A display apparatus is provided, which includes a USB Type-C connector, display panel, a multiplexing circuit, a switch circuit, and a display controller. The USB Type-C connector is connected to a portable device, wherein a USB signal between the display apparatus and the portable device includes an image-transmission channel and a data-transmission channel. The multiplexing circuit separates the image-transmission channel from the data-transmission channel. The display controller controls a display mode of the display panel. In response to the display panel being in a first display mode, the display controller transmits a control signal to the switch circuit to control the multiplexing circuit to switch to a first operation mode. In response to the multiplexing circuit being in the first operation mode, the portable device acts as a host terminal in the image-transmission channel, and acts as a device terminal in the data-transmission channel.

A display apparatus is provided, which includes a USB Type-C connector, display panel, a multiplexing circuit, a switch circuit, and a display controller. The USB Type-C connector is connected to a portable device, wherein a USB signal between the display apparatus and the portable device includes an image-transmission channel and a data-transmission channel. The multiplexing circuit separates the image-transmission channel from the data-transmission channel. The display controller controls a display mode of the display panel. In response to the display panel being in a first display mode, the display controller transmits a control signal to the switch circuit to control the multiplexing circuit to switch to a first operation mode. In response to the multiplexing circuit being in the first operation mode, the portable device acts as a host terminal in the image-transmission channel, and acts as a device terminal in the data-transmission channel.

An image processing system enables a user wearing a head-mounted display to experience a virtual environment combined with a representation of a real-world object. The image processing system receives a captured scene of a real-world environment that includes a target object. The image processing system identifies the target object in the captured scene and generates a representation of the target object. In some cases, the image processing system may include a graphical overlay with the representation of the target objet. The image processing system can generate a combined scene that includes the target object and the virtual environment. The combined scene is presented to the user, thereby allowing the user to interact with the real-world target object (or a representation thereof) in combination with the virtual environment.

A system may overlay real-time data and other data (e.g., measurement data, sensor data, etc.) over image data during a communication session. For example, the system may perform media processing on image data being sent between devices in order to overlay the real-time data and other information received from input devices (e.g., sensors, diagnostic devices, connected health devices, etc.) on top of image data during the communication session. For example, a patient may video conference with a doctor and real-time diagnostic information from a device attached to the patient (e.g., wearable device or other input device) may be overlaid on the video to display relevant information during the video conference.

A system may overlay real-time data and other data (e.g., measurement data, sensor data, etc.) over image data during a communication session. For example, the system may perform media processing on image data being sent between devices in order to overlay the real-time data and other information received from input devices (e.g., sensors, diagnostic devices, connected health devices, etc.) on top of image data during the communication session. For example, a patient may video conference with a doctor and real-time diagnostic information from a device attached to the patient (e.g., wearable device or other input device) may be overlaid on the video to display relevant information during the video conference.

Systems and methods for recording programs using a user's equipment and a network recording device are provided. An interactive television application may determine whether the user's equipment has sufficient resources (e.g., tuners or space) to record a program selected for recording. If the interactive television application determines that the user's equipment does not have sufficient resources, the interactive television application may select, automatically or in response to a user instruction, the program for recording with a network recording device. In some embodiments, the user may have to pay for the use of the network recording device, or may be required to purchase a given tier level of service. The interactive television application may play back programs from the network recording device as VOD offerings, or may direct the network recording device to transfer recorded programs to the user's equipment when it has sufficient resources.

The present application provides a method and a device for displaying an anchor competition process. A network device obtains information on user support respectively won by at least two anchors during the competition in real time, wherein the at least two anchors participate in the same anchor competition and are displayed in a same live window; adjusts the display of the anchor competition for the at least two anchors in the live window according to the information on user support respectively won by the at least two anchors; sends the adjusted display of the anchor competition to user equipments displaying the competition between the at least two anchors, or presents the adjusted display of the anchor competition to users who are watching the competition between the at least two anchors. The present application facilitates users to obtain competition information intuitively, improve efficiency of users in obtaining information, and enhance user experience.

Methods and systems provide for a sign language interpreter view within a video communication session. In one embodiment, a method presents a user interface (“UI”) for each of a number of client devices connected to a communication session, each UI including one or more video feeds associated with participants of the communication session. The method receives a request from a first participant to be presented with a sign language interpreter (“SLI”) view within the UI; determines that a second participant is to be designated as a sign language interpreter for the communication session; and presents, within the UI of a client device associated with the first participant, an SLI view including at least a video feed of the second participant and a video feed of a highlighted speaker being interpreted by the second participant.

Methods and systems provide for a sign language interpreter view within a video communication session. In one embodiment, a method presents a user interface (“UI”) for each of a number of client devices connected to a communication session, each UI including one or more video feeds associated with participants of the communication session. The method receives a request from a first participant to be presented with a sign language interpreter (“SLI”) view within the UI; determines that a second participant is to be designated as a sign language interpreter for the communication session; and presents, within the UI of a client device associated with the first participant, an SLI view including at least a video feed of the second participant and a video feed of a highlighted speaker being interpreted by the second participant.

An intelligent television can provide various interfaces for providing video-on-demand (VOD). The user interfaces include unique visual representations and organizations that allow the user to utilize the intelligent television more easily and more effectively. Particularly, the user interfaces pertain to the display of VOD content and better organizations thereof. Further, the user interfaces provide unique process of transitioning between the VOD content.