KR20130017710A - System and method for providing communication services in heterogeneous network - Google Patents

Abstract

PURPOSE: A communication service providing system in a heterogeneous network and a method thereof are provided to offer a communication service in the heterogeneous network by automatically providing SIB(System Information Block) information of a WCDMA(Wideband Code Division Multiple Access) network to a base station of an LTE(Long Term Evolution) network. CONSTITUTION: When a collecting request signal is generated in a timer, a system information collecting unit(160) controls a second network modem unit for activating the state of a second network modem unit. The system information collecting unit collects second network information by connecting the second network modem unit to a second base station. When a fallback command including second network information is received from a base station of a first network, a network connecting indication unit(180) indicates network movements by connecting a second network base station to the second network modem unit. [Reference numerals] (110) First network modem unit; (120) Second network modem unit; (130) Synchronizing unit; (140) Communicating unit; (150) Timer; (160) System information collecting unit; (170) Information collecting indication receiving unit; (180) Network access indicating unit; (AA) Network access indication; (BB) Communication service; (CC) System information, cell ID; (DD) Information collecting request

Description

System and method for providing communication services in heterogeneous networks

The present invention relates to a communication service providing system and method in a heterogeneous network.

The Long Term Evolution (LTE) network, which is an all IP based communication network, provides a communication service using a packet switch. Accordingly, voice call service coming from a network using an existing circuit switch (for example, Wideband Code Division Multiple Access (WCDMA)) is automatically disconnected because it is not compatible between packet switching and circuit switching.

In order to improve the problem, the LTE network provides a service using a CSFB (Circuit Switch Fall Back) only when a call is attempted from a LTE network to a WCDMA network or a voice call service is provided. To this end, the LTE network instructs the UE to move to the overlapping WCDMA network.

In this case, in order for the terminal to quickly connect to the WCDMA network, the LTE network transmits system information (SI) of the WCDMA network to the terminal along with a release command. The information of the WCDMA network is composed of a system information block (SIB) and a master information block (MIB). As a prerequisite for performing this process, the SIB information of the WCDMA network should be stored in advance by the base station (eNodeB) of the LTE network and transmitted to the terminal, and the RIM (RAN Information Management) procedure (SIM) is obtained in such a manner as to obtain SIB information. procedure) and manual input of neighbor cell information to the base station.

However, when using the RIM procedure, new system development is needed to use the new procedure in the existing WCDMA network. In addition, since the method of manually inputting by the network manager must be manually input by hand, it is difficult to manage.

When the UE is moving, when SIB information is not provided when moving from the LTE network to the WCDMA network, the synchronization between the UE and the base station of the WCDMA network may take a long time, thus causing a disconnection during communication service provision.

Accordingly, the present invention provides a system and method for providing a communication service in a heterogeneous network so that a terminal can provide a communication service in a heterogeneous network by automatically providing SIB information of a WCDMA network to a base station of an LTE network.

In one aspect of the present invention for achieving a technical problem of the present invention, a terminal is provided with a communication service in a heterogeneous network,

Determining, by the terminal receiving the communication service from the first network base station, whether a preset timer has expired; If the timer has expired, collecting information of a second network, the network overlapping the first network; Transmitting the collected second network information to the first network base station through an information collection server connected to the terminal; And receiving a fallback instruction including information of the second network from the first network base station, and connecting to the second network base station to receive a communication service.

Prior to the step of collecting system information of the second network, receiving a request for information collection of the second network from the information collection server interworking with the terminal; And collecting information of the second network.

Communication service providing method which is another feature of the present invention for achieving the technical problem of the present invention,

Providing a communication service to the terminal by a first base station of a first network to which the terminal is connected; Receiving second network information collected from a second base station which is a base station of a second network overlapped with the first network collected by the terminal from an information management server interworking with the first base station; And instructing the terminal to fall back to the second base station based on the system information included in the received second network information.

The second network information may include a cell ID of the second network and system information which is system information for fallback of the terminal.

Another feature of the present invention for achieving the technical problem of the present invention is interworking with the base station and the information collection server in the heterogeneous network, connected to the base station of the first network to receive a communication service to execute the connection to the second base station Terminal to say,

A first network modem unit interworking with a base station of a first network and providing a communication service to a terminal through the first network; A second network modem unit interworking with a base station of a second network, the network overlapping with the first network, and providing a communication service to a terminal through the second network; A timer for generating a collection request signal to collect information about the second network when a preset time expires; When the collection request signal is generated by the timer, the system information collection unit instructs the state of the second network modem unit to be active, and collects second network information by interworking of the second network modem unit and the second base station. ; And a network connection indicating unit for instructing network movement through connection with a second network base station based on the second network information to the second network modem unit when receiving a fallback instruction including second network information from the base station of the first network. It includes.

When the terminal receives the second network information collection request from the information collecting server, the terminal instructs the network connection indicating unit to change the state of the second network modem to an active state, and the system information collecting unit informs the second network information of the second network information. An information collection instruction receiving unit requesting collection; A synchronization unit for synchronizing with the base station of the first network or the base station of the second network; And a communication unit configured to transmit and receive a communication service through a base station of the first network or a base station of the second network.

In order to achieve the technical problem of the present invention, another feature of the present invention is linked to a terminal and an information management server, and the base station for instructing the fallback to the terminal,

A communication unit providing a communication service to the terminal in association with the terminal; An information receiver configured to receive second network information including system information of the second network collected by the terminal from the information management server; And a fallback indicating unit for instructing the terminal to fallback to the second network based on the second network information stored in the information receiving unit.

The base station includes a synchronization unit for performing synchronization with the terminal; And an information storage unit for storing the second network information received by the information receiver and providing the second network information to the fallback indicating unit.

The information management server may interwork with an information collection server and provide the second network information to the base station collected by the terminal.

The information collection server, the information collection unit for receiving the second network information collected by the terminal; An information transfer unit for transferring the second network information received by the information collection unit to the base station; And an information collection request unit requesting the terminal to collect information on the second network.

According to the present invention, since the system information can be automatically provided to the base station of the LTE network without new development of the existing WCDMA network or without manual input by the network manager, convenience of network management increases.

In addition, by providing a fast mobility from the LTE network to the WCDMA network to the terminal, it is possible to provide a communication service without disconnection.

1 is an exemplary view showing a communication environment capable of providing a communication service between heterogeneous networks according to an embodiment of the present invention.
2 is a structural diagram of a terminal according to an embodiment of the present invention.
3 is a structural diagram of an information collection server according to an embodiment of the present invention.
4 is a structural diagram of a base station according to an embodiment of the present invention.
5 is a flowchart illustrating a method for providing a communication service in a heterogeneous network according to a first embodiment of the present invention.
6 is a flowchart illustrating a method for providing a communication service in a heterogeneous network according to a second embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

In this specification, a terminal includes a mobile station (MS), a mobile terminal (MT), a subscriber station (SS), a portable subscriber station (PSS) An access terminal (AT), and the like, and may include all or some of functions of a mobile terminal, a subscriber station, a mobile subscriber station, a user equipment, and the like.

In this specification, a base station (BS) is an access point (AP), a radio access station (RAS), a node B, a base transceiver station (BTS) Mobile Multihop Relay) -BS, and may include all or some of the functions of an access point, a radio access station, a Node B, a base transceiver station, and an MMR-BS.

Hereinafter, a system and method for providing a communication service between heterogeneous networks according to an embodiment of the present invention will be described with reference to the accompanying drawings. Before describing an embodiment of the present invention, an LTE network to which a terminal is connected is referred to as a first network, and a WCDMA network that overlaps with the first network and provides a service using circuit switching is referred to as a second network.

1 is an exemplary view showing a communication environment capable of providing a communication service between heterogeneous networks according to an embodiment of the present invention.

As shown in FIG. 1, in order to provide a communication service between heterogeneous networks, the terminal 100 connected to the first network and using the communication service interworks with the information collection server 200. The information collection server 200 which collects the cell ID information for the first network to which the terminal 100 is connected, the cell ID information and the system information for the cells of the second network overlapping the first network is an information management server ( The system information collected in association with 300 is transmitted to the information management server 300.

The information management server 300 transmits the system information of the second network to the base station 400 of the first network so that the terminal 100 using the communication service in the first network moves directly to the second network. Ensure that you continue to receive services. Here, the first network and the second network manage communication areas where the respective base stations 400 and 400 'overlap, and provide a communication service. Details of this are known in the present invention. Detailed description thereof will be omitted.

A structure of the terminal 100 that can be used in both the first network and the second network in such a communication environment will be described with reference to FIG. 2.

2 is a structural diagram of a terminal according to an embodiment of the present invention.

As shown in FIG. 2, the terminal 100 includes a first network modem unit 110, a second network modem unit 120, a synchronization unit 130, a communication unit 140, a timer 150, and a system information collection unit. 160, an information collection instruction receiving unit 170, and a network connection indicating unit 180.

The first network modem unit 110 controls the terminal 100 so that the user can receive a communication service through a base station of the LTE network, which is the first network, and the second network modem unit 120 is a WCDMA user, the second network. The terminal 100 is controlled to receive the communication service through the base station of the network. Here, the method of controlling the terminal 100 by each of the modem units 110 and 120 is already known, and detailed description thereof will be omitted in the exemplary embodiment of the present invention.

The synchronization unit 130 is a terminal to the base station (400, 400 ') of any one of the first network or the second network under the control of the first network modem unit 110 or the second network modem unit 120. When connected, the synchronization between the base station (400, 400 ') and the terminal 100 proceeds. The communication unit 140 receives the communication service through the base station when the synchronization between the terminal 100 and the base station 400, 400 ′ is completed by the synchronization unit 130.

The system information collecting unit 160 sets the cell ID information of the first network to which the terminal 100 is currently connected according to a predetermined time or a system information collection instruction of the information collecting server 200 to which the terminal 100 is linked. Gathers cell ID information of the second network, which is a network overlapping the first network, and system information on the second network. To this end, a message is transmitted to the second network modem unit 120 so that the second network modem unit 120 in an off state is turned on through the first network connection.

When the state changes to the active state with the second network modem unit 120, cell ID information and system information for the second network are collected. The system information is system information collected for the terminal 100 to access the base station 400 ′ of the second network. The system information includes a system information block (SIB) and a master information block (MIB). Include. The contents included in such system information are already known and detailed descriptions thereof will be omitted in the exemplary embodiments of the present invention.

The timer 150 requests the system information collection unit 160 to collect system information when the preset time reaches to collect system information about the second network. That is, when the time set in the timer 150 passes (Send_Timer = 0), the second network modem unit 120 in addition to requesting the first network modem unit 110 to collect the cell ID of the first network is inactive. The control signal is transmitted to the network connection indicating unit 180 to be in an active state.

If the information collection instruction receiving unit 170 instructs the information collection server 200 to collect the cell ID and the system information for the second network by a preset time or a special situation, the network connection indicating unit 180 In addition, the second network modem 120 instructs the state change to the active state and at the same time, the system information collection unit 160 requests the collection of the cell ID and system information.

When the network access indicating unit 180 receives the fallback instruction from the base station 400 of the first network, the network access indicating unit 180 instructs the network movement through the connection with the second network base station 120 to the second network modem unit 120. At this time, the system information of the second network is received together from the base station 400 of the first network, so that the terminal 100 is quickly reconnected to the second network. In addition, when the network connection indicating unit 180 receives an active state control signal from the timer 150, the network connection indicating unit 180 instructs the second network modem unit 120 to be in an active state by transmitting to the second network modem unit 120. do.

Meanwhile, a structure of the information collection server 200 that receives the system information collected by the terminal 100 will be described with reference to FIG. 3.

3 is a structural diagram of an information collection server according to an embodiment of the present invention.

As shown in FIG. 3, the information collecting server 200 includes an information collecting unit 210, an information transmitting unit 220, and an information collecting requesting unit 230.

The information collecting unit 210 may include second network information about the second network periodically collected by the terminal 100 (where the second network information includes a cell ID and system information of the second network) or an information collection server ( The second network system information collected by the terminal 100 is received from the terminal 100 according to the instruction at 200. The information transmitting unit 220 transmits the system information of the second network received by the information collecting unit 210 to the information management server 300.

The information collection requesting unit 230 generates and transmits a request message to the terminal 100 to collect second network information including system information of the second network. Here, since the method for generating the request message can be generated in various ways according to the system design, the embodiment of the present invention is not limited to any one method.

Next, a structure of the base station 400 that provides a communication service to the terminal 100 and instructs network movement to the terminal 100 will be described with reference to FIG. 4. The base station 400 illustrated in FIG. 4 will be described using the first base station to which the terminal 100 is connected as an example, and may include the same components in the second base station.

4 is a structural diagram of a base station according to an embodiment of the present invention.

As shown in FIG. 4, the base station 400 according to an embodiment of the present invention uses a synchronization unit 410, a communication unit 420, an information receiving unit 440, an information storage unit 450, and a fallback indicating unit 430. Include.

The synchronization unit 410 performs a synchronization procedure of the terminal 100 when the terminal 100 to receive the communication service accesses the base station 400. Here, the synchronization procedure is already known, and detailed description thereof will be omitted in the exemplary embodiment of the present invention.

The communication unit 420 provides a communication service to the terminal 100 that has completed the synchronization procedure through the synchronization unit 410. Here, if the base station 400 is a base station located in the first network, the communication unit 420 performs communication by circuit switching, and if the base station 400 is a base station located in the second network, the communication unit 420 performs communication by packet switching. .

The information receiver 440 receives the system information about the second network collected by the terminal 100 and delivered to the information collection server 200 through the information management server 300. Upon receiving the system information, the information receiving unit 440 may obtain the system information block and the master information block together.

The information storage unit 450 stores the system information and the cell ID of the second network together with the identifier information of the terminal collecting the corresponding system information. The system information of the second network is updated every time the terminal 100 collects the system information and the cell ID of the second network at predetermined times, or the terminal 100 is prepared by the request of the information collection server 200. Collecting system information and cell ID of two networks may be updated with the collected information.

When the fallback indicating unit 430 determines that the current terminal 100 cannot receive the communication service through the connected network, the fallback indicating unit 430 instructs the fallback to another network overlapping the connected network. At this time, the second network information stored in the information storage unit 450 includes the system information on the second network to instruct the fallback. In the embodiment of the present invention, a fallback from the LTE network to the WCDMA network will be described as an example.

Meanwhile, a method of providing a communication service to the terminal 100 through the communication environment described above will be described with reference to FIGS. 5 and 6.

5 is a flowchart illustrating a method of providing a communication service in a heterogeneous network according to the first embodiment of the present invention, and FIG. 6 is a flowchart illustrating a method of providing a communication service in a heterogeneous network according to a second embodiment of the present invention. to be.

First, as shown in FIG. 5, in the first embodiment, the terminal 100 collects information of the second network for each predetermined time period. First, if the terminal 100 connected to the first network is using a communication service through the first network, the second modem unit 120, which is another modem unit included in the terminal 100, may be deactivated. Keep it.

At this time, the timer 150 determines whether the preset time has passed (Send_Timer = 0) (S110). If the timer has expired, the network connection indicating unit 180 of the terminal 100 instructs the second network modem unit 120 to be in an active state. The second network modem unit 120 changes the state from the inactive state to the active state, and the system information collection unit 160 is a network that overlaps the first network based on the location of the current terminal 100. Collect two network information (S130). In addition, the system information collection unit 160 collects information of the first network (S135). At this time, the information of the first network means the cell ID of the first network, and the information of the second network means the cell ID and the system information for the fallback of the second network.

After the system information collection unit 160 collects network information, the information is transmitted to the information collection server 200 (S140), and the information collection server 200 transmits the network information to the information management server 300. It is to be transmitted to the base station 400 of the first network (S150, S160). The information receiving unit 440 of the base station 400 receiving the network information transmits the network information to the information storage unit 450 to update the cell ID and system information of the second network according to the location of the current terminal 100 ( S170).

The base station 400 of the first network needs to fall back to the terminal 100 while the terminal 100 uses the communication service through the base station of the first network while continuously updating network information for each preset time through the above procedure. It is determined whether or not (S180). That is, when the terminal 100 connected to the first network needs to communicate with the terminal located in the second network, the terminal 100 cannot communicate with the terminal in the second network through the first network.

In this case, the fallback is required in the terminal 100, and if the fallback is required in the terminal 100, the fallback indicating unit 430 of the first network base station 400 updates the updated network information stored in the information storage unit 450. Based on the information on the second network of the terminal 100 confirms the cell ID information of the second network overlapping the first network connected. Then, the terminal 100 transmits the fallback request message including the system information of the second network to the terminal 100 so that the terminal 100 falls back to the corresponding cell ID (S190).

The network access indicating unit 180 of the terminal 100 attempts to fall back to the base station 400 'of the second network using the system information of the second network included in the transition request message (S200), and then Communication with other terminals located in the second network is started through the base station 400 '(S210). That is, in order to the terminal 100 to fall back to the base station 400 'of the second network, the base station 400 of the first network should transmit the system information of the second network to the terminal, and the system information of the second network. In the process of collecting the case may not provide a communication service to the user for the required time. However, when the system information of the second network collected and updated in advance according to the embodiment of the present invention is transmitted to the terminal, the fallback can be instructed immediately, so that the terminal 100 can move quickly.

The first embodiment described above is to collect the system information at a predetermined period by the terminal 100, the method of instructing the system information collection from the information collection server 200 to the terminal 100 with reference to FIG. The communication service providing method used will be described.

As shown in FIG. 6, first, if the terminal 100 connected to the first network is using a communication service through the first network (S300), another modem unit included in the terminal 100 is included. The second modem unit 120 maintains the terminal inactivity.

At this time, the information collection server 200 instructs the terminal 100 to collect the second network information (S310), and the information collection instruction receiving unit 170 through the network connection indicating unit 180, the second network modem unit ( 120 is indicated to be active. The second network modem unit 120 changes the state from the inactive state to the active state, and the system information collecting unit 160 collects system information of the second network about the current location of the terminal 100 (S320).

In addition, the system information collection unit 160 collects system information of the first network (S325). In this case, the information collected through the steps S320 and S325 may include the cell ID information and the second network cell ID information in the first network collected by the first network modem unit 110 and the second network modem unit 120 as well as the terminal ( 100) includes the system information for this second network.

After the system information collecting unit 160 collects network information, the information is transmitted to the information collecting server 200 (S330), and the information collecting server 200 transmits the network information to the information management server 300. It is to be transmitted to the base station 400 of the first network (S340, S350). The information receiving unit 440 of the base station 400 receiving the network information transmits the network information to the information storage unit 450 to update the system information for the second network (S360).

The base station 400 of the first network needs to fall back to the terminal 100 while the terminal 100 uses the communication service through the base station of the first network while continuously updating network information for each preset time through the above procedure. It is determined whether or not (S370). That is, when the terminal 100 connected to the first network needs to communicate with the terminal located in the second network, the terminal 100 cannot communicate with the terminal in the second network through the first network.

In this case, the fallback is required to the terminal 100, and if a fallback is required, the fallback indicating unit 430 of the first network base station 400 is the information of the second network among the updated network information stored in the information storage unit 450. On the basis of this, the terminal 100 checks the cell ID information of the second network that overlaps with the connected first network. The terminal 100 transmits a fallback request message including system information of the second network to the terminal 100 so that the terminal 100 falls back to the corresponding cell ID (S380).

The network access indication unit 180 of the terminal 100 attempts to fall back to the base station 400 'of the second network using the system information of the second network included in the transition request message (S390), and then Communication with other terminals located in the second network is started through the base station 400 '(S400).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (11)

In the method that the terminal receives a communication service in a heterogeneous network,
Determining, by the terminal receiving the communication service from the first network base station, whether a preset timer has expired;
If the timer has expired, collecting information of a second network, the network overlapping the first network;
Transmitting the collected second network information to the first network base station through an information collection server connected to the terminal; And
Receiving a fallback instruction including information of the second network from the first network base station, connecting to the second network base station and receiving a communication service;
Communication service providing method comprising a. The method of claim 1,
Before the step of collecting information of the second network,
Receiving a request for information collection of the second network from the information collection server interworking with the terminal; And
Collecting the information of the second network
Communication service providing method comprising a. The method of claim 2,
The first network is a Long Term Evolution (LTE) network, and the second network is a Wideband Code Division Multiple Access (WCDMA) network. Providing a communication service to the terminal by a first base station of a first network to which the terminal is connected;
Receiving second network information collected from a second base station which is a base station of a second network overlapped with the first network collected by the terminal from an information management server interworking with the first base station; And
Instructing the terminal to fall back to the second base station based on the system information included in the received second network information;
Communication service providing method comprising a. 5. The method of claim 4,
The second network information includes a cell ID of a second network and system information including system information for fallback of the terminal. A terminal interworking with a base station and an information collection server in a heterogeneous network, and connected to a base station of a first network to receive a communication service.
A first network modem unit interworking with a base station of a first network and providing a communication service to a terminal through the first network;
A second network modem unit interworking with a base station of a second network, the network overlapping with the first network, and providing a communication service to a terminal through the second network;
A timer for generating a collection request signal to collect information about the second network when a preset time expires;
When the collection request signal is generated by the timer, the system information collection unit instructs the state of the second network modem unit to be active, and collects second network information by interworking of the second network modem unit and the second base station. ; And
When receiving a fallback instruction including the second network information from the base station of the first network, the network access instruction unit for instructing the network movement through the connection to the second network base station based on the second network information to the second network modem unit
. The method according to claim 6,
When the second network information collection request is received from the information collection server, the network connection indicating unit instructs the state change to the active state of the second network modem unit, and requests the system information collection unit to collect the information of the second network. An information collection instruction receiving unit;
A synchronization unit for synchronizing with the base station of the first network or the base station of the second network; And
Communication unit for transmitting and receiving a communication service through the base station of the first network or the base station of the second network
. In the base station interworking with the terminal and the information management server, instructing the fallback to the terminal,
Communication unit for providing a communication service to the terminal in conjunction with the terminal
An information receiver configured to receive second network information including system information of the second network collected by the terminal from the information management server; And
A fallback indicating unit for instructing the terminal to fall back to the second network based on the second network information stored in the information receiving unit.
/ RTI > 9. The method of claim 8,
A synchronization unit for performing synchronization with the terminal; And
An information storage unit for storing the second network information received by the information receiver and providing the second network information to the fallback indicating unit;
/ RTI > 9. The method of claim 8,
The information management server is linked with the information collection server, the base station for providing the second network information collected by the terminal to the base station. The method of claim 10,
The information collection server,
An information collector configured to receive second network information collected by the terminal;
An information transfer unit for transferring the second network information received by the information collection unit to the base station; And
Information collection request unit for requesting the terminal to collect information about the second network
/ RTI >

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