CN117081656A - Data exchange system and method based on space satellite - Google Patents

Abstract

The present invention provides a data exchange system based on Tiantong satellite, including a communication terminal, Tiantong satellite, Tiantong main station, Tiantong IoT server and user server; wherein, the communication terminal is bidirectionally connected to the Tiantong satellite , the Tiantong satellite is bidirectionally connected to the Tiantong main station, the Tiantong main station is bidirectionally connected to the Tiantong IoT server, and the Tiantong IoT server is connected to the user server through the Internet, VPN or leased line Two-way connection. The Tiantong data exchange system provided by the present invention reduces the cost of data exchange through the cooperation between communication terminals, Tiantong satellites, Tiantong main stations, Tiantong IoT servers, the Internet, VPN or leased lines and user servers, and Maintainability is improved.

Description

A data exchange system and method based on Tiantong satellite

Technical field

The invention belongs to the field of data exchange, and specifically relates to a data exchange system and method based on Tiantong satellite.

Background technique

In the field of data exchange involving satellite mobile communications, our country has long relied on foreign satellite communication systems, such as INMARSAT system, Thuraya system, Iridium system, Global Star system, etc. These communication systems are expensive to use and their security and controllability cannot be guaranteed.

The Beidou Satellite Navigation System is a global satellite navigation system independently developed by my country. It has provided positioning, navigation, timing and short message communication services to the Asia-Pacific region since the end of 2012. The Beidou short message communication function uses a time-division serial sending and receiving mechanism, which can ideally achieve 300 million services per minute. However, because users use time-division multiplexing channels, this makes Beidou short messages difficult to transmit during data transmission. Data bandwidth is limited, limiting user communication frequency and user capacity. Currently, the Beidou short message communication function can only limit Beidou communication services by limiting users' communication frequency and word length through IC cards, so it is only suitable for emergency communications and location reporting.

Tiantong satellite mobile communication system is a satellite mobile communication system independently developed by my country. The successful launch of "Tiantong-101" in August 2016 marked that my country has entered an era of independent satellite mobile communication systems. Compared with the short message communication function of Beidou satellite, Tiantong satellite communication has more usage scenarios. The Tiantong-1 satellite has played a huge role in mobile communication services in many fields such as personal communications, marine transportation, and aviation rescue.

At present, the Tiantong satellite mobile communication system mainly provides high-speed data communication and voice communication during data exchange. There are two commonly used methods for data exchange on Tiantong satellites: Internet of Things mode and dial-up processing mode. Among them, the Internet of Things mode is based on the satellite data exchange mode used by the telecommunications platform. Due to the compatibility issues between the interface protocol between the Tiantong module and the telecommunications platform, the length of the data exchange will be greatly limited; the dial-up processing mode is usually used for point-to-point transmission of voice data. and small files, which are more costly and less efficient.

Contents of the invention

In order to solve the above problems, the present invention provides a data exchange system and method based on Tiantong satellite.

The technical solution of the present invention is as follows:

A data exchange system based on Tiantong satellite, including communication terminal, Tiantong satellite, Tiantong main station, Tiantong IoT server and user server;

Wherein, the communication terminal is bidirectionally connected to the Tiantong satellite, the Tiantong satellite is bidirectionally connected to the Tiantong main station, the Tiantong main station is bidirectionally connected to the Tiantong IoT server, and the Tiantong IoT server is bidirectionally connected. The connection server has a two-way connection with the user server through the Internet, VPN or leased line.

Further, there may be one or more communication terminals, and there may be one or more user servers.

Further, the Tiantong IoT server is implemented based on the trusted private network TPN system;

Wherein, the trusted private network TPN system is used to ensure the security and privacy of calls;

The Tiantong IoT server is used to handle call routing, authentication and connection establishment.

The invention also provides a data exchange method based on Tiantong satellite, which method includes: Tiantong data exchange from the communication terminal to the user server and Tiantong data exchange from the user server to the communication terminal;

Further, the Tiantong data exchange from the communication terminal to the user server is specifically:

The user initiates a call from the communication terminal and dials a set Tiantong IoT server number;

The call request is sent to Tiantong main station for user authentication and call establishment;

Tiantong Satellite transmits the call request to the Tiantong IoT server, and the Tiantong IoT server performs the second round of authentication based on the registered information;

After the certification is completed, the Tiantong IoT server establishes an end-to-end connection between the communication terminal and the Tiantong IoT server through the Tiantong satellite communication system;

After the call is established, the Tiantong IoT server pushes the application data to the designated user server according to the grouping status of the communication terminals. After the data transmission is completed, the communication terminal ends the call and completes the entire data reporting process.

Further, the Tiantong data exchange from the user server to the communication terminal is specifically:

The user server sends broadcast instructions and broadcast range to the Tiantong IoT server;

The Tiantong IoT server initiates a call request to the designated communication terminal based on the user registration status.

The Tiantong main station verifies the call request and forwards the call request to the Tiantong satellite;

Tiantong satellite transmits the call request to the communication terminal, establishes a two-way call, and starts transmitting broadcast instructions;

After the command transmission is completed, the Tiantong IoT server ends the call.

Technical effects of the present invention:

The Tiantong data exchange system provided by the present invention reduces the cost of data exchange and is maintainable through the cooperation of communication terminals, Tiantong satellites, Tiantong main stations, Tiantong IoT servers, the Internet, VPN or leased lines and user servers. sexual enhancement.

Description of the drawings

The drawings illustrate various embodiments generally by way of example and not limitation, and together with the description and claims serve to explain embodiments of the invention. Where appropriate, the same reference numbers will be used throughout the drawings to refer to the same or similar parts. Such embodiments are illustrative and are not intended to be exhaustive or exclusive embodiments of the apparatus or method.

Figure 1 shows a schematic diagram of the Tiantong data exchange system of the present invention;

Figure 2 shows a schematic diagram of Tiantong data exchange from the communication terminal to the user server of the present invention;

Figure 3 shows a schematic diagram of Tiantong data exchange from the user server to the communication terminal of the present invention;

Detailed ways

It should be noted that, as long as there is no conflict, the embodiments and features in the embodiments of this application can be combined with each other. The present application will be described in detail below with reference to the accompanying drawings and embodiments.

As shown in Figure 1, an embodiment of the present invention provides a data exchange system based on Tiantong satellite, including a communication terminal, Tiantong satellite, Tiantong main station, Tiantong IoT server and user server;

Wherein, the communication terminal is bidirectionally connected to the Tiantong satellite, the Tiantong satellite is bidirectionally connected to the Tiantong main station, the Tiantong main station is bidirectionally connected to the Tiantong IoT server, and the Tiantong IoT server is bidirectionally connected. The connection server has a two-way connection with the user server through the Internet, VPN or leased line.

There may be one or more communication terminals, and one or more user servers.

The Tiantong IoT server is implemented based on the trusted private network TPN system; wherein the trusted private network TPN system is used to ensure the security and privacy of calls; the Tiantong IoT server is used to process the routing of calls Selection, authentication and connection establishment.

The main function of the communication terminal is to adapt to the Tiantong satellite communication system interface, convert the 2.4kbps voice channel into a data transmission channel, and provide interface support for data transmission. The main station is transmitted to the Tiantong IoT server, and the Tiantong IoT server further pushes the application data to the user server. On the one hand, the user's control instructions, text information, etc. can be back-propagated to the communication terminal based on the above link.

Tiantong satellites mainly provide signal coverage services for communication terminals, extending the working area of communication terminals to areas lacking terrestrial network coverage such as forests, grasslands, deserts, and deep seas.

Tiantong terminal mainly realizes circuit domain data exchange and satellite operation and management.

The Tiantong IoT server mainly realizes the conversion of satellite circuit switching protocol and TCP/IP protocol, establishes a two-way connection with the communication terminal through the Tiantong satellite communication system, and realizes two-way data transmission based on the voice channel; at the same time, through the Internet, VPN or leased link Interact with the user server, obtain instruction data from the user server, and upload application data. Tiantong IoT server is implemented based on TPN system to achieve secure access and trusted communication.

In addition, Tiantong IoT server can manage communication terminals in groups and domains, enabling data interaction capabilities between multiple groups of communication terminals and multiple servers to meet the needs of different users and different business needs.

The user server mainly carries application data collection, management and communication terminal management functions.

Embodiments of the present invention also provide a data exchange method based on Tiantong satellites. The method includes: Tiantong data exchange from the communication terminal to the user server and Tiantong data exchange from the user server to the communication terminal;

As shown in Figure 2, the Tiantong data exchange from the communication terminal to the user server is specifically:

The user initiates a call from the communication terminal and dials a set Tiantong IoT server number;

The call request is sent to Tiantong main station for user authentication and call establishment;

Tiantong Satellite transmits the call request to the Tiantong IoT server, and the Tiantong IoT server performs the second round of authentication based on the registered information;

After the certification is completed, the Tiantong IoT server establishes an end-to-end connection between the communication terminal and the Tiantong IoT server through the Tiantong satellite communication system;

After the call is established, the Tiantong IoT server pushes the application data to the designated user server according to the grouping status of the communication terminals. After the data transmission is completed, the communication terminal ends the call and completes the entire data reporting process.

As shown in Figure 3, the Tiantong data exchange from the user server to the communication terminal is specifically:

The user server sends broadcast instructions and broadcast range to the Tiantong IoT server;

The Tiantong IoT server initiates a call request to the designated communication terminal based on the user registration status.

The Tiantong main station verifies the call request and forwards the call request to the Tiantong satellite;

Tiantong satellite transmits the call request to the communication terminal, establishes a two-way call, and starts transmitting broadcast instructions;

After the command transmission is completed, the Tiantong IoT server ends the call.

The design of the Tiantong data exchange system makes full use of the global characteristics of the Tiantong satellite system.

The above are only preferred specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto. Any person familiar with the technical field can, within the technical scope disclosed in the present invention, according to the technical solution of the present invention and its Equivalent substitutions or changes of the inventive concept shall be included in the protection scope of the present invention.

Claims (6)

1. The data exchange system based on the space-time satellite is characterized by comprising a communication terminal, a space-time satellite, a space-time total station, a space-time Internet of things server and a user server;

the communication terminal is in bidirectional connection with the space-communication satellite, the space-communication satellite is in bidirectional connection with the space-communication total station, the space-communication total station is in bidirectional connection with the space-communication Internet of things server, and the space-communication Internet of things server is in bidirectional connection with the user server through the Internet, VPN or leasing line.

2. A data exchange system according to claim 1, wherein the communications terminal is one or more and the user server is one or more.

3. The data exchange system according to claim 1, wherein the heaven-to-earth internet of things server is implemented based on a trusted private network TPN system;

the Trusted Private Network (TPN) system is used for ensuring the safety and privacy of a call;

the Tiantong Internet of things server is used for processing routing, authentication and connection establishment of calls.

4. A method for data exchange based on a space-time satellite, the method comprising: the communication terminal to user server and the user server to communication terminal.

5. The data exchange method according to claim 4, wherein the communication terminal-to-user server data exchange is specifically:

a user initiates a call from a communication terminal and dials a set number of a Tiantong Internet of things server;

the call request is sent to the heaven head office for user authentication and call setup;

the Tiantong satellite transmits the call request to the Tiantong Internet of things server, and the Tiantong Internet of things server performs a second round of authentication according to the registered information;

after authentication, the Tiantong things-to-things server establishes end-to-end connection between the communication terminal and the Tiantong things-to-things server through a Tiantong satellite communication system;

after the call is established, the Tiantong Internet of things server pushes application data to the appointed user server according to the grouping condition of the communication terminal, and after the data transmission is completed, the communication terminal ends the call, so that the whole data reporting process is completed.

6. The data exchange method according to claim 4, wherein the data exchange from the user server to the communication terminal is specifically:

the user server sends a broadcasting instruction and a broadcasting range to the heaven-earth Internet of things server;

the heaven-going Internet of things server initiates a call request to the appointed communication terminal according to the user registration condition,

the Tiantong total station verifies the call request and forwards the call request to the Tiantong satellite;

the Tiantong satellite transmits a call request to the communication terminal, establishes a two-way call and starts to transmit a broadcast instruction;

and after the instruction transmission is completed, the communication is ended by the heaven-going Internet of things server.