KR101422888B1 - Satellite communication system performing communication using gps information in the area where other radio services are operated with same frequencies - Google Patents

Abstract

There is provided a satellite communication system and method for providing communication between a mobile earth station belonging to a satellite communication network and a mobile earth station belonging to a terrestrial communication network. The satellite communication system can determine whether the mobile earth station is included in the coverage of the ground service based on the location information of the mobile earth station and allocate the used frequency band to the mobile earth station based on the determination.

Description

TECHNICAL FIELD [0001] The present invention relates to a satellite communication system and a satellite communication method for providing communication in other wireless network service areas using the same frequency band using position information,

TECHNICAL FIELD The present invention relates to a technique for providing a communication service in a satellite communication system without causing interference to other terrestrial communication systems using the same frequency in a service area.

The satellite communication system has a very wide coverage to provide satellite service. As a result, a case occurs in which the satellite communication system uses the same frequency as that used in the terrestrial communication system in the coverage. Here, the terrestrial communication system means a communication system belonging to a satellite communication system and a heterogeneous network. In other words, the terrestrial communication system is a system that forms a wireless communication network of a kind different from the satellite communication system.

Particularly, as a mobile earth station moves, radio interference may occur between a terrestrial communication system and a satellite communication system when a radio station of the terrestrial communication system is located around the mobile earth station. Here, the mobile earth station is a terminal belonging to the satellite communication system.

For example, when a mobile earth station transmits data to a satellite using a satellite communication network, the base station of the terrestrial communication system may receive radio interference due to data transmitted from the mobile earth station depending on the location of the mobile earth station. As described above, in a situation where the coverage of the satellite communication system is very large, the probability that interference will occur is very high as the mobile earth station of the satellite communication system and the base station of the terrestrial communication system transmit and receive data using the same frequency band.

Furthermore, when the mobile earth station is located in the service coverage of the terrestrial communication system, the mobile earth station and the ground station may interfere with each other as they perform communication using the same frequency band. Due to this interference, data loss may occur, and the efficiency of each of the satellite communication network and the terrestrial communication network may deteriorate.

Therefore, there is a need for techniques that can reduce or eliminate frequency interference between a satellite communication network and a terrestrial communication network.

The present invention provides a satellite communication system and method, and a terminal, for eliminating or reducing interference occurring between terrestrial wireless networks existing within a satellite service coverage in a satellite communication network.

The satellite communication system according to an embodiment of the present invention includes a position determination unit for determining whether the terminal is located within the coverage of a terrestrial service using position information of the terminal, A bandwidth determining unit for determining a possible frequency band, an information generating unit for generating channel allocation information based on the determined allocatable frequency band, and an information transmitting unit for transmitting the generated channel allocation information to the terminal.

The band determining unit may further include a calculating unit that subtracts the used frequency band of the terrestrial service from the used frequency band of the satellite service when the terminal is located within the service coverage, And an allocated band determining unit for determining the determined band as a band.

The information generator may allocate a part or all of the determined allocatable frequency band to the terminal using the resource allocation technique, and generate the channel allocation information including the allocated frequency band.

The location determination unit may further include a location determination unit for determining whether the terminal is located within the coverage of the terrestrial service according to the movement of the terminal.

The apparatus may further include an information receiver for periodically receiving location information of the terminal through a satellite.

The system may further include a database storing the terrestrial wireless network information providing the terrestrial service, the terrestrial service area information, and the terrestrial service frequency information.

According to another aspect of the present invention, there is provided a satellite communication method including: determining whether a terminal is located within a coverage of a terrestrial service provided in a heterogeneous network using location information of the terminal; Generating the channel allocation information based on the determined allocatable frequency band, and transmitting the generated channel allocation information to the terminal.

In addition, the step of determining the allocatable frequency may include the steps of: subtracting the used frequency band of the terrestrial service from the used frequency band of the satellite service when the terminal is located within the service coverage, And determining the frequency band as the allocatable frequency band.

The generating of the channel allocation information may include allocating a part or all of the determined allocatable frequency band to the terminal using a resource allocation technique and allocating the channel allocation information including the allocated frequency band to the terminal And a step of generating the data.

Further, the method may further include re-determining whether the terminal is located within the coverage of the terrestrial service according to the movement of the terminal.

In addition, the step of determining the allocatable frequency may update the allocatable frequency band based on the recalculation.

The method may further include periodically receiving location information of the terminal through a satellite.

Also, a terminal according to an embodiment of the present invention includes a position transmitter for transmitting position information of the terminal through the satellite, a channel for receiving channel allocation information through the satellite, An information receiving unit, and a link setting unit for establishing a communication link with a terminal belonging to the heterogeneous network based on the received channel allocation information.

According to another aspect of the present invention, there is provided a satellite communication method including: transmitting location information of a terminal to a satellite communication system through a satellite; receiving channel allocation information through the satellite; And establishing a communication link with a terminal belonging to the heterogeneous network based on the communication link.

According to the present invention, by allocating the used frequency band to the terminal using the location information of the terminal, it is possible to eliminate or reduce the interference generated between the heterogeneous networks.

In addition, the frequency utilization state of the terrestrial service provided by the terrestrial communication network is analyzed and the efficiency of the channel can be increased by allocating the used frequency band.

1 is a view for explaining an overall operation of a satellite communication system according to an embodiment of the present invention.
2 is a block diagram illustrating a configuration of a satellite communication system according to an embodiment of the present invention.
3 is a view for explaining a process of allocating a used frequency band to a mobile earth station in a satellite communication system according to an embodiment of the present invention.
4 is a view for explaining a process of generating channel allocation information based on movement of a mobile earth station according to an embodiment of the present invention.
5 is a block diagram illustrating a configuration of a terminal according to an embodiment of the present invention.
6 is a flowchart illustrating a satellite communication system according to an embodiment of the present invention and a process in which a terminal performs communication through a satellite.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to or limited by the embodiments. In addition, the same reference numerals shown in the drawings denote the same members.

1 is a view for explaining an overall operation of a satellite communication system according to an embodiment of the present invention.

1, the satellite communication system may include a mobile earth station 10, a satellite 20, and a gateway earth station (gateway 30). Here, the mobile earth station 10 may establish a communication link with the satellite 20 to receive satellite service. At this time, the mobile earth station 10 may form a communication link with the gateway earth station 30 through the satellite 20.

The mobile earth station 10 can communicate with the mobile earth station belonging to the heterogeneous network through the satellite 20. In one example, the mobile earth station 10 may perform voice and data communications with a mobile earth station belonging to a terrestrial communication network such as a PSTN network, a GSM network, a CDMA network, an LTE network, and the like. At this time, the mobile earth station 10 can communicate with the terrestrial communication network using the gateway earth station 30. Then, the mobile earth station 10 can receive the necessary adjustment from the gateway earth station 30 to operate the communication network such as other wireless inter-network communication, billing system, and channel allocation.

The satellite 20 may form a communication link between the mobile earth station 10 and the gateway earth station 30.

The gateway earth station 30 is an earth station having a switching system, and can connect the mobile earth station 10 to a heterogeneous network. The gateway earth station 30 can control the communication operation of the satellite 20 and the mobile earth station 10, the billing system operation, and the like.

2 is a block diagram illustrating a configuration of a satellite communication system according to an embodiment of the present invention. In FIG. 2, the satellite communication system 200 may be a gateway earth station.

2, the satellite communication system 200 includes an information receiving unit 210, a positioning unit 220, a database 230, a band determining unit 240, an information generating unit 250, an information transmitting unit 260, And a location determination unit 270. [0034]

The information receiving unit 210 may periodically receive location information of a mobile earth station from a mobile earth station through a satellite. At this time, the mobile earth station can acquire the location information of the mobile earth station using the GPS module.

In one example, the satellite may receive position information of the terminal from a terminal belonging to the satellite communication network. Then, the satellite can transmit the location information of the received terminal to the gateway earth station. Accordingly, the information receiving unit 210 can receive the location information of the terminal.

The location determination unit 220 can determine whether the mobile earth station is located within the coverage of the ground service based on the location information of the mobile earth station.

For example, the location determination unit 220 can determine the local information corresponding to the location information of the mobile earth station with reference to the database 230. Here, the area information may include a place name or a location coordinate value of a specific area such as area A. At this time, the database 230 may include other wireless network information providing ground services, area information of the area where the ground service is provided, and frequency information used in the ground service.

Then, the location determination unit 220 can determine whether there is a terrestrial wireless network corresponding to the area information based on the determined area information. At this time, when the terrestrial radio network information corresponding to the local information exists in the database 230, the location determination unit 220 can determine that the mobile earth station is located within the coverage of the terrestrial service. On the other hand, if the terrestrial radio network information corresponding to the local information does not exist in the database 230, the location determination unit 220 can determine that the mobile earth station is not located within the coverage of the terrestrial service.

At this time, the mobile earth station can transmit the location information of the mobile earth station to the gateway earth station through the satellite every predetermined period. Accordingly, the location determination unit 270 can re-determine whether the mobile earth station is located within the coverage of the ground service based on the location information of the mobile earth station as the mobile earth station moves.

The band determining unit 240 may determine an allocatable frequency band for allocating to the mobile earth station according to the determined location of the mobile earth station.

For example, if it is determined that the mobile earth station is located within the coverage of the terrestrial service, the band determination unit 240 may extract frequency information corresponding to the determined local information based on the location information of the mobile earth station in the database 230 . Here, the frequency information may include the frequency band of use of the terrestrial service. In other words, the frequency information may include a frequency band used for communication at a base station belonging to an area where the mobile earth station is located.

In addition, the band determining unit 240 may determine a frequency band excluding the used frequency band of the terrestrial service as the allocatable frequency band in the used frequency band of the pre-stored satellite service. 3, the calculation unit 241 may subtract the use frequency band fa (320) of the ground service from the use frequency band (fs) 310 of the satellite service. Then, the allocated band determining unit 242 can determine the used frequency band fr1: 330 as the assignable frequency band. Then, the information generating unit 250 can generate channel allocation information based on the determined allocatable frequency band.

As another example, when it is determined that the mobile earth station is not located within the coverage of the terrestrial service, the band determination unit 240 may determine the use frequency band of the pre-stored satellite service as the allocatable frequency band. Then, the information generating unit 250 can generate channel allocation information based on the determined allocatable frequency band. At this time, the information generating unit 250 may allocate a part or all of the allocatable frequency band to the mobile station using the resource allocation technique. The information generating unit 250 may generate channel allocation information including the allocated frequency band.

Similarly, when the mobile earth station is located within the coverage of the terrestrial service, and the mobile earth station has moved out of the coverage of the terrestrial service, the band determining unit 240 can determine the use frequency band of the satellite service as the allocatable frequency band.

The information transmitting unit 260 may transmit the generated channel allocation information to the mobile station through the satellite. For example, the information transmission unit 260 may transmit channel allocation information to the satellite. Then, the satellite can transmit channel allocation information to the mobile earth station. Then, using the channel allocation information, the mobile earth station can use the satellite communication service without interference between the ground stations, even if the mobile earth station is located in the area where the ground service is provided. Hereinafter, a process of generating channel allocation information as the mobile earth station moves to a region where different ground services are provided will be described with reference to FIG.

4 is a view for explaining a process of generating channel allocation information based on movement of a mobile earth station according to an embodiment of the present invention.

Since the coverage of satellite services ranges from a few tens of kilometers to several hundreds of kilometers, there may be more than one terrestrial service within the coverage of the satellite service. According to Fig. 4, there can be two ground service A and one ground service B within the coverage of the satellite service. At this time, the mobile earth station may move from the coverage 410 of the terrestrial service A to the coverage 420 of the terrestrial service B.

Then, the location determination unit 270 can re-determine whether the mobile earth station is located within the coverage of the ground service based on the location information of the mobile earth station in accordance with the movement of the mobile earth station. For example, the location determination unit 270 can re-determine that the mobile earth station is located within the coverage of the terrestrial service B based on the location information of the mobile earth station that has moved.

Then, the band determining unit 240 can determine an allocatable frequency band for allocating to the mobile earth station based on the location of the re-determined mobile earth station.

For example, if the mobile earth station is located within the coverage of the terrestrial service B, the band determination unit 240 may extract the used frequency band of the terrestrial service B in the database 230. The band determining unit 240 allocates the used frequency band fr2: 450, fr3: 460 excluding the used frequency band (fb: 440) of the terrestrial service B extracted from the used frequency band (fs: 430) It can be determined as a possible frequency band. Then, the information generating unit 250 may allocate a part or all of the allocatable frequency band (fr2: 450, fr3: 460) to the mobile earth station using the resource allocation technique. The information generating unit 250 may generate channel allocation information including the allocated frequency band.

As another example, if the mobile earth station is not located within the coverage of the terrestrial service B, or if the mobile earth station has moved out of coverage within the coverage of the terrestrial service B, then the band determination unit 240 allocates the used frequency band of the phase service to the allocatable frequency Band.

5 is a block diagram illustrating a configuration of a terminal according to an embodiment of the present invention. In FIG. 5, the terminal may be a mobile earth station belonging to a satellite communication network.

Referring to FIG. 5, the terminal 500 may include a location transmitter 510, a channel information receiver 520, and a link setting unit 530.

The location transmitter 510 may transmit the location information of the mobile earth station to the gateway earth station through the satellite every predetermined period. At this time, the position transmitter 510 can acquire position information in real time every predetermined period of the mobile earth station using the GPS module. Then, the location transmitter 510 can periodically transmit the acquired location information to the gateway earth station through the satellite.

The channel information receiving unit 520 can receive channel allocation information from the gateway earth station through the satellite. Here, the channel allocation information may include frequency bands allocated to the mobile earth station in the gateway earth station.

In this case, when the mobile earth station is located within the coverage of the terrestrial service, the channel allocation information determines the allocatable frequency band based on the use frequency band of the satellite service and the use frequency band of the terrestrial service at the gateway base station, And may include frequency bands allocated on a per-band basis. And, if the mobile earth station is not located within the coverage of the terrestrial service, the channel allocation information may include the allocated frequency band based on the allocatable frequency band determined using the use frequency band of the satellite service at the gateway base station.

At this time, the channel allocation information may include a frequency band allocated based on the updated allocatable frequency band using the location information of the mobile earth station re-determined according to the movement of the mobile earth station. In other words, the band determining unit 240 can update the allocatable frequency band using the location information of the mobile earth station that has moved according to the movement of the mobile earth station. The band determining unit 240 may allocate a part or all of the updated allocatable frequency band to the mobile earth station. Then, the information transmitting unit 260 may transmit the channel allocation information including the allocated frequency band to the mobile earth station through the satellite. Accordingly, the information receiving unit 210 may receive channel allocation information including a frequency band allocated based on the updated allocatable frequency band.

The link setting unit 530 can establish a communication link with another mobile station belonging to the heterogeneous network based on the channel assignment information. Accordingly, the mobile earth station belonging to the satellite communication network can perform voice or data communication with the mobile earth station belonging to the terrestrial communication network.

6 is a flowchart illustrating a satellite communication system according to an embodiment of the present invention and a process in which a terminal performs communication through a satellite.

Referring to FIG. 6, in step 610, the mobile earth station 600 may transmit the location information of the mobile earth station to the satellite 700. At this time, the mobile earth station 600 can acquire the location information of the mobile earth station using the GPS module provided in the mobile earth station. Then, the mobile earth station 600 may periodically transmit the acquired location information of the mobile earth station to the satellite 700.

Then, in step 620, the satellite 700 can transmit the location information of the mobile earth station to the gateway earth station 800.

The gateway earth station 800 may then determine, based on the location information of the mobile earth station, whether the mobile earth station is located within the service coverage provided by the heterogeneous network.

In one example, the gateway earth station 800 may determine whether the mobile earth station is located within the coverage of one or more terrestrial services that are within the coverage of the satellite service.

At this time, in step 640, the gateway earth station 800 can determine an allocatable frequency band to the mobile earth station based on whether or not the mobile earth station is located within the coverage of the ground service.

For example, if it is determined that the mobile earth station is located within the coverage of the terrestrial service, the gateway earth station 800 may determine the frequency band excluding the used frequency band of the terrestrial service as the allocatable frequency band in the use frequency band of the satellite service.

As another example, if it is determined that the mobile earth station is not located within the coverage of the land service, the gateway earth station 800 may determine the use frequency band of the satellite service as an allocatable frequency band.

In step 650, the gateway earth station 800 may generate channel allocation information including a frequency band for allocation to the mobile earth station based on the allocatable frequency band.

Then, in step 660, the gateway earth station 800 may transmit channel allocation information to the satellite 700. Then, in step 670, the satellite 700 can transmit channel allocation information to the mobile earth station 600. [

In step 680, the mobile earth station 600 sets up a communication link with another mobile earth station without interfering with another terrestrial radio network based on channel allocation information, or establishes a communication link with another communication network through the gateway earth station 800 Can be set. Here, the other communication network may include a terrestrial wireless network or a different-level communication network.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

210:
220:
230: Database
240:
250: Information generating unit
260: Information transmission unit
270:

Claims (20)

A positioning unit for determining whether the terminal is located within the coverage of the terrestrial service using the location information of the terminal;
A band determining unit for determining an allocatable frequency band allocated to the terminal according to the determined location of the terminal;
An information generating unit for generating channel allocation information based on the determined allocatable frequency band; And
An information transmission unit for transmitting the generated channel allocation information to the terminal,
Lt; / RTI >
The band determining unit may determine,
A calculation unit for subtracting the used frequency band of the terrestrial service from the used frequency band of the satellite service when the terminal is located within the service coverage; And
An allocation band determining unit for determining the subtracted used frequency band as the allocatable frequency band,
≪ / RTI > delete The method according to claim 1,
Wherein the information generating unit comprises:
Assigns a part or all of the determined allocatable frequency band to the terminal using the resource allocation scheme, and generates the channel allocation information including the allocated frequency band. A positioning unit for determining whether the terminal is located within the coverage of the terrestrial service using the location information of the terminal;
A band determining unit for determining an allocatable frequency band allocated to the terminal according to the determined location of the terminal;
An information generating unit for generating channel allocation information based on the determined allocatable frequency band; And
An information transmission unit for transmitting the generated channel allocation information to the terminal,
Lt; / RTI >
The band determining unit may determine,
And determines the use frequency band of the satellite service as the allocatable frequency when the terminal is not located within the service coverage. A positioning unit for determining whether the terminal is located within the coverage of the terrestrial service using the location information of the terminal;
A location reconciliation unit for re-establishing whether the terminal is located within the coverage of the terrestrial service according to the movement of the terminal;
A band determining unit for determining an allocatable frequency band allocated to the terminal according to the determined location of the terminal;
An information generating unit for generating channel allocation information based on the determined allocatable frequency band; And
An information transmission unit for transmitting the generated channel allocation information to the terminal,
≪ / RTI > An information receiver for periodically receiving location information of the terminal through a satellite;
A positioning unit for determining whether the terminal is located within the coverage of the terrestrial service using the location information of the terminal;
A band determining unit for determining an allocatable frequency band allocated to the terminal according to the determined location of the terminal;
An information generating unit for generating channel allocation information based on the determined allocatable frequency band; And
An information transmission unit for transmitting the generated channel allocation information to the terminal,
Lt; / RTI >
Wherein,
And transmits the channel allocation information to the terminal through the satellite. A positioning unit for determining whether the terminal is located within the coverage of the terrestrial service using the location information of the terminal;
A band determining unit for determining an allocatable frequency band allocated to the terminal according to the determined location of the terminal;
An information generating unit for generating channel allocation information based on the determined allocatable frequency band;
An information transmission unit for transmitting the generated channel allocation information to the terminal; And
The location information of the terrestrial service, and the frequency of the terrestrial service,
Lt; / RTI >
Wherein the positioning unit comprises:
And determining whether the terminal is located in a service coverage provided by the heterogeneous network using the geographical information of the terrestrial service and the location information of the terminal. delete A positioning unit for determining whether the terminal is located within the coverage of the terrestrial service using the location information of the terminal;
A band determining unit for determining an allocatable frequency band allocated to the terminal according to the determined location of the terminal;
An information generating unit for generating channel allocation information based on the determined allocatable frequency band; And
An information transmission unit for transmitting the generated channel allocation information to the terminal,
Lt; / RTI >
Wherein the terminal establishes a communication link with another terminal belonging to the heterogeneous network based on the channel allocation information. Determining whether the terminal is located within a coverage of a terrestrial service provided in a heterogeneous network using location information of the terminal;
Determining an allocatable frequency band to allocate to the terminal according to the determined location of the terminal;
Generating channel allocation information based on the determined allocatable frequency band; And
Transmitting the generated channel allocation information to the terminal
Lt; / RTI >
Wherein the step of determining the assignable frequency comprises:
Subtracting the used frequency band of the terrestrial service from the used frequency band of the satellite service when the terminal is located within the service coverage; And
Determining the usable frequency band to be the allocatable frequency band
/ RTI > delete 11. The method of claim 10,
Wherein the generating the channel allocation information comprises:
Allocating a part or all of the determined allocatable frequency band to the terminal using a resource allocation technique; And
Generating the channel allocation information including the allocated frequency band
/ RTI > Determining whether the terminal is located within a coverage of a terrestrial service provided in a heterogeneous network using location information of the terminal;
Determining an allocatable frequency band to allocate to the terminal according to the determined location of the terminal;
Generating channel allocation information based on the determined allocatable frequency band; And
Transmitting the generated channel allocation information to the terminal
Lt; / RTI >
Wherein the step of determining the assignable frequency comprises:
And determining a use frequency band of the satellite service as the allocatable frequency band when the terminal is not located in the service coverage. Determining whether the terminal is located within a coverage of a terrestrial service provided in a heterogeneous network using location information of the terminal;
Re-establishing whether the terminal is located within the coverage of the terrestrial service according to the movement of the terminal;
Determining an allocatable frequency band to allocate to the terminal according to the determined location of the terminal;
Generating channel allocation information based on the determined allocatable frequency band; And
Transmitting the generated channel allocation information to the terminal
/ RTI > 15. The method of claim 14,
Wherein the step of determining the assignable frequency comprises:
And updating the allocatable frequency band based on the recrystallization. Periodically receiving location information of a terminal through a satellite;
Determining whether the terminal is located within a coverage of a terrestrial service provided in a heterogeneous network using location information of the terminal;
Determining an allocatable frequency band to allocate to the terminal according to the determined location of the terminal;
Generating channel allocation information based on the determined allocatable frequency band; And
Transmitting the generated channel allocation information to the terminal
Lt; / RTI >
The method of claim 1,
And transmits the channel allocation information to the terminal through the satellite. 1. A terminal performing communication with a satellite,
A position transmitter for transmitting position information of a terminal communicating with the satellite through the satellite;
A channel information receiver for receiving channel allocation information through the satellite; And
A link setting unit for setting a communication link with a terminal belonging to the heterogeneous network based on the received channel assignment information,
. 18. The method of claim 17,
The channel allocation information includes:
Wherein the allocatable frequency band includes a frequency band allocated based on an allocatable frequency band of a terminal performing communication with the satellite as the terminal performing communication with the satellite is located within the coverage of the terrestrial service, And determining a use frequency band of the satellite service and a use frequency band of the terrestrial service. 18. The method of claim 17,
The location information transmission unit,
The location information of the terminal performing communication with the satellite is periodically transmitted to the satellite communication system through the satellite,
The channel allocation information includes:
And a frequency band allocated based on an updated allocable frequency band based on location information of a terminal performing communication with the satellite. Transmitting location information of a terminal to a satellite communication system through a satellite;
Receiving channel allocation information through the satellite; And
Establishing a communication link with a terminal belonging to a heterogeneous network based on the received channel assignment information
/ RTI >

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