A display apparatus includes a display panel. A cover window covers the display panel. A first film is arranged over the cover window. The first film has a first rate of change of a storage modulus at frequencies due to external impacts that are below a reference frequency and a second rate of change of the storage modulus at frequencies due to external impacts that are above the reference frequency.

The present invention concerns to a cover for devices comprising a capacitive touchscreen, suitable for assisting a user with touch interaction on said touchscreen by the electrical connecting the user interaction point and the contact point.

The present disclosure relates to a protection member, a display apparatus and a method of manufacturing the display apparatus. The protection member includes a protective film including a first layer having a central area, a first side area extended to a first edge of the central area, a second side area intersecting the first edge of the central area, and a corner area extended between the first side area and the second side area, and a second layer arranged on the first layer and exposing at least a portion of the corner area of the first layer; and a shielding member shielding the at least the portion of the corner area exposed.

Disclosed is a display protector attaching apparatus for a smart device. The display protector attaching apparatus for the smart device includes a base part provided with a body coupling hole to which a smart device is coupled and a smart device fixing protrusion; and a lifting support part which is detachably coupled to a lifting coupling part provided in the base part to support a display protector to be attached to the smart device, wherein when the lifting support part is separated from the lifting coupling part, the display protector is dropped on the display of the smart device provided with a liquid adhesive member to be attached to the display, and the lifting coupling part is provided to be position-adjusted in the base part so that the lifting support part adjusts a position supporting the display protector.

The present disclosure relates to an optical laminate for a head-up display, including (A) at least one polyvinyl acetal resin layer having a photoelastic coefficient (PeA) in the range of the following Expression (1) and (B) at least one optical functional layer. Further, the present disclosure relates to functional glass for a head-up display including the optical laminate. and a head-up display including: the optical laminate or the functional glass.

[00001]$\left|\text{PeA}\right|\le 4.0\times {10}^{-11}{\text{Pa}}^{-1}\mathrm{...}\text{(1)}$

A protective cover is provided that protects an electronic device. The protective cover includes a front cover having a front surface and a rear surface. The rear surface of the front cover is disposed over a front surface of the electronic device when the protective cover is closed. The protective cover also includes a rear cover connected with the front cover and having a front surface and a rear surface. The rear surface of the rear cover is disposed on a rear surface of the electronic device. The protective cover further includes a plurality of foldable segments disposed on the rear surface of the front cover. The plurality of foldable segments are unfolded for use as a stand of the protective cover and are folded for storage within the rear surface of the front cover.

Various examples of the present invention relate to a method for controlling a biosensor linked with a display, the method comprising: acquiring an input of a user on the basis of a first region corresponding to the biosensor and a second region which corresponds to a touch sensor and is adjacent to at least a part of the first region; confirming an input shape corresponding to the input of the user; and acquiring, through a control of the biosensor, bio-information corresponding to the input of the user when the confirmed input shape satisfies a predetermined condition. Other embodiments are also possible.

A touch panel unit attachable to an information terminal includes a bezel cover and a first touch panel disposed in the bezel cover. The touch panel unit is configured to be attached to the information terminal such that the first touch panel is positioned over a second touch panel of the information terminal. The first touch panel and the second touch panel employ different touch position detection techniques.

A method for displaying a graphical user interface (GUI) is disclosed, which relate to the data processing field. The method specifically includes: determining whether a display of a device is shielded; when it is determined that the display is shielded, determining a shielded area and a display area of the display; determining parameter information of the display area, where the parameter information includes an area size of the display area and a position of the display area; and obtaining, according to the parameter information, a GUI that matches the display area, and displaying the GUI in the display area. Whether a display of the device is shielded is determined. When the display is shielded, the GUI is displayed in the display area, so that the GUI can be displayed only in the display area of the display and does not need to be displayed in full screen.

Shaped glass structures, in particular to curved glass structures, having optically improved transmittance are provided along with methods of making such glass structures. Articles and methods described herein mask tube or reforming defects with help of refractive index-matching substances (e.g. optically clear adhesives) and/or additional glass layers. The articles and methods are applicable to any shaped glass, and is particularly useful for 3D-shaped parts for use in portable electronic devices.