A communication device includes an interface connector for connecting to a computing circuit to receive a media data and an external power supply, a transmission circuit, wherein the circuit transmits the media data to a network, a battery power supply, a controller circuit powered by the battery power supply, a sensor, communicatively coupled to the controller circuit, for detecting a movement of the communication device, a switch circuit for switchably connecting the battery power supply to the transmission circuit responsive to a first switch control signal, and a test circuit, communicatively coupled to the controller circuit, for generating the first switch control signal based on an external power control signal indicating whether the interface connector is connected to the computing circuit and a motion detection signal indicating whether the sensor detects the movement of the communication device.

Techniques are described to support shared applications, including a shared application that permits retrieval, presentation and traversal of information resources. The innovative techniques enable multiple participants at different locations to both see and interact with assets such as a web-based content. The innovative techniques centralize the functionality of an application that is to be shared. A shared application is executed, during a collaboration, at a centralized location in a manner that does not require any local resources to create an application instance.

A digital photo frame system is described herein. The system comprises a master digital photo frame configured to display a master media and a plurality of slave digital photo frames configured to display a plurality of slave media. The master digital photo frame is configured to provide power to the plurality of slave digital photo frames, and receive a media package from a storage location. The media package comprises the master media and the plurality of slave media. The master digital photo frame is configured to send each of the plurality of slave media to a respective slave photo frame.

A cross-device desktop management method, a first electronic device, and a second electronic device are provided. The cross-device desktop management method is applied to a first electronic device, and includes: sending an access request to a second electronic device, where the access request is used to request to access desktop information of the second electronic device (S101); receiving the desktop information sent by the second electronic device; displaying a desktop of the second electronic device based on the desktop information (S103); receiving an editing operation performed by a user on the desktop of the second electronic device; generating desktop editing information of the second electronic device based on the editing operation, where the desktop editing information is used to edit the desktop of the second device; and sending the desktop editing information to the second electronic device (S104). The foregoing method can implement cross-device desktop management, and provide the user with more efficient and convenient user experience.

An information processing method, device, and storage medium are provided. The method includes: a screen-transmission sending end, in response to a first operation acting on characters, displaying the characters in an input box in response to a first operation acting on the characters; determining a target screen-transmission code according to input characters; displaying the target screen-transmission code in the input box; parsing the target screen-transmission code and obtaining an IP address of a screen-transmission receiving end; establishing a connection with the screen-transmission receiving end according to the IP address; sending the target screen-transmission code to the screen-transmission receiving end to obtain a check result of the target screen-transmission code; and if the check result is that a check is passed, sending screen transmission data to the screen-transmission receiving end.

Systems, methods, and non-transitory computer readable media including instructions for extracting content from a virtual display are disclosed. Extracting content from a virtual display includes generating a virtual display via a wearable extended reality appliance, wherein the virtual display presents a group of virtual objects and is located at a first virtual distance from the wearable extended reality appliance; generating an extended reality environment via the wearable extended reality appliance including at least one additional virtual object at a second virtual distance from the wearable extended reality appliance; receiving input for causing a specific virtual object to move from the virtual display to the extended reality environment; and in response, generating a presentation of a version of the specific virtual object in the extended reality environment at a third virtual distance different from the first virtual distance and the second virtual distance.

In a field of electronic device technologies, a human-computer interaction method and device relates to a portable device receiving a first touch operation performed on a first image, where the first touch operation is directly performed on an area outside a first functional area, and the first functional area is a functional area in the first image. The portable device sends first data to a large-screen device, where the first data includes image data generated by the portable device in response to a second touch operation, the second touch operation is an operation that is generated based on the first touch operation and that is directly performed on the first functional area, and the first data is used by the large-screen device to update the second image.

An electronic device includes a first communication module, a second communication module, a display, a processor, and a memory storing instructions causing the processor to receive, from an external electronic device connected via the first communication module, first data related to a first screen on which resources of the external electronic device are configured in accordance with a graphic environment of the electronic device, output the first screen on the display, request the external electronic device to execute a selected first resource, receive, from the external electronic device, a request for obtaining second data related to the first resource, connect to the network via the second communication module to obtain the second data, transmit the obtained second data to the external electronic device, receive, from the external electronic device, third data related to a second screen configured using the second data, and output the second screen on the display.

The image display device includes an input unit that receives image data, a display unit that displays the image data received by the input unit, a receiving unit that receives drawing data drawn on the image data displayed on the display unit, an output unit that outputs the image data to another device, and a computing unit. The computing unit performs specific image adjustment on the image data, and causes the display unit to display the image data without performing the specific image adjustment on the image data when the specific image adjustment has been performed on the image data received by the input unit.

Described embodiments provide a method and user equipment for dynamically controlling a display mode of an external device coupled to user equipment. The method may include determining whether to detect connection to an external device and upon the detection of the connection, controlling the coupled external device to display image data produced in the user equipment on a display unit of the coupled external device in a display mode different from a display mode of the user equipment.