content to the display. A display may take the form of a touch-sensitive display, allowing user input directly through physical interaction with the display. A display may include a pair of major outer-most faces and a pair of inner faces, one of the inner faces angled to reflect light from a projector, outward via one of the major outer-most faces. The gap may advantageously be formed via a pocket extending inwardly from an edge of an optical substrate that comprises the display.

A transparent display can allow viewing of real world content through the display, while rendering virtual content to the display. A display may take the form of a touch-sensitive display, allowing user input directly through physical interaction with the display. A display may include a pair of major outer-most faces and a pair of inner faces, one of the inner faces angled to reflect light from a projector, outward via one of the major outer-most faces. The gap may advantageously be formed via a pocket extending inwardly from an edge of an optical substrate that comprises the display.

A vehicle interior component configured to present a user interface for a vehicle occupant with vehicle systems is disclosed. The component may comprise a housing, cover structure and user interface system to present the user interface at a cover surface. The user interface may comprise a light display to transmit light from a light source and/or an input device comprising a mechanical coupling to interface with a sensor arrangement. The user interface may comprise output from the light display and/or input by interaction with the input device at the cover surface. The component may comprise a module comprising the light display and the input device. The module may comprise an absorber. The light display may comprise a light guide and/or display panel. The light guide may comprise a projection and/or icon to transmit light through an aperture and/or recess of the cover structure.

A touch display panel including a pixel defining layer, a first light emitting structure, a second light emitting structure, a first light sensing device and a touch electrode layer is provided. The pixel defining layer has a first pixel opening and a second pixel opening. The first light sensing device is adjacently disposed on a first side of the first pixel opening. A first edge defining a first electrode opening of the touch electrode layer and a second edge defining the first pixel opening of the pixel defining layer have a first spacing on the first side of the first pixel opening. A third edge defining a second electrode opening of the touch electrode layer and a fourth edge defining the second pixel opening of the pixel defining layer have a second spacing on a side of the second pixel opening. The first spacing is greater than the second spacing.

A touch display panel including a pixel defining layer, a first light emitting structure, a second light emitting structure, a first light sensing device and a touch electrode layer is provided. The pixel defining layer has a first pixel opening and a second pixel opening. The first light sensing device is adjacently disposed on a first side of the first pixel opening. A first edge defining a first electrode opening of the touch electrode layer and a second edge defining the first pixel opening of the pixel defining layer have a first spacing on the first side of the first pixel opening. A third edge defining a second electrode opening of the touch electrode layer and a fourth edge defining the second pixel opening of the pixel defining layer have a second spacing on a side of the second pixel opening. The first spacing is greater than the second spacing.

An optical sensing device is provided. The optical sensing device includes a thin-film transistor, a sensing unit driven by the thin-film transistor, and a filter. Light to be detected passes through the filter before being collected by the sensing unit. The filter reduces the light intensity of the light to be detected in the near-infrared light wavelength band.