A readable and rewriteable card blank for use with a hand-held electronics device having a card reading and writing interface for aggregation of and management of personal electronic data sets is provided including a readable and rewriteable media disposed on a credit card form factor, a first touch enabled display, internal micro-circuitry such as an embedded smart chip, a proximity sensing capability characterized in that the personal electronic data sets are read into the card form factor selectively or collectively via a personal electronics device enabled as a smart phone for use in electronic transacting or fulfillment of electronic identification queries.

The present disclosure relates to the field of display technology. In particular, a polarization switching device, a display apparatus comprising such a device, and a driving method for such a device are disclosed. Thereby, problems are solved, such as a reduced user experience due to the existing display apparatus incapable of switching the viewing angle range. By disposing the first and second conductive layers in the confined space of such a device, and controlling voltages for the first and second conductive layers, this application can change the size and the direction of the electric field in the confined space. As such, the long axis of the one-dimensional nanometer conductive material located in the confined space can be arranged along the direction of the electric field, so as to form a grating.

A display device, a driving method thereof, a manufacturing method thereof and an anti-peeping display system are provided. The display device includes an interference display module and a first display panel disposed in a light-emitting direction of the interference display module. The light emitted by the interference display module is polarized light. In the display device, the light of an interference image generated by the interference display module will be superimposed to light of a display image generated by the first display panel, so that users can only view an unordered image and cannot view a normal image when viewing the display device under glasses-. free state. The light emitted by the interference display module is polarized light, so that the normal display image can be obtained by filtering the polarized light with polarization spectacles which can filter such polarized light.

Embodiments of apparatus, computer-implemented methods, systems, devices, and computer-readable media are described herein for facilitation of concurrent consumption of media content by a first user of a first computing device and a second user of a second computing device. In various embodiments, facilitation may include superimposition of an animation of the second user over the media content presented on the first computing device, based on captured visual data of the second user received from the second computing device. In various embodiments, the animation may be visually emphasized on determination of the first user's interest in the second user. In various embodiments, facilitation may include conditional alteration of captured visual data of the first user based at least in part on whether the second user has been assigned a trusted status, and transmittal of the altered or unaltered visual data of the first user to the second computing device.

A liquid crystal display panel includes first and second substrates, first pixel electrodes, second pixel electrodes, common electrodes, first auxiliary electrodes, and a liquid crystal layer. The second substrate is disposed opposite to the first substrate. The liquid crystal layer is disposed between the first and the second substrates. The first pixel electrodes, the second pixel electrodes, and the common electrodes are disposed on the first substrate. The first auxiliary electrodes are disposed on the second substrate. One of the first pixel electrodes is not overlapping one of the first auxiliary electrodes in a vertical projection direction and overlapping one of the common electrodes in the vertical projection direction. A driving method of the liquid crystal display panel includes setting a first voltage difference in a wide viewing mode and a second voltage difference in a narrow viewing mode between the first auxiliary electrodes and the common electrodes.

A multi-view display system that permits viewers to individually interact therewith to communicate commands or viewing preferences is disclosed. Methods in accordance with the present teachings enable a multi-view display to deliver a unique content stream to each of plural viewers, based on the viewers' interactions with the multi-view display system, wherein the viewers are not in fixed locations.

Disclosed embodiments provide a temporary privacy mode for an electronic device. The user selects one or more regions of allowable content and/or unallowable content. The user then invokes a temporary privacy mode of the device. While the device is in the temporary privacy mode, only the allowable content is viewable on the display of the electronic device. The unallowable content is obfuscated or hidden from view. The third party therefore cannot see the content deemed private by the user. When the third party has completed review of the content, the user can exit the temporary privacy mode to return to normal operation.

Disclosed embodiments provide a temporary privacy mode for an electronic device. The user selects one or more regions of allowable content and/or unallowable content. The user then invokes a temporary privacy mode of the device. While the device is in the temporary privacy mode, only the allowable content is viewable on the display of the electronic device. The unallowable content is obfuscated or hidden from view. The third party therefore cannot see the content deemed private by the user. When the third party has completed review of the content, the user can exit the temporary privacy mode to return to normal operation.

Security of communications between users involving mobile devices has to date focused to ensuring message integrity, preventing attacks as well as verification/authentication of the user to access the message. At the same time manufacturers of LCD displays for use within electronic devices, particularly mobile devices have focused to extending the viewing angle of these displays, their brightness and contrast. As a result, content that has been securely encrypted, delivered, and decrypted is visible to malevolent individuals or organizations around the user when accessing this content. As such secure information, credentials, etc may be divulged without the user being aware. Accordingly, the invention acts to limit the external viewing angle of LCD displays allowing reduced breaches of confidential information. Embodiments of the invention can be integrated with the LCD displays during manufacturing, added to the mobile device in assembly or form part of an after-sales option.

The present disclosure relates to a method of controlling one or more vehicle systems. The method uses at least one sensor (3-1, 3-2) to monitor a driver (D) to identify a driver distracted state. One or more functions of a first vehicle system (7, 9, 17) are inhibited when the driver distracted state is identified. The present application also relates to a control apparatus (1); and to a vehicle (V). The present disclosure also relates to a method and related apparatus for controlling the output of a visual notification within the vehicle (V).