CN111147536A - Data transmission method and device, server, monitoring equipment and interaction system - Google Patents

Abstract

The invention is suitable for the technical field of communication, and provides a data transmission method and device, a server, monitoring equipment and an interaction system, wherein the transmission method comprises the following steps: authenticating with the monitoring equipment; receiving monitoring data uploaded by the monitoring equipment when the authentication is passed; issuing an instruction to the monitoring equipment; and receiving an execution result fed back by the monitoring equipment based on the instruction. According to the invention, the bidirectional connection between the monitoring equipment and the server is established, the transmission of data and instructions is realized, and the data monitoring efficiency is improved.

Description

Data transmission method and device, server, monitoring equipment and interaction system

Technical Field

The invention belongs to the technical field of communication, and particularly relates to a data transmission method and device, a server, monitoring equipment and an interaction system.

Background

The deformation monitoring technology is mainly used for determining the shape, the size and the position space and time of the deformation body, and corresponding analysis is needed after the properties of the deformation body and the foundation condition are combined. The deformation bodies generally studied and analyzed include buildings, slopes, dams, bridges and the like, and belong to deformation bodies in precision engineering measurement.

In the prior art, only one-way connection is established between the monitoring terminal and the server, the server cannot manage and control the equipment, and the management and control operation is generally performed on the site of the equipment by manpower. For scenes such as mountain electric power towers, side slopes and the like, the equipment is controlled in a manual mode, so that large labor cost is needed, however, if monitoring data cannot be stably transmitted back to a server due to unstable hardware of some equipment and needs to be restarted, a period of time may be needed for manual arrival at the site of the equipment, the efficiency is low, during equipment failure, the server fails to resolve due to the fact that the server cannot receive the monitoring data, and the actual condition of a monitoring object (serving as a satellite receiver, continuously observing satellite positioning data and used for subsequent precise subsequent processing and obtaining a high-precision position) cannot be known, so that the monitoring efficiency is low, and the monitoring precision is not high.

Disclosure of Invention

The embodiment of the invention provides a data transmission method and device, a server, monitoring equipment and an interaction system, and aims to solve the problem of low monitoring efficiency caused by unidirectional connection between a monitoring end and the server in the prior art.

A method of data transmission, comprising:

authenticating with the monitoring equipment;

receiving monitoring data uploaded by the monitoring equipment when the authentication is passed;

issuing an instruction to the monitoring equipment;

and receiving an execution result fed back by the monitoring equipment based on the instruction.

Preferably, before authenticating with the monitoring device, the method further includes:

and receiving an authentication request of the monitoring equipment.

Preferably, before receiving the authentication request of the monitoring device, the method further includes:

receiving a connection request of the monitoring equipment;

and establishing connection with the monitoring equipment based on the connection request.

Preferably, the instruction is one of: restarting, shutting down, and configuring the monitoring device.

Preferably, the authentication request includes authentication information, and the authentication information is encrypted in an asymmetric encryption manner.

The present invention also provides a data transmission apparatus, comprising:

the authentication unit is used for authenticating with the monitoring equipment;

the first receiving unit is used for receiving the monitoring data uploaded by the monitoring equipment when the authentication is passed;

the issuing unit is used for issuing an instruction to the monitoring equipment;

and the second receiving unit is used for receiving an execution result fed back by the monitoring equipment based on the instruction.

The invention also provides a server, which comprises a data transmission device, wherein the transmission device comprises:

the authentication unit is used for authenticating with the monitoring equipment;

the first receiving unit is used for receiving the monitoring data uploaded by the monitoring equipment when the authentication is passed;

the issuing unit is used for issuing an instruction to the monitoring equipment;

and the second receiving unit is used for receiving an execution result fed back by the monitoring equipment based on the instruction.

The invention also provides a data transmission method, which comprises the following steps:

authenticating with a server;

when the authentication is passed, uploading monitoring data to the server;

receiving an instruction issued by the server;

and executing the instruction and feeding back an execution result to the server.

Preferably, before authenticating with the service end, the method further includes:

and initiating an authentication request to the server.

Preferably, before initiating the authentication request to the server, the method further includes:

initiating a connection request to the server;

and receiving the response of the server and establishing connection with the server.

The present invention also provides a data transmission apparatus, comprising:

the authentication unit is used for authenticating with the server;

the uploading unit is used for uploading the monitoring data to the server when the authentication is passed;

the receiving unit is used for receiving the command issued by the server;

and the execution unit is used for executing the instruction and feeding back an execution result to the server.

The present invention also provides a monitoring device, the monitoring device comprising a data transmission apparatus, the transmission apparatus comprising:

the authentication unit is used for authenticating with the server;

the uploading unit is used for uploading the monitoring data to the server when the authentication is passed;

the receiving unit is used for receiving the command issued by the server;

and the execution unit is used for executing the instruction and feeding back an execution result to the server.

The invention also provides an interactive system comprising:

and the monitoring equipment is used for authenticating with the server, uploading monitoring data to the server after the authentication is passed, receiving and executing the instruction issued by the server and feeding back an execution result.

And the server is used for receiving the monitoring data uploaded by the monitoring equipment after passing the authentication with the monitoring equipment, issuing an instruction to the monitoring equipment and receiving an execution result fed back by the monitoring equipment.

The invention also provides a memory storing a computer program executed by a processor to perform the steps of:

authenticating with the monitoring equipment;

receiving monitoring data uploaded by the monitoring equipment when the authentication is passed;

issuing an instruction to the monitoring equipment based on the received monitoring data;

and receiving an execution result fed back by the monitoring equipment based on the instruction.

The invention also provides a service terminal, which comprises a memory, a processor and a computer program which is stored in the memory and can run on the processor, wherein the processor executes the computer program to realize the following steps:

authenticating with the monitoring equipment;

receiving monitoring data uploaded by the monitoring equipment when the authentication is passed;

issuing an instruction to the monitoring equipment based on the received monitoring data;

and receiving an execution result fed back by the monitoring equipment based on the instruction.

In the embodiment of the invention, the bidirectional connection between the monitoring equipment and the server is established, the transmission of data and instructions is realized, and the data monitoring efficiency is improved.

Drawings

Fig. 1 is a flowchart of a data transmission method according to a first embodiment of the present invention;

fig. 2 is a flowchart of a preferred mode of a data transmission method according to a first embodiment of the present invention;

fig. 3 is a structural diagram of a data transmission apparatus according to a second embodiment of the present invention;

fig. 4 is a flowchart of a data transmission method according to a third embodiment of the present invention;

fig. 5 is a flowchart of a preferred mode of a data transmission method according to a third embodiment of the present invention;

fig. 6 is a structural diagram of a data transmission apparatus according to a fourth embodiment of the present invention;

fig. 7 is a block diagram of an interactive system according to a fifth embodiment of the present invention;

fig. 8 is a structural diagram of a service terminal according to a sixth embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In an embodiment of the present invention, a data transmission method includes: authenticating with the monitoring equipment; receiving monitoring data uploaded by the monitoring equipment when the authentication is passed; issuing an instruction to the monitoring equipment based on the received monitoring data; and receiving an execution result fed back by the monitoring equipment based on the instruction.

In order to explain the technical means of the present invention, the following description will be given by way of specific examples.

The first embodiment is as follows:

fig. 1 shows a flowchart of a data transmission method according to a first embodiment of the present invention, where the data transmission method includes:

step S1, authenticating with the monitoring equipment;

specifically, the server is first established to authenticate with the monitoring device, the monitoring device is configured to receive the monitoring data, and when the authentication is passed, the process goes to step S2, otherwise, the process is stopped.

Step S2, receiving monitoring data uploaded by the monitoring equipment;

specifically, when the authentication is passed, it means that a mutual trust mechanism with the monitoring device is established, and at this time, monitoring data uploaded by the monitoring device can be received. The monitoring data may include: observation data, satellite data, and the like, the monitoring data and the like being received via an antenna; preferably, the format of the monitoring data may be an RTCM format or other custom format, which is not limited herein.

Step S3, sending an instruction to the monitoring equipment;

specifically, after receiving the monitoring data, the monitoring data may be analyzed, and an instruction may be issued according to the analysis result, or the instruction may be issued directly according to the requirement. The instruction may be to restart, shut down, go to sleep, disconnect, or reconfigure, etc. Preferably, the content format of the instruction may be JSON format, XML format, or other format, which is not limited herein. It should be noted that the server may modify the configuration information of the monitoring device as needed.

Step S4, receiving the execution result fed back by the monitoring equipment based on the instruction;

specifically, after receiving the instruction, the monitoring device executes the instruction and then feeds back an execution result.

In this embodiment, a bidirectional connection between the monitoring device and the server is established, so that transmission of data and instructions is realized, and data monitoring efficiency is improved.

In a preferable embodiment of this embodiment, the step S1 may further include (see fig. 2):

step S5, receiving an authentication request of the monitoring equipment;

specifically, an authentication request of the monitoring device is received first, where the authentication request carries account information (e.g., a user name, a password, and the like) of the monitoring device, the authentication request may further include an account of the monitoring device, and the account of the monitoring device may also be stored locally, so as to be conveniently obtained directly based on the user name and the password, which is not limited herein. The authentication request may be based on the HTTP protocol or other protocols such as TCP, but is not limited thereto.

Furthermore, the authentication request is encrypted by adopting an asymmetric encryption mode and then transmitted to the server side for authentication, so that the security of the account can be improved.

In a preferable embodiment of this embodiment, the step S5 may further include:

step S6, receiving a connection request of the monitoring equipment;

specifically, when the monitoring device needs to upload monitoring data, a communication connection needs to be established with a control end (a server end) first, and then a connection request is sent, where the request may carry an address or other identification information of the monitoring device.

Step S7, establishing connection with the monitoring equipment based on the connection request;

specifically, a connection relationship is established with the monitoring device based on the connection request, and account information may be sent to the monitoring device, and preferably, the connection may be established based on a TCP protocol. Other interaction protocols are also possible, and are not limited herein.

In a preferable embodiment of this embodiment, the step S6 may further include:

initializing a server;

in this embodiment, a bidirectional connection between the monitoring device and the server is established, so that transmission of data and instructions is realized, and data monitoring efficiency is improved.

Example two:

based on the first embodiment, as shown in fig. 3, a structure diagram of a data transmission device according to a second embodiment of the present invention is provided, where the data transmission device includes: authentication unit 1, first receiving unit 2 connected with authentication unit 1, issue unit 3 connected with first receiving unit 2, second receiving unit 4 connected with issue unit 3, wherein:

the authentication unit 1 is used for authenticating with the monitoring equipment;

specifically, firstly, a server is established to authenticate with a monitoring device, where the monitoring device is configured to receive monitoring data, where the monitoring data may include: observation data, satellite data, and the like, the monitoring data and the like being received via an antenna; when the authentication is passed, feeding back to the first receiving unit 2, otherwise, stopping the process;

the first receiving unit 2 is used for receiving monitoring data uploaded by the monitoring equipment;

specifically, when the authentication is passed, it means that a mutual trust mechanism with the monitoring device is established, and at this time, monitoring data uploaded by the monitoring device can be received. Preferably, the format of the monitoring data may be an RTCM format or other custom format, which is not limited herein.

The issuing unit 3 is used for issuing instructions to the monitoring equipment;

specifically, after receiving the monitoring data, the monitoring data may be analyzed, and an instruction may be issued according to the analysis result, or the instruction may be issued directly according to the requirement. The instruction may be to restart, shut down, go to sleep, disconnect, or reconfigure, etc. Preferably, the content format of the instruction may be JSON format, XML format, or other format, which is not limited herein.

The second receiving unit 4 is used for receiving an execution result fed back by the monitoring equipment based on the instruction;

specifically, after receiving the instruction, the monitoring device executes the instruction and then feeds back an execution result.

In this embodiment, a bidirectional connection between the monitoring device and the server is established, so that transmission of data and instructions is realized, and data monitoring efficiency is improved.

In a preferred aspect of this embodiment, the first receiving unit 1 is further configured to:

receiving an authentication request of monitoring equipment;

specifically, an authentication request of the monitoring device is received first, where the authentication request carries account information (e.g., a user name, a password, and the like) of the monitoring device, and the authentication request may further include an account number of the monitoring device, and the account number of the monitoring device may also be stored locally, so as to be conveniently obtained directly based on the user name and the password, which is not limited herein. The authentication request may be based on the HTTP protocol or other protocols such as TCP, but is not limited thereto.

Furthermore, the authentication request is encrypted by adopting an asymmetric encryption mode and then transmitted to the server side for authentication, so that the security of the account can be improved.

In a preferable aspect of this embodiment, the transmission device further includes: a connection unit connected with the first receiving unit 1, wherein:

the connection unit is used for receiving a connection request of the monitoring equipment;

specifically, when the monitoring device needs to upload monitoring data, a communication connection needs to be established with a control end (a server end) first, and then a connection request is sent, where the request may carry an address or other identification information of the monitoring device.

The monitoring device is also used for establishing connection with the monitoring device based on the connection request;

specifically, a connection relationship is established with the monitoring device based on the aforementioned connection request, and preferably, the connection may be established based on a TCP protocol. Other interaction protocols are also possible, and are not limited herein.

In a preferable aspect of this embodiment, the transmission device further includes: an initialization unit connected with the connection unit, wherein:

the initialization unit is used for initializing the server;

in this embodiment, a bidirectional connection between the monitoring device and the server is established, so that transmission of data and instructions is realized, and data monitoring efficiency is improved.

The invention further provides a server, which includes the data transmission device according to the second embodiment, and the specific structure, the working principle and the technical effects of the data transmission device are consistent with those described in the second embodiment, and are not described herein again.

Example three:

fig. 4 shows a flowchart of a data transmission method according to a third embodiment of the present invention, where the data transmission method includes:

step A1, authenticating with the server;

specifically, before the monitoring device needs to upload the monitoring data, the monitoring device first needs to authenticate with the server to upload the monitoring data, and when the monitoring data passes the authentication, receives a response from the server, which indicates that a mutual trust mechanism between the server and the monitoring device is established, and at this time, the monitoring data that can be uploaded to the server is received, and then the process goes to step a2, and when the monitoring data does not pass the authentication, the server does not respond.

A2, uploading monitoring data to a server;

specifically, when the authentication is passed, uploading monitoring data to the server, where the monitoring data may include: observation data, satellite data, and the like, the monitoring data and the like being received via an antenna; preferably, the format of the monitoring data may be an RTCM format or other custom format, which is not limited herein.

Step A3, receiving an instruction issued by a server;

specifically, after receiving the monitoring data, the server may analyze the monitoring data and issue an instruction according to the analysis result, or directly issue an instruction according to the requirement. The instruction may be to restart, shut down, go to sleep, disconnect, or reconfigure, etc. Preferably, the content format of the instruction may be JSON format, XML format, or other format, which is not limited herein. It should be noted that the server may modify the configuration information of the monitoring device as needed.

And step A4, executing the instruction and feeding back an execution result to the server.

Specifically, after the monitoring device receives the instruction, the instruction is executed, and then the execution result is fed back.

In this embodiment, a bidirectional connection between the monitoring device and the server is established, so that transmission of data and instructions is realized, and data monitoring efficiency is improved.

In a preferred embodiment of this embodiment, step a1 may further include (see fig. 5):

step A5, an authentication request is sent to a server;

specifically, an authentication request is first initiated to the server, where the authentication request carries account information (e.g., a user name, a password, etc.) of the monitoring device, the authentication request may further include an account of the monitoring device, and the account of the monitoring device may also be locally stored, so as to be conveniently directly obtained based on the user name and the password, which is not limited herein. The authentication request may be based on the HTTP protocol or other protocols such as TCP, but is not limited thereto.

Furthermore, the authentication request is encrypted by adopting an asymmetric encryption mode and then transmitted to the server side for authentication, so that the security of the account can be improved.

In a preferable embodiment of this embodiment, the step a5 may further include:

step A6, initiating a connection request to a server;

specifically, when the monitoring device needs to upload monitoring data, a communication connection needs to be established with a control terminal (a service terminal) first, and then a connection request is issued, where the request may carry an address or other identification information of the monitoring device. The request may carry an address or other identifying information of the monitoring device.

Step A7, receiving feedback of a server and establishing connection with the server;

specifically, when the server receives the connection request, the server sends feedback to the monitoring device, and may send account information to the monitoring device, and preferably, may establish a connection based on a TCP protocol. Other interaction protocols are also possible, and are not limited herein.

In a preferable embodiment of this embodiment, the step a6 may further include:

initializing monitoring equipment;

in particular, the monitoring device may be a receiver.

In this embodiment, a bidirectional connection between the monitoring device and the server is established, so that transmission of data and instructions is realized, and data monitoring efficiency is improved.

Example four:

based on the third embodiment, as shown in fig. 6, a structural diagram of a data transmission device according to a fourth embodiment of the present invention is shown, where the data transmission device includes: authentication unit 61, upload unit 62 connected with authentication unit 61, receive unit 63 connected with upload unit 62, execution unit 64 connected with receive unit 63, wherein:

an authentication unit 61, configured to perform authentication with a service end;

specifically, before the monitoring device needs to upload the monitoring data, the monitoring device first needs to authenticate with the server to upload the monitoring data, and when the monitoring device passes the authentication, a response of the server is received to indicate that a mutual trust mechanism between the server and the monitoring device is established, and at this time, the monitoring data uploaded to the server is fed back to the uploading unit 2 when passing the authentication, otherwise, the server does not respond.

The uploading unit 62 is used for uploading the monitoring data to the server;

specifically, when the authentication is passed, uploading monitoring data to the server, where the monitoring data may include: observation data, satellite data, and the like, the monitoring data and the like being received via an antenna; preferably, the format of the monitoring data may be an RTCM format or other custom format, which is not limited herein.

A receiving unit 63, configured to receive an instruction issued by a server;

specifically, after receiving the monitoring data, the server may analyze the monitoring data and issue an instruction according to the analysis result, or directly issue an instruction according to the requirement. The instruction may be to restart, shut down, go to sleep, disconnect, or reconfigure, etc. Preferably, the content format of the instruction may be JSON format, XML format, or other format, which is not limited herein. It should be noted that the server may modify the configuration information of the monitoring device as needed.

And the execution unit 64 is used for executing the instruction and feeding back an execution result to the server.

Specifically, after the monitoring device receives the instruction, the instruction is executed, and then the execution result is fed back.

In this embodiment, a bidirectional connection between the monitoring device and the server is established, so that transmission of data and instructions is realized, and data monitoring efficiency is improved.

In a preferable aspect of this embodiment, the transmission device further includes: a sending unit connected to the authentication unit 61, wherein:

a sending unit, configured to initiate an authentication request to a server;

specifically, an authentication request is first initiated to the server, where the authentication request carries account information (e.g., a user name, a password, etc.) of the monitoring device, the authentication request may further include an account of the monitoring device, and the account of the monitoring device may also be locally stored, so as to be conveniently directly obtained based on the user name and the password, which is not limited herein. The authentication request may be based on the HTTP protocol or other protocols such as TCP, but is not limited thereto.

Furthermore, the authentication request is encrypted by adopting an asymmetric encryption mode and then transmitted to the server side for authentication, so that the security of the account can be improved.

In a preferable aspect of this embodiment, the transmission device further includes: a connection unit connected with the transmission unit, wherein:

the connection unit is used for initiating a connection request to the server;

specifically, when the monitoring device needs to upload monitoring data, a communication connection needs to be established with a control terminal (a service terminal) first, and then a connection request is issued, where the request may carry an address or other identification information of the monitoring device. The request may carry an address or other identifying information of the monitoring device.

And is also used for: receiving feedback of the server and establishing connection with the server;

specifically, when the server receives the connection request, the server sends feedback to the monitoring device, and may send account information to the monitoring device, and preferably, may establish a connection based on a TCP protocol. Other interaction protocols are also possible, and are not limited herein.

In a preferable aspect of this embodiment, the transmission device further includes: an initialization unit connected to the connection unit 66, wherein:

the initialization unit is used for initializing the monitoring equipment;

in particular, the monitoring device may be a receiver.

In this embodiment, a bidirectional connection between the monitoring device and the server is established, so that transmission of data and instructions is realized, and data monitoring efficiency is improved.

The present invention further provides a monitoring device, where the monitoring device includes a data transmission device, and the specific structure, the operation principle, and the technical effect of the data transmission device are consistent with the specific structure, the operation principle, and the technical effect of the data transmission device described in the fourth embodiment, and are not described herein again.

Example five:

fig. 7 shows a block diagram of an interactive system provided in a fifth embodiment of the present invention, where the interactive system includes: monitoring equipment 71 and server 72 connected thereto, wherein:

the monitoring device 71 is configured to authenticate the server 72, upload monitoring data to the server 72 after the authentication is passed, receive and execute an instruction issued by the server 72, and feed back an execution result.

And the server 72 is configured to receive the monitoring data uploaded by the monitoring device 71 after passing authentication with the monitoring device 71, issue an instruction, and receive an execution result fed back by the monitoring device 71.

In a preferred embodiment of this embodiment, the monitoring device 71 includes a data transmission device, the specific structure, operation principle and technical effect of the data transmission device are the same as those of the data transmission device described in the fourth embodiment, and the server 72 includes a data transmission device, the specific structure, operation principle and technical effect of the data transmission device are the same as those of the data transmission device described in the second embodiment, and details are not repeated here.

In this embodiment, a bidirectional connection between the monitoring device and the server is established, so that transmission of data and instructions is realized, and data monitoring efficiency is improved.

Example six:

fig. 8 is a block diagram of a service terminal according to a sixth embodiment of the present invention, where the service terminal includes: a memory (memory)81, a processor (processor)82, a communication Interface (Communications Interface)83 and a bus 84, wherein the processor 82, the memory 81 and the communication Interface 83 complete mutual communication through the bus 84.

A memory 81 for storing various data;

specifically, the memory 81 is used for storing various data, such as data in communication, received data, and the like, and is not limited herein, and the memory further includes a plurality of computer programs.

A communication interface 83 for information transmission between communication devices of the service terminal;

the processor 82 is used to call various computer programs in the memory 81 to execute a data transmission method provided by the first embodiment, for example:

authenticating with the monitoring equipment;

receiving monitoring data uploaded by the monitoring equipment when the authentication is passed;

issuing an instruction to the monitoring equipment;

and receiving an execution result fed back by the monitoring equipment based on the instruction.

In this embodiment, a bidirectional connection between the monitoring device and the server is established, so that transmission of data and instructions is realized, and data monitoring efficiency is improved.

The present invention also provides a memory, in which a plurality of computer programs are stored, and the computer programs are called by the processor to execute a data transmission method according to the first embodiment.

According to the invention, the bidirectional connection between the monitoring equipment and the server is established, the transmission of data and instructions is realized, and the data monitoring efficiency is improved.

Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation.

Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention. The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (15)

1. A method of data transmission, comprising:

authenticating with the monitoring equipment;

receiving monitoring data uploaded by the monitoring equipment when the authentication is passed;

issuing an instruction to the monitoring equipment;

and receiving an execution result fed back by the monitoring equipment based on the instruction.

2. The transmission method according to claim 1, further comprising, before authenticating with the monitoring device:

and receiving an authentication request of the monitoring equipment.

3. The transmission method according to claim 2, wherein receiving the authentication request of the monitoring device further comprises:

receiving a connection request of the monitoring equipment;

and establishing connection with the monitoring equipment based on the connection request.

4. The transmission method according to claim 1, wherein the command is one of: restarting, shutting down, and configuring the monitoring device.

5. The control method of claim 2, wherein the authentication request includes authentication information, and the authentication information is encrypted by using an asymmetric encryption method.

6. A data transmission apparatus, comprising:

the authentication unit is used for authenticating with the monitoring equipment;

the first receiving unit is used for receiving the monitoring data uploaded by the monitoring equipment when the authentication is passed;

the issuing unit is used for issuing an instruction to the monitoring equipment;

and the second receiving unit is used for receiving an execution result fed back by the monitoring equipment based on the instruction.

7. A server, characterized in that it comprises a data transmission device according to claim 6.

8. A method of data transmission, comprising:

authenticating with a server;

when the authentication is passed, uploading monitoring data to the server;

receiving an instruction issued by the server;

and executing the instruction and feeding back an execution result to the server.

9. The transmission method according to claim 8, wherein before authenticating with the server, the method further comprises:

and initiating an authentication request to the server.

10. The transmission method according to claim 9, wherein before initiating the authentication request to the server, further comprising:

initiating a connection request to the server;

and receiving the response of the server and establishing connection with the server.

11. A data transmission apparatus, comprising:

the authentication unit is used for authenticating with the server;

the uploading unit is used for uploading the monitoring data to the server when the authentication is passed;

the receiving unit is used for receiving the command issued by the server;

and the execution unit is used for executing the instruction and feeding back an execution result to the server.

12. A monitoring device, characterized in that it comprises a data transmission arrangement according to claim 11.

13. An interactive system, comprising:

and the monitoring equipment is used for authenticating with the server, uploading monitoring data to the server after the authentication is passed, receiving and executing the instruction issued by the server and feeding back an execution result.

And the server is used for receiving the monitoring data uploaded by the monitoring equipment after passing the authentication with the monitoring equipment, issuing an instruction to the monitoring equipment and receiving an execution result fed back by the monitoring equipment.

14. A memory storing a computer program, the computer program being executable by a processor to perform the steps of:

authenticating with the monitoring equipment;

receiving monitoring data uploaded by the monitoring equipment when the authentication is passed;

issuing an instruction to the monitoring equipment based on the received monitoring data;

and receiving an execution result fed back by the monitoring equipment based on the instruction.

15. A service terminal comprising a memory, a processor and a computer program stored in said memory and executable on said processor, characterized in that said processor implements the steps of the data transmission method according to any one of claims 1 to 5 when executing said computer program.

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