CN111314549B - Transmission apparatus and processing method - Google Patents

Abstract

The application discloses a transmission device and a processing method. The transmission apparatus includes: the first interface can be used for connecting a first device with a third interface and obtaining first information from the first device; conversion means operable to convert the first information into second information; and the second interface can be used for connecting a second device with a fourth interface and transmitting the second information to the second device. The fourth interface is an interface for supporting the electronic device to obtain the collected image, and the second information can be displayed through a display device of the second device. Therefore, the first equipment and the second equipment can be connected based on the transmission equipment, the running interface information of the first equipment can be displayed on the second equipment, cross-equipment display of the running interface information is achieved, the use requirements of users are met, and the experience effect of the users is improved.

Description

Transmission apparatus and processing method

Technical Field

The present application relates to the field of data processing technologies, and in particular, to a transmission device and a processing method.

Background

With the development of electronic technology, the functions of intelligent terminals (such as mobile phones) are more and more, and the dependence of users on mobile phones is stronger and stronger. For example, a cell phone may be used as a mobile office tool. However, since the operation area of the mobile phone is limited, in more cases, it is inconvenient for the user to operate some information in the mobile phone, and thus, a need arises to display and correspondingly operate information in the mobile phone through a device having more convenient operation of information, such as a need to operate the mobile phone through a Personal Computer (PC). Therefore, the use requirements of users cannot be met for devices limited by screen display.

Disclosure of Invention

In view of this, the present application provides the following technical solutions:

a transmission apparatus comprising:

the system comprises a first interface, a second interface and a third interface, wherein the first interface can be used for connecting first equipment with the third interface and obtaining first information from the first equipment, the third interface is an interface supporting the electronic equipment to output an operation interface to extended display equipment, and the first information is operation interface information corresponding to the first equipment;

the conversion device can be used for converting the first information to form second information, wherein the second information is different from the first information in format, and the second information is information corresponding to the operation interface of the first equipment;

and the second interface can be used for connecting a second device with a fourth interface and transmitting the second information to the second device, wherein the fourth interface is an interface for supporting the electronic device to obtain a collected image, and the second information can be displayed through a display device of the second device.

Optionally, the second interface is further configured to obtain a first signal from the second device, where the first signal is generated after the input apparatus of the second device operates on the second information;

the conversion device is further configured to convert the first signal into a second signal, where the first signal and the second signal have different formats;

the first interface is further configured to transmit the second signal to the first device, so that the operation interface of the first device is updated.

Optionally, the second interface is further configured to obtain third information from the second device, where the third information represents a first data file stored by the second device;

the conversion device is further configured to convert the third information into fourth information, where formats of the third information and the fourth information are different;

the first interface is further configured to transmit the fourth information to the first device, so that the first device obtains the first data file.

Optionally, the transmission apparatus further comprises a storage device;

the first interface is further used for responding to the first equipment and performing target operation on fifth information based on equipment attribute information to obtain the fifth information from the first equipment;

the storage device is used for storing the fifth information;

the second interface is further configured to transmit sixth information matched with the fifth information to the second device in response to connection of the second interface and a fourth interface of the second device after the storage device stores the fifth information.

Optionally, the conversion apparatus transmits, to the first device through a first interface, information representing a device attribute, so that the transmission device can represent the second device;

the first interface is further configured to obtain fifth information from the first device, where the fifth information is a second data file stored in the first device, and the conversion device is further configured to convert the fifth information into sixth information, where the fifth information and the sixth information are in different formats;

the second interface is further configured to transmit the sixth information to the second device, so that the second device obtains the second data file.

A method of processing, comprising:

the method comprises the steps that second information is obtained by second equipment, wherein the second information is formed by converting first information, the first information is information of a first operation interface output by the first equipment, and the second information and the first information are different in generation format;

and displaying the second information in a second area while displaying a second operation interface of the second device in the first area, wherein the second area is smaller than the first area.

Optionally, the displaying the second information in the second area includes:

running a first application;

outputting the second information through the first application to realize displaying the second information in a second area, wherein the second device is provided with an image acquisition device or can be connected with the image acquisition device through a fifth interface, so that the first application is an application capable of outputting seventh information acquired by the image acquisition device;

alternatively, the first and second electrodes may be,

obtaining an identification image for the first device;

and receiving a display signal aiming at the identification image, and displaying the second information in the second area.

Optionally, the displaying the second information in the second area includes:

running a second application;

outputting, by the second application, the second information such that the second information is displayed in the second area;

wherein after the second information is displayed in the second area, the processing method further comprises:

obtaining an input operation;

if the input operation meets a first condition, the second running interface responds to the input operation for updating;

and if the input operation meets a second condition, forming a first signal, wherein the first signal is transmitted to a transmission device, so that the first device can obtain a second signal based on the transmission device and update the first operation interface, the second signal is obtained by converting the first signal, and the format of the first signal is different from that of the second signal.

Optionally, the method further comprises:

obtaining, by a second input device of the second device, a third signal for the second information, so that the first device can obtain a fourth signal based on the transmission device and update the first operation interface; if the second input device is the same as the first input device in type, converting the third signal into a fourth signal according to a first conversion condition; if the second input device is different from the first input device in type, converting the third signal into a fourth signal according to a second conversion condition; the transition condition characterizes a condition of a signal response mode.

Optionally, the second input device is of a different type than the first input device, the first input device comprises an acceleration sensor, and the third signal is representative of an input operation that changes a position of a second area of a second application;

wherein the converting the third signal into the fourth signal comprises:

converting the input operation into an input signal of the acceleration sensor, so that the first device can update the first running interface based on the input signal of the acceleration sensor.

Thus, the application discloses a transmission device and a processing method. The transmission apparatus includes: the first interface can be used for connecting a first device with a third interface and obtaining first information from the first device; conversion means operable to convert the first information into second information; and the second interface can be used for connecting a second device with a fourth interface and transmitting the second information to the second device. The fourth interface is an interface for supporting the electronic device to obtain the collected image, and the second information can be displayed through a display device of the second device. Therefore, the first equipment and the second equipment can be connected based on the transmission equipment, the running interface information of the first equipment can be displayed on the second equipment, cross-equipment display of the running interface information is achieved, the use requirements of users are met, and the experience effect of the users is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on the provided drawings without creative efforts.

FIG. 1 is a schematic diagram illustrating an information processing system according to an embodiment of the present application;

fig. 2 is a schematic view illustrating a scenario of operating second information of a second device according to an embodiment of the present application;

fig. 3 is a schematic view illustrating a scenario of information storage by a transmission device according to an embodiment of the present application;

FIG. 4 is a schematic diagram illustrating a scenario of a data file copy operation according to an embodiment of the present application;

FIG. 5 is a flow chart illustrating a processing method provided by an embodiment of the present application;

FIG. 6 is a schematic diagram illustrating a display interface of a PC terminal according to an embodiment of the present application;

fig. 7 is a flowchart illustrating an operation information response method according to an embodiment of the present application;

fig. 8 shows a schematic structural diagram of a processing apparatus according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In an application scenario of an electronic device, in order to solve a problem of a cross-device display requirement of information, in the embodiment of the present application, a transmission device is provided, and operation interface information of a first device can be displayed on a second device through connection of the transmission device, it should be noted that a display effect of the second device on the information is better than that of the first device, for example, a display area of the second device on the information is larger than that of the first device on the information.

For convenience of description of the embodiments of the present application, the following describes an information processing system, a method, and a related apparatus of the present application by taking a first device as a mobile phone and a second device as a PC as an example.

Referring to fig. 1, a schematic structural diagram of an information processing system provided in an embodiment of the present application is shown, where the system includes a mobile phone 101, a PC 102, and a transmission device 100, where the mobile phone 101 is connected to the PC 102 through the transmission device 100 by a wire.

Wherein, this transmission equipment 100 includes: a first interface 1001, a conversion means 1002 and a second interface 1003.

The first interface 1001 of the transmission apparatus 100 can be used to connect to the cell phone 101 having the third interface to obtain the first information from the cell phone 101. And the third interface is an interface for supporting the electronic equipment to output the operation interface to the extended display equipment.

In a scenario where the first information of the first device (e.g., the mobile phone 101) is displayed by the second device (e.g., the PC 102), that is, in an application scenario, the problem of limitation of the first device on information display is solved, specifically, the application scenario is directed to a problem that a display interface of the first device is small. The third interface of the first device may be an output interface capable of displaying information, that is, the third interface may be an interface connected to a processor or a graphics card of the first device that outputs display information. Correspondingly, in the application scenario, the third interface may be an interface with a function of outputting display information of the first device operating system, such as a USB interface, or a wireless data output interface for displaying information.

In some embodiments, in an application scenario in which the first information output by the first device is displayed and manipulated by the second device, one of the functions of the third interface is to support the first device to output the running interface to the second device, and it is further necessary to have a function of transmitting the feedback information, which is output by the transmission device and operated by the second device with respect to the first information, to the first device. The interface is connected with the display output unit of the first device and also needs to be connected with the information processing unit of the first device, namely the interface can transmit the display information of the first device to the second device through the transmission device, can also receive the operation information aiming at the display information of the first device generated by the second device and transmit the operation information to the information processing unit of the first device, and the information processing unit generates the corresponding operation display information to be displayed on the first device. For example, there is a USB type-c interface for Android operating system devices.

The current running interface of the mobile phone may represent a current display interface of the mobile phone, such as a display interface of a running application, or a home screen interface of the mobile phone. Thus, the first information output by the cellular phone 101 obtained by the first interface 1001 is the operation interface information of the first device. In one possible implementation, when the transmission device 100 is connected to a mobile phone and a PC, the operation interface information from the mobile phone is obtained through the first interface. The purpose of displaying the running interface information of the first device in real time is achieved, and the problem that the display information sent by the mobile phone is acquired only after the user operates or generates a control instruction in some application scenes can be solved.

The conversion means 1002 of the transmission device 100 can be used to convert the first information to form the second information. The second information is in a different format from the first information, and the second information corresponds to information of the running interface of the mobile phone 101. The format of the first information is the same as that of the information transmitted by the mobile phone through the third interface, and the format of the second information is the same as that of the information received by the PC through the fourth interface. The second information is information corresponding to an operation interface of the first device. The second information is different from the first information in format because the third interface is different from the fourth interface in format, and the second information is information consistent with the information content of the first information, but the information transmission format is different.

The second interface 1003 of the transmission apparatus 100 is capable of connecting the PC 102 having a fourth interface that is an interface for supporting the electronic apparatus to obtain the captured image, and transmitting the second information to the PC 102, so that the second information can be displayed on the display device of the PC 102. The fourth interface of the PC 102 is an interface capable of supporting the electronic device to obtain the captured image, that is, the interface may support an image capture protocol, for example, the fourth interface may be an interface capable of connecting an image capture device, and specifically, an interface for connecting a camera. In this way, it is equivalent to obtain a captured image through the fourth interface, and the principle of image capture is the same as that of accessing a camera through the fourth interface by a PC, and the PC is connected with the second interface of the transmission device 100 through the fourth interface. At this time, the display device of the PC 102 is completed with an application of its own image pickup device capable of displaying its own image pickup device or its connected image pickup device when displaying the second information. For example, the PC may be connected to the camera, and the camera performs image acquisition, and correspondingly, an interface through which the PC is connected to the camera is the fourth interface in the embodiment of the present application, and a camera application that can open an image or a video acquired by the camera is an application that can display the second information in the embodiment of the present application at the PC end. Therefore, the running interface information (namely the current display information of the mobile phone) of the mobile phone can be displayed on the display device of the PC, and the purpose of cross-equipment information display is achieved.

In addition, since the fourth interface of the second device (for example, the PC in fig. 1) is an interface supporting the electronic device to obtain the captured image, the second information can be displayed by using the application for displaying the captured image in the operating system of the second device, the purpose of displaying the information obtained across devices by using the existing application for displaying the captured image in the second device is also achieved, and development cost and resources for matching the received information to the display application are saved. For another example, if the second device is a display supporting receiving screen projection information, the fourth interface of the second device may be an interface supporting the display to obtain a screen projection image, and correspondingly, after receiving the second information transmitted by the transmission device, the fourth interface may display the second information on the display by using the screen projection application.

The first information is operation interface information corresponding to the first device, and the second information is information that can be displayed on the second device corresponding to the operation interface, and the display content of the second device has content consistent with the current display content of the first device.

For example, the first interface of the transmission device is a USB Type-C interface, and the second interface is a USB interface. The signal that transmission equipment obtained the cell-phone output through the USB Type-C interface is the DP (display port, high definition digital display interface standard) signal, and transmission equipment needs to convert the DP signal into the video transmission signal of general device Type. In this embodiment, since the second interface is a USB interface, the DP signal may be converted into a data format corresponding to a protocol standard defined for the USB video capture device, such as a USB video Class packet, and the packet is sent to the PC through the USB interface, so that the PC can display the packet based on its own display software in its operating system, such as camera application software, that is, there is no need to install a display application on the PC again before displaying the packet information.

In the embodiment shown in fig. 1, it is implemented that the running interface information of the first device (the mobile phone in fig. 1) is transmitted to the second device (the PC in fig. 1) through the transmission device, so that the second device can display the running interface information of the first device. It should be noted that the component manner of the transmission device 100 shown in fig. 1 indicates an example in the embodiment of the present application, and correspondingly, the conversion device may exist in the manner of a conversion chip, and the conversion chip may be combined with the first port and/or the second port, so that the first port and/or the second port has the functions of information transmission and conversion.

The first interface of the transmission equipment is connected with the third interface of the first equipment, and the second interface of the transmission equipment is connected with the fourth interface of the second equipment. It should be noted that, in the embodiment shown in fig. 1, the first interface and the third interface, and the second interface and the fourth interface are both in a wired connection manner. In some embodiments, the first interface and the third interface, and the second interface and the fourth interface may also be wirelessly connected through a wireless transmission module; correspondingly, the first interface and the third interface may also be connected in a wireless connection manner, and the second interface and the fourth interface may also be connected in a wired connection manner, specifically, the communication connection mode is not limited in this embodiment of the application.

In the embodiment of the application, cross-device information display is realized, and the embodiment can be applied in an application scene in which a display screen exists for a first device, but the display screen of the first device has display limitation. For example, the display screen of the first device is smaller than the display screen of the second device, or the display attribute parameters of the display screen of the second device are better than the display attribute parameters of the first device, for example, the second device can display the display information in color, while the first device can only display the information in black and white. The second device may also include other input and output means, for example, the second device may be connected to an external input device (e.g., a mouse and/or a keyboard, etc.). Specifically, the first device may be a mobile phone, a wearable device, an Augmented Reality (AR) \ Virtual Reality (VR) device, or the like, corresponding to an actual application scenario. The second device may be a Personal Computer (PC), a television, a tablet, a projector, a television, or the like.

It should be noted that, in order to solve the problem of displaying the information across the devices in the embodiment shown in fig. 1, the second information transmitted by the transmission device may be received by using the fourth interface of the second device, and the second information may be displayed by using the original application of the acquired image obtained for the fourth interface in the operating system of the second device. Similarly, in order to better interact or store the second information received by the second device, additional applications corresponding to further interactions or storage of the acquired second information may be configured in the second device, so as to implement further operations and feedback of the second information received by the second device.

In some embodiments, the transmission device further comprises:

storage means for storing the identification image;

the conversion device transmits the identification image to the second equipment through the second interface, so that the output device of the second equipment outputs the identification image; obtaining an operation signal from the second device through the second interface, and outputting second information to the second device; wherein the operation signal characterizes an operation on the identification image.

In this embodiment the identification image is stored in the storage means of the transmission device. Correspondingly, the identification image may comprise different types, e.g., identification images matching different device types; or matching identification images of different transmission information types. Correspondingly, the conversion device may transmit the identification image to the second device through the second interface, when the identification image is the identification image corresponding to the second information, an operation signal may be generated when a user of the second device operates the identification image, and the transmission device obtains the operation signal from the second device through the second interface and outputs the second information to the second device. In some embodiments the identification image stored in the storage means may be the same identification when displayed in the first device and the second device, but it may be different in the device it characterizes, since the device on which it is displayed is different. For example, the storage device stores a first identification image, and when the first identification image is displayed on the first device, the first identification image represents the second device or the related information of the second device; when the first identification image is displayed on the second device, the first identification image represents the first device or the related information of the first device. That is, the first device and the second device can both display the first identification image at the same time, and use the first identification image to represent the opposite device connected with the first identification image.

In a possible implementation manner, the storage device of the transmission device stores the identification image, after the transmission device receives the first information and converts the first information into the second information through the conversion device, the second information is not directly received and output to the second device through the second device, but the identification image corresponding to the second information is transmitted to the second device, so that after the second device receives the identification image, the identification image is displayed first, and after an operation signal of the second device on the identification image is obtained, the second information corresponding to the identification image is displayed. In this process, the second device may display the identification image and the second information by using a display application corresponding to the fourth interface. Because the process also comprises response and analysis of the operation signal, the process can be processed by using an application or processing mode aiming at the operation function, so that the second equipment receives, analyzes and responds the operation signal, feeds the operation signal back to the transmission equipment, receives and displays second information which is sent by the transmission equipment and corresponds to the identification image. The transmission device may send the combined information of the identification image and the second information to the second device, but only if the identification image includes the display instruction, the identification image is displayed in the second device first, and then the second information is displayed according to the operation signal for the identification image. In the application scenario, the problem that the second information is not displayed first when the second equipment user performs other information processing can be solved, and the interference to other information processing is avoided. Or when the first equipment is in error connection with the second equipment, the influence on the operation process of the second equipment can be avoided.

Correspondingly, in the application scenario, when the first device is connected with the second device through the transmission device, the operation interface of the first device is generated in real time, so that, in order to facilitate transmission and storage of information, the first information can be stored in a time characteristic, that is, information within a period of time can be encapsulated into an information identifier corresponding to the second information, and when an operator of the second device needs to display or process the transmission information of the first device, the corresponding information identifier can be triggered to obtain display of the second information corresponding to the first information. Therefore, the problem of missing of the information can be avoided when the second device is operated by no person or acquires and processes the information.

Correspondingly, in the embodiment of the application, after the second device displays the second information, the second device may further operate the second information, so that the corresponding operation information may be transmitted to the first device through the transmission device. The various components of the transmission device now perform the following operations:

the second interface is further used for obtaining a first signal from the second equipment, wherein the first signal is generated after the input device of the second equipment operates on the second information;

the conversion device is further configured to convert the first signal into a second signal, where the first signal and the second signal have different formats;

the first interface is further configured to transmit the second signal to the first device, so that the operation interface of the first device is updated.

The information input format of the input device of the second apparatus may include a plurality of formats, and correspondingly, the composition form of the input device may also include a plurality of formats, for example, the input device may include a combination of a text input component, a voice input component, a touch component or other input format components, for example, the input device of the PC may include a keyboard and a mouse. And the conversion device is also used for converting the first signal into a second signal, wherein the format of the first signal is different from that of the second signal. The first signal is generated at the input means of the second device and the second signal is generated at the conversion means of the transmission device, so that its format matches the format of the means generating the corresponding signal. The display formats of the first signal and the second signal for the operator of the equipment can be different, but the essence of the operation on the information is the same, and the obtained operation result is also the same. And the first interface of the transmission equipment is also used for transmitting a second signal to the first equipment so as to update the running interface of the first equipment. The first signal is generated after the second information is operated, so that the second signal can operate the first information generated by the first equipment, the first information corresponds to the operation interface information of the first equipment, and the operation of the second signal on the first information represents the operation of the second signal on the operation interface information of the first equipment. Therefore, the running interface information can be updated along with the input of the second signal, and the updating can be the change of the running interface or the change of part of display information in the running interface.

Referring to fig. 2, a scene schematic diagram of an operation performed on second information of a second device according to an embodiment of the present application is shown, in which the second device is a PC terminal 202, the first device is a mobile phone 201, and the mobile phone 201 and the PC terminal 202 are connected through a transmission device 200. The first interface of the transmission device 200 obtains the current operation interface information from the handset 201, which is the input interface of the memo in fig. 2. The conversion device of the transmission device 200 converts the obtained current operation interface information of the mobile phone 201 into display information capable of being displayed on the PC terminal 202, so that the PC terminal 202 can obtain corresponding display information through the second interface of the transmission device 200, and the PC terminal 202 can display information matched with the current operation interface information of the mobile phone 201 on the display device thereof, that is, the content of the current operation interface information of the mobile phone displayed by the PC terminal 202 is consistent, but the display areas thereof can be different, and the interface size of the display content of the display interface of the mobile phone on the PC terminal can be larger than the current display interface size of the mobile phone. In a possible implementation manner, the current display content of the mobile phone is displayed on the PC terminal, and the PC terminal performs corresponding enlarged display on each area of the display content, that is, the display content is completely consistent with the display content of the mobile phone, and images, characters or other information in the display content is enlarged and displayed. Preferably, the display area corresponding to the information with certain characteristics may be enlarged and displayed, for example, the enlarged display of the character input area is performed so that the character input area displayed on the PC terminal is larger than the character area displayed on the mobile phone. In another possible implementation manner, more content can be displayed on the PC terminal for the information displayed on the current mobile phone display interface, for example, when a user reads a text, only five lines of text information are displayed in the display window of the mobile phone due to the limitation of the mobile phone display window, and when the current mobile phone display window is displayed on the PC terminal, the other two lines of text hidden due to the limitation of the size of the mobile phone display window are also displayed, that is, the process of displaying seven lines of text on the PC terminal is realized, so that the reading experience effect of the user is better.

And inputting text information to the currently displayed memo input interface through the keyboard of the PC terminal 202. The corresponding text information input signal is converted into an input signal for the current interface of the mobile phone through the transmission device, and is transmitted to the mobile phone, so that the mobile phone displays the input process of the text information, for example, the input process of the virtual keyboard displayed by the mobile phone in fig. 2, so that the interface for inputting the memo information at the mobile phone end is updated according to the input content.

In the embodiment shown in fig. 2, the second device receives the second information sent by the transmission device, and displays the second information in the display device of the second device. Since the transmitting device also needs to receive the first signal resulting from the operation on the second information from the second device through the second interface. Therefore, an application or a processing mode capable of supporting the operation on the second information is required in the second device. The application is primarily implemented to receive an operation signal for the second information and to transmit the operation signal to the transmission device. The analysis and processing of the operation signal can also be realized, and it should be noted that the application may or may not have the function of displaying the second information, that is, the second device still realizes the display of the second information for the application of the acquired image of the fourth interface.

In this embodiment of the present application, since the storage device of the present application may further store corresponding data files, the first device and the second device may be connected by the transmission device, and the data files stored in the first device and/or the second device may be transmitted. In this embodiment, the various components of the transmission device may perform the following operations:

the second interface is further configured to obtain third information from the second device, where the third information represents a first data file stored by the second device;

the conversion device is further configured to convert the third information into fourth information, where formats of the third information and the fourth information are different;

the first interface is further configured to transmit the fourth information to the first device, so that the first device obtains the first data file.

In a possible implementation manner, the third information may be a first data file stored by the second device, that is, the format and content of the third information are completely consistent with those of the first data file. In another possible implementation manner, the third information may also be in a format different from that of the first data file, that is, when the second device captures that the first data file needs to be transferred by the user, the first data file needs to be converted into information matching with the transmission format of the second interface, for example, the first data file is converted into USB data, which facilitates transmission of the USB interface.

The third information is generated from the second device and the fourth information is transmitted to the first device through the first interface, and the format types of the third information and the fourth information are different because the formats of the information transmitted by the second interface and the first interface are different. For example, when the running application of the PC monitors that a PC user needs to transmit a first data file to the mobile phone end, the running application of the PC converts a signal of the first data transmission into USB data, converts the USB data into a data type which is convenient for the mobile phone end to receive and store, such as USB-type Storage data (USB Storage data), and then transmits the data to the hand end through the transmission device, so that the mobile phone end obtains the first data file. In this embodiment, the second receiving port of the transmitting device may also obtain third information from the second device, i.e. may obtain the first data file stored from the second device. The second device may further include an application capable of operating on the data file, where the device needs to transmit the first data file through the fourth interface, and therefore the corresponding fourth interface is also an interface supporting data file transmission. According to the embodiment, the data file can be transmitted based on the transmission equipment, format change of the data file is not needed on the terminals for sending and receiving the data file, only the data file to be transmitted needs to be selected, and the data file is sent to the corresponding terminal through the transmission equipment, so that the data file can be transmitted conveniently.

In another embodiment of the present application, the transmission apparatus further comprises a storage device;

the first interface is further used for responding to the first equipment and performing target operation on fifth information based on equipment attribute information to obtain fifth information from the first equipment;

the storage device is used for storing the fifth information;

the second interface is further configured to, after the storage device stores the fifth information, respond to a connection between the second interface and a fourth interface of the second device, and transmit sixth information matched with the fifth information to the second device.

In this embodiment, the transmission device may be connected to other devices as an external storage device, and at this time, as long as an interface of the transmission device is connected to other devices, the transmission device may be used as a storage device, that is, the transmission device may receive information sent by the other devices connected to the transmission device, and store the information as cache information in the transmission device. Referring to fig. 3, a schematic view of a scenario in which information is stored by a transmission device according to an embodiment of the present application is shown. The first device is a mobile phone 301, the second device is a PC302, the transmission device 300, and the fifth information is a file 2. In fig. 3(a), when the first interface of the transmission device 300 is connected to the mobile phone 301, the transmission device 300 transmits the device attribute information to the mobile phone 301 through the first interface, so that the mobile phone 301 can display the device attribute information. The device attribute information is generated by simulation of the transmission device, and the device attribute information may characterize the simulation of the transmission device as another connected device or as information of the storage device. The fifth information from the cellular phone 301 is obtained in response to the cellular phone 301 performing a target operation on the fifth information based on the device attribute information. The target operation represents an associated operation of the device attribute information and the fifth information, for example, the fifth information is dragged to an icon corresponding to the device attribute information, or the fifth information is transferred to an area corresponding to the device attribute information through a specific operation. The fifth information represents storage information from the mobile phone 301, and may be, for example, document information, picture information, audio/video information, and the like. At this time, since only the first interface of the transmission device is connected to the mobile phone 301, after the first interface obtains the fifth information from the first device, the storage device 3001 of the transmission device is called, so that the storage device 3001 stores the fifth information.

In fig. 3(b), after the second interface of the transmission apparatus 300 is connected to the fourth interface of the PC302, the fifth information is stored in the storage device 3001 of the transmission apparatus 300. At this time, the conversion means of the transmission apparatus converts the fifth information into the matched sixth information, and transmits the sixth information to the PC302 through the second interface. So that the PC302 can display the sixth information, i.e., can display the fifth information generated by the first device.

Specifically, when the second interface of the transmission device is connected to the PC, and the storage device of the transmission device stores the fifth information, the prompt information matched with the fifth information is transmitted through the second interface, that is, the prompt information is used for prompting whether the PC needs to receive the fifth information from the mobile phone, and after the PC feeds back the feedback information to be received through the second interface of the transmission device, the sixth information corresponding to the fifth information is transmitted to the PC.

In another embodiment of the present application, a conversion apparatus of a transmission device transmits information representing device attributes to a first device through a first interface, so that the transmission device can represent a second device; the first interface is further configured to obtain fifth information from the first device, where the fifth information is a second data file stored in the first device, and the conversion device is further configured to convert the fifth information into sixth information, where the fifth information and the sixth information are in different formats; the second interface is further configured to transmit the sixth information to the second device, so that the second device obtains the second data file.

Different from the embodiment corresponding to fig. 3, in this embodiment, the first device and the second device are connected to the transmission device at the same time, and the conversion apparatus is capable of transmitting the information representing the device attribute to the first device through the first interface, that is, the device attribute information is the attribute information representing the second device transmitted by the transmission device. Correspondingly, the conversion device may transmit information characterizing the device properties of the first device to the second device via the second interface. At this time, the fifth information of the first device received by the first interface may be operation information generated by the first device moving the second data file stored therein to a position corresponding to the information characterizing the attribute of the second device. The conversion device then converts the fifth information into sixth information for direct transmission to the second device. Namely, the main difference from the embodiment shown in fig. 3 is that in this embodiment, the transmission apparatus can explicitly transmit the attribute information of the corresponding device because of the connection with two devices, while the embodiment corresponding to fig. 3 is that the transmission device simulates itself as another device or a storage device connected with one of the devices.

Of course, if the second device needs to store the data file stored by the second device to the first device, the operation of the second device may be performed in addition to the above-mentioned area corresponding to the attribute information that can be used to drag the data storage file to the first device, and the data file may also be directly dragged to the second information displayed on the second device. The two modes can be selected according to actual scene requirements, for example, when the second information is audio/video information, that is, when the audio/video information displayed in real time by the first device is displayed in the second device, if the data file of the second device is dragged to the second information, so as to achieve the purpose of transmitting the data file to the first device, the experience effect of the user of the second device on the second information is affected, and therefore, the data file can be dragged to the attribute information corresponding to the first device. In the process of this embodiment, the second device may still display the sixth information, that is, the second data file, by using the display application of the captured image corresponding to the fourth interface in the operating system. In addition, the second device may further include a file transfer application, that is, the data file stored in the second device is moved to the device attribute information corresponding to the first device by using the file transfer application, so as to implement a transfer operation on the data file of the second device. Correspondingly, the first device may also have the file transfer application, or the first device and the second device may utilize an application that the operating system itself has and may implement the file selection, movement, and other operating functions.

In some embodiments of the present application, in order to enable the first device and the second device to perform information transmission and operation based on the transmission device more conveniently, an identification image corresponding to the second device and/or the first device is displayed on a display interface of the first device and/or the second device, where the identification image is generated based on attribute information of the first device and/or the second device.

In one possible implementation, the transmission device may generate an identification image corresponding to the device after obtaining the information of the device attribute connected thereto, and then transmit the identification image to the corresponding device through an interface corresponding to the transmission device. In another possible implementation manner, the transmission device may transmit the information of the device attribute to the corresponding device, and the device generates the corresponding identification image according to the obtained information of the device attribute, or the transmission device directly obtains the identification image of the device itself generated by the device and transmits the identification image as the information of the device attribute.

In another possible implementation:

the conversion device obtains the attribute information of the first equipment through the first interface, generates a first identification image matched with the first equipment based on the attribute information of the first equipment, and transmits the identification image to the second equipment through the second interface, so that the second equipment can display the first identification information; and/or obtaining attribute information of the second device through the second interface, generating a second identification image matched with the second device based on the attribute information of the second device, and transmitting the identification image to the second device through the first interface, so that the second device can display the first identification information.

Referring to fig. 4, a schematic view of a scenario of a data file copy operation provided in an embodiment of the present application is shown.

In this embodiment, the mobile phone and the PC terminal are connected through a transmission device, and the transmission device transmits a first identification image 401 representing the PC terminal through a first interface thereof, so that the PC terminal can display the first identification image 401; and transmits a second identification image 402 characterizing the handset over its second interface so that the handset can display the second identification image 402.

When the data file 403 stored in the PC terminal needs to be transmitted to the mobile phone, the data file 403 can be copied to the mobile phone by dragging the data file 403 to the first image identifier 401. Correspondingly, when the data file stored in the mobile phone needs to be transmitted to the PC terminal, the data file 404 may be dragged to the second image identifier 402, so as to achieve the purpose of copying the data file to the PC terminal. Accordingly, the processing procedure of the operation signal of this procedure will be described in the following embodiments.

The transmission device provided in the above embodiment may be connected to the first device and the second device through the first interface and the second interface, respectively, so as to obtain the first information of the first device, convert the first information based on the conversion device to form the second information, and transmit the second information to the second device, so as to display the running interface information of the first device in the display device of the second device in real time.

In another embodiment of the present application, a processing method is also provided, which can be applied to the second device shown in fig. 1. Referring to fig. 5, a flow chart of a processing method provided in the embodiment of the present application is shown, where the method may include the following steps:

s501, second information is obtained.

S502, displaying a second running interface of the second device in the first area, and simultaneously displaying the second information in the second area.

The second device obtains second information from the second interface of the transmission device through the fourth interface, wherein the second information is formed by converting first information, the first information is information of a first operation interface output by the first device of the first interface of the transmission device, and the second information and the first information are different in generation format.

The fourth interface of the second device is an interface that supports the electronic device to obtain the captured image. So that the second information obtained by the second device through the fourth interface is similar to the captured image obtained by the second device through the image capturing apparatus. Thus, the second device may display the second information based on an image display application of the needle-connected image acquisition arrangement that its operating system has. For example, the second information is displayed by using camera software for displaying the image acquired by the camera in the second device. Specifically, the camera software may be turned on before the second device is connected to the first device, so that the second device receives the second information and synchronously displays the second information. Or after receiving the second information, opening the existing camera software to obtain and display the second information.

It should be noted that, when the second device displays the second information in the second area, since the information format of the second information is the same as the information format acquired by the image acquisition device of the second device itself or the image acquisition device connected to the second device, the second device may display the second information by using the application for displaying the acquired image stored in the operating system or the processor of the second device. The second information is information corresponding to the first information. Therefore, the purpose of cross-device display of the first information through the second device can be achieved.

Furthermore, in the process of displaying the second information by the second device, the second information can be displayed by only using the display application or the display function of the device, so that the resource waste and the development cost of matching the received information with the corresponding display application are reduced.

In the embodiment of the application, when the second device displays the second information, the second information is displayed in the second area while the second operation interface of the second device is displayed in the first area of the second device. And the second area is smaller than the first area.

The first area of the second device is a full screen area of a display of the second device, i.e. the entire area of a display screen of the second device, and the second area displaying the second information is a partial area of the display screen, such that the second area is smaller than the first area. The second area for displaying the second information is a partial area of the display screen of the second device, which means that the second area displays the second information in a display form of a display window, that is, the first information of the first device obtained by the transmission device is converted into the second information by the transmission device and then displayed on one display window in the display screen corresponding to the second device. Therefore, the information of the first equipment can be displayed in a display window mode in the process of not influencing the display of the information of the second equipment.

Referring to fig. 6, a schematic diagram of a display interface of a PC terminal provided in an embodiment of the present application is shown, where the PC terminal is connected to a mobile phone through a transmission device. Second information matched with the current operation interface information of the mobile phone is obtained through the transmission device, and for the generation and transmission process of the second information, reference may be made to the above embodiments, which are not described herein again.

In fig. 6, the display area of the PC terminal includes a first area 601 and a second area 602, where second information is displayed in the second area while a second operation interface of a second device (PC terminal) is displayed in the first area.

In the embodiments of the present application, the second area is smaller than the first area. The second area is used for displaying the running interface of the PC terminal, namely displaying the real-time display interface of the PC terminal, and the second area is used for displaying the second information, namely displaying the real-time running interface of the mobile phone connected with the PC terminal. Therefore, the operation of the user on the running information of the PC terminal can be realized, and the operation on the running information of the mobile phone can be executed through the PC terminal.

In particular, the first region and the second region may be regions that do not overlap with each other, i.e. the first region and the second region constitute a display region of a display device of the second apparatus. So that the purpose of the split screen processing can be achieved in the display area of the second device. Another possible implementation is that the second area is a local area of the first area, as shown in fig. 6. Of course, it is also possible to display the second region according to a default display mode and region size, and then to adjust the region size and position according to the displayed region by the user.

When the second device displays the second information, the second information may be displayed by using only a display application for an image acquired by an image acquisition device (such as a camera) in the second device. If the second information is further processed by using the operation and interaction application corresponding to the second information in order to implement further operation on the second information or interaction with the first device, the following embodiments will be specifically described.

In some embodiments of the present application, displaying the second information in the second area of the second device includes:

running a first application;

and outputting the second information through the first application to realize the display of the second information in the second area.

The second device is provided with an image acquisition device or an image acquisition device which can be connected through a fifth interface, so that the first application can output seventh information acquired by the image acquisition device.

In this embodiment, the second device itself may have an image capture device, such as the second device acting as a computer, which may have a built-in camera. In addition, the second device may be connected to the apparatus having the image capturing function through a fifth interface, for example, a USB camera through a USB interface. And the seventh information is equivalent to the information from the image capturing device, the first application may output the seventh information, which may output information having the same format as that transmitted by the image capturing device. The second information is information received through a fourth interface of the second device, and the fourth interface and the fifth interface are both interfaces supporting the electronic device to obtain the acquired image. Therefore, the second information can be output by the first application capable of outputting the seventh information, for example, the second information transmitted by the transmission device can be displayed by the camera software which can output and display the image captured by the camera.

In another possible implementation manner, the displaying, by the second device, the second information in the second area includes:

obtaining an identification image for a first device;

and receiving a display signal aiming at the identification image, and displaying second information in the second area.

In this embodiment, instead of outputting the second information directly to the second device for display, an identification image for the first device may be obtained, which may be either an identification image characterizing the first device or an identification image characterizing the second information. Then, a display signal for the identification image is received, and second information is displayed in a second area. In this embodiment, the second device may display the identification image for the first device as a captured image of the second device, that is, the purpose of displaying the identification image by using the first application first identification image is also achieved. The display signal for the identification image may then be processed with a processor of the second device such that the second device may output the second information through the first application. The purpose of displaying the second information according to the display signal is achieved, cache display of the information can be achieved, a user can display the information conveniently according to needs, and interference on other display information of the current equipment is avoided.

Correspondingly, the second device may further include a second application, where the second application may at least implement an operation on the second information in the second device, and may enable the operation process or the operation result to perform a synchronous update on the running interface of the first device, and the second application may also have a function of displaying the second information, or the first application may display the second information, and then the second application implements the operation on the second information.

Wherein displaying the second information in a second area of the second device comprises:

and running a second application, and outputting second information through the second application so that the second information is displayed in the second area.

Since the second application outputs the second information, the second information can be operated and processed by the second application.

In this scenario, referring to fig. 7, a flowchart of an operation information response method provided in an embodiment of the present application is shown, where the method is a process in which a second device (e.g., a PC terminal) performs a corresponding operation after displaying second information, and the method includes:

s701, acquiring input operation;

s702, if the input operation meets a first condition, responding to the input operation by a second operation interface;

and S703, if the input operation meets a second condition, forming a first signal.

After the second equipment obtains the input operation, if the input operation meets the first condition, the second running interface responds to the input operation for updating; if the input operation meets the second condition, the second device forms a first signal and transmits the first signal to the transmission device, so that the first device can obtain a second signal based on the transmission device and update the first operation interface. The second signal is obtained by converting the first signal, and the first signal and the second signal have different formats.

Therefore, in the embodiment of the present application, the first condition represents that the input operation is an operation condition for the information of the second device itself, and specifically, the first condition represents that the input operation acts on the first area other than the second area. The second condition characterizes that the input operation is an operation condition for the second information, i.e., the second condition may be a condition that the input operation acts on the second area.

In one possible implementation, determining whether the input operation satisfies the first condition or the second condition includes:

obtaining coordinate information of an input cursor of an input operation;

if the coordinate information is located in a first area, the input operation meets a first condition;

and if the coordinate information is located in a second area, the input operation meets a second condition.

In this embodiment, the determination result of whether the input operation is for the second operation interface or the second information is obtained by determining the action position of the input operation.

In another possible implementation manner, the determining process further includes:

obtaining an input operation;

analyzing the input operation to obtain operation identification information;

if the operation identification information belongs to information corresponding to a second operation interface, the input operation meets a first condition;

and if the operation identification information belongs to second information, the input operation meets a second condition.

For example, the second device is an electronic device having a voice information input function, the input operation by the user is a voice input, and the output operation, that is, the voice information input by the user is analyzed. If the voice information input by the user is 'please open the instant messaging application A', the operation identification information is 'instant messaging application A', the information corresponding to the second running interface of the second device does not include 'instant messaging A', and the second information includes the instant messaging A, the input voice information can be proved to act on the second information, so that the second information is updated, and the running interface of the first device is updated through the transmission device.

Correspondingly, when the second information displayed in the second device is operated, the processing method further comprises the following steps:

and acquiring a third signal aiming at the second information through a second input device of the second equipment, so that the first equipment can acquire a fourth signal based on the transmission equipment and update the first operation interface.

The second input device of the second equipment is the same as the first input device of the first equipment in type, and the third signal is converted into a fourth signal according to a first conversion condition; and if the second input device is different from the first input device in type, converting the third signal into a fourth signal according to a second conversion condition, wherein the conversion condition represents the condition of a signal response mode.

I.e. the first and second transition conditions are different conditions of the signal response mode.

Specifically, when the second input device of the second apparatus is the same as the first input device of the first apparatus, where the same means that the response and processing of the input devices to the signals are matched. For example, the second device is a notebook computer, the second input device is a keyboard, the first device is a mobile phone, and the first input device is a virtual keyboard. The received input signals are all received by the physical keys or the virtual keys of the keyboard, and the obtained third signals are all signals for the keyboard, but the third signals are converted according to the type of the keyboard or the format, the display format and the like of the output signals of the keyboard, so that fourth signals are obtained.

For example, the signal content of the fourth signal and the third signal are not converted. The second input device is of the same type as the first input device, for example, the second input device is a keyboard, and the first input device may also be a keyboard, and it should be noted that the same type means that the type of the input device is the same, for example, the second input device is a physical keyboard, and the first input device is a virtual keyboard, but both the physical keyboard and the virtual keyboard can realize that a user generates corresponding characters by selecting keys in the keyboard, and therefore, the physical keyboard and the virtual keyboard are also of the same type. The conversion of the third signal into the fourth signal is such as to enable the display of the fourth signal at the first device, but its signal content is not converted, i.e. if the signal content of the third signal characterizes the word input "we", the signal content of the fourth signal is also the word input "we". And the input process of inputting the word "we" is the same as the input process of selecting a key in the keypad of the second device. For another example, the second input device and the first input device are both voice input devices. The third signal is the speech signal obtained by the second input means and the fourth signal is the speech signal intended for the first device, but the speech content of the third signal and the fourth signal is the same. For another example, the second input device and the first input device are both image acquisition devices, and when the second information is a home page display interface of a specific application, the specific application can be accessed only if face recognition is required. When the second device displays the home page display interface of the specific application, the face information of the user can be acquired through the image acquisition device of the second device, and then the acquired signal of the face information is converted into a corresponding fourth signal and sent to the first device, so that the first device updates the home page interface to the specified interface. The human face characteristic content in the third signal and the fourth signal is unchanged; similarly, if the second input device and the first input device both include the fingerprint acquisition module, the processing procedure of the information thereof refers to the processing procedure of the face recognition, which is not described herein again. For another example, the second input device and the first input device both have touch screens, and the third signal is an input operation signal to the input screen of the second device, and then the third signal is converted into a fourth signal, so that the touch screen of the first device obtains the same input operation information, that is, the first device can update the current first operation interface according to the fourth signal.

Correspondingly, when the second input device of the second device is different from the first input device of the first device in type, it means that the sensing or receiving manner of the information is different. That is, the second input device obtains the third signal for the second information, and needs to convert the signal content of the third signal, so that the converted signal content (i.e., the fourth signal) is adapted to the first input device of the first device, and thus, the final display interface of the first device has the same display effect as that of the fourth signal directly received by the first input device.

For example, the second input device is of a different type from the first input device, the first input device includes an acceleration sensor, and the third signal is indicative of an input operation that changes a position of the second area of the second application;

wherein the converting the third signal into the fourth signal comprises:

converting the input operation into an input signal of the acceleration sensor, so that the first device can update the first running interface based on the input signal of the acceleration sensor.

An acceleration sensor is a sensor capable of measuring acceleration forces, which may operate according to the principle of the piezoelectric effect. The gravity sensing technology of the electronic equipment is realized by utilizing a piezoelectric effect, namely, the component force of a piece of heavy object in the electronic equipment in two orthogonal directions of gravity is measured to judge the horizontal direction, and the change of the gravity center of the electronic equipment is sensed by a sensor sensitive to the force when the posture of the electronic equipment is changed, so that the cursor of the electronic equipment changes the position, and the function of selection is realized.

For example, the input operation represents an input operation on the current position of the second area of the second application, that is, an operation of changing the position of the second area may be represented, specifically, the second area may be changed from a portrait area to a landscape area, so that the operation on the second information at the second device may be more facilitated. If the first device is a mobile phone, when the mobile phone is operated independently, if the display interface is changed from a vertical screen to a horizontal screen, the mobile phone needs to be moved from the corresponding central position, that is, the mobile phone changes from a posture in the vertical direction to a posture in which the horizontal screen is placed. The essence of the method is that the position of the gravity center of the mobile phone is changed, and the sensor responding to the change of the position of the gravity center of the mobile phone is an acceleration sensor of the mobile phone. When an input operation for the position of the second area of the second application is obtained, a parameter value corresponding to an input signal of the mobile phone acceleration sensor needs to be calculated according to the input operation, so that the processor obtains a corresponding processing result according to the parameter value of the acceleration sensor, that is, a vertical screen display mode of the current running interface is changed into a horizontal screen display mode.

In a further possible implementation, the input operation characterizes a position change operation of a second region in which a certain condition is satisfied in terms of the number of operations and/or the frequency domain, wherein the second signal characterizes an input signal of an acceleration sensor of the first device, so that the first device can change the first running interface based on the second signal.

The number of operations and/or the frequency of the input operations may satisfy a preset threshold, for example, when the number of times of the same input operation reaches the threshold within a preset time, the number of times of the same type of input operation reaches the threshold within a unit time. Specifically, for example, when the display information of the second region is double-clicked quickly, the current position of the second region may be changed, that is, the size of the region may be changed. Correspondingly, the signal may be converted into an input signal of an acceleration sensor, for example, acceleration values corresponding to X, Y and Z directions are obtained. Therefore, the shaking operation of the mobile phone is realized, and the position information of the specific area of the current display interface of the mobile phone is adjusted.

In another embodiment of the present application, the processing method further includes:

detecting a fifth signal, the fifth signal characterizing an operation signal to move first stored data stored by a second device to a second application;

and generating third information matched with the first storage data, and sending the third information to the transmission equipment, so that the first equipment can obtain fourth information matched with the third information based on the transmission equipment, wherein the fourth information represents the first storage data.

The third information may be the first storage data, or may be information obtained by converting the first storage data according to a transmission format. The fourth information is information obtained by converting the third information due to different transmission interfaces. For example, when the running application of the second device monitors that the user of the second device needs to transmit the first data file to the first device, the running application of the second device transmits third information corresponding to the first data file to the transmission device, so that the transmission device can convert the third information into fourth information, and the purpose of information conversion is to enable the information receiving format of the first device to be satisfied, for example, USB data of a PC end is converted into a data type which is convenient for a mobile phone end to receive and store, such as USB type Storage data (USB Storage data), and then the data is sent to a hand end through the transmission device, so that the mobile phone end obtains the first data file.

Specifically, the first device is a mobile phone, the second device is a PC device, the first interface is a USB-C interface, and the second interface is a USB interface. When the first storage data stored in the PC equipment is dragged to a window of a second application by using a mouse, the second application captures the operation, packs the first storage data into USB data and sends the USB data to the transmission equipment, the transmission equipment packs the USB data into USBStorage data and sends the USBStorage data to the mobile phone, and the mobile phone stores the data after receiving the data.

In an application scenario where the data file is transmitted, the process may also be implemented by running a second application. Or displaying the identification image corresponding to the data file transmitted by the first device through the first application, then operating the identification image by using the existing file operation application of the second device, and then displaying the data file corresponding to the identification image by using the first application. Therefore, the first device and the second device can be connected with the transmission device, so that the data files stored in the first device and the second device can be conveniently transmitted without changing the format of the file to be transmitted in the first device or the second device.

In another embodiment of the present application, the processing method further includes:

obtaining a seventh signal for the identification image, the seventh signal characterizing movement of second data stored by the second device to the identification image;

transmitting the second stored data to the transmitting device in response to the seventh signal.

It should be noted that, since the transmission device includes the storage device, the storage device can store the data information. If one end of the transmission device is connected to the second device and the other end is connected to the first device, the transmission device may transmit the data information between the two devices.

Specifically, the method comprises the following steps:

and if the identification image is an image representing attribute information of the transmission equipment, responding to the seventh signal, and sending the second storage data to the transmission equipment, so that the transmission equipment stores the second storage data.

In this embodiment, the second interface representing the transmission device is only connected to the second device, and at this time, the transmission device may generate an identification image, where the identification image may represent that the transmission device is a storage device, so that when the second storage data of the second device is moved to the identification image, the purpose of transmitting the second storage data is achieved, because the other end of the transmission device (i.e., the first interface is not connected to) is not connected to another device, the second storage data is stored by the transmission device, and after the first interface of the transmission device is connected to another device (e.g., the first device), the second storage data is transmitted to the first device.

In another possible implementation manner, if the identification image is an image representing attribute information of a first device connected to the first interface of the transmission device, the response to the seventh signal sends the second storage data to the transmission device, so that the transmission device transmits the second storage data to the first device.

In the scene, because the second interface of the transmission device is connected with the second device, the first interface is connected with the first device, and the identification image representing the first device is displayed in the second device, when the seventh signal is acquired, the operation that the second device needs to send the second storage data stored in the second device to the first device is acquired, and the transmission device sends the second storage data to the first device immediately, so that the first device can acquire and store the second storage data.

In the above manner, the cross-device storage and transmission operations of the data information are realized, the purpose of processing information on different devices by the cross-device data files is facilitated, and the experience effect of a user is improved.

In an embodiment of the present application, there is also provided a processing apparatus, with reference to fig. 8, including:

an information obtaining unit 801, configured to obtain second information by a second device, where the second information is formed by converting first information, the first information is information of a first operation interface output by a first device, and a generation format of the second information is different from a generation format of the first information;

an information display unit 802, configured to display the second information in a second area while displaying a second operation interface of the second device in a first area, where the second area is smaller than the first area.

On the basis of the above embodiment, the information display unit includes:

a first running subunit, configured to run a first application;

the first output subunit is used for outputting the second information through the first application to realize the display of the second information in a second area, wherein the second device is provided with an image acquisition device or can be connected with the image acquisition device through a fifth interface, so that the first application is an application capable of outputting seventh information acquired by the image acquisition device;

alternatively, the first and second electrodes may be,

an image acquisition subunit, configured to obtain an identification image for the first device;

and the signal receiving subunit is used for receiving a display signal aiming at the identification image and displaying the second information in the second area.

On the basis of the above embodiment, the information display unit includes:

a second running subunit for running a second application;

a second output subunit, configured to output the second information through the second application, so that the second information is displayed in the second area;

wherein after the information display unit displays the second information, the processing device further includes:

an input acquisition unit for acquiring an input operation;

the first response unit is used for responding the input operation to update the second running interface if the input operation meets a first condition;

and the signal generating unit is used for forming a first signal if the input operation meets a second condition, wherein the first signal is transmitted to a transmission device, so that the first device can obtain a second signal based on the transmission device and update the first operation interface, the second signal is obtained by converting the first signal, and the first signal and the second signal are different in format.

On the basis of the above embodiment, the processing apparatus further includes:

a signal obtaining unit, configured to obtain, through a second input device of the second device, a third signal for the second information, so that the first device can obtain a fourth signal based on the transmission device, and update the first operation interface; if the second input device is the same as the first input device in type, converting the third signal into a fourth signal according to a first conversion condition; if the second input device is different from the first input device in type, converting the third signal into a fourth signal according to a second conversion condition; the transition condition characterizes a condition of a signal response mode.

On the basis of the above embodiment, the second input device is of a different type from the first input device, the first input device includes an acceleration sensor, and the third signal represents an input operation of changing a position of the second area of the second application;

wherein the converting the third signal into the fourth signal comprises:

converting the input operation into an input signal of the acceleration sensor, so that the first device can update the first running interface based on the input signal of the acceleration sensor.

The application discloses a processing device.A information acquisition unit is used for second equipment to acquire second information, wherein the second information is formed by converting first information, the first information is information of a first running interface output by the first equipment, and the second information and the first information have different generation formats; the information display unit is used for displaying the second information in a second area while displaying a second operation interface of the second device in a first area, wherein the second area is smaller than the first area. Therefore, the first equipment and the second equipment can be connected, running interface information of the first equipment can be displayed on the second equipment, special application is not required to be installed on the first equipment and the second equipment, cross-equipment display of the information can be achieved, cross-equipment operation can be performed, operation is simple, and experience effects of users are improved.

An embodiment of the present application further provides an electronic device, including:

a memory for storing an executable program;

a processor configured to execute the executable program, the executable program being specifically configured to:

the method comprises the steps that second information is obtained by second equipment, wherein the second information is formed by converting first information, the first information is information of a first operation interface output by the first equipment, and the second information and the first information are different in generation format;

and displaying the second information in a second area while displaying a second operation interface of the second device in the first area, wherein the second area is smaller than the first area.

Further, the executable program is configured to execute the steps of the processing method according to any one of the above embodiments, which is not described in detail in this embodiment, and reference may be made to the description of each of the above embodiments.

The embodiment of the present application further provides a computer storage medium, on which a computer program is stored, where the program is executed by a processor to implement the processing method in any of the above embodiments.

Computer-readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, phase change memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices, or any other non-transmission medium that can be used to store information that can be accessed by a computing device. As defined herein, computer readable media does not include transitory computer readable media (transmyedia) such as modulated data signals and carrier waves.

The emphasis of each embodiment in the present specification is on the difference from the other embodiments, and the same and similar parts among the various embodiments may be referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. A transmission apparatus comprising:

the system comprises a first interface, a second interface and a third interface, wherein the first interface can be used for connecting first equipment with the third interface and obtaining first information from the first equipment, the third interface is an interface supporting the electronic equipment to output an operation interface to extended display equipment, and the first information is operation interface information corresponding to the first equipment;

the conversion device can be used for converting the first information to form second information, wherein the data transmission formats of the second information and the first information are different, and the different data transmission formats correspond to different interface types; the second information is information corresponding to the running interface of the first device; the converting the first information into second information comprises: converting the data transmission format of the first information into the data transmission format of the second information;

the second interface can be used for connecting a second device with a fourth interface and transmitting the second information to the second device, wherein the fourth interface is an interface for supporting the electronic device to obtain a collected image, and is used for enabling the second information to be displayed on a display device of the second device through self-contained display software in an operating system of the second device without adding additional software to the second device to display the second information, and the self-contained display software is an image display application for the collected image.

2. The transmission apparatus according to claim 1, wherein,

the second interface is further configured to obtain a first signal from the second device, where the first signal is generated after the input apparatus of the second device operates on the second information;

the conversion device is further configured to convert the first signal into a second signal, where the first signal and the second signal have different formats;

the first interface is further configured to transmit the second signal to the first device, so that the operation interface of the first device is updated.

3. The transmission apparatus according to claim 1, wherein,

the second interface is further configured to obtain third information from the second device, where the third information represents a first data file stored by the second device;

the conversion device is further configured to convert the third information into fourth information, where formats of the third information and the fourth information are different;

the first interface is further configured to transmit the fourth information to the first device, so that the first device obtains the first data file.

4. The transmission apparatus according to claim 3, further comprising a storage device;

the first interface is further used for responding to the first equipment and performing target operation on fifth information based on equipment attribute information to obtain the fifth information from the first equipment;

the storage device is used for storing the fifth information;

the second interface is further configured to transmit sixth information matched with the fifth information to the second device in response to connection of the second interface and a fourth interface of the second device after the storage device stores the fifth information.

5. The transmission apparatus according to claim 4, wherein,

the conversion device transmits information representing the device attribute to the first device through a first interface, so that the transmission device can represent the second device;

the first interface is further configured to obtain fifth information from the first device, where the fifth information is a second data file stored in the first device, and the conversion device is further configured to convert the fifth information into sixth information, where the fifth information and the sixth information are in different formats;

the second interface is further configured to transmit the sixth information to the second device, so that the second device obtains the second data file.

6. A method of processing, comprising:

the method comprises the steps that second information is obtained by second equipment, wherein the second information is formed by converting a data transmission format of first information, the data transmission format of the second information is different from the data transmission format of the first information, and the different data transmission formats correspond to different interface types; the first information is information of a first operation interface output by first equipment, and the second information and the first information have different generation formats; the display area of the second device comprises a first area and a second area;

displaying the second information in the second area while displaying a second operation interface of the second device in the first area, wherein the second area is smaller than the first area;

the displaying the second information in the second area includes:

running a first application, wherein the first application is display software carried in an operating system of the second device;

and outputting the second information through the first application to realize displaying the second information in a second area, wherein the second device is provided with an image acquisition device or can be connected with the image acquisition device through a fifth interface, so that the first application is an application capable of outputting seventh information acquired by the image acquisition device without adding additional software on the second device to display the second information.

7. The method of claim 6, the displaying the second information in a second area, comprising:

running a second application;

outputting, by the second application, the second information such that the second information is displayed in the second area;

wherein after the second information is displayed in the second area, the processing method further comprises:

obtaining an input operation;

if the input operation meets a first condition, the second running interface responds to the input operation for updating;

and if the input operation meets a second condition, forming a first signal, wherein the first signal is transmitted to a transmission device, so that the first device can obtain a second signal based on the transmission device and update the first operation interface, the second signal is obtained by converting the first signal, and the format of the first signal is different from that of the second signal.

8. The method of claim 6, further comprising:

obtaining, by a second input device of the second device, a third signal for the second information, so that the first device can obtain a fourth signal based on the transmission device and update the first operation interface; if the second input device is the same as the first input device of the first equipment in type, converting the third signal into a fourth signal according to a first conversion condition; if the second input device is different from the first input device in type, converting the third signal into a fourth signal according to a second conversion condition; the transition condition characterizes a condition of a signal response mode.

9. The method of claim 8, the second input device being of a different type than the first input device, the first input device including an acceleration sensor, the third signal being representative of an input operation that changes a position of a second region of a second application;

wherein the converting the third signal into the fourth signal comprises:

converting the input operation into an input signal of the acceleration sensor, so that the first device can update the first running interface based on the input signal of the acceleration sensor.

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