Embodiments of the present disclosure provide methods, apparatus, systems, computer program products for generating an annotation for textual information and/or media content for technical documentation for an item in an interactive electronic technical manual system (IETM) configured to provide electronic and credentialed access to the technical documentation via an IETM viewer. In one embodiment, a method is provided comprising: providing a window for display comprising the textual information and/or media content; receiving input of a selection of an annotation selection mechanism; and responsive to receiving the input: generating the annotation for the textual information and/or media content; receiving an indication of a position in the textual information and/or media content to associate with the annotation; and providing an annotation window for the annotation for display via the IETM viewer, wherein the annotation window comprises an attach file mechanism, a capture mechanism, a share mechanism, and a change form mechanism.

This application provides a display method and an electronic device. The method includes: in a process of displaying a first transition animation on a first screen of the electronic device, if the first transition animation displayed on the first screen is interrupted, continuing, by the electronic device, to play an unfinished part of the first transition animation on a switched-to second screen, allowing a transition animation of the electronic device to be applied to more scenarios to improve user experience.

The system obtains information to send to the first user device and converts the information into a sequence of images, where one or more images in the sequence of images include the information, and a remainder of images in the sequence include a visual unrelated to the information. The number of the one or more images and the number of the remainder of images indicate a display frequency. The number of the remainder of images is greater than the number of the one or more images. The display frequency causes an observer to form a perception of the one or more images. The system sends the sequence to the first user device and causes the first user device to present on the display screen the sequence at the display frequency, which causes a garbling of a recording of the display screen associated with the first user device.

A display device can include a plurality of pixel blocks, each of the plurality of pixel blocks including a plurality of pixels, a plurality of mux parts disposed to correspond to columns of the plurality of pixel blocks, a first level shift configured to transmit a first mode signal or a second mode signal to the plurality of mux parts, a second level shift configured to transmit a plurality of mux signals to the plurality of mux parts, and a mode controller configured to control the first level shift and the second level shift.

A display device includes circuitry configured to: receive an image from a terminal device; output the image to a display; acquire an operation with respect to the image displayed on the display; and display a first or second display component with the image on the display. The first display component receives a first operation that stops the output of the image. The second display component receives a second operation that resumes the output of the image to the display. The circuitry is further configured to: in response to an acquisition of the first operation to the first display component, stop the output of the image to the display; continue to receive the image from the terminal device in a case where the output of the image is stopped; and in response to an acquisition of the second operation to the second display component, output the image that has been received.

A display (101) is controlled by a display drive signal (S2) generated based on an input signal (S1) encoding a safety-critical quantity. A checksum (S4) is computed based on the display drive signal and is used to verify the rendering process by which the display drive signal has been produced. In order for the checksum to depend on the safety-critical quantity only, the checksum is computed based on a filtered display drive signal (S3) in which pixels with a certain value have been excluded. In embodiments of the invention, safety-noncritical quantities are represented using colors that are due to be excluded. Similarly, a checksum for verifying a given quantity can be made independent of other quantities represented in adjacent screen areas by representing the latter using excluded colors. In other embodiments, pixel values corresponding to particular pixel positions may be excluded from contributing.

Techniques to ensure that a content stream will be encrypted prior to it being served it to the stream receiver if either the stream receiver returned an initial status to the stream caster indicating that only encrypted streams will be accepted or if the user of the stream caster optioned that only encrypted streams will be cast. A stream casting device is capable of locally sourcing and encrypting streams. A content stream server is capable of sourcing encrypted streams and encrypting streams on the fly. A stream receiver device is also described. The system manages key exchanges, encryption, and decryption across the devices serving streams, and stream receiving devices. The casted streams, residing on either a content stream server or on the stream casting devices will be encrypted prior to being served.

A communication unit prevents a malfunction which initiates communication against a user's will when communication for the purpose of remote dialog, without requiring a complex operation on the part of the user. This communication unit, used when a sender transmits his or her image or speech information to a recipient, comprises: a device that acquires image and speech information; a home server that transmits communication data indicating the information acquired by the information acquisition device to a device possessed by the recipient; and a detection unit that detects an object to be detected which is generated or changed by an action of the sender. The detection unit detects mutually different types of the objects each to be detected. Then, the home server starts transmitting the communication data when each detection result from each of two or more types of the detection units satisfies a predetermined condition.

A dynamic image masking system for providing a filtered autonomous remote sensing image through a dynamic image masking process is provided. The dynamic image masking system has a remote sensing platform and an imaging system associated with the remote sensing platform. The imaging system has an optical system and an image sensing system. The dynamic image masking system further has a multi-level security system associated with the imaging system and one or more image alteration locations located in the imaging system and the multi-level security system, wherein alteration of one or more images takes place via the dynamic image masking process. The dynamic image masking system further has a computer system associated with the imaging system. The computer system has a gatekeeper algorithm configured to send gatekeeper commands to one or more controllers that control the one or more image alteration locations through the dynamic image masking process.

A manageability engine (ME) receives an authentication response from a user during pre-boot authentication and registers the user with a key distribution center (KDC), indicating that the user has successfully authenticated to the PC. The KDC supplies the ME with single-sign-on credentials in the form of a Key Encryption Key (KEK). The KEK may later be used by the PC to obtain a credential used to establish secure access to Enterprise servers.