KR101900917B1 - Mobile Communication Relay System, and the method thereof - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile relay system that is located between a backhaul network and a communication terminal for wireless access connection, Access point; And a mobile access router for relaying signals between the mobile access point and the backhaul network by protocol conversion, the mobile access router comprising: a selector for selectively connecting one of a plurality of backhaul networks of different communication standards; And a control unit for controlling the wireless communication module to block the wireless communication module corresponding to the backhaul network exceeding the predetermined signal strength.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a mobile communication relay system,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless access connection, and more particularly, to a mobile communication relay system located between a mobile communication wireless network and a communication terminal for relaying a wireless access connection of a communication terminal utilizing a backhaul network will be.

Currently, the wireless communication service provided by the mobile communication service is composed of various types of wireless accesses including the existing 3G (WCDMA), recent LTE, WiBro, and WiFi, and can support a plurality of frequency bands for the same wireless access .

Each of these various radio accesses includes a plurality of fixed base stations interconnected. The fixed base stations are geographically located at a location designed over the service area to provide communication services. Since each fixed base station is in a fixed state, it can process only a limited amount of traffic from the communication terminal within a predetermined time, and the quality of the wireless communication service can vary according to the degree of concentration of the communication terminal. For example, wireless communications services have lower quality in areas with high population density compared to areas with low population density. In addition, since the communication terminal has mobility according to the movement of the terminal user, the quality of the wireless communication service varies depending on the area as well as the time.

Therefore, when a communication terminal is located in a dense region, a remote region from a fixed base station, or an area where a fixed base station is poorly installed, there is a problem in that a low quality wireless communication service is received.

Wireless accesses also have different specifications. For example, the respective radio accesses differ in the encoding means (CDMA, WCDMA, etc.), the frequency band used, the MAC sublayer, the physical layer, and the protocol standard. Therefore, in order to use any wireless access, the communication terminal must have a wireless communication module that meets the specifications of the corresponding wireless access. However, due to a problem of miniaturization of the communication terminal or interference between wireless communication modules, It is a real difficulty to mount a communication module.

In particular, when a communication terminal moves through a moving object such as a KTX or a high-speed bus, wireless accesses that can be accessed according to the moving area change instantaneously. Since a limited number of wireless communication modules are mounted on the communication terminal as described above, It is difficult for a communication terminal moving through the wireless communication service to receive a stable wireless communication service.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a communication terminal apparatus and a communication terminal in which a communication terminal group of a certain size or more moves through a moving object, such as a KTX or a high- The mobile relay system comprising:

According to an aspect of the present invention, there is provided a mobile relay system including a mobile access point including a plurality of wireless communication modules of different radio standards communicating with a communication terminal; And a mobile access router for relaying signals between the mobile access point and the backhaul network by protocol conversion, the mobile access router comprising: a selector for selectively connecting one of a plurality of backhaul networks of different communication standards; And a control unit for controlling the wireless communication module to block the wireless communication module corresponding to the backhaul network exceeding the predetermined signal strength.

According to an aspect of the present invention, there is provided a mobile relay method including: a mobile access point including a plurality of wireless communication modules of different wireless standards communicating with a communication terminal; A mobile relay method of a mobile access router for relaying signals by protocol conversion, comprising: a mobile access router selecting one of a plurality of backhaul networks of different communication standards; And the mobile access router transmits a control message to the mobile access point to block the wireless communication module corresponding to the backhaul network exceeding a preset signal strength among the plurality of wireless communication modules.

According to an embodiment of the present invention, when a group of communication terminals of a certain scale or more is included in a mobile body, there is an advantage that each communication terminal can provide a stable quality communication service.

Also, according to an embodiment of the present invention, handover and location registration occur only in a mobile relay system, a load of a mobile communication wireless network due to handover and location registration is reduced, and a plurality of mobile stations There is an advantage that terminals do not need to perform simultaneous frequent handover and location registration.

1 is a diagram illustrating a communication environment to which a mobile relay system according to an embodiment of the present invention is applied.
2 is a diagram illustrating a mobile relay system according to an embodiment of the present invention.
3 is a diagram illustrating a signal relaying procedure of a mobile relay system according to an embodiment of the present invention.

The foregoing and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, in which: There will be. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Prior to the description with reference to the drawings, a standard used for communication between a backhaul network and a mobile relay system is called a communication standard, and a standard used for communication between the communication terminal 130 and the mobile relay system 100 is referred to as a radio standard .

1 is a diagram illustrating a communication environment to which a mobile relay system according to an embodiment of the present invention is applied.

Referring to FIG. 1, a communication area (Area 1, Area 2, Area 3) including at least one backhaul network 1, a moving object 2 moving in the corresponding communication area, A mobile relay system 100 including at least one communication terminal 130, a mobile access point 120 (MAP) and a mobile access router 110 (MAR) is shown.

The communication areas (Area1, Area2, and Area3) are geographical spaces located at a specific time when the mobile unit 2 moves, and at least one backhaul network 1 exists in the corresponding communication area.

The backhaul network 1 is a communication network for providing mobile communication services to the communication terminal 130, for example, 3G, LTE, WiBro, etc., and each backhaul network 1 has a different communication standard. For example, the backhaul network 1 has different communication standards in the encoding means (CDMA, WCDMA, etc.), the frequency band to be used, the MAC sublayer, the physical layer,

Also, the service qualities of the respective backhaul networks 1 in the communication areas (Area 1, Area 2, Area 3) may be different from each other. The reason for this is that each backhaul network 1 provides communication services through fixed base stations because the traffic throughput of the fixed base stations is limited while the density of the communication terminals 130 in the communication areas is variable. According to the example shown in FIG. 1, in the communication area 1 (Area 1), the LTE backhaul network 1 has the highest service quality and the WiBro backhaul network 1 has the lowest service quality. Also, in the communication area 3 (Area 3), the quality of service of the 3G backhaul network 1 is the highest, while the service of the other backhaul network 1 is not provided.

The moving body 2 may be a moving body including the communication terminal 130, for example, a moving body including a KTX, a high-speed bus, a ship, and the like.

The communication terminal 130 is a device capable of wireless communication. For example, the communication terminal 130 includes a mobile phone such as a cellular phone, a PCS phone, a CDMA-2000, a WCDMA phone, an LTE phone, etc., and a smart phone, a tablet PC, and the like. The communication terminal 130 may be referred to as another term such as a UE (User Equipment), a MS (Mobile Station), a UT (User Terminal), or an SS (Subscriber Station). The communication terminal 130 communicates through radio access of various standards such as 3G, LTE and WiBro, as described above. The communication terminal 130 generally supports a standard for communicating with one radio access. However, the present invention is not limited to this, and it is possible to redundantly support a standard for communicating with two or more wireless accesses.

A mobile access point (MAP) 120 serves as a mobile base station providing a wireless communication function with the communication terminal 130. To this end, the mobile access point 120 communicates with the communication terminal 130 using a predetermined radio standard. For example, wireless standards include 3G, LTE, wireless LAN (WLAN, WiFi) and so on. The mobile access point 120 also communicates with a mobile access router 110, which will be described later. For example, the communication between the mobile access point 120 and the mobile access router 110 may use Ethernet. That is, the mobile access point 120 transmits a signal transmitted and received in the communication with the communication terminal 130 to the mobile access router 110, and the mobile access router 110 communicates with the backhaul network 1, It is relayed. The mobile access point 120 is also controlled by the mobile access router 110. The detailed configuration of the mobile access point 120 will be described in detail with reference to FIG.

A mobile access router (MAR) 110 communicates with the backhaul network 1. As described above, since the backhaul network 1 exists in various standards, the mobile access router 110 can support at least one communication standard. The detailed configuration of the mobile access router 110 will be described in detail with reference to FIG.

As a result, according to an embodiment of the present invention, the communication terminal 130 does not directly communicate with the backhaul network 1 but transmits the mobile access point 120 and the mobile relay system 110 including the mobile access router 110 And communicates with the backhaul network 1 via the network.

2 is a diagram illustrating a mobile relay system according to an embodiment of the present invention.

Referring to FIG. 2, the mobile relay system 100 includes a Mobile Access Point (MAP) 120 and a Mobile Access Router (MAR).

The mobile access point 120 includes an Ethernet interface 121, a control unit 122, and at least one wireless communication module 123.

The Ethernet interface 121 uses, for example, Ethernet in a configuration in which it communicates with the mobile access router 110.

The wireless communication module 123 is configured to communicate with the communication terminal 130 and the mobile access point 120 includes at least one wireless communication module 123. This is because the communication terminal 130 generally supports a wireless standard for communicating with one wireless access, as described above, since the mobile access point 120 must be able to communicate with any communication terminal 130 . That is, the mobile access point 120 may include at least one wireless communication module 123 that supports different wireless standards, so that the mobile access point 120 can communicate with the communication terminal 130 communicating with any standard. The plurality of wireless communication modules 123 of the different wireless standards include at least one of a 3G communication module, an LTE communication module, and a wireless LAN communication module, for example.

The control unit 122 can control the at least one wireless communication module 123 to allow the communication terminal 130 to communicate with the mobile relay system 100 via the mobile relay system 100, Or directly to the backhaul network 1 without having to connect to the network. For this, the controller 122 turns on / off the at least one wireless communication module 123.

Specifically, the control unit 122 sniffs the situation of the backhaul network 1 to turn off the wireless communication module 123 supporting the same wireless standard as the communication standard of the backhaul network 1 exceeding a predetermined signal strength, Or by switching the frequency of the wireless communication module 123 to a frequency band different from that of the backhaul network 1, interference between the same wireless standards can be controlled. The control unit 122 also turns on the wireless communication module 123 that supports the same wireless standard as the communication standard of the backhaul network 1 that does not exceed a predetermined signal strength and notifies the communication terminal 130 of the strong signal strength Direct connection to the backhaul network 1 and guide the backhaul network 1 with weak signal strength to connect via the mobile relay system 100. [

When the communication terminal 130 connects to the backhaul network 1 via the mobile relay system 100, the same frequency interference of the same radio standard between the mobile access point 120 and the backhaul network 1 is removed The control unit 122 can detect the communication state between the communication terminal 130 and the mobile access point 120 to check FA (Frequency Assignment) and band, and select FA and band. For example, when there is an empty FA in the communication state between the communication terminal 130 and the mobile access point 120, the controller 122 activates the wireless communication module 123 supporting the corresponding FA without interference, The wireless communication module 123 that supports the wireless communication module 123 can be inactivated and the communication terminal 130 can be guided to connect to the corresponding FA first. If there is an empty band in the communication state between the communication terminal 130 and the mobile access point 120, the wireless communication module 123 supporting the corresponding band is activated and the wireless communication module 123 supporting the remaining bands is deactivated So that the communication terminal can be guided to connect to the corresponding band first.

When the control unit 122 controls the wireless communication module 123, the backhaul network 1 (1) selected by the backhaul selection unit 112-1 included in the control unit 112 of the mobile access router 110 It is possible to turn off the wireless communication module 123 supporting the same wireless standard as the communication standard of the backhaul network 1 or to use the frequency of the communication module 123 supporting the same wireless standard as a frequency different from that of the backhaul network 1. When the backhaul selection unit 112-1 selects and connects the backhaul network 1, the communication terminal 130 transmits a signal transmitted from the backhaul network 1 and a signal transmitted from the mobile access point 120 Interference occurs between the signals due to reception in a redundant manner, so as to remove the interference.

The mobile access router 110 includes a backhaul communication unit 111, a control unit 112, and an Ethernet interface 113.

The backhaul communication unit 111 communicates with the backhaul network 1. Since the backhaul network 1 has various communication standards such as 3G, LTE and WiBro as described above, All specifications can be supported. The backhaul selector 112-1 selects one backhaul network 1 among the various backhaul networks 1 in accordance with a predetermined criterion and the backhaul communication unit 111 selects the corresponding backhaul network 1 .

The control unit 112 controls the mobile access router 110 and includes a backhaul selection unit 112-1, a MAP control unit 112-2 and a protocol conversion unit 112-3.

The backhaul selection unit 112-1 is configured to select any one of various backhaul networks 1 of different standards. Specifically, when selecting one of the backhaul networks 1, the backhaul network 1 having the strongest signal strength can be selected. Or when selecting one of the backhaul networks 1, the backhaul network 1 having the lowest load can be selected.

The Ethernet interface 113 uses, for example, Ethernet in a configuration in which the mobile access point 120 communicates with the mobile access point 120.

The protocol converter 112-3 is a configuration for matching data between signals of different standards. According to an embodiment of the present invention, the mobile access router 110 transmits a signal according to the communication standard of the selected backhaul network 1 as well as a signal according to the wireless standard of the communication terminal 130 and transmitted through the mobile access point 120 The protocol conversion is necessary because the two signals differ in their specifications.

3 is a flowchart illustrating a signal relay procedure of a mobile relay system according to an embodiment of the present invention.

Referring to FIG. 3, the mobile access router 110 selects the backhaul network 1 (S301). Specifically, the mobile access router 110 monitors the situation of the surrounding backhaul network 1 and selects one of the backhaul networks 1 according to a predetermined criterion. The criterion may be, for example, to select the backhaul network 1 with the strongest signal strength among the backhaul networks 1 to be detected. Or to select the backhaul network 1 with the lowest load among the backhaul network 1 to be detected, for example.

The mobile access router 110 transmits a control signal to the mobile access point 120 (S302). The control signal is a signal for turning on / off the wireless communication module 123 corresponding to the control signal from among at least one wireless communication module 123 included in the mobile access point 120 or for selecting a frequency free from interference .

The mobile access point 120 turns on / off the specific wireless communication module 123 or selects a frequency free from interference according to the control signal (S303). This is to induce the communication terminal 130 to decide whether to connect via the mobile relay system 100 or directly to the backhaul network 1 via the mobile relay system 100. [ For example, the mobile access point 120 sniffs the situation of the backhaul network 1 and provides a wireless communication module 123 that supports the same wireless standard as the communication standard of the backhaul network 1, Off, or select a frequency with no mutual interference. The wireless communication module 123 that supports the same wireless standard as the communication standard of the backhaul network 1 that does not exceed a predetermined signal strength is turned on and the communication terminal 130 transmits to the backhaul network 1 Directs the connection to the backhaul network 1 with weak signal strength, and guides the backhaul network 1 to connect via the mobile relay system 100.

The mobile access point 120 may also be configured to determine a wireless communication state between the mobile access point 120 and the communication terminal 130 such as a band and an FA Assignment) situation, it is possible to induce the connection to the corresponding band and FA without interference. For example, if there is an empty FA in the communication state between the communication terminal 130 and the mobile access point 120, the wireless communication module 123 supporting the corresponding FA and the wireless communication module 123 supporting the remaining FA To turn off the communication terminal 130 to connect to the corresponding FA first. Also, if there is an empty band in the communication state between the communication terminal 130 and the mobile access point 120, the wireless communication module 123 supporting the corresponding band is turned on and the wireless communication module 123 supporting the remaining bands is turned off So that the communication terminal can be guided to connect to the corresponding band first.

The wireless communication module 123 that is turned off in response to the control signal is a wireless communication module 123 that supports the same wireless standard as the communication standard of the backhaul network 1 selected by the mobile access router 110 . This is because the communication terminal 130 receives the signals transmitted from the mobile access point 120 in addition to the signals transmitted from the backhaul network 1, and interference between the signals occurs. Therefore, in order to eliminate the interference to be.

The communication terminal 130 requests a connection to the mobile access point 120 (S304). More specifically, the communication terminal 130 transmits, to the wireless communication module 123 that is in the ON state among the plurality of wireless communication modules 123 included in the mobile access point 120 and matches the wireless standard of the communication terminal 130 Request a connection.

When there is no connectable wireless communication module 123, that is, when the wireless communication module 123 conforming to the wireless standard of the communication terminal 130 is turned off by the mobile access router 110, It is directly connected to the network 1.

The communication terminal 130 receives a response to the connection request from the mobile access point 120 at step S305 and the communication terminal 130 transmits the connection request to the mobile access point 120 via the mobile relay system It is possible to perform communication with the backhaul network 1 (S307)

The mobile access router 110 performs protocol conversion between a signal transmitted / received with the communication terminal 130, that is, a signal conforming to the radio standard, and a signal transmitted / received with the backhaul network 1, that is, a signal conforming to the communication standard (S306). According to an embodiment of the present invention, a wireless communication module 123 having the same wireless standard as the wireless communication module 123 included in the mobile access point 120 according to a control command of the mobile access router 110 the mobile access router 110 receives a signal according to the backhaul network 1 and the communication standard and simultaneously transmits a signal according to the radio standard of the communication terminal 130 via the mobile access point 120 Because the two signals differ in their specifications.

Meanwhile, the mobile access router 110 periodically senses the surrounding backhaul networks 1, thereby allowing the communication terminal 130 to connect directly to the backhaul network 1 via the mobile relay system 100 There is a case to change. For example, the signal strength of the currently connected backhaul network 1 exceeds a preset signal strength. In this case, the mobile access router 110 transmits a control signal to the mobile access point 120 to turn off the wireless communication module 123 having the same wireless standard as the communication standard of the backhaul network 1, The access point 120 can perform a handover to the backhaul network 1 through appropriate access control.

On the other hand, the backhaul network 1 to be connected can be changed in accordance with the movement of the mobile unit 2 or the change of the signal strength of the backhaul network 1. [ For example, when the backhaul network 1 having a stronger signal strength than the currently connected backhaul network 1 or the backhaul network 1 having a lower load state is detected, the change is performed to the backhaul network 1. In this case, the mobile access router 110 can perform handover to the newly connected backhaul network 1 through appropriate access control.

While the specification contains many features, such features should not be construed as limiting the scope of the invention or the scope of the claims. In addition, the features described in the individual embodiments herein may be combined and implemented in a single embodiment. To the contrary, the various features described in the singular embodiments of the present disclosure may be implemented in various embodiments individually or in a suitable subcombination.

It is to be understood that, although the operations have been described in a particular order in the figures, it should be understood that such operations are performed in a particular order as shown, or that a series of sequential orders, or all described operations, . In some circumstances, multitasking and parallel processing may be advantageous. It should also be understood that the division of various system components in the above embodiments does not require such distinction in all embodiments.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. The present invention is not limited to the drawings.

1: Backhaul network 2: Mobile
100: mobile relay system 110: mobile access router
120: mobile access point 130: communication terminal
111: backhaul communication unit 112:
113: Ethernet interface 112-1: Backhaul selection unit
112-2: MAP control unit 112-3: Protocol conversion unit
121: Ethernet interface 122:
123: Wireless communication module

Claims (15)

A mobile access point comprising a plurality of wireless communication modules of different radio standards communicating with a communication terminal; And
And a mobile access router including a selection unit for selectively connecting one of a plurality of backhaul networks of different communication standards and relaying signals by protocol conversion between the mobile access point and the backhaul network
The mobile access point comprising:
And a control unit for controlling the wireless communication module corresponding to the backhaul network exceeding a preset signal strength among the plurality of wireless communication modules. The method according to claim 1,
Wherein the control unit blocks and controls a wireless communication module corresponding to the selectively connected backhaul network among the plurality of wireless communication modules. The method according to claim 1,
Wherein the selection unit of the mobile access router,
Wherein a backhaul network having the strongest signal strength among the plurality of backhaul networks of different communication standards is connected. The method according to claim 1,
Wherein the selection unit of the mobile access router,
And a backhaul network having the lowest load among a plurality of backhaul networks of different communication standards. 5. The method according to any one of claims 1 to 4,
Wherein the plurality of wireless communication modules of the different wireless standards,
A 3G communication module, an LTE communication module, and a wireless LAN communication module. 5. The method according to any one of claims 1 to 4,
Wherein the plurality of backhaul networks of the different communication standards include:
A 3G backhaul network, an LTE backhaul network, and a WiBro backhaul network. 5. The method according to any one of claims 1 to 4,
The mobile access point comprising:
Wherein the control unit switches connection to a backhaul network before a communication terminal connected to a wireless communication module that is controlled to be blocked by the controller is shut down. A mobile access point comprising a plurality of wireless communication modules of different radio standards communicating with a communication terminal; And
And a mobile access router including a selection unit for selectively connecting one of a plurality of backhaul networks of different communication standards and relaying signals by protocol conversion between the mobile access point and the backhaul network
The mobile access point comprising:
And a control unit for selecting and controlling a use frequency of the plurality of wireless communication modules to a frequency band different from that of a backhaul network selected by the selection unit of the mobile access router. A mobile relay method comprising: a mobile access point including a plurality of wireless communication modules of different radio standards communicating with a communication terminal; and a mobile relay router for relaying signals between the access point and the backhaul network by protocol conversion,
The mobile access router selecting one of a plurality of backhaul networks of different communication standards;
And a mobile access router transmitting a control message to the mobile access point for blocking the wireless communication module corresponding to the backhaul network exceeding a preset signal strength among the plurality of wireless communication modules. 10. The method of claim 9,
Wherein the transmitting the control message comprises:
Further comprising the step of the mobile access router transmitting a control message for blocking and controlling the wireless communication module corresponding to the selected backhaul network among the plurality of wireless communication modules. 10. The method of claim 9,
Wherein the selecting comprises:
Wherein a backhaul network having the strongest signal strength among a plurality of backhaul networks of different communication standards is selected. 10. The method of claim 9,
Wherein the selecting comprises:
And selects a backhaul network having the lowest load among a plurality of backhaul networks of different communication standards. The method according to any one of claims 9 to 12,
Wherein the plurality of wireless communication modules of the different wireless standards,
A 3G communication module, an LTE communication module, and a wireless LAN communication module. The method according to any one of claims 9 to 12,
Wherein the plurality of backhaul networks of the different communication standards include:
A 3G backhaul network, an LTE backhaul network, and a WiBro backhaul network. The method according to any one of claims 9 to 12,
Before the mobile access router transmits a control message,
And the communication terminal connected to the wireless communication module to be blocked is switched to the backhaul network.

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