CN118200679A - Remote equipment real-time control equipment based on 5G wireless communication technology - Google Patents

Abstract

The application discloses a remote equipment real-time control equipment based on a 5G wireless communication technology, which comprises: the system comprises a 5G display adapter, a 5G display receiver, a first input device output and receiving interface, a second input device and a second input device output and receiving interface. The 5G display adapter converts the picture data of the controlled device into a 5G display signal. The 5G display receiver converts the 5G display signal into a video signal. The first input device output interface converts a device manipulation instruction of the first input device into a first 5G operation signal. The first input device receiving interface converts the first 5G operation signal into an executable operation instruction. The second input device output interface converts the device manipulation instruction of the second input device into a second 5G operation signal. The second input device receiving interface converts the second 5G operation signal into an executable operation instruction. The application can improve the stability of real-time control of the remote equipment.

Description

Remote equipment real-time control equipment based on 5G wireless communication technology

Technical Field

The application relates to the technical field of remote control, in particular to remote equipment real-time control equipment based on a 5G wireless communication technology.

Background

Traditional remote device real-time control is realized through live broadcast, screen projection, cloud devices or remote desktops. These four approaches are typically limited by bandwidth, intermediate servers, network connection stability, time, etc.

For bandwidth limitation: in low bandwidth environments, blurring, distortion or pixellation of the remote image may occur.

For the intermediate server limit: when the load of the intermediate server is too high, the processing speed becomes slow, thereby causing a problem of remote real-time manipulation delay.

For network limitations: if the access network is unstable or limited (e.g., firewall, VPN (Virtual Private Network, virtual private network) limitations, etc.), remote real-time manipulation may be interrupted or become unavailable. Meanwhile, for example, screen projection is limited by the local area network environment, so that the screen projection is very inconvenient.

For time limit: most scenes can be automatically disconnected after being connected for a period of time or the prompt is overtime, and the risk of service interruption is faced at any time.

The conventional remote device is very unstable in real-time control due to limitations of bandwidth, intermediate server, network connection stability, time and the like.

Therefore, how to improve the stability of real-time control of the remote device is a technical problem that needs to be solved by those skilled in the art.

Disclosure of Invention

Based on the problems, the application provides the remote equipment real-time control equipment based on the 5G wireless communication technology, which can improve the stability of the remote equipment real-time control.

In order to solve the above problems, the technical solution provided by the embodiment of the present application is as follows:

A remote device real-time manipulation device based on a 5G wireless communication technology, the device comprising: a 5G display device, a first input device, and a second input device;

The 5G display device comprises a 5G display adapter and a 5G display receiver; the first input device comprises a first input device, a first input device output interface and a first input device receiving interface; the second input device comprises a second input device, a second input device output interface and a second input device receiving interface; the 5G display adapter, the first input device output interface and the second input device output interface are all inserted on the controlled device; the 5G display receiver, the first input device receiving interface and the second input device receiving interface are all inserted on the main control device; the first input device and the second input device are connected with the main control device;

The 5G display adapter is used for capturing the picture data of the controlled equipment, converting the picture data of the controlled equipment into a 5G display signal and sending the 5G display signal to the 5G display receiver;

The 5G display receiver is used for receiving the 5G display signal sent by the 5G display adapter and converting the 5G display signal into a video signal; the signal format of the video signal is a signal format which can be identified by the main control equipment;

the first input device output interface is used for converting a device control instruction of the first input device into a first 5G operation signal and sending the first 5G operation signal to the first input device receiving interface;

The first input device receiving interface is configured to receive the first 5G operation signal sent by the first input device output interface, and convert the first 5G operation signal into a first executable operation instruction; the instruction format of the first executable operation instruction is an instruction format which can be executed by the master control equipment;

The second input device output interface is configured to convert a device manipulation instruction of the second input device into a second 5G operation signal, and send the second 5G operation signal to the second input device receiving interface;

The second input device receiving interface is configured to receive the second 5G operation signal sent by the second input device output interface, and convert the second 5G operation signal into a second executable operation instruction; the instruction format of the second executable operation instruction is the instruction format which can be executed by the master control equipment.

In one possible implementation, the first input device output interface is further configured to:

Establishing a 5G communication link between the first input device and the first input device receiving interface; when the first input device output interface and the first input device are successfully paired, the 5G communication link between the first input device and the first input device receiving interface is successfully established; when the pairing of the first input device output interface and the first input device fails, the establishment of a 5G communication link between the first input device and the first input device receiving interface fails;

and when the 5G communication link between the first input device and the first input device receiving interface is successfully established, converting the device control instruction of the first input device into a first 5G operation signal and sending the first 5G operation signal to the first input device receiving interface.

In one possible implementation, the second input device output interface is further configured to:

Establishing a 5G communication link between the second input device and the second input device receiving interface; when the second input device output interface and the second input device are successfully paired, the 5G communication link between the second input device and the second input device receiving interface is successfully established; when the pairing of the second input device output interface and the second input device fails, the establishment of the 5G communication link between the second input device and the second input device receiving interface fails;

and when the 5G communication link between the second input device and the second input device receiving interface is successfully established, converting the device control instruction of the second input device into a second 5G operation signal and sending the second 5G operation signal to the second input device receiving interface.

In one possible implementation manner, the 5G display adapter sends the captured picture data of the controlled device to the 5G display receiver in a form of a video stream through a 5G network.

In one possible implementation, the same communication standard and protocol is used between the 5G display adapter and the 5G display receiver; the first input device output interface and the first input device receiving interface adopt the same communication standard and protocol; the second input device output interface and the second input device receiving interface adopt the same communication standard and protocol.

In one possible implementation, the communication standard and protocol employed between the first input device output interface and the first input device receiving interface is the same as the communication standard and protocol employed between the second input device output interface and the second input device receiving interface.

In one possible implementation, the 5G display adapter is plugged onto an interface of a digital display port of the controlled device; and the interface of the digital display port is arranged on the display card of the controlled device.

In one possible implementation, the 5G display receiver is plugged onto a display device of the master device.

In one possible implementation, the first input device receiving interface and the second input device receiving interface are both plugged onto a display device of the master device.

In one possible implementation, the first input device output interface and the second input device output interface are both plugged onto a universal serial bus interface of the controlled device.

Compared with the prior art, the application has the following beneficial effects:

The application provides a remote equipment real-time control equipment based on a 5G wireless communication technology, which comprises the following components: a 5G display device, a first input device, and a second input device. The 5G display device comprises a 5G display adapter and a 5G display receiver, and the first input device comprises a first input device, a first input device output interface and a first input device receiving interface. The second input means comprises a second input device, a second input device output interface and a second input device receiving interface. The 5G display adapter, the first input device output interface and the second input device output interface are all inserted on the controlled device, and the 5G display receiver, the first input device receiving interface and the second input device receiving interface are all inserted on the main control device. The first input device and the second input device are both connected with the main control device. The 5G display adapter is used for converting the picture data of the controlled equipment into a 5G display signal by capturing the picture data of the controlled equipment and transmitting the 5G display signal to the 5G display receiver. The 5G display receiver receives the 5G display signal sent by the 5G display adapter and converts the 5G display signal into a video signal, wherein the signal format of the video signal is a signal format which can be identified by the main control equipment. The first input device output interface may convert the device manipulation instruction of the first input device into a first 5G operation signal, and send the first 5G operation signal to the first input device receiving interface. The first input device receiving interface may convert the received first 5G operation signal into a first executable operation instruction, where an instruction format of the first executable operation instruction is an instruction format that may be executed by the master device. The second input device output interface may convert the device manipulation instruction of the second input device into a second 5G operation signal, and send the second 5G operation signal to the second input device receiving interface. The second input device receiving interface converts the received second 5G operation signal into a second executable operation instruction, where the instruction format of the second executable operation instruction is an instruction format that can be executed by the master control device. According to the application, the data is transmitted by the 5G technology, so that the signal is more stable and reliable in the transmission process, is not easily influenced by external interference, and ensures the stability of remote control. Meanwhile, the 5G technology is used for transmitting the picture data and the operation instruction, so that quick response and real-time control can be realized. In addition, the characteristics of the 5G technology enable signal transmission delay to be low, so that operation delay is reduced, and user experience is improved.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the application, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a block diagram of a remote device real-time control device based on a 5G wireless communication technology according to an embodiment of the present application.

Detailed Description

In order to make the present application better understood by those skilled in the art, the following description will clearly and completely describe the technical solutions in the embodiments of the present application with reference to the accompanying drawings, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Live broadcast: live broadcast is a way to deliver real-time video and audio content to viewers over a network. In the aspect of remote desktop, the desktop sharing can be performed by using a live platform, and the desktop of the user is displayed for other people to watch in real time.

Screen throwing: screen casting is a technique of mirroring screen content on a mobile device (e.g., a cell phone or tablet) to another display device (e.g., a television or projector). In the aspect of a remote desktop, screen contents of the mobile device can be shared to the remote device by using a screen throwing technology, so that remote control and operation are realized.

Cloud computer: cloud computing is a remote desktop solution based on cloud computing technology. The user is connected to the cloud server through the Internet, the computing task and the desktop environment are completely moved to the cloud for processing, and the user can remotely access and operate the desktop environment of the cloud through terminal equipment (such as a computer, a mobile phone and the like).

Remote desktop: remote desktop is a way to connect to a remote computer over a network and remotely access its desktop environment. A user can use remote desktop client software on the local equipment to transmit control commands and image data through a network so as to realize remote operation and access to a remote computer.

Traditional remote device real-time control is realized through live broadcast, screen projection, cloud devices or remote desktops. Traditional remote device real-time control faces bandwidth, intermediate server, network connection stability, and time constraints.

Image blurring, distortion, or pixellation may result in a low bandwidth environment. An overloaded intermediate server may cause delay problems. Unstable networks or restricted access may result in interruption or unavailability. At the same time, time constraints also exist, and the connection may be disconnected or time out, resulting in a risk of service interruption.

In view of these limitations, conventional remote device real-time manipulations are unstable.

In order to solve the problem, in an embodiment of the present application, a remote device real-time control device based on a 5G wireless communication technology is provided, where the remote device real-time control device includes a 5G display device (including an adapter and a receiver), a first input device (including a device, an output interface, and a receiving interface), and a second input device (including a device, an output interface, and a receiving interface). The picture data of the controlled equipment is captured through the 5G display adapter and converted into a 5G display signal, the 5G display signal is sent to the 5G display receiver, and then the 5G display signal is converted into a video signal which can be recognized by the main control equipment. The first input device output interface converts the control instruction into a first 5G operation signal, sends the first 5G operation signal to the first input device receiving interface, and then converts the first 5G operation signal into an executable operation instruction. Likewise, the second input device has a similar function. The application transmits data through a 5G technology, ensures stable and reliable signal transmission and realizes remote control stability. By using the 5G transmission picture and the instruction, quick response and real-time control can be realized. The 5G low-delay characteristic is beneficial to reducing operation delay and improving user experience.

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Referring to fig. 1, fig. 1 is a block diagram of a remote device real-time control device based on a 5G wireless communication technology according to an embodiment of the present application. The apparatus as shown in fig. 1 includes: the display device comprises a 5G display device, a first input device and a second input device. The 5G display device includes a 5G display adapter 111 and a 5G display receiver 112. The first input means comprises a first input device 120, a first input device output interface 121 and a first input device receiving interface 122. The second input means comprises a second input device 130, a second input device output interface 131 and a second input device receiving interface 132. The 5G display adapter 111, the first input device output interface 121, and the second input device output interface 131 are all plugged onto the controlled device a. The 5G display receiver 112, the first input device receiving interface 122, and the second input device receiving interface 132 are all plugged onto the master device B. The first input device 120 and the second input device 130 are both connected to the master device B.

It should be noted that, the controlled device a generally refers to a device that needs to be remotely controlled or monitored, such as a smart phone, a computer, a television, and the like. The master device B is a device for sending control signals or receiving data, and is typically a central control unit for controlling and managing other devices, such as a smart phone, a computer, etc. Therefore, the controlled device and the master device may be the same type of electronic device, or may be various different types of electronic devices.

In one possible implementation, the first input device 120 may be connected to the master device B by a wired connection or may be connected to the master device B by a wireless connection. Likewise, the second input device 130 may be connected to the master device B by a wired connection or may be connected to the master device B by a wireless connection.

Alternatively, the first input device 120 may be, but is not limited to, a keyboard or a mouse. The second input device 130 may be, but is not limited to, a keyboard or a mouse.

The 5G display adapter 111 is configured to capture the picture data of the controlled device, convert the picture data of the controlled device a into a 5G display signal, and send the 5G display signal to the 5G display receiver 112.

A 5G display receiver 112 for receiving the transmitted 5G display signal of the 5G display adapter 111 and converting the 5G display signal into a video signal. The signal format of the video signal is a signal format recognizable by the master control apparatus B.

The 5G display adapter 111 transmits picture data to the 5G display receiver 112 through a 5G signal, and then the 5G display receiver 112 converts these data into a video signal format that can be understood and displayed by the master device B so that the master device B can correctly display the relevant content.

The first input device output interface 121 is configured to convert a device manipulation instruction of the first input device 120 into a first 5G operation signal, and send the first 5G operation signal to the first input device receiving interface 122.

The first input device 120 converts the device manipulation instruction into an operation signal suitable for 5G communication through the first input device output interface 121, and sends the operation signal to the controlled device a for processing through the first input device receiving interface 122. This process can enable communication and control between the master device B and the slave device a.

The first input device receiving interface 122 is configured to receive the first 5G operation signal sent by the first input device output interface 121, and convert the first 5G operation signal into a first executable operation instruction. The instruction format of the first executable operation instruction is an instruction format executable by the master control device.

The second input device output interface 131 is configured to convert the device manipulation instruction of the second input device 130 into a second 5G operation signal, and send the second 5G operation signal to the second input device receiving interface 132.

The second input device receiving interface 132 is configured to receive the second 5G operation signal sent by the second input device output interface 131, and convert the second 5G operation signal into a second executable operation instruction. The instruction format of the second executable operation instruction is an instruction format executable by the master control device.

In one possible implementation, the first input device output interface 121 is further configured to: a 5G communication link is established between the first input device 120 and the first input device receive interface 122.

When the pairing of the first input device output interface 122 with the first input device 120 is successful, the establishment of the 5G communication link between the first input device 120 and the first input device receiving interface 122 is successful. When the pairing of the first input device output interface 122 with the first input device 120 fails, the 5G communication link establishment between the first input device 120 and the first input device receiving interface 122 fails. And the first input device output interface 121 converts the device manipulation instruction of the first input device into the first 5G operation signal only when the 5G communication link between the first input device 120 and the first input device receiving interface 122 is successfully established, and transmits the first 5G operation signal to the first input device receiving interface 122.

When the output interface 121 of the first input device is successfully paired with the first input device 120, a 5G communication link is established between the first input device 120 and the first input device receiving interface 122, which means that they can perform data transmission and communication through 5G technology. In contrast, when the pairing of the output interface 121 of the first input device with the first input device 120 fails, a 5G communication link cannot be established between the first input device 120 and the first input device receiving interface 122, which means that they cannot perform data transmission and communication through the 5G technology.

Whether pairing is successful or not determines whether a 5G communication link can be established, and thus whether data transmission and communication between devices are possible.

The process of pairing the output interface 121 of the first input device with the first input device 120 is done automatically.

In one possible implementation, the second input device output interface 131 is further configured to: a 5G communication link between the second input device 130 and the second input device receiving interface 133 is established.

When the pairing of the second input device output interface 131 and the second input device 130 is successful, the establishment of the 5G communication link between the second input device 130 and the second input device receiving interface 133 is successful. When the pairing of the second input device output interface 131 and the second input device 130 fails, the 5G communication link establishment between the second input device 130 and the second input device receiving interface 133 fails. And when the 5G communication link between the second input device 130 and the second input device receiving interface 133 is successfully established, the second input device output interface 131 converts the device manipulation instruction of the second input device 130 into a second 5G operation signal, and sends the second 5G operation signal to the second input device receiving interface 133.

In one possible implementation, the 5G display adapter 111 sends the captured picture data of the controlled device to the 5G display receiver 112 in the form of a video stream over the 5G network.

In one possible implementation, the same communication standard and protocol is employed between 5G display adapter 111 and 5G display receiver 112.

Likewise, the same communication standard and protocol is used between the first input device output interface 121 and the first input device receiving interface 122. The same communication standard and protocol is used between the second input device receiving interface 131 and the second input device output interface 133.

In one possible implementation, the communication standard and protocol employed between the first input device output interface 121 and the first input device receiving interface 122 may also be the same as the communication standard and protocol employed between the second input device output interface 131 and the second input device receiving interface 132.

In one possible implementation, 5G display adapter 111 plugs onto the interface of the digital display port of controlled device A. The interface of the digital display port is arranged on the display card of the controlled device A.

That is, the 5G display receiver 112 is inserted on the DP interface of the graphic card of the controlled device a. DP stands for DisplayPort, a digital display interface standard. DisplayPort is a high performance digital interface used to connect devices to a display device (e.g., a display). It supports video transmission with high resolution, high refresh rate and dark bits, while also being able to transmit audio signals.

In one possible implementation, the 5G display receiver 112 is plugged onto the display device of the master device B.

Alternatively, the display means of the master device B may be a display of the master device B.

In one possible implementation, the first input device receiving interface 122 and the second input device receiving interface 132 are both plugged onto the display of the master device B.

In one possible implementation, the first input device output interface 121 and the second input device output interface 131 are both plugged onto a universal serial bus (Universal Serial Bus, USB) interface of the controlled device a.

The application provides a remote equipment real-time control device based on a 5G wireless communication technology, which comprises a 5G display device, a first input device and a second input device. The 5G display device comprises a 5G display adapter and a 5G display receiver, and the first input device comprises a first input device, a first input device output interface and a first input device receiving interface. The second input means comprises a second input device, a second input device output interface and a second input device receiving interface. The 5G display adapter, the first input device output interface and the second input device output interface are all inserted on the controlled device, and the 5G display receiver, the first input device receiving interface and the second input device receiving interface are all inserted on the main control device. The first input device and the second input device are both connected with the main control device. The 5G display adapter is used for converting the picture data of the controlled equipment into a 5G display signal by capturing the picture data of the controlled equipment and sending the 5G display signal to the 5G display receiver. The 5G display receiver converts the 5G display signal into a video signal, wherein the signal format of the video signal is a signal format which can be identified by the main control equipment. The first input device output interface may convert the device manipulation instruction of the first input device into a first 5G operation signal and send the first 5G operation signal to the first input device receiving interface. The first input device receiving interface may convert the first 5G operation signal into a first executable operation instruction, where an instruction format of the first executable operation instruction is an instruction format executable by the master device. The second input device output interface may convert the device manipulation instruction of the second input device into a second 5G operation signal and send the second 5G operation signal to the second input device receiving interface. The second input device receiving interface converts the second 5G operation signal into a second executable operation instruction, wherein the instruction format of the second executable operation instruction is an instruction format which can be executed by the master control device. According to the application, the data is transmitted by the 5G technology, so that the signal is more stable and reliable in the transmission process, is not easily influenced by external interference, and ensures the stability of remote control.

The remote equipment real-time control equipment based on the 5G wireless communication technology is described in detail. In the description, each embodiment is described in a progressive manner, and each embodiment is mainly described by the differences from other embodiments, so that the same similar parts among the embodiments are mutually referred. For the device disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the description of the method section. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the application can be made without departing from the principles of the application and these modifications and adaptations are intended to be within the scope of the application as defined in the following claims.

It should be understood that in the present application, "at least one (item)" means one or more, and "a plurality" means two or more. "and/or" for describing the association relationship of the association object, the representation may have three relationships, for example, "a and/or B" may represent: only a, only B and both a and B are present, wherein a, B may be singular or plural. The character "/" generally indicates that the context-dependent object is an "or" relationship. "at least one of" or the like means any combination of these items, including any combination of single item(s) or plural items(s). For example, at least one (one) of a, b or c may represent: a, b, c, "a and b", "a and c", "b and c", or "a and b and c", wherein a, b, c may be single or plural.

It is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

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

Claims (10)

1. A remote device real-time manipulation device based on a 5G wireless communication technology, the device comprising: a 5G display device, a first input device, and a second input device;

The 5G display device comprises a 5G display adapter and a 5G display receiver; the first input device comprises a first input device, a first input device output interface and a first input device receiving interface; the second input device comprises a second input device, a second input device output interface and a second input device receiving interface; the 5G display adapter, the first input device output interface and the second input device output interface are all inserted on the controlled device; the 5G display receiver, the first input device receiving interface and the second input device receiving interface are all inserted on the main control device; the first input device and the second input device are connected with the main control device;

The 5G display adapter is used for capturing the picture data of the controlled equipment, converting the picture data of the controlled equipment into a 5G display signal and sending the 5G display signal to the 5G display receiver;

The 5G display receiver is used for receiving the 5G display signal sent by the 5G display adapter and converting the 5G display signal into a video signal; the signal format of the video signal is a signal format which can be identified by the main control equipment;

the first input device output interface is used for converting a device control instruction of the first input device into a first 5G operation signal and sending the first 5G operation signal to the first input device receiving interface;

The first input device receiving interface is configured to receive the first 5G operation signal sent by the first input device output interface, and convert the first 5G operation signal into a first executable operation instruction; the instruction format of the first executable operation instruction is an instruction format which can be executed by the master control equipment;

The second input device output interface is configured to convert a device manipulation instruction of the second input device into a second 5G operation signal, and send the second 5G operation signal to the second input device receiving interface;

The second input device receiving interface is configured to receive the second 5G operation signal sent by the second input device output interface, and convert the second 5G operation signal into a second executable operation instruction; the instruction format of the second executable operation instruction is the instruction format which can be executed by the master control equipment.

2. The device of claim 1, wherein the first input device output interface is further to:

Establishing a 5G communication link between the first input device and the first input device receiving interface; when the first input device output interface and the first input device are successfully paired, the 5G communication link between the first input device and the first input device receiving interface is successfully established; when the pairing of the first input device output interface and the first input device fails, the establishment of a 5G communication link between the first input device and the first input device receiving interface fails;

and when the 5G communication link between the first input device and the first input device receiving interface is successfully established, converting the device control instruction of the first input device into a first 5G operation signal and sending the first 5G operation signal to the first input device receiving interface.

3. The device of claim 1, wherein the second input device output interface is further configured to:

Establishing a 5G communication link between the second input device and the second input device receiving interface; when the second input device output interface and the second input device are successfully paired, the 5G communication link between the second input device and the second input device receiving interface is successfully established; when the pairing of the second input device output interface and the second input device fails, the establishment of the 5G communication link between the second input device and the second input device receiving interface fails;

and when the 5G communication link between the second input device and the second input device receiving interface is successfully established, converting the device control instruction of the second input device into a second 5G operation signal and sending the second 5G operation signal to the second input device receiving interface.

4. The device of claim 1, wherein the 5G display adapter transmits the captured picture data of the controlled device to the 5G display receiver in the form of a video stream over a 5G network.

5. The apparatus of claim 1, wherein the same communication standard and protocol is employed between the 5G display adapter and the 5G display receiver; the first input device output interface and the first input device receiving interface adopt the same communication standard and protocol; the second input device output interface and the second input device receiving interface adopt the same communication standard and protocol.

6. The device of claim 1, wherein a communication standard and protocol employed between the first input device output interface and the first input device receive interface is the same as a communication standard and protocol employed between the second input device output interface and the second input device receive interface.

7. The device of claim 1, wherein the 5G display adapter is plugged onto an interface of a digital display port of the controlled device; and the interface of the digital display port is arranged on the display card of the controlled device.

8. The device of claim 1, wherein the 5G display receiver is plugged onto a display device of the master device.

9. The device of claim 1, wherein the first input device receiving interface and the second input device receiving interface are both plugged onto a display of the master device.

10. The device of claim 1, wherein the first input device output interface and the second input device output interface are both plugged onto a universal serial bus interface of the controlled device.