CN110944140A - Remote display method, remote display system, electronic device and storage medium - Google Patents

Abstract

A remote display method, a remote display system, an electronic device and a storage medium are provided. The remote display method is applied to a first terminal and comprises the following steps: establishing a first transmission channel group with a second terminal based on a real-time audio and video technology, so that a first image of a target space displayed by the first terminal is the same as a second image of the target space displayed by the second terminal; acquiring a first interactive data group corresponding to a first user, wherein the first interactive data group comprises first media data detected by a first terminal and first operation data for executing a first operation on a first image by the first user; and transmitting the first interactive data set to a second terminal through a first transmission channel set, so that the second terminal synchronously executes a first operation on a second image in response to first operation data, so that the second image and the first image are kept consistent, and the second terminal responds to the first media data to display information corresponding to the first media data to a second user corresponding to the second terminal.

Description

Remote display method, remote display system, electronic device and storage medium

Technical Field

The embodiment of the disclosure relates to a remote display method, a remote display system, an electronic device and a storage medium.

Background

Currently, Virtual Reality (VR) technology is an emerging practical technology, and the VR technology generates a Virtual scene in a three-dimensional space by using computer simulation, provides simulation of senses such as vision, hearing, touch and the like for a user, and enables the user to personally observe objects in the three-dimensional space. With the continuous development of social productivity and scientific technology, VR technology is increasingly required in various fields.

For example, the VR technology can be applied to a space (e.g., building) display system, and a realistic three-dimensional model of a building can be constructed based on the VR technology, so that the internal and external structures and functions of the building can be displayed in an all-around manner, and thus, a user can roam in the three-dimensional model of the building through a network, feel the building and the surrounding environment thereof personally on the scene, and quickly and conveniently realize remote house watching and room selection.

Disclosure of Invention

At least one embodiment of the present disclosure provides a remote display method applied to a first terminal, including: establishing a first transmission channel group with a second terminal based on a real-time audio and video technology, so that a first image of a target space displayed by the first terminal is the same as a second image of the target space displayed by the second terminal; acquiring a first interactive data group corresponding to a first user, wherein the first interactive data group comprises first operation data, detected by the first terminal, of the first user performing a first operation on the first image displayed by the first terminal, and first media data detected by the first terminal; and transmitting the first interactive data set to the second terminal through the first transmission channel set, so that the second terminal synchronously executes the first operation on the second image displayed by the second terminal in response to the first operation data, so that the second image displayed by the second terminal and the first image displayed by the first terminal are kept consistent, and the second terminal displays information corresponding to the first media data to a second user corresponding to the second terminal in response to the first media data.

For example, the remote display method provided in an embodiment of the present disclosure further includes: acquiring a second interactive data group corresponding to the first user, wherein the second interactive data group comprises second operation data, detected by the first terminal, of the first user performing a second operation on the first image and second media data detected by the first terminal; in response to the second operation, the first image shown by the first terminal becomes a panoramic image of any subspace of the target space; and transmitting the second interactive data set to the second terminal through the first transmission channel set, so that the second terminal synchronously performs the second operation on the second image in response to the first operation data, so that the second image displayed by the second terminal becomes a panoramic image of any subspace of the target space, and so that the second terminal displays information corresponding to the second media data to the second user in response to the second media data.

For example, the remote display method provided in an embodiment of the present disclosure further includes: responding to a first control authority transfer instruction sent by the second user through the second terminal, and transferring the control authority of the first terminal to the second terminal; or, in response to detecting that the first user transmits a first control authority release instruction through the first terminal, transferring the control authority of the first terminal to the second terminal.

For example, the remote display method provided in an embodiment of the present disclosure further includes: receiving a third interactive data group transmitted from the second terminal through the first transmission channel group, wherein the third interactive data group comprises third operation data detected by the second terminal and used for the second user to perform a third operation on the second image displayed by the second terminal and third media data detected by the second terminal; and synchronously executing the third operation on the first image displayed by the first terminal in response to the third operation data so that the first image displayed by the first terminal and the second image displayed by the second terminal are consistent, and displaying information corresponding to the third media data to the first user in response to the third media data.

For example, the remote display method provided in an embodiment of the present disclosure further includes: receiving a fourth interactive data group transmitted from the second terminal through the first transmission channel group, wherein the fourth interactive data group comprises fourth operation data detected by the second terminal and used for performing a fourth operation on the second image displayed by the second terminal by the second user and fourth media data detected by the second terminal, and the second terminal responds to the fourth operation to enable the second image displayed by the second terminal to become a panoramic image of any subspace of the target space; and synchronously executing the fourth operation on the first image in response to the fourth operation data so that the first image displayed by the first terminal becomes a panoramic image of any subspace of the target space, and displaying information corresponding to the fourth media data to the first user in response to the fourth media data.

For example, in a remote presentation method provided in an embodiment of the present disclosure, the first terminal includes a first page, a first media module, and a first operation processing module, and acquiring the first interaction data group corresponding to the first user includes: acquiring the first media data through the first media module; obtaining first original operation data of the first user executing the first operation on the first image through the first page detection, packaging the first original operation data to obtain the first operation data, and obtaining the first operation data through the first operation processing module.

For example, in a remote presentation method provided in an embodiment of the present disclosure, the first transmission channel group includes a first transmission channel and a second transmission channel, and transmitting the first interaction data group to the second terminal through the first transmission channel group includes: transmitting the first operation data to the second terminal through the first transmission channel; and transmitting the first media data to the second terminal through the second transmission channel.

For example, in the remote display method provided in an embodiment of the present disclosure, establishing the first transmission channel group with the second terminal based on a real-time audio/video technology includes: sending a first connection request signal to the second terminal; receiving a first receiving feedback signal returned by the second terminal; and establishing the first transmission channel group based on the real-time audio and video technology according to the first receiving feedback signal.

For example, the remote display method provided in an embodiment of the present disclosure further includes: establishing a second transmission channel group with a third terminal based on the real-time audio and video technology, so that the first image displayed by the first terminal is the same as a third image of the target space displayed by the third terminal; and transmitting the first interactive data set to the third terminal through the second transmission channel set, so that the third terminal synchronously executes the first operation on the third image displayed by the third terminal in response to the first operation data, so that the first image displayed by the first terminal and the third image displayed by the third terminal are kept consistent, and the third terminal displays information corresponding to the first media data to a third user corresponding to the third terminal in response to the first media data.

For example, in the remote presentation method provided in an embodiment of the present disclosure, the second transmission channel group includes a third transmission channel and a fourth transmission channel, and transmitting the first interaction data group to the third terminal through the second transmission channel group includes: transmitting the first operation data to the third terminal through the third transmission channel; and transmitting the first media data to the third terminal through the fourth transmission channel.

For example, in the remote display method provided in an embodiment of the present disclosure, establishing the second transmission channel group based on a real-time audio/video technology includes: sending a first participation signal to the third terminal; receiving a second receiving feedback signal returned by the third terminal; and establishing the second transmission channel group based on the real-time audio and video technology according to the second receiving feedback signal.

For example, the remote display method provided in an embodiment of the present disclosure further includes: responding to a second control authority transfer instruction sent by the third user through the third terminal, and transferring the control authority of the first terminal to the third terminal; or in response to detecting that the first user transmits a second control authority release instruction through the first terminal, transferring the control authority of the first terminal to the third terminal.

For example, the remote display method provided in an embodiment of the present disclosure further includes: receiving a fifth interactive data group transmitted from the third terminal through the second transmission channel group, wherein the fifth interactive data group comprises fifth operation data detected by the third terminal and used for performing a fifth operation on the third image displayed by the third terminal by the third user, and fifth media data detected by the third terminal; and synchronously executing the fifth operation on the first image displayed by the first terminal in response to the fifth operation data so that the first image displayed by the first terminal and the third image displayed by the third terminal are consistent, and displaying information corresponding to the fifth media data to the first user in response to the fifth media data.

For example, the remote display method provided in an embodiment of the present disclosure further includes: receiving a sixth interactive data group transmitted from the third terminal through the second transmission channel group, wherein the sixth interactive data group includes sixth operation data of a third user detected by the third terminal performing a sixth operation on the third image and sixth media data detected by the third terminal, and the third terminal responds to the sixth operation to make the third image displayed by the third terminal become a panoramic image of any subspace of the target space; and synchronously executing the sixth operation on the first image based on the sixth operation data so that the first image displayed by the first terminal becomes a panoramic image of any subspace of the target space, and displaying information corresponding to the sixth media data to the first user in response to the sixth media data.

For example, in a remote presentation method provided in an embodiment of the present disclosure, the first media data includes voice data.

At least one embodiment of the present disclosure further provides a remote display method applied to a second terminal, including: establishing a first transmission channel group with a first terminal based on a real-time audio and video technology, so that a first image of a target space displayed by the first terminal is the same as a second image of the target space displayed by a second terminal; receiving a first interactive data group transmitted from the first terminal through the first transmission channel group, wherein the first interactive data group comprises first operation data of a first user detected by the first terminal performing a first operation on the first image displayed by the first terminal and first media data detected by the first terminal; and synchronously executing the first operation on the second image in response to the first operation data so that the first image displayed by the first terminal and the second image displayed by the second terminal are kept consistent, and displaying the information corresponding to the first media data to a second user corresponding to the second terminal in response to the first media data.

For example, in the remote display method provided in an embodiment of the present disclosure, establishing the first transmission channel group with the first terminal based on the real-time audio/video technology includes: sending a second connection request signal to the first terminal; receiving a third receiving feedback signal returned by the first terminal; and establishing the first transmission channel group based on the real-time audio and video technology according to the third received feedback signal.

For example, the remote display method provided in an embodiment of the present disclosure further includes: in response to detecting that a first control authority transfer instruction sent by the second user through the second terminal is detected, transferring the control authority of the first terminal to the second terminal; or, in response to acquiring a first control authority release instruction sent by the first user through the first terminal, transferring the control authority of the first terminal to the second terminal.

For example, the remote display method provided in an embodiment of the present disclosure further includes: establishing a third transmission channel group with a third terminal based on the real-time audio and video technology, so that the second image displayed by the second terminal is the same as the third image of the target space displayed by the third terminal; acquiring a third interactive data set corresponding to the second user, wherein the third interactive data set comprises third operation data of a second user, detected by the second terminal, performing a third operation on the second image displayed by the second terminal, and third media data detected by the second terminal; and transmitting the third interactive data set to the third terminal through the third transmission channel set, so that the third terminal synchronously executes the third operation on the third image in response to the third operation data, so that the second image displayed by the second terminal and the third image displayed by the third terminal are consistent, and the third terminal displays information corresponding to the third media data to a third user corresponding to the third terminal in response to the third media data.

For example, the remote display method provided in an embodiment of the present disclosure further includes: establishing a third transmission channel group with a third terminal based on the real-time audio and video technology, so that the second image displayed by the second terminal is the same as the third image of the target space displayed by the third terminal; acquiring a fourth interactive data set corresponding to the second user, wherein the fourth interactive data set comprises fourth operation data of a second user, detected by the second terminal, performing a fourth operation on the second image displayed by the second terminal, and fourth media data detected by the second terminal; in response to the fourth operation, the second image displayed by the second terminal becomes a panoramic image of any subspace of the target space; transmitting the fourth interactive data set to the third terminal through the third transmission channel set, so that the third terminal synchronously performs the fourth operation on the third image in response to the fourth operation data, so that the third image displayed by the third terminal becomes a panoramic image of any subspace of the target space, and so that the third terminal displays information corresponding to the fourth media data to a third user corresponding to the third terminal in response to the fourth media data.

For example, in the remote display method provided in an embodiment of the present disclosure, establishing the third transmission channel group based on the real-time audio/video technology and the third terminal includes: sending a second participation signal to the third terminal; receiving a fourth receiving feedback signal returned by the third terminal; and establishing the third transmission channel group based on the real-time audio and video technology according to the fourth received feedback signal.

For example, in the remote display method provided in an embodiment of the present disclosure, the second terminal includes a second operation processing module and a second page, and the performing the first operation on the second image synchronously in response to the first operation data includes: the second operation processing module acquires the first operation data and transmits the first operation data to the second page; the second page processes the first operation data to obtain first target operation data corresponding to the first operation; and synchronously executing the first operation on the second image displayed by the second terminal through the second page based on the first target operation data.

At least one embodiment of the present disclosure further provides an electronic device, which includes a memory and a processor, where the memory stores computer program instructions, and the processor executes the computer program instructions to perform the following operations: establishing a first transmission channel group with a second terminal based on a real-time audio and video technology, so that a first image of a target space displayed by the first terminal is the same as a second image of the target space displayed by the second terminal; acquiring a first interactive data group corresponding to a first user, wherein the first interactive data group comprises first operation data, detected by the first terminal, of the first user performing a first operation on the first image displayed by the first terminal, and first media data detected by the first terminal; and transmitting the first interactive data set from the first terminal to the second terminal through the first transmission channel set, so that the second terminal synchronously executes the first operation on the second image displayed by the second terminal in response to the first operation data, so that the first image displayed by the first terminal and the second image displayed by the second terminal are kept consistent, and the second terminal displays information corresponding to the first media data to a second user corresponding to the second terminal in response to the first media data.

At least one embodiment of the present disclosure further provides a remote display system, including: a first terminal and a second terminal, the first terminal configured to: establishing a first transmission channel group with a second terminal based on a real-time audio and video technology, so that a first image of a target space displayed by the first terminal is the same as a second image of the target space displayed by the second terminal; acquiring a first interactive data group corresponding to a first user, wherein the first interactive data group comprises first operation data, detected by the first terminal, of the first user performing a first operation on the first image of the target space displayed by the first terminal, and first media data, detected by the first terminal, of the first user; transmitting the first interactive data group to the second terminal through the first transmission channel group; the second terminal is configured to: and synchronously executing the first operation on the second image displayed by the second terminal in response to the first operation data, so that the second image displayed by the second terminal and the first image displayed by the first terminal are consistent, and displaying the information corresponding to the first media data to a second user corresponding to the second terminal in response to the first media data.

At least one embodiment of the present disclosure also provides a storage medium that non-transitory stores computer-readable instructions that, when executed by a computer, can perform a remote presentation method according to any one of the above embodiments.

Drawings

To more clearly illustrate the technical solutions of the embodiments of the present disclosure, the drawings of the embodiments will be briefly introduced below, and it is apparent that the drawings in the following description relate only to some embodiments of the present disclosure and are not limiting to the present disclosure.

Fig. 1A is a schematic flow chart of a remote display method according to at least one embodiment of the present disclosure;

fig. 1B is a schematic flow chart of yet another remote display method provided by at least one embodiment of the present disclosure;

fig. 2A is a schematic diagram of a first terminal and a second terminal according to at least one embodiment of the disclosure;

fig. 2B is a schematic diagram of a first page and a second page according to at least one embodiment of the disclosure;

fig. 2C is a schematic diagram of another first terminal and a second terminal provided in at least one embodiment of the present disclosure;

fig. 3 is a schematic diagram of a first terminal, a second terminal, and a third terminal according to at least one embodiment of the disclosure;

fig. 4 is a schematic flow chart of another remote display method provided by at least one embodiment of the present disclosure;

fig. 5 is a schematic view of an electronic device according to an embodiment of the disclosure;

fig. 6 is a schematic diagram of another electronic device according to an embodiment of the disclosure;

fig. 7 is a schematic diagram of a remote display system according to an embodiment of the present disclosure;

fig. 8 is a schematic diagram of a storage medium according to an embodiment of the disclosure.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more clear, the technical solutions of the embodiments of the present disclosure will be described below clearly and completely with reference to the accompanying drawings of the embodiments of the present disclosure. It is to be understood that the described embodiments are only a few embodiments of the present disclosure, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the disclosure without any inventive step, are within the scope of protection of the disclosure.

Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs. The use of "first," "second," and similar terms in this disclosure is not intended to indicate any order, quantity, or importance, but rather is used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly. To maintain the following description of the embodiments of the present disclosure clear and concise, a detailed description of some known functions and components have been omitted from the present disclosure.

At present, a house display system based on VR technology only supports a single user (buyer or seller) to independently view a VR scene of a house, but does not support multiple users (buyer and seller) to share the same VR scene view, so that multiple users cannot accurately interact with each other, for example, when one user (for example, seller) turns the view of the VR scene to a certain direction for explanation, another user (for example, buyer) does not know which view needs to be switched to; in addition, real-time voice communication is not supported while a VR scene is watched, so that the house display system can possibly cause the problems of untimely and inaccurate information exchange among a plurality of users, and in addition, the house display system is complex to use and poor in product performance.

At least one embodiment of the present disclosure provides a remote display method, a remote display system, an electronic device, and a storage medium, where the remote display method can support VR scene synchronization of multiple users, enable the multiple users to be in the same viewing angle, and support real-time information communication (e.g., real-time voice communication) between the multiple users, so that information transmission is more timely and feedback is more accurate, thereby improving user experience and product performance.

It should be noted that, in the following description of the embodiments of the present disclosure, a "first image" represents an image displayed by a first terminal, a "second image" represents an image displayed by a second terminal, a "third image" represents an image displayed by a third terminal, and so on, as the first operation to the sixth operation, and so on, are performed, the image displayed by the first terminal, the image displayed by the second terminal, and the image displayed by the third terminal may change, that is, the screen content of the "first image", "the second image", "the third image" … … may change in real time with various operations (for example, the first operation to the sixth operation, and so on) of a user (the first user, the second user, the third user, and so on).

Embodiments of the present disclosure will be described in detail below with reference to the accompanying drawings, but the present disclosure is not limited to these specific embodiments.

Figure 1A is a schematic flow chart of a remote exhibition method according to at least one embodiment of the present disclosure,

fig. 1B is a schematic flowchart of another remote display method according to at least one embodiment of the present disclosure, fig. 2A is a schematic diagram of a first terminal and a second terminal according to at least one embodiment of the present disclosure, fig. 2B is a schematic diagram of a first page and a second page according to at least one embodiment of the present disclosure, and fig. 2C is a schematic diagram of another first terminal and another second terminal according to at least one embodiment of the present disclosure.

For example, an embodiment of the present disclosure provides a remote presentation method, which may be applied to a first terminal. As shown in fig. 1A, the remote presentation method may include the following operations:

s10: and establishing a first transmission channel group with the second terminal based on a real-time audio and video technology, so that a first image of a target space displayed by the first terminal is the same as a second image of the target space displayed by the second terminal.

S11: the method comprises the steps of obtaining a first interactive data set corresponding to a first user, wherein the first interactive data set comprises first operation data of the first user detected by a first terminal and executing a first operation on a first image displayed by the first terminal, and first media data detected by the first terminal.

S12: and transmitting the first interactive data set to the second terminal through the first transmission channel set, so that the second terminal synchronously executes a first operation on a second image displayed by the second terminal in response to the first operation data, so that the first image displayed by the first terminal and the second image displayed by the second terminal are kept consistent, and the second terminal displays information corresponding to the first media data to a second user corresponding to the second terminal in response to the first media data.

In the remote display method provided by the embodiment of the disclosure, the first user and the second user can simultaneously view the same image of the target space, and the first user and the second user can perform information communication in real time, so that information can be transmitted more timely and fed back more accurately, the product experience is improved, the product performance is improved, and the interest of space display is increased.

For example, the target space is a physical space, and may include an indoor space, which may include a house, an office, etc., and an outdoor space, which may include an outdoor garden, a street, etc. The first user and the second user may not both be located within the target space, and both the first user and the second user may be located away from the target space, i.e., the first user and the second user may remotely (e.g., offsite) view the target space and roam within the target space.

For example, the target space may include one or more subspaces. For example, when the target space is a residence, the target space may include a living room subspace, a main lying subspace, a sub-lying subspace, a balcony subspace, a toilet subspace, a kitchen subspace, and the like. When the target space is an outdoor garden, the target space may include a subspace corresponding to a flower bed, a subspace corresponding to a sports facility, and the like. The following embodiments of the present disclosure are described in detail by taking a target space as a house as an example, and the present disclosure includes but is not limited thereto.

For example, in step S10, after the first transmission channel group is established between the first terminal and the second terminal, the first terminal and the second terminal display the same image of the target space, that is, when the target space is a house, if the first image displayed by the first terminal is a picture of a living room, the second image displayed by the second terminal is also a picture of the living room, and the spatial position coordinate and the viewing angle of the picture displayed by the first terminal (i.e., the first image) are respectively the same as the spatial position coordinate and the viewing angle of the picture displayed by the second terminal (i.e., the second image), so that the first user corresponding to the first terminal and the second user corresponding to the second terminal view the same image of the target space.

It should be noted that, if the initial picture displayed by the first terminal is different from the initial picture displayed by the second terminal, in step S10, when the first transmission channel group is established based on the real-time audio/video technology, the initial picture displayed by the first terminal and the initial picture displayed by the second terminal need to be synchronized, so that the picture displayed by the first terminal (i.e., the first image) is the same as the picture displayed by the second terminal (i.e., the second image). It should be noted that, in an example of the embodiment of the present disclosure, if the first user sends an invitation to establish the first transmission channel group, the picture displayed by the second terminal is synchronized to be the initial picture displayed by the first terminal, that is, after the first transmission channel is established, both the first image displayed by the first terminal and the second image displayed by the second terminal are the initial pictures displayed by the first terminal; if the second user sends an invitation to establish the first transmission channel group, the picture displayed by the first terminal is synchronized to be the initial picture displayed by the second terminal, namely, after the first transmission channel is established, the first picture displayed by the first terminal and the second picture displayed by the second terminal are the initial pictures displayed by the second terminal.

For example, in some examples, at the first terminal, step S10 may include: sending a first connection request signal to a second terminal; receiving a first receiving feedback signal returned by the second terminal; and establishing a first transmission channel group based on a real-time audio and video technology according to the first received feedback signal.

For example, the first terminal may obtain a parameter of the first terminal and a parameter of the second terminal, and establish the first transmission channel group according to the parameter of the first terminal and the parameter of the second terminal. The parameters of the first terminal may include an IP (internet protocol) address (e.g., a network IP address) of the first terminal, a device corresponding to the first terminal (e.g., an ID of a mobile phone, etc.), time, and the like, and the parameters of the second terminal may include an IP address of the second terminal, a device corresponding to the second terminal, time, and the like.

For example, the first transmission channel group may implement data transmission by way of a wired network and/or a wireless network. The wired network may perform data transmission by using twisted pair, coaxial cable, or optical fiber transmission, for example, and the wireless network may perform data transmission by using 3G/4G/5G mobile communication network, bluetooth, Zigbee, or WiFi, for example. The present disclosure is not so limited.

For example, the first transmission channel group is established based on a real-time audio and video technology, so that the time delay of the first transmission channel group for transmitting data is small, and the requirement of real-time data interaction is met.

For example, the first terminal and the second terminal may be various mobile terminals, fixed terminals, and the like, and for example, the first terminal and the second terminal may include an application (App) of the mobile terminal. The application may be, for example, "live guest," "58 city," etc. The mobile terminal can be a mobile phone, a tablet computer and the like. The fixed terminal may be a desktop computer or the like.

For example, after a first transmission channel group is established between a first terminal and a second terminal based on Real-Time audio and video (RTC) technology, the first terminal and the second terminal can realize Real-Time mutual transmission of various data (e.g., operation data and media data (e.g., video data, audio data, etc.)) through the first transmission channel group.

For example, the first image and the second image may be panoramic images of the target space, for example, the panoramic images of the target space may be 2D (two-dimensional) house-type images or 3D (three-dimensional) house-type images, and further, for example, panoramic images generated based on sky boxes or sky domes. The 2D house type image is a two-dimensional plane house type image of the house, the 3D house type image is a three-dimensional stereo model image of the house, and the 2D house type image and the 3D house type image both show each subspace (e.g., a living room subspace, a main lying subspace, a sub-lying subspace, a balcony subspace, a toilet subspace, a kitchen subspace, etc.) of the house, the position arrangement of each subspace, and the like. It should be noted that the user can select and click on a subspace (e.g., main-lying subspace) shown in the 2D house type image or the 3D house type image, thereby viewing a three-dimensional virtual reality presentation image (i.e., panoramic image) of the subspace (e.g., main-lying subspace). The first image and the second image may be various planar images corresponding to the target space (for example, an image showing a map of a location in the target space, an environment image of a cell corresponding to the target space, or the like).

For example, as shown in fig. 2A, the first terminal 100 may include a first page 11a, a first operation processing module 11b, a first media module 11c, other modules 11d, and a transmission module 10a, etc. The second terminal 200 may include a second page 12a, a second operation processing module 12b, a second media module 12c, other modules 12d, and a transmission module 10b, etc. The other module 11d and the other module 12d may be word processing modules or the like. The transmission module 10a, the transmission module 10b, the other module 11d and the other module 12d may be implemented in software.

For example, the first page 11a and the second page 12a may each be a page (e.g., a window) of a running Web page (a Web page, e.g., an HTML5 page, etc.), an Application (APP), or an applet (e.g., an applet running in a wechat or a pay pal), etc. As shown in fig. 2B, the first page 11a is used to display a first image, and the second page 12a is used to display a second image, which are 2D house type images of the target space in the example shown in fig. 2B. The virtual reality house display technology is implemented by setting a first page 11a at the first terminal 100 and a second page 12a at the second terminal 200, the first terminal 100 displaying a virtual reality image of a house (i.e., a house) through the first page 11a, and the second terminal 200 displaying a virtual reality image of the house through the second page 12 a. In the embodiment of the present disclosure, the first image is displayed through the first page 11a, and the second image is displayed through the second page 12 a.

For example, at the first terminal, in step S11, the acquiring the first interaction data set corresponding to the first user includes: acquiring first media data through a first media module; the method comprises the steps of obtaining first original operation data of a first user executing a first operation on a first image through first page detection, packaging the first original operation data to obtain first operation data, and obtaining the first operation data through a first operation processing module.

For example, the first media module 11c may be implemented by a software program or the like.

For example, in some examples, the first media data may include voice data. The first terminal may further include various types of microphones or other sound collection devices capable of collecting sound, the sound collection devices may collect sound emitted by the first user to obtain audio data, and the microphones may be electret condenser microphones, Micro Electro Mechanical Systems (MEMS) microphones, or the like. The first media module 11c may acquire the audio data and then encapsulate the audio data, thereby obtaining the first media data. Alternatively, the sound collection device may collect sound emitted by the first user to obtain audio data, and then encapsulate the audio data to obtain the first media data. The first media module 11c may directly acquire the first media data. It should be noted that the first media data may be audio data corresponding to a sound emitted by the first user in real time, or may be pre-recorded audio data.

For example, in other examples, the first media data may include audio data and video data. The first terminal may further include various types of microphones or other sound collection devices capable of collecting sound, and image collection devices such as a camera for collecting images. The sound capture device may capture sound emitted by a first user to obtain audio data, and the image capture device may capture an image (e.g., the image includes the first user) to obtain video data. Then, the first media module 11c may acquire the audio data and the video data, and encapsulate the audio data and the video data, thereby obtaining the first media data. Or, the sound collection device may package the audio data to obtain the packaged audio data, the image collection device may package the video data to obtain the packaged video data, the first media data includes the packaged audio data and the packaged video data, and then, the first media module 11c may directly obtain the packaged audio data and the packaged video data, that is, obtain the first media data.

It should be noted that, in some embodiments, the first media data may also be text data.

For example, the first terminal may also include a speaker and display, etc. for playing audio and video. The embodiment of the present disclosure does not limit the encoding standard adopted for the audio data and the video data, and may be, for example, MPEG, AVS, or the like.

For example, when a first user performs a first operation on a first image displayed on the first page 11a, the first page 11a may collect first original operation data corresponding to the first operation, and encapsulate the first original operation data to obtain first operation data; then, the first operation processing module 11b acquires the first operation data.

For example, the first page 11a and the first operation processing module 11b may agree on a data transfer protocol between each other, the data transfer protocol including a data format (e.g., data format such as json (javascript object notification), xml (extensiblemarkup language), and the like). The transmission of the first operation data between the first page 11a and the first operation processing module 11b may be realized by a wired manner.

For example, the first operation processing module 11b may be implemented by a software program or the like. For example, the first operation processing module 11b is configured to implement transmission of the first operation data from the first page 11a to the first transmission channel group 101. The present disclosure includes, but is not limited to, that the first operation processing module 11b may also implement a function corresponding to an operation, and in some embodiments, for example, the first page 11a is provided with a phone button, and when the first user performs an operation of clicking the phone button, the first page 11a may transmit operation data of the operation of clicking the phone button to the first operation processing module 11b, and the first operation processing module 11b parses the operation data and implements a function of making a call.

For example, the first operation may include at least one of rotation, zoom-in, zoom-out, spatial switching (i.e., spatial roaming), switching a display view angle, sliding, clicking, dragging, two-dimensional three-dimensional switching, and the like.

For example, the first operation data may include spatial position coordinates, a display angle of view, and the like of the first image displayed by the first terminal before the first operation is performed, an operation instruction (e.g., a rotation (clockwise or counterclockwise rotation) instruction, a zoom-in instruction, a zoom-out instruction, a spatial switching instruction, a display angle of view switching instruction, a slide instruction, a click instruction, a drag instruction, a two-dimensional three-dimensional switching instruction) corresponding to the first operation, and spatial position coordinates, a display angle of view, and the like of the first image displayed by the first terminal after the first operation is performed.

For example, the first transmission channel group 101 may include a first transmission channel and a second transmission channel disposed between the first terminal 100 and the second terminal 200. In step S12, the transmitting the first interactive data group from the first terminal to the second terminal through the first transmission channel group includes: transmitting the first operation data from the first terminal to the second terminal through the first transmission channel; the first media data is transmitted from the first terminal to the second terminal through the second transmission channel.

For example, in some embodiments, as shown in fig. 2A, the first transmission channel and the second transmission channel may be directly disposed between the first terminal 100 and the second terminal 200, so as to implement data transmission between the first terminal 100 and the second terminal 200, in this case, one end of the first transmission channel and one end of the second transmission channel are connected to the transmission module 10a of the first terminal 100, and the other end of the first transmission channel and the other end of the second transmission channel are connected to the transmission module 10b of the second terminal 200, so as to implement data interaction between the first terminal 100 and the second terminal 200.

For example, in other embodiments, as shown in fig. 2C, the first transmission channel group 101 may also implement the connection between the first terminal 100 and the second terminal 200 through a server (e.g., a web server), in which case, the first transmission channel may include a first sub-transmission channel and a second sub-transmission channel, the first sub-transmission channel is connected between the first terminal (e.g., the transmission module 10a of the first terminal 100) and the server, the second sub-transmission channel is connected between the server and the second terminal (e.g., the transmission module 10b of the second terminal 200), the second transmission channel may include a third sub-transmission channel and a third sub-transmission channel, the third sub-transmission channel is connected between the first terminal and the server, and the fourth sub-transmission channel is connected between the server and the second terminal. The first operation data sent by the first terminal is firstly transmitted to the server through the first sub-transmission channel, and then the server transmits the first operation data to the second terminal through the second sub-transmission channel. The first media data sent by the first terminal is firstly transmitted to the server through the third sub-transmission channel, and then the server transmits the first media data to the second terminal through the fourth sub-transmission channel.

For example, the first media data and the first manipulation data are simultaneously transmitted from the first terminal 100 to the second terminal 200.

For example, the first transmission channel and the second transmission channel may be two transmission channels independent of each other, so that the transmission of the first media data and the transmission of the first operation data do not affect each other. However, it should be noted that, in the present disclosure, the first media data and the first operation data are both data packets, and the first media data and the first operation data may be data packets encapsulated based on different standards. The "transmission channel" is not limited to the actual transmission channel (or link, etc.), but may also mean a data packet encapsulated based on different standards, and the data packet encapsulated based on different standards is still transmitted through one actual data transmission channel (or link, etc.). That is, in the embodiment of the present disclosure, the first operation data and the first media data may be transmitted through two physical transmission channels (e.g., a first transmission channel and a second transmission channel), respectively, or may be transmitted through the same transmission channel.

For example, the first operation data is generated through the first page 11a of the first terminal 100, then received by the first operation processing module 11b of the first terminal 100 and transmitted to the second terminal 200 through the first transmission channel, and the first media data is collected by the first media module 11c of the first terminal 100 and transmitted to the second terminal 200 through the second transmission channel.

It should be noted that, in the embodiment of the present disclosure, the "transmission channel" (the first transmission channel, the second transmission channel, and the like) is used to transmit operation data (e.g., the first operation, the second operation, and the like), media data (e.g., the first media data and the second media data, and the like), various instruction data, and the like. Image data of an image displayed by a first terminal (e.g., a first image of a target space) may be acquired by the first terminal from a server corresponding to the first terminal, and similarly, image data of an image displayed by a second terminal (e.g., a second image of the target space) may be acquired by the second terminal from a server corresponding to the second terminal.

For example, in step S12, after the second terminal 200 receives the first manipulation data and the first media data, the second terminal 200 synchronously performs the first manipulation on the second image presented by the second terminal 200 in response to the first manipulation data, so that the second image presented by the second terminal 200 and the first image presented by the first terminal 100 are kept consistent, thereby allowing the first user and the second user to view the same picture of the target space. For example, the second operation processing module 12b of the second terminal 200 may obtain first operation data and transmit the first operation data to the second page 12a, and then the second page 12a performs parsing processing on the first operation data to obtain first target operation data (i.e., page synchronization data) corresponding to the first operation; finally, the first operation is synchronously performed on the second image presented by the second terminal 200 through the second page 12a based on the first target operation data.

For example, the second operation processing module 12b may be implemented by a software program or the like. It should be noted that the above description of the first operation processing module 11b is applicable to the second operation processing module 12b without conflict, that is, the first operation processing module 11b and the second operation processing module 12b can implement the same function.

For example, the second terminal 200 presents information corresponding to the first media data to the second user corresponding to the second terminal 200 in response to the first media data. For example, the second media module 12c of the second terminal 200 may acquire and parse the first media data to obtain audio data, and cause the audio data to be played so that the second user receives information corresponding to the first media data.

It should be noted that the above description of the first media module 11c applies to the second media module 12c without conflict, that is, the first media module 11c and the second media module 12c can achieve the same function.

For example, in some embodiments, as shown in fig. 1B, the remote presentation method further comprises:

s20: acquiring a second interactive data group corresponding to the first user, wherein the second interactive data group comprises second operation data of the first user for executing second operation on the first image, which is detected by the first terminal, and second media data detected by the first terminal;

s21: responding to a second operation to enable a first image displayed by the first terminal to become a panoramic image of any subspace of the target space;

s22: and transmitting the second interactive data set from the first terminal to the second terminal through the first transmission channel set, so that the second terminal synchronously executes a second operation on the second image in response to the first operation data, so that the second image displayed by the second terminal becomes a panoramic image of any subspace of the target space, and the second terminal displays information corresponding to the second media data to the second user in response to the second media data.

For example, the manner of acquiring the second interactive data set in step S20 is the same as the manner of acquiring the first interactive data set in step S11, and the repetition is not repeated.

For example, in the first terminal, the second operation data may include spatial position coordinates, a display angle of view, and the like of the first image displayed by the first terminal before the second operation is performed, an operation instruction corresponding to the second operation, and spatial position coordinates, a display angle of view, and the like of the first image displayed by the first terminal after the second operation is performed.

For example, the second media data may be audio data, video data, or text data.

It should be noted that the above description of the first operation data applies to the second operation data without contradiction, and the above description of the first media data applies to the second media data without contradiction, and repeated parts are not described again here.

For example, in step S21, the second operation may include a space switching operation (an operation of clicking any one of the subspaces of the selection target space) or the like. However, the embodiment of the present disclosure is not limited thereto, and the second operation may be at least one of rotation, enlargement, reduction, switching of a display viewing angle, sliding, clicking, dragging, two-dimensional and three-dimensional switching, and the like.

For example, in step S21, the second operation may be an operation of selecting (e.g., by clicking to select) any subspace (e.g., a living room subspace, etc.) of the target space, and in some examples, before the first user performs the second operation, if the first image presented by the first terminal 100 is a 2D house type image or a 3D house type image of the target space, after performing the second operation, the first image presented by the first terminal 100 is changed from the 2D house type image or the 3D house type image of the target space to a panoramic image of any subspace (e.g., a living room subspace, etc.); in other examples, before the first user performs the second operation, if the first image displayed by the first terminal 100 is a panoramic image of a certain subspace (e.g., the main lying subspace) of the target space, after the second operation is performed, the first image displayed by the first terminal 100 is changed from the panoramic image of the certain subspace (e.g., the main lying subspace) to the panoramic image of another subspace (e.g., the living room subspace, etc.).

For example, in step S22, the transmitting the second interactive data set from the first terminal to the second terminal through the first transmission channel group includes: transmitting the second operation data to the second terminal through the first transmission channel; and transmitting the second media data to the second terminal through the second transmission channel.

For example, the second media data and the second manipulation data are simultaneously transmitted from the first terminal 100 to the second terminal 200.

For example, in step S22, the second operation processing module 12b of the second terminal 200 may obtain the second operation data and transmit the second operation data to the second page 12a, and then the second page 12a performs parsing processing on the second operation data to obtain second target operation data (i.e., page synchronization data) corresponding to the second operation; finally, a second operation is synchronously performed on a second image presented by the second terminal 200 through the second page 12a based on the second target operation data. The second media module 12c of the second terminal 200 may obtain and parse the second media data to obtain audio data and play the audio data, so that the second user receives information corresponding to the second media data.

For example, in some embodiments, the first operation is performed before the second operation, and when the first transmission channel group is established, the first image displayed by the first terminal 100 and the second image displayed by the second terminal 200 are both 3D house type images of the target space, the first operation may be a zoom operation (magnification of 1.5), and then the zoom operation is performed on the first image displayed by the first terminal 100, so that the first image displayed by the first terminal 100 is changed from the 3D house type image of the target space to the 3D house type image of the target space enlarged by 1.5 times, and then the first operation data is transmitted to the second terminal 200, and the second terminal 200 synchronously performs the zoom operation (magnification of 1.5) on the second image displayed by the second terminal 200 in response to the first operation data, so that the second image displayed by the second terminal 200 is also changed from the 3D house type image of the target space to the 3D house type image of the target space enlarged by 1.5 times, thus, after the first operation is performed, the first image displayed by the first terminal 100 and the second image displayed by the second terminal 200 are consistent and are both 3D house type images enlarged by 1.5 times. After the first operation is performed, a second operation is performed, which may be an operation to select a living room subspace of the target space, after the second operation is performed, the first image presented by the first terminal 100 is changed from the enlarged 3D house type image of the target space by 1.5 times to the panoramic image of the hall subspace, then, the second manipulation data is transmitted to the second terminal 200, the second terminal 200 performs an operation of selecting a hall subspace with respect to the second image presented by the second terminal 200 in synchronization in response to the second manipulation data, the second image presented by the second terminal 200 is also changed from the 3D house type image enlarged by 1.5 times of the target space to the panoramic image of the lying sub-space, and thus, after the second operation is performed, the first image displayed by the first terminal 100 and the second image displayed by the second terminal 200 are still consistent and are panoramic images of the main-lying subspace.

For example, in other embodiments, the first operation is performed before the second operation, when the first transmission channel group is established, the first image displayed by the first terminal 100 and the second image displayed by the second terminal 200 are both 3D house type images of the target space, the first operation may be an operation of selecting a main lying subspace, the operation of selecting the main lying subspace is performed on the first image displayed by the first terminal 100, such that after the first operation is performed, the first image displayed by the first terminal 100 is changed from the 3D house type image of the target space to a panoramic image of the main lying subspace, and then, the first operation data is transmitted to the second terminal 200, the second terminal 200 performs the operation of selecting the main lying subspace on the second image displayed by the second terminal 200 in synchronization with the first operation data, the second image displayed by the second terminal 200 is also changed from the 3D house type image of the target space to the panoramic image of the main lying subspace, thus, after the first operation is performed, the first image displayed by the first terminal 100 and the second image displayed by the second terminal 200 are consistent and are panoramic images of the main-lying subspace. After the first operation is completed, a second operation is performed, the second operation may be an operation of selecting a living room subspace of the target space, then after the second operation is performed, the first image exhibited by the first terminal 100 is changed from the panoramic image of the main lying subspace to the panoramic image of the living room subspace, then, the second operation data is transmitted to the second terminal 200, the second terminal 200 performs the operation of selecting the living room subspace on the second image exhibited by the second terminal 200 in response to the second operation data in synchronization, then, the second image exhibited by the second terminal 200 is also changed from the panoramic image of the main lying subspace to the panoramic image of the living room subspace, and thus, after the second operation is performed, the first image exhibited by the first terminal 100 and the second image exhibited by the second terminal 200 are still consistent and are both panoramic images of the living room subspace.

For example, in still other embodiments, the second operation is performed before the first operation, the first image displayed by the first terminal 100 and the second image displayed by the second terminal 200 are both 3D house type images of the target space before the second operation is performed, the second operation may be an operation of selecting the main lying subspace, the operation of selecting the main lying subspace is performed on the first image displayed by the first terminal 100, such that after the second operation is performed, the first image displayed by the first terminal 100 is changed from the 3D house type image of the target space to the panoramic image of the main lying subspace, then, the second operation data is transmitted to the second terminal 200, the second terminal 200 performs the operation of selecting the main lying subspace on the second image displayed by the second terminal 200 in synchronization with the second operation data, the second image displayed by the second terminal 200 is also changed from the 3D house type image of the target space to the panoramic image of the main lying subspace, thus, after the second operation is performed, the first image displayed by the first terminal 100 and the second image displayed by the second terminal 200 are consistent and are panoramic images of the main-lying subspace. After the second operation is performed, a first operation is performed, the first operation may be an operation of selecting a 3D house type image of the target space, then after the first operation is performed, the first image displayed by the first terminal 100 is changed from the panoramic image of the main lying subspace to the 3D house type image, then, the first operation data is transmitted to the second terminal 200, and the second terminal 200 synchronously performs the operation of selecting the 3D house type image of the target space on the second image displayed by the second terminal 200 in response to the first operation data, then the second image displayed by the second terminal 200 is also changed from the panoramic image of the main lying subspace to the 3D house type image, and thus, after the first operation is performed, the first image displayed by the first terminal 100 and the second image displayed by the second terminal 200 are kept consistent and are both 3D house type images.

It should be noted that, in the embodiment of the present disclosure, the first operation and the second operation are not associated with each other, and the first operation and the second operation do not have a sequential execution order, and the first operation may be executed before the second operation, or the first operation may also be executed after the second operation, or only the first operation is executed without executing the second operation, or only the second operation is executed without executing the first operation. For example, in some examples, the second operation is performed before the first operation, the second operation is an operation of selecting a living room subspace, and the first operation is an operation of rotating clockwise by a certain angle (e.g., 90 degrees), then after the second operation is performed, the first image presented by the first terminal 100 becomes a panoramic image of the living room subspace, and after the first operation is performed, the first image presented by the first terminal 100 is a panoramic image of the living room subspace after rotating clockwise by a certain angle. It should be noted that the panoramic image of the living room subspace after the second operation is performed is different from the panoramic image of the living room subspace after the first operation is performed. The spatial position coordinate corresponding to the first image displayed by the first terminal 100 after the second operation is performed and the spatial position coordinate corresponding to the first image displayed by the first terminal 100 after the first operation is performed are not changed, and the viewing angle corresponding to the first image displayed by the first terminal 100 after the second operation is performed is different from the viewing angle corresponding to the first image displayed by the first terminal 100 after the first operation is performed.

For example, in some embodiments, the remote presentation method further comprises: responding to a first control authority transfer instruction sent by a second user through a second terminal, and transferring the control authority of the first terminal to the second terminal; or, in response to detecting that the first control authority release instruction sent by the first user through the first terminal, transferring the control authority of the first terminal to the second terminal.

For example, the first control right transfer instruction is used to instruct transfer of control right to the second terminal, and the first control right release instruction is also used to instruct transfer of control right to the second terminal.

When the control authority is in the first terminal, for example, the first terminal may respond to various operations performed by the first user on the first terminal, and operation data of various operations performed on the first terminal by the first user may be transmitted to the second terminal, so that the second terminal performs various operations based on the operation data, thereby achieving synchronization of the first image of the first terminal and the second image of the second terminal, and, at this time, even if the second user performs an operation on the second terminal, since the second terminal has no control authority, the second terminal cannot change the second image in response to the operation performed by the second user, and operation data of the operation performed by the second user on the second terminal cannot be transmitted to the first terminal, cannot be used for synchronizing the first image of the first terminal and the second image of the second terminal, thereby avoiding a situation in which a first user and a second user perform operations simultaneously, which may cause a conflict. When the control authority is at the second terminal, the second terminal may respond to various operations performed on the second terminal by the second user, and operation data of the various operations performed on the second terminal by the second user may be transmitted to the first terminal, so that the first terminal performs various operations based on the operation data, thereby implementing synchronization of the first image of the first terminal and the second image of the second terminal, at this time, even if the first user performs an operation on the first terminal, since the first terminal does not have the control authority, the first terminal cannot change the first image in response to the operation performed by the first user, and the operation data of the operation performed on the first terminal by the first user cannot be transmitted to the second terminal, and cannot be used for synchronizing the first image of the first terminal and the second image of the second terminal.

It should be noted that, in other embodiments, priorities may also be set for the first terminal and the second terminal, so as to avoid a situation that a conflict may occur when the first user and the second user perform operations simultaneously. For example, the priority of the first terminal is higher than that of the second terminal, so that, when the first user performs an enlargement operation while the second user performs a reduction operation, since the priority of the first terminal is higher than that of the second terminal, the enlargement operation can be performed on the first image presented by the first terminal and the second image presented by the second terminal in synchronization. For another example, when the first user does not perform any operation and the second user performs a rotation operation, the rotation operation may be performed on the first image displayed by the first terminal and the second image displayed by the second terminal in synchronization.

For example, in some embodiments, when the control right of the first terminal is transferred to the second terminal, the remote presentation method further includes: receiving a third interactive data set transmitted from the second terminal through the first transmission channel set, wherein the third interactive data set comprises third operation data of a second user detected by the second terminal and performing a third operation on a second image displayed by the second terminal, and third media data detected by the second terminal; and synchronously executing a third operation on the first image displayed by the first terminal in response to the third operation data so that the first image displayed by the first terminal and the second image displayed by the second terminal are consistent, and displaying information corresponding to the third media data to the first user in response to the third media data.

For example, obtaining the third interaction data set includes: acquiring third media data through a second media module; and obtaining original operation data of a second user executing a third operation on the second image through second page detection, packaging the original operation data corresponding to the third operation to obtain third operation data, and obtaining the third operation data through a second operation processing module.

For example, the first transmission channel is used to transmit the third operation data from the second terminal 200 to the first terminal 100, and the second transmission channel is used to transmit the third media data from the second terminal 200 to the first terminal 100, that is, the first transmission channel and the second transmission channel may implement bidirectional data transmission between the first terminal and the second terminal.

For example, the third media data and the third manipulation data are simultaneously transmitted from the second terminal 200 to the first terminal 100.

For example, the third operation may include at least one of rotation, zoom-in, zoom-out, spatial switching, switching of a display viewing angle, sliding, clicking, dragging, two-dimensional three-dimensional switching, and the like. The above description of the first operation applies to the third operation without contradiction. The first operation and the third operation are different in that: the first operation is actively performed by a first user and the third operation is actively performed by a second user.

For example, as shown in fig. 2A, after the first terminal 100 receives the third operation data and the third media data, the first terminal 100 synchronously performs the third operation on the first image displayed by the first terminal 100 in response to the third operation data, so that the first image displayed by the first terminal 100 and the second image displayed by the second terminal 200 are consistent, thereby enabling the first user and the second user to view the same picture of the target space. For example, the first operation processing module 11b of the first terminal 100 may obtain third operation data and transmit the third operation data to the first page 11a, and then the first page 11a performs parsing processing on the third operation data to obtain third target operation data corresponding to the third operation; finally, a third operation is synchronously performed on the first image presented by the first terminal 100 through the first page 11a based on the third target operation data.

For example, the first terminal 100 presents information corresponding to the third media data to the first user corresponding to the first terminal 100 in response to the third media data. For example, the first media module 11c of the first terminal 100 may obtain and parse the third media data to obtain audio data and play the audio data, so that the first user receives information corresponding to the third media data.

In addition, it should be noted that, in the embodiment of the present disclosure, no matter the control right is at the first terminal or at the second terminal, the media data may be transmitted in real time between the first terminal and the second terminal, so as to implement real-time information exchange between the first user and the second user, that is, the control right does not affect media data interaction between the first terminal and the second terminal. That is, for example, when the control authority is in the first terminal, the first terminal may transmit the first media data from the first terminal to the second terminal, and at the same time, the second terminal may also transmit the third media data from the second terminal to the first terminal.

For example, in some embodiments, the remote presentation method further comprises: receiving a fourth interactive data group transmitted from the second terminal through the first transmission channel group, wherein the fourth interactive data group comprises fourth operation data detected by the second terminal and used for a second user to perform a fourth operation on a second image displayed by the second terminal, and fourth media data detected by the second terminal, and the second terminal responds to the fourth operation to enable the second image displayed by the second terminal to become a panoramic image of any subspace of the target space; and synchronously executing a fourth operation on the first image in response to the fourth operation data, so that the first image displayed by the first terminal becomes a panoramic image of any subspace of the target space, and displaying information corresponding to the fourth media data in response to the fourth media data to the first user.

For example, the manner of obtaining the fourth interactive data set is similar to the manner of obtaining the third interactive data set, and similar parts are not repeated.

For example, the first transmission channel is used to transmit the fourth operation data from the second terminal 200 to the first terminal 100, and the second transmission channel is used to transmit the fourth media data from the second terminal 200 to the first terminal 100. For example, the fourth media data and the fourth manipulation data are simultaneously transmitted from the second terminal 200 to the first terminal 100.

For example, the fourth operation may include a space switching operation (an operation of clicking any one of the subspaces of the selection target space) or the like. However, the embodiment of the present disclosure is not limited thereto, and the fourth operation may also be at least one of operations of rotating, enlarging, reducing, switching a display viewing angle, sliding, clicking, dragging, two-dimensional three-dimensional switching, and the like. The above description of the second operation applies to the fourth operation without contradiction. The second operation and the fourth operation are different in that: the second operation is actively performed by the first user and the fourth operation is actively performed by the second user.

For example, as shown in fig. 2A, the first operation processing module 11b of the first terminal 100 may obtain fourth operation data and transmit the fourth operation data to the first page 11a, and then the first page 11a performs parsing processing on the fourth operation data to obtain fourth target operation data corresponding to the fourth operation; finally, a fourth operation is synchronously performed on the first image presented by the first terminal 100 through the first page 11a based on the fourth target operation data. The first media module 11c of the first terminal 100 may obtain and parse the fourth media data to obtain audio data and play the audio data, so that the first user receives information corresponding to the fourth media data.

It should be noted that the above description of the first operation data applies to the third operation data and the fourth operation data without contradiction, and the above description of the first media data applies to the third media data and the fourth media data without contradiction, and repeated parts are not repeated here.

In addition, in the embodiment of the present disclosure, the third operation and the fourth operation are not associated with each other, and the third operation and the fourth operation do not have a sequential execution order, and the third operation may be executed before the fourth operation, or the third operation may also be executed after the fourth operation, or only the third operation may be executed without executing the fourth operation, or only the fourth operation may be executed without executing the third operation.

Fig. 3 is a schematic diagram of a first terminal, a second terminal, and a third terminal according to at least one embodiment of the disclosure.

For example, the remote presentation method may also implement real-time interaction between at least three users (three users or four users, etc.), and the remote presentation method is used to implement real-time interaction between three users in the present disclosure, but the embodiments of the present disclosure are not limited thereto, and the remote presentation method may also be used to implement real-time interaction between four users.

For example, in some embodiments, the remote presentation method further comprises: establishing a second transmission channel group with a third terminal based on a real-time audio and video technology, so that a first image displayed by the first terminal is the same as a third image of a target space displayed by the third terminal; and transmitting the first interactive data set from the first terminal to the third terminal through the second transmission channel set, so that the third terminal synchronously executes a first operation on a third image displayed by the third terminal in response to the first operation data, so that the first image displayed by the first terminal and the third image displayed by the third terminal are consistent, and the third terminal displays information corresponding to the first media data to a third user corresponding to the third terminal in response to the first media data.

For example, establishing the second transmission channel group based on the real-time audio and video technology includes: sending a first participation signal to a third terminal; receiving a second receiving feedback signal returned by the third terminal; and establishing a second transmission channel group based on the real-time audio and video technology according to the second received feedback signal. For example, the first terminal may obtain a parameter of the first terminal and a parameter of the third terminal, and establish the second transmission channel group according to the parameter of the first terminal and the parameter of the third terminal. The parameter of the third terminal may include an IP address of the third terminal, a device corresponding to the third terminal, time, and other information.

For another example, in some embodiments, establishing the second transmission channel group based on real-time audio-video technology comprises: receiving a third participation signal sent by a third terminal; and a fifth receiving feedback signal is sent to the third terminal, so that the third terminal establishes a second transmission channel group based on a real-time audio and video technology according to the fifth receiving feedback signal. That is, in this case, the third terminal may acquire the parameter of the first terminal and the parameter of the third terminal, and establish the second transmission channel group according to the parameter of the first terminal and the parameter of the third terminal.

For example, as shown in fig. 3, the third terminal 300 may include a third page 13a, a third operation processing module 13b, a third media module 13c, other modules 13d, and a transmission module 10c, etc. The other module 13d may be a word processing module or the like. For example, the third page 13a may be a web page, and the third image may be displayed on the third page 13 a. It should be noted that, regarding the third media module 13c, the above description regarding the first media module 11c may be referred to, and regarding the third operation processing module 13b, the above description regarding the first operation processing module 11b may be referred to.

For example, the second transmission channel group 102 includes a third transmission channel and a fourth transmission channel provided between the first terminal 100 and the third terminal 300. Transmitting the first interactive data group from the first terminal to the third terminal through the second transmission channel group includes: transmitting the first operation data from the first terminal to the third terminal through a third transmission channel; the first media data is transmitted from the first terminal to the third terminal through a fourth transmission channel.

For example, in implementing the interaction between three or more users, as shown in fig. 3, the first transmission channel group 101 implements the connection between the first terminal 100 and the second terminal 200 through a server (e.g., a web server), and the second transmission channel group 102 also implements the connection between the first terminal 100 and the third terminal 300 through a server (e.g., a web server). In this case, the first transmission path may include a first sub-transmission path and a second sub-transmission path, the first sub-transmission path being connected between the first terminal and the server, the second sub-transmission path being connected between the server and the second terminal, the second transmission path may include a third sub-transmission path and a third sub-transmission path, the third sub-transmission path being connected between the first terminal and the server, and the fourth sub-transmission path being connected between the server and the second terminal. The third transmission channel includes a first sub-transmission channel connected between the first terminal and the server and a fifth sub-transmission channel connected between the server and the third terminal, and the fourth transmission channel includes a second sub-transmission channel connected between the first terminal and the server and a sixth sub-transmission channel connected between the server and the third terminal (e.g., the transmission module 10c of the third terminal 300). The first operation data sent by the first terminal are firstly transmitted to the server through the first sub-transmission channel, then the server transmits the first operation data to the second terminal through the second sub-transmission channel, and the server transmits the first operation data to the third terminal through the fifth sub-transmission channel. The first media data sent by the first terminal are firstly transmitted to the server through the third sub-transmission channel, then the server transmits the first media data to the second terminal through the fourth sub-transmission channel, and the server transmits the first media data to the third terminal through the sixth sub-transmission channel.

For another example, the third transmission channel may also transmit the second operation data from the first terminal to the third terminal; the fourth transmission channel may also transmit the second media data from the first terminal to the third terminal.

For example, the first media data and the first manipulation data are simultaneously transmitted from the first terminal 100 to the third terminal 300. The second media data and the second manipulation data are also simultaneously transmitted from the first terminal 100 to the third terminal 300.

For example, as shown in fig. 3, the third operation processing module 13b of the third terminal 300 may obtain first operation data and transmit the first operation data to the third page 13a, and then the third page 13a performs parsing processing on the first operation data to obtain first target operation data corresponding to the first operation; finally, the first operation is synchronously performed on the third image presented by the third terminal 300 through the third page 13a based on the first target operation data. The third media module 13c of the third terminal 300 may acquire and parse the first media data to obtain audio data and play the audio data, so that the third user receives information corresponding to the first media data. It should be noted that, since the device corresponding to the second terminal 200 may be different from the device corresponding to the third terminal 300, a specific instruction corresponding to the first target operation data obtained by the first page 11a analyzing the first operation data may be different from a specific instruction corresponding to the first target operation data obtained by the third page 13a analyzing the first operation data, as long as the same first operation can be performed on the second image displayed by the second terminal 200 and the third image displayed by the third terminal 300.

For example, as shown in fig. 3, in some embodiments, a third transmission channel group 103 may also be established between the second terminal and the third terminal based on a real-time audio and video technology, so as to implement data interaction between the second terminal 200 and the third terminal 300. For example, the second terminal may obtain the parameters of the second terminal and the parameters of the third terminal, and establish the third transmission channel group 103 according to the parameters of the second terminal and the parameters of the third terminal, or the third terminal may obtain the parameters of the second terminal and the parameters of the third terminal, and establish the third transmission channel group 103 according to the parameters of the second terminal and the parameters of the third terminal.

For example, in some embodiments, the remote presentation method further comprises: responding to a second control authority transfer instruction sent by a third user through a third terminal, and transferring the control authority of the first terminal to the third terminal; or in response to detecting that the first user transmits a second control authority release instruction through the first terminal, transferring the control authority of the first terminal to the third terminal.

For example, the second control right transfer instruction is used to instruct transfer of the control right to the third terminal, and the second control right release instruction is also used to instruct transfer of the control right to the third terminal.

For example, when the control authority is at the third terminal, the third terminal may respond to various operations performed by the third user on the third terminal, and operation data of the various operations performed by the third user on the third terminal may be transmitted to the first terminal and the second terminal, so that the first terminal and the second terminal perform various operations based on the operation data, thereby implementing synchronization of the first image of the first terminal, the second image of the second terminal, and the third image of the third terminal, at this time, since neither the first terminal nor the second terminal has the control authority, the first terminal cannot respond to the operation performed by the first user on the first terminal, and operation data of the operation performed by the first user on the first terminal cannot be transmitted to the second terminal and the third terminal, the second terminal cannot respond to the operation performed by the second user on the second terminal, and operation data of the operation performed by the second user on the second terminal cannot be transmitted to the first terminal and the second terminal cannot be transmitted to the first terminal The terminal and the third terminal, thereby avoiding the situation of conflict which can be generated when the first user, the second user and the third user simultaneously execute the operation.

It should be noted that, in other embodiments, priorities may also be set for the first terminal, the second terminal, and the third terminal, so as to avoid a situation where a conflict may occur when the first user, the second user, and the third user perform operations simultaneously.

In addition, no matter the control authority is at the first terminal, at the second terminal or at the third terminal, the media data can be transmitted among the first terminal, the second terminal and the third terminal in real time, so that the real-time information exchange of the first user, the second user and the third user is realized, namely the control authority does not influence the media data interaction among the first terminal, the second terminal and the third terminal.

For example, in some embodiments, when the control right of the first terminal is transferred to the third terminal, the remote presentation method further includes: receiving a fifth interactive data group transmitted from the third terminal through the second transmission channel group, wherein the fifth interactive data group comprises fifth operation data of a third user detected by the third terminal performing a fifth operation on a third image displayed by the third terminal and fifth media data detected by the third terminal; and synchronously executing a fifth operation on the first image displayed by the first terminal in response to the fifth operation data so that the first image displayed by the first terminal and the third image displayed by the third terminal are consistent, and displaying information corresponding to the fifth media data to the first user in response to the fifth media data.

For example, obtaining the fifth interaction data set includes: acquiring fifth media data through a third media module; and detecting through a third page to obtain original operation data of a third user for executing a fifth operation on the third image, packaging the original operation data corresponding to the fifth operation to obtain fifth operation data, and acquiring the fifth operation data through a third operation processing module.

For example, the third transmission channel is used to transmit the fifth operation data from the third terminal 300 to the first terminal 100, and the fourth transmission channel is used to transmit the fifth media data from the third terminal 300 to the first terminal 100, that is, the third transmission channel and the fourth transmission channel may implement bidirectional data transmission between the first terminal and the third terminal.

For example, the fifth media data and the fifth manipulation data are simultaneously transmitted from the third terminal 300 to the first terminal 100.

For example, the fifth operation may include at least one of rotation, enlargement, reduction, spatial switching, switching of a display angle of view, sliding, clicking, dragging, two-dimensional three-dimensional switching, and the like. The above description of the first operation applies to the fifth operation without contradiction. The first operation and the third operation are different in that: the first operation is actively performed by the first user, and the fifth operation is actively performed by the third user.

For example, in some embodiments, the remote presentation method further comprises: receiving a sixth interactive data set transmitted from the third terminal through the second transmission channel set, wherein the sixth interactive data set comprises sixth operation data of a third user detected by the third terminal performing a sixth operation on the third image and sixth media data detected by the third terminal, and the third terminal responds to the sixth operation to enable a third image displayed by the third terminal to become a panoramic image of any subspace of the target space; and synchronously performing a sixth operation on the first image based on the sixth operation data so that the first image presented by the first terminal becomes a panoramic image of any subspace of the target space, and presenting information corresponding to the sixth media data to the first user in response to the sixth media data.

For example, the manner of acquiring the sixth interactive data set is similar to the manner of acquiring the fifth interactive data set, and similar parts are not repeated.

For example, the third transmission channel is used to transmit the sixth operation data from the third terminal 300 to the first terminal 100, and the fourth transmission channel is used to transmit the sixth media data from the third terminal 300 to the first terminal 100. For example, the sixth media data and the sixth operation data are simultaneously transmitted from the third terminal 300 to the first terminal 100.

For example, the sixth operation may include a space switching operation (an operation of clicking any one of the subspaces of the selection target space) or the like. However, the embodiment of the present disclosure is not limited thereto, and the sixth operation may also be at least one of operations of rotating, enlarging, reducing, switching a display viewing angle, sliding, clicking, dragging, two-dimensional three-dimensional switching, and the like. The above description of the second operation applies to the sixth operation without contradiction. The second operation and the sixth operation are different in that: the second operation is actively performed by the first user, and the sixth operation is actively performed by the third user.

It should be noted that the above description of the first operation data applies to the fifth operation data and the sixth operation data without contradiction, and the above description of the first media data applies to the fifth media data and the sixth media data without contradiction, and repeated parts are not repeated here.

In the embodiment of the disclosure, the fifth operation and the sixth operation are not associated with each other, and the fifth operation and the sixth operation are not sequentially executed, and the fifth operation may be executed before the sixth operation, or the fifth operation may also be executed after the sixth operation, or only the fifth operation may be executed without executing the sixth operation, or only the sixth operation may be executed without executing the fifth operation.

Further, in the embodiment of the present disclosure, the second operation, the fourth operation, and the sixth operation are all operations for implementing spatial roaming, but the present disclosure is not limited thereto, and the first operation, the third operation, and the fifth operation may also be operations for implementing spatial roaming. In addition, the first operation, the second operation, the third operation, the fourth operation, the fifth operation and the sixth operation are not associated with each other, and the first operation to the sixth operation are not executed in a sequential order.

For example, when the remote exhibition method provided by the embodiment of the present disclosure is applied to a house exhibition system, the target space is a house, the first user may be a seller of the house (e.g., a house broker, a house seller, etc.), and the second user and the third user may be buyers of the house. The second user and the third user may know each other, e.g., the second user and the third user are a couple with each other, etc.; alternatively, the second user and the third user may not know each other. Similarly, at least two of the first user, the second user, and the third user may be aware of each other; alternatively, the first user, the second user, and the third user may not know each other. The embodiments of the present disclosure do not specifically limit the first user, the second user, and the third user.

It should be noted that the pages (the first page 11a, the second page 12a, and the third page 13a) are only used for displaying an image (e.g., a panoramic image, etc.) in a target space and processing operation data (first operation data to sixth operation data), and the transmission and processing of the media data (first media data to sixth media data) and the operation data are processed by the media module (the first media module, the second media module, or the third media module) and the operation processing module (the first operation processing module, the second operation processing module, or the third operation processing module), so as to improve product performance.

Fig. 4 is a schematic flow chart of another remote display method according to at least one embodiment of the present disclosure.

At least one embodiment of the present disclosure further provides a remote display method, which is applied to the second terminal. As shown in fig. 4, the remote presentation method may include the following operations:

s30: and establishing a first transmission channel group with the first terminal based on a real-time audio and video technology, so that a first image of a target space displayed by the first terminal is the same as a second image of the target space displayed by the second terminal.

S31: and receiving a first interactive data set transmitted from the first terminal through the first transmission channel set, wherein the first interactive data set comprises first operation data of a first user detected by the first terminal and performing a first operation on a first image displayed by the first terminal, and first media data detected by the first terminal.

S32: and synchronously executing a first operation on the second image in response to the first operation data so that the first image displayed by the first terminal and the second image displayed by the second terminal are consistent, and displaying information corresponding to the first media data to a second user corresponding to the second terminal in response to the first media data.

For example, in step S30, the establishing the first transmission channel group with the first terminal based on the real-time audio and video technology includes: sending a second connection request signal to the first terminal; receiving a third receiving feedback signal returned by the first terminal; and establishing a first transmission channel group based on a real-time audio and video technology according to the third received feedback signal.

For example, in the above-described embodiment of the remote presentation method applied to the first terminal, the first transmission channel group may be established by the first terminal, and the present disclosure is not limited thereto, for example, in the embodiment of the remote presentation method applied to the second terminal, the first transmission channel group may be established by the second terminal, that is, the second terminal may acquire the parameter of the first terminal and the parameter of the second terminal, and establish the first transmission channel group according to the parameter of the first terminal and the parameter of the second terminal.

For example, as shown in fig. 2A, the first transmission channel group 101 may include a first transmission channel and a second transmission channel disposed between the first terminal 100 and the second terminal 200. In step S31, the receiving the first interactive data set transmitted from the first terminal through the first transmission channel group includes: receiving first operation data transmitted from a first terminal through a first transmission channel; first media data transmitted from a first terminal through a second transmission channel is received.

For example, as shown in fig. 2A, in step S32, the second operation processing module 12b of the second terminal 200 may obtain first operation data and transmit the first operation data to the second page 12A, and then the second page 12A performs parsing processing on the first operation data to obtain first target operation data corresponding to the first operation; finally, the first operation is synchronously performed on the second image displayed by the second terminal 200 through the second page 12a based on the first target operation data, so that the second image displayed by the second terminal 200 and the first image displayed by the first terminal 100 are kept consistent. The second media module 12c of the second terminal 200 may obtain and parse the first media data to obtain audio data and play the audio data, so that the second user receives information corresponding to the first media data.

For example, in some embodiments, the remote presentation method further comprises: responding to a first control authority transfer instruction sent by a second user through a second terminal, and transferring the control authority of the first terminal to the second terminal; or, in response to acquiring a first control authority release instruction sent by the first user through the first terminal, transferring the control authority of the first terminal to the second terminal.

For example, in some embodiments, when the control right of the first terminal is transferred to the second terminal, the remote presentation method further includes: establishing a third transmission channel group with a third terminal based on a real-time audio and video technology, so that a second image displayed by the second terminal is the same as a third image of a target space displayed by the third terminal; acquiring a third interactive data group corresponding to a second user, wherein the third interactive data group comprises third operation data, detected by the second terminal, of the second user performing a third operation on a second image displayed by the second terminal, and third media data detected by the second terminal; and transmitting a third interactive data set from the second terminal to a third terminal through a third transmission channel set, so that the third terminal synchronously executes a third operation on a third image in response to third operation data, so that a second image displayed by the second terminal and the third image displayed by the third terminal are kept consistent, and the third terminal displays information corresponding to third media data to a third user corresponding to the third terminal in response to the third media data.

For example, in some embodiments, when the control right of the first terminal is transferred to the second terminal, the remote presentation method further includes: establishing a third transmission channel group with a third terminal based on a real-time audio and video technology, so that a second image displayed by the second terminal is the same as a third image of a target space displayed by the third terminal; acquiring a fourth interactive data group corresponding to a second user, wherein the fourth interactive data group comprises fourth operation data of a second user detected by the second terminal and executing a fourth operation on a second image displayed by the second terminal, and fourth media data detected by the second terminal; responding to a fourth operation to enable a second image displayed by a second terminal to become a panoramic image of any subspace of the target space; and transmitting the fourth interactive data set from the second terminal to the third terminal through the third transmission channel set, so that the third terminal synchronously executes a fourth operation on the third image in response to the fourth operation data, so that the third image displayed by the third terminal becomes a panoramic image of any subspace of the target space, and so that the third terminal displays information corresponding to the fourth media data to a third user corresponding to the third terminal in response to the fourth media data.

For example, establishing the third transmission channel group with the third terminal based on the real-time audio and video technology includes: sending a second participation signal to the third terminal; and receiving a fourth receiving feedback signal returned by the third terminal so as to establish a third transmission channel group based on the real-time audio and video technology according to the fourth receiving feedback signal.

For example, in some embodiments, the second terminal may obtain parameters of the second terminal and parameters of the third terminal, and establish the third transmission channel group according to the parameters of the second terminal and the parameters of the third terminal. In other embodiments, the third terminal may obtain the parameter of the second terminal and the parameter of the third terminal, and establish the third transmission channel group according to the parameter of the second terminal and the parameter of the third terminal.

For example, as shown in fig. 3, the third transmission channel group 103 includes a fifth transmission channel through which third operation data and fourth operation data are both transmitted from the second terminal to the third terminal, and a sixth transmission channel through which third media data and fourth media data are both transmitted from the second terminal to the third terminal. For example, the third media data and the third manipulation data are simultaneously transmitted from the second terminal 200 to the third terminal 300. The fourth media data and the fourth manipulation data are also simultaneously transmitted from the second terminal 200 to the third terminal 300.

For example, as shown in fig. 3, the third transmission channel group 103 may implement a connection between the second terminal 200 and the third terminal 300 through a server (e.g., a web server), in which case, the fifth transmission channel may include a third sub-transmission channel and a fifth sub-transmission channel, the third sub-transmission channel is connected between the second terminal (e.g., the transmission module 10b of the second terminal 200) and the server, the fifth sub-transmission channel is connected between the server and the third terminal (e.g., the transmission module 10c of the third terminal 300), the second transmission channel may include a fourth sub-transmission channel and a sixth sub-transmission channel, the fourth sub-transmission channel is connected between the second terminal and the server, and the sixth sub-transmission channel is connected between the server and the third terminal. The third operation data and the fourth operation data sent by the second terminal are firstly transmitted to the server through the third sub-transmission channel, and then the server transmits the third operation data and the fourth operation data to the third terminal through the fifth sub-transmission channel. The third media data and the fourth media data sent by the second terminal are firstly transmitted to the server through the fourth sub-transmission channel, and then the server transmits the third media data and the fourth media data to the third terminal through the sixth sub-transmission channel. It should be noted that, when the interaction between three or more users is implemented, the third transmission channel and the fourth transmission channel may also be directly connected between the first terminal and the third terminal, and the fifth transmission channel and the sixth transmission channel may also be directly connected between the second terminal and the third terminal.

For example, in some embodiments, the remote presentation method further comprises: responding to a second control authority transfer instruction sent by a third user through a third terminal, and transferring the control authority of the second terminal to the third terminal; or in response to detecting that the first user transmits a second control authority release instruction through the first terminal, transferring the control authority of the first terminal to the third terminal.

For example, the second control right transfer instruction is used to instruct transfer of the control right to the third terminal, and the second control right release instruction is also used to instruct transfer of the control right to the third terminal.

For example, in some embodiments, when the control right of the first terminal is transferred to the third terminal, the remote presentation method further includes: receiving a fifth interactive data group transmitted from the third terminal through the third transmission channel group, wherein the fifth interactive data group comprises fifth operation data of a third user detected by the third terminal performing a fifth operation on a third image displayed by the third terminal and fifth media data detected by the third terminal; and synchronously executing a fifth operation on the second image displayed by the second terminal in response to the fifth operation data, so that the second image displayed by the second terminal and the third image displayed by the third terminal are consistent, and displaying information corresponding to the fifth media data to the second user in response to the fifth media data.

For example, in some embodiments, the remote presentation method further comprises: receiving a sixth interactive data set transmitted from the third terminal through the third transmission channel set, wherein the sixth interactive data set comprises sixth operation data of a third user detected by the third terminal performing a sixth operation on the third image and sixth media data detected by the third terminal, and the third terminal responds to the sixth operation to enable a third image displayed by the third terminal to become a panoramic image of any subspace of the target space; and performing a sixth operation on the second image synchronously based on the sixth operation data so that the second image presented by the second terminal becomes a panoramic image of any subspace of the target space, and presenting information corresponding to the sixth media data to the second user in response to the sixth media data.

For example, as shown in fig. 3, the fifth operation data and the sixth operation data are each transmitted from the third terminal to the second terminal through the fifth transmission channel, and the fifth media data and the sixth media data are each transmitted from the third terminal to the second terminal through the sixth transmission channel. So that the fifth transmission channel and the sixth transmission channel can realize the bidirectional data transmission of the second terminal and the third terminal.

It should be noted that, in this embodiment, for detailed descriptions of the target space, the first operation, the third operation to the sixth operation, the first operation data, the third operation data to the sixth operation data, the first media data, the third media data to the sixth media data, the first terminal, the second terminal, the third terminal, and the like, reference may be made to the description of the embodiment of the remote display method applied to the first terminal, and repeated parts are not repeated.

At least one embodiment of the present disclosure further provides an electronic device. Fig. 5 is a schematic view of an electronic device according to an embodiment of the disclosure.

For example, as shown in fig. 5, an electronic device 500 may include a memory 501 and a processor 502. It should be noted that the components of the electronic device 500 shown in fig. 5 are only exemplary and not limiting, and the electronic device 500 may have other components according to the actual application.

For example, the electronic device 500 may include the first terminal 100 according to any of the embodiments described above.

For example, memory 501 is used for non-transitory storage of computer program instructions; the processor 502 is configured to execute computer program instructions, and the computer program instructions when executed by the processor 502 execute one or more steps of the remote presentation method applied to the first terminal according to any of the above embodiments.

For example, the computer program instructions, when executed by the processor 502, may perform the following operations: establishing a first transmission channel group with a second terminal based on a real-time audio and video technology, so that a first image of a target space displayed by the first terminal is the same as a second image of the target space displayed by the second terminal; acquiring a first interactive data group corresponding to a first user, wherein the first interactive data group comprises first operation data, detected by a first terminal, of the first user performing a first operation on a first image displayed by the first terminal, and first media data, detected by the first terminal; and transmitting the first interactive data set from the first terminal to the second terminal through the first transmission channel set, so that the second terminal synchronously executes a first operation on a second image displayed by the second terminal in response to the first operation data, so that the first image displayed by the first terminal and the second image displayed by the second terminal are consistent, and the second terminal displays information corresponding to the first media data to a second user corresponding to the second terminal in response to the first media data.

For example, components such as the processor 502 and the memory 501 may communicate over a network connection. The network may include a wireless network, a wired network, and/or any combination of wireless and wired networks. The network may include a local area network, the Internet, a telecommunications network, an Internet of Things (Internet of Things) based on the Internet and/or a telecommunications network, and/or any combination thereof, and/or the like. The wired network may communicate by using twisted pair, coaxial cable, or optical fiber transmission, for example, and the wireless network may communicate by using 3G/4G/5G mobile communication network, bluetooth, Zigbee, or WiFi, for example. The present disclosure is not limited herein as to the type and function of the network.

For example, the processor 502 may control other components in the electronic device 500 to perform desired functions. The processor 502 may be a device having data processing capability and/or program execution capability, such as a Central Processing Unit (CPU), Tensor Processor (TPU), or Graphics Processing Unit (GPU). The Central Processing Unit (CPU) may be an X86 or ARM architecture, etc. The GPU may be separately integrated directly onto the motherboard, or built into the north bridge chip of the motherboard. The GPU may also be built into the Central Processing Unit (CPU).

For example, memory 501 may comprise any combination of one or more computer program products, which may include various forms of computer-readable storage media, such as volatile memory and/or non-volatile memory. Volatile memory can include, for example, Random Access Memory (RAM), cache memory (or the like). The non-volatile memory may include, for example, Read Only Memory (ROM), a hard disk, an Erasable Programmable Read Only Memory (EPROM), a portable compact disc read only memory (CD-ROM), USB memory, flash memory, and the like. One or more computer-readable instructions may be stored on the computer-readable storage medium and executed by processor 502 to implement various functions of electronic device 500. Various application programs and various data and the like can also be stored in the storage medium.

For example, the detailed description of the process of the electronic device 500 executing the remote display method may refer to the related description in the embodiment of the remote display method applied to the first terminal, and repeated descriptions are omitted.

At least one embodiment of the present disclosure provides another electronic device. The electronic device may comprise the second terminal according to any of the embodiments described above, in which case the computer program instructions stored in the memory of the electronic device are executed by the processor of the electronic device to perform one or more steps of the remote presentation method applied to the second terminal according to any of the embodiments described above.

Referring now to FIG. 6, a block diagram of an electronic device 600 suitable for use in implementing embodiments of the present disclosure is shown. The electronic device in the embodiments of the present disclosure may include, but is not limited to, a mobile terminal such as a smartphone, a notebook computer, a PAD (tablet computer), and the like, and a stationary terminal such as a desktop computer and the like. The electronic device shown in fig. 6 is only an example, and should not bring any limitation to the functions and the scope of use of the embodiments of the present disclosure.

As shown in fig. 6, electronic device 600 may include a processing device (e.g., central processing unit, graphics processor, etc.) 601 that may perform various appropriate actions and processes in accordance with a program stored in a Read Only Memory (ROM)602 or a program loaded from a storage device 606 into a Random Access Memory (RAM) 603. In the RAM 603, various programs and data necessary for the operation of the electronic apparatus 600 are also stored. The processing device 601, the ROM 602, and the RAM 603 are connected to each other via a bus 604. An input/output (I/O) interface 605 is also connected to bus 604.

Generally, the following devices may be connected to the I/O interface 605: input devices 606 including, for example, a touch screen, touch pad, keyboard, mouse, camera, microphone, accelerometer, gyroscope, etc.; output devices 607 including, for example, a Liquid Crystal Display (LCD), a speaker, a vibrator, and the like; a storage device 606; and a communication device 609. The storage 606 may include various forms of program storage units as well as data storage units, such as magnetic tape, hard disk, Read Only Memory (ROM), Random Access Memory (RAM), which can be used to store various data files used for computer processing and/or communications, as well as possible program instructions executed by 601. The communication device 609 may allow the electronic device 600 to communicate with other devices wirelessly or by wire to exchange data, such as to send and receive information and data. While fig. 6 illustrates an electronic device 600 having various means, it is to be understood that not all illustrated means are required to be implemented or provided. More or fewer devices may alternatively be implemented or provided.

In particular, according to an embodiment of the present disclosure, the processes described above with reference to the flowcharts may be implemented as a computer program. The computer program comprises, for example, program code for performing the method illustrated in the flow chart. In such embodiments, the computer program may be downloaded and installed from a network through the communication device 609, or installed from the storage device 606, or installed from the ROM 602. The computer program performs the above-described functions defined in the remote presentation method of the embodiment of the present disclosure when executed by the processing device 601.

It should be noted that the electronic device provided in the embodiment of the present disclosure may adopt an Android (Android) system, an IOS system, a Linux system, a Windows system, and the like.

At least one embodiment of the present disclosure further provides a remote display system, and fig. 7 is a schematic diagram of a remote display system provided in an embodiment of the present disclosure.

For example, as shown in FIG. 7, remote presentation system 700 may include a first terminal 701 and a second terminal 702. The remote display system provided by the embodiment of the present disclosure may be applied to an internet system, and the first terminal 701 and the second terminal 702 are connected through a network.

For example, the first terminal 701 is configured to: establishing a first transmission channel group with a second terminal based on a real-time audio and video technology, so that a first image of a target space displayed by the first terminal is the same as a second image of the target space displayed by the second terminal; acquiring a first interactive data group corresponding to a first user, wherein the first interactive data group comprises first operation data of a first user, detected by a first terminal, executing a first operation on a first image of a target space displayed by the first terminal, and first media data detected by the first terminal; and transmitting the first interactive data group to the second terminal through the first transmission channel group.

For example, the second terminal 702 is configured to: and synchronously executing a first operation on a second image displayed by the second terminal in response to the first operation data so that the first image displayed by the first terminal and the second image displayed by the second terminal are consistent, and displaying information corresponding to the first media data to a second user corresponding to the second terminal in response to the first media data.

For example, the first terminal 701 may be the first terminal 100 described in any of the above embodiments, and the second terminal 702 may be the second terminal 200 described in any of the above embodiments. The description of the first terminal 701 may refer to the description of the first terminal 100 above and the description of the second terminal 702 may refer to the description of the second terminal 200 above.

At least one embodiment of the present disclosure further provides a storage medium, and fig. 8 is a schematic diagram of a storage medium provided in an embodiment of the present disclosure.

For example, as shown in FIG. 8, one or more computer readable instructions 801 may be stored non-temporarily on a storage medium 800. For example, the computer readable instructions 801, when executed by a computer, may perform one or more steps in a remote presentation method applied to a first terminal according to the description above.

For example, the storage medium 800 may be applied to the electronic device 500 described above, and may include the memory 501 in the electronic device 500, for example.

For example, the description of the storage medium 800 may refer to the description of the memory in the embodiment of the electronic device 500, and repeated descriptions are omitted.

At least one embodiment of the present disclosure also provides another storage medium storing computer-readable instructions that, when executed by a computer, may perform one or more steps of the remote presentation method applied to a second terminal according to the above description.

For the present disclosure, there are also the following points to be explained:

(1) the drawings of the embodiments of the disclosure only relate to the structures related to the embodiments of the disclosure, and other structures can refer to the common design.

(2) Thicknesses and dimensions of layers or structures may be exaggerated in the drawings used to describe embodiments of the present invention for clarity. It will be understood that when an element such as a layer, film, region, or substrate is referred to as being "on" or "under" another element, it can be "directly on" or "under" the other element or intervening elements may be present.

(3) Without conflict, embodiments of the present disclosure and features of the embodiments may be combined with each other to arrive at new embodiments.

The above description is only for the specific embodiments of the present disclosure, but the scope of the present disclosure is not limited thereto, and the scope of the present disclosure should be subject to the scope of the claims.

Claims (25)

1. A remote display method is applied to a first terminal and comprises the following steps:

establishing a first transmission channel group with a second terminal based on a real-time audio and video technology, so that a first image of a target space displayed by the first terminal is the same as a second image of the target space displayed by the second terminal;

acquiring a first interactive data group corresponding to a first user, wherein the first interactive data group comprises first operation data, detected by the first terminal, of the first user performing a first operation on the first image displayed by the first terminal, and first media data detected by the first terminal;

and transmitting the first interactive data set to the second terminal through the first transmission channel set, so that the second terminal synchronously executes the first operation on the second image displayed by the second terminal in response to the first operation data, so that the second image displayed by the second terminal and the first image displayed by the first terminal are kept consistent, and the second terminal displays information corresponding to the first media data to a second user corresponding to the second terminal in response to the first media data.

2. The remote display method of claim 1, further comprising:

acquiring a second interactive data group corresponding to the first user, wherein the second interactive data group comprises second operation data, detected by the first terminal, of the first user performing a second operation on the first image and second media data detected by the first terminal;

in response to the second operation, the first image shown by the first terminal becomes a panoramic image of any subspace of the target space;

and transmitting the second interactive data set to the second terminal through the first transmission channel set, so that the second terminal synchronously performs the second operation on the second image in response to the first operation data, so that the second image displayed by the second terminal becomes a panoramic image of any subspace of the target space, and so that the second terminal displays information corresponding to the second media data to the second user in response to the second media data.

3. The remote display method of claim 1, further comprising:

responding to a first control authority transfer instruction sent by the second user through the second terminal, and transferring the control authority of the first terminal to the second terminal; alternatively, the first and second electrodes may be,

and transferring the control authority of the first terminal to the second terminal in response to detecting a first control authority release instruction sent by the first user through the first terminal.

4. The remote display method of claim 3, further comprising:

receiving a third interactive data group transmitted from the second terminal through the first transmission channel group, wherein the third interactive data group comprises third operation data detected by the second terminal and used for the second user to perform a third operation on the second image displayed by the second terminal and third media data detected by the second terminal;

and synchronously executing the third operation on the first image displayed by the first terminal in response to the third operation data so that the first image displayed by the first terminal and the second image displayed by the second terminal are consistent, and displaying information corresponding to the third media data to the first user in response to the third media data.

5. The remote display method of claim 3, further comprising:

receiving a fourth interactive data group transmitted from the second terminal through the first transmission channel group, wherein the fourth interactive data group comprises fourth operation data detected by the second terminal and used for performing a fourth operation on the second image displayed by the second terminal by the second user and fourth media data detected by the second terminal, and the second terminal responds to the fourth operation to enable the second image displayed by the second terminal to become a panoramic image of any subspace of the target space;

and synchronously executing the fourth operation on the first image in response to the fourth operation data so that the first image displayed by the first terminal becomes a panoramic image of any subspace of the target space, and displaying information corresponding to the fourth media data to the first user in response to the fourth media data.

6. The remote presentation method of any one of claims 1-5, wherein the first terminal comprises a first page, a first media module, and a first operations processing module,

the obtaining the first interaction data set corresponding to the first user comprises:

acquiring the first media data through the first media module;

obtaining first original operation data of the first user executing the first operation on the first image through the first page detection, packaging the first original operation data to obtain the first operation data, and obtaining the first operation data through the first operation processing module.

7. The remote display method of any of claims 1-5, wherein the first transmission channel group comprises a first transmission channel and a second transmission channel,

transmitting the first interactive data group to the second terminal through the first transmission channel group includes:

transmitting the first operation data to the second terminal through the first transmission channel;

and transmitting the first media data to the second terminal through the second transmission channel.

8. The remote presentation method of any one of claims 1-5, wherein establishing the first transmission channel group with the second terminal based on a real-time audio-video technology comprises:

sending a first connection request signal to the second terminal;

receiving a first receiving feedback signal returned by the second terminal;

and establishing the first transmission channel group based on the real-time audio and video technology according to the first receiving feedback signal.

9. The remote presentation method of any one of claims 1-5, further comprising:

establishing a second transmission channel group with a third terminal based on the real-time audio and video technology, so that the first image displayed by the first terminal is the same as a third image of the target space displayed by the third terminal;

and transmitting the first interactive data set to the third terminal through the second transmission channel set, so that the third terminal synchronously executes the first operation on the third image displayed by the third terminal in response to the first operation data, so that the first image displayed by the first terminal and the third image displayed by the third terminal are kept consistent, and the third terminal displays information corresponding to the first media data to a third user corresponding to the third terminal in response to the first media data.

10. The remote presentation method of claim 9, wherein the second transmission channel group comprises a third transmission channel and a fourth transmission channel,

transmitting the first interactive data group to the third terminal through the second transmission channel group includes:

transmitting the first operation data to the third terminal through the third transmission channel;

and transmitting the first media data to the third terminal through the fourth transmission channel.

11. The remote presentation method of claim 9, wherein establishing the second transmission channel group based on real-time audio-video technology comprises:

sending a first participation signal to the third terminal;

receiving a second receiving feedback signal returned by the third terminal;

and establishing the second transmission channel group based on the real-time audio and video technology according to the second receiving feedback signal.

12. The remote presentation method of claim 9, further comprising:

responding to a second control authority transfer instruction sent by the third user through the third terminal, and transferring the control authority of the first terminal to the third terminal; or

And transferring the control authority of the first terminal to the third terminal in response to detecting a second control authority release instruction sent by the first user through the first terminal.

13. The remote display method of claim 12, further comprising:

receiving a fifth interactive data group transmitted from the third terminal through the second transmission channel group, wherein the fifth interactive data group comprises fifth operation data detected by the third terminal and used for performing a fifth operation on the third image displayed by the third terminal by the third user, and fifth media data detected by the third terminal;

and synchronously executing the fifth operation on the first image displayed by the first terminal in response to the fifth operation data so that the first image displayed by the first terminal and the third image displayed by the third terminal are consistent, and displaying information corresponding to the fifth media data to the first user in response to the fifth media data.

14. The remote display method of claim 12, further comprising:

receiving a sixth interactive data group transmitted from the third terminal through the second transmission channel group, wherein the sixth interactive data group includes sixth operation data of a third user detected by the third terminal performing a sixth operation on the third image and sixth media data detected by the third terminal, and the third terminal responds to the sixth operation to make the third image displayed by the third terminal become a panoramic image of any subspace of the target space;

and synchronously executing the sixth operation on the first image based on the sixth operation data so that the first image displayed by the first terminal becomes a panoramic image of any subspace of the target space, and displaying information corresponding to the sixth media data to the first user in response to the sixth media data.

15. The remote presentation method of any one of claims 1-5, wherein the first media data comprises voice data.

16. A remote display method is applied to a second terminal and comprises the following steps:

establishing a first transmission channel group with a first terminal based on a real-time audio and video technology, so that a first image of a target space displayed by the first terminal is the same as a second image of the target space displayed by a second terminal;

receiving a first interactive data group transmitted from the first terminal through the first transmission channel group, wherein the first interactive data group comprises first operation data of a first user detected by the first terminal performing a first operation on the first image displayed by the first terminal and first media data detected by the first terminal;

and synchronously executing the first operation on the second image in response to the first operation data so that the first image displayed by the first terminal and the second image displayed by the second terminal are kept consistent, and displaying the information corresponding to the first media data to a second user corresponding to the second terminal in response to the first media data.

17. The remote presentation method of claim 16, wherein establishing the first transmission channel group with the first terminal based on the real-time audio and video technology comprises:

sending a second connection request signal to the first terminal;

receiving a third receiving feedback signal returned by the first terminal;

and establishing the first transmission channel group based on the real-time audio and video technology according to the third received feedback signal.

18. The remote display method of claim 16, further comprising:

in response to detecting that a first control authority transfer instruction sent by the second user through the second terminal is detected, transferring the control authority of the first terminal to the second terminal; alternatively, the first and second electrodes may be,

and responding to a first control authority release instruction which is obtained and sent by the first user through the first terminal, and transferring the control authority of the first terminal to the second terminal.

19. The remote display method of claim 18, further comprising:

establishing a third transmission channel group with a third terminal based on the real-time audio and video technology, so that the second image displayed by the second terminal is the same as the third image of the target space displayed by the third terminal;

acquiring a third interactive data set corresponding to the second user, wherein the third interactive data set comprises third operation data of a second user, detected by the second terminal, performing a third operation on the second image displayed by the second terminal, and third media data detected by the second terminal;

and transmitting the third interactive data set to the third terminal through the third transmission channel set, so that the third terminal synchronously executes the third operation on the third image in response to the third operation data, so that the second image displayed by the second terminal and the third image displayed by the third terminal are consistent, and the third terminal displays information corresponding to the third media data to a third user corresponding to the third terminal in response to the third media data.

20. The remote display method of claim 18, further comprising:

establishing a third transmission channel group with a third terminal based on the real-time audio and video technology, so that the second image displayed by the second terminal is the same as the third image of the target space displayed by the third terminal;

acquiring a fourth interactive data set corresponding to the second user, wherein the fourth interactive data set comprises fourth operation data of a second user, detected by the second terminal, performing a fourth operation on the second image displayed by the second terminal, and fourth media data detected by the second terminal;

in response to the fourth operation, the second image displayed by the second terminal becomes a panoramic image of any subspace of the target space;

transmitting the fourth interactive data set to the third terminal through the third transmission channel set, so that the third terminal synchronously performs the fourth operation on the third image in response to the fourth operation data, so that the third image displayed by the third terminal becomes a panoramic image of any subspace of the target space, and so that the third terminal displays information corresponding to the fourth media data to a third user corresponding to the third terminal in response to the fourth media data.

21. The remote presentation method of claim 19 or 20, wherein establishing the third transmission channel group with a third terminal based on the real-time audio-video technology comprises:

sending a second participation signal to the third terminal;

receiving a fourth receiving feedback signal returned by the third terminal;

and establishing the third transmission channel group based on the real-time audio and video technology according to the fourth received feedback signal.

22. The remote presentation method of any one of claims 16-20, wherein the second terminal comprises a second operation processing module and a second page,

performing the first operation synchronously on the second image in response to the first operation data comprises:

the second operation processing module acquires the first operation data and transmits the first operation data to the second page;

the second page processes the first operation data to obtain first target operation data corresponding to the first operation;

and synchronously executing the first operation on the second image displayed by the second terminal through the second page based on the first target operation data.

23. An electronic device comprising a memory and a processor,

wherein the memory has stored therein computer program instructions, which when executed by the processor, perform the following:

establishing a first transmission channel group with a second terminal based on a real-time audio and video technology, so that a first image of a target space displayed by the first terminal is the same as a second image of the target space displayed by the second terminal;

acquiring a first interactive data group corresponding to a first user, wherein the first interactive data group comprises first operation data, detected by the first terminal, of the first user performing a first operation on the first image displayed by the first terminal, and first media data detected by the first terminal;

and transmitting the first interactive data set from the first terminal to the second terminal through the first transmission channel set, so that the second terminal synchronously executes the first operation on the second image displayed by the second terminal in response to the first operation data, so that the first image displayed by the first terminal and the second image displayed by the second terminal are kept consistent, and the second terminal displays information corresponding to the first media data to a second user corresponding to the second terminal in response to the first media data.

24. A remote display system, comprising: a first terminal and a second terminal, wherein,

wherein the first terminal is configured to:

establishing a first transmission channel group with a second terminal based on a real-time audio and video technology, so that a first image of a target space displayed by the first terminal is the same as a second image of the target space displayed by the second terminal;

acquiring a first interactive data group corresponding to a first user, wherein the first interactive data group comprises first operation data, detected by the first terminal, of the first user performing a first operation on the first image of the target space displayed by the first terminal, and first media data, detected by the first terminal, of the first user;

transmitting the first interactive data group to the second terminal through the first transmission channel group;

the second terminal is configured to: and synchronously executing the first operation on the second image displayed by the second terminal in response to the first operation data, so that the second image displayed by the second terminal and the first image displayed by the first terminal are consistent, and displaying the information corresponding to the first media data to a second user corresponding to the second terminal in response to the first media data.

25. A storage medium storing, non-transitory, computer-readable instructions that when executed by a computer perform a remote presentation method according to any one of claims 1-15.

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