A user interface display system associated with an electronic lock that provides feedback to a user engaging the electronic lock, including a user interface display positioned on the electronic lock to depict to the user status patterns with each displayed status pattern being in response to a status of the electronic lock and provides feedback to the user as to the status of the electronic lock. An electrochromic film positioned on the user interface display and transitions a color for each displayed status pattern to correspond to the status pattern depicted to the user that provides the status of the electronic lock to the user. A controller transitions the electrochromic film to each color to correspond with the status pattern that is depicted by the user interface display so that the transitioned color and the displayed status pattern is in response to the status of the electronic lock.

A user interface display system associated with an electronic lock that provides feedback to a user engaging the electronic lock, including a user interface display positioned on the electronic lock to depict to the user status patterns with each displayed status pattern being in response to a status of the electronic lock and provides feedback to the user as to the status of the electronic lock. An electrochromic film positioned on the user interface display and transitions a color for each displayed status pattern to correspond to the status pattern depicted to the user that provides the status of the electronic lock to the user. A controller transitions the electrochromic film to each color to correspond with the status pattern that is depicted by the user interface display so that the transitioned color and the displayed status pattern is in response to the status of the electronic lock.

A display device, a method, and a computer-readable medium. The display device includes a layer including a first region and a second region, wherein the first region and the second region are configured to be visible to a user of the display device; and circuitry configured: to control displaying a computer generated image on an optical device overlapping the layer and to control a first transmittance of the first region of the layer to be lower than a second transmittance of the second region of the layer such that: a visibility, through the first region, of the computer generated image is increased and a visibility, through the second region, of an environment opposite the user relative to the display device is higher than a visibility, through the first region, of the environment opposite the user relative to the display device.

A display device, a method, and a computer-readable medium. The display device includes a layer including a first region and a second region, wherein the first region and the second region are configured to be visible to a user of the display device; and circuitry configured: to control displaying a computer generated image on an optical device overlapping the layer and to control a first transmittance of the first region of the layer to be lower than a second transmittance of the second region of the layer such that: a visibility, through the first region, of the computer generated image is increased and a visibility, through the second region, of an environment opposite the user relative to the display device is higher than a visibility, through the first region, of the environment opposite the user relative to the display device.

A display device, a method, and a computer-readable medium. The display device includes a layer including a first region and a second region, wherein the first region and the second region are configured to be visible to a user of the display device; and circuitry configured: to control displaying a computer generated image on an optical device overlapping the layer and to control a first transmittance of the first region of the layer to be lower than a second transmittance of the second region of the layer such that: a visibility, through the first region, of the computer generated image is increased and a visibility, through the second region, of an environment opposite the user relative to the display device is higher than a visibility, through the first region, of the environment opposite the user relative to the display device.

A display device, a method, and a computer-readable medium. The display device includes a layer including a first region and a second region, wherein the first region and the second region are configured to be visible to a user of the display device; and circuitry configured: to control displaying a computer generated image on an optical device overlapping the layer and to control a first transmittance of the first region of the layer to be lower than a second transmittance of the second region of the layer such that: a visibility, through the first region, of the computer generated image is increased and a visibility, through the second region, of an environment opposite the user relative to the display device is higher than a visibility, through the first region, of the environment opposite the user relative to the display device.

The present application discloses a display panel having an array of a plurality of subpixels. The display panel includes a plurality of light modulators configured to modulate display contrast of the display panel. Each of the plurality of light modulators is in a light modulation region configured to allow light transmitting through the display panel. Light transmittance in the light modulation region is controlled by a first gate line and a first data line for driving image display in a first subpixel of the plurality of subpixels.

The present application discloses a display panel having an array of a plurality of subpixels. The display panel includes a plurality of light modulators configured to modulate display contrast of the display panel. Each of the plurality of light modulators is in a light modulation region configured to allow light transmitting through the display panel. Light transmittance in the light modulation region is controlled by a first gate line and a first data line for driving image display in a first subpixel of the plurality of subpixels.

The present disclosure provides a pixel circuit, a display panel, and a display device. The pixel circuit includes: a first switch circuit, a second switch circuit, a driving circuit, a first gate line, a first data line, a second gate line, and a second data line. The first switch circuit has a control terminal connected to the first gate line, a first terminal connected to the first data line, and a second terminal connected to a control terminal of the driving circuit; the second switch circuit has a control terminal connected to the second gate line, a first terminal connected to the second data line, and a second terminal connected to the control terminal of the driving circuit; and the first gate line and the second data line extend along a first direction, the second gate line and the first data line extend along a second direction.

The present disclosure provides a pixel circuit, a display panel, and a display device. The pixel circuit includes: a first switch circuit, a second switch circuit, a driving circuit, a first gate line, a first data line, a second gate line, and a second data line. The first switch circuit has a control terminal connected to the first gate line, a first terminal connected to the first data line, and a second terminal connected to a control terminal of the driving circuit; the second switch circuit has a control terminal connected to the second gate line, a first terminal connected to the second data line, and a second terminal connected to the control terminal of the driving circuit; and the first gate line and the second data line extend along a first direction, the second gate line and the first data line extend along a second direction.