KR20160011132A - System and method for handover by wireless lan in heterogeneous networks - Google Patents

Abstract

A method for performing a handover using a wireless LAN of a user terminal in a heterogeneous network including a macro cell and a small cell includes: requesting a handover by reporting measuring information on the signal intensity including the cellular signal intensity and the wireless LAN signal intensity of a peripheral base station to a source small cell base station; receiving a connection resetting message including information on a target base station from the source small cell base station; trying to connect to the target base station based on the connection resetting message to hand over; and receiving downlink data through a wireless LAN communications channel from the source small cell base station until a cellular communication channel with the target base station is completely set up through the handover.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a handover system and method using a wireless LAN in a heterogeneous network,

The present invention relates to a handover system and method for supporting inter-base station handover in heterogeneous networks including macrocells and small cells.

Conventionally, handover between macro cells is performed by transmitting information of a user equipment (UE) to be moved and downlink (DL) data from a source base station (eNB) to a target eNB (target eNB) (X2 interface) to achieve fast handover. On the other hand, if X2 is not activated, handover must be performed using a remote S1 interface (S1 interface) between the base station (eNB) and the Mobility Management Entity (MME) / Serving Gateway (S-GW) So that it takes a relatively long time.

Also, on a heterogeneous network, frequent handover from a small cell may cause serious signaling overhead to the central MME / S-GW. Specifically, the small cell has a smaller service coverage than the macro cell, and frequent handover may occur due to mobility of the UE. For example, when a small cell base station (HeNB) is installed in a home, a plurality of outbound / inbound cells between a small cell and a macro cell due to mobility of the user terminal UE or signal attenuation due to the structure A ping-pong situation in which an outbound / inbound handover occurs may occur. Also, when a plurality of small cell base stations are installed in an enterprise environment, the handover ping-pong situation between a small cell-small cell or a small cell-macrocell-small cell may frequently occur for the same reasons as described above.

However, setting up the X2 interface between the base stations (HeNBs) in a small cell to solve this problem may cause various problems as follows.

First, from a technical point of view, in the case of a small cell base station (HeNB) installed by a user, various home / office network problems (for example, different communication methods such as cable and Ethernet, (Eg, using an incompatible protocol, blocking a firewall, using a dynamic host configuration protocol (DHCP), and configuring security) may make it difficult to connect the X2 interface with the neighboring base station (HeNB).

Next, from a policy / contract point of view, when an Internet service provider (ISP) providing a backhaul connection for each small cell base station (HeNB) is different, the ISPs and the mobile communication service provider (MNOs) can be denied X2 interface connections due to policy issues.

In the heterogeneous network environment where the macro cell and the small cell coexist due to the problems in the two aspects, the signaling overhead of the MME / S-GW node increases, and the user terminal (UE) Data inconsistency such as data drop or call drop arises.

In this regard, Korean Patent Laid-Open No. 10-2009-0066115 (entitled " heterogeneous network fast handover method and system ") discloses a triggering method for generating a network change event indicating the status of a long- step; A handover preparation step of receiving information of a second router of a new network to be used after handover from a currently connected first router using a network identifier when a network change event occurs; A buffering step of buffering all packets transmitted from the opposite mobile terminal of the mobile terminal to the first router to the second router based on the second router information and the second router transmitting the Fast Neighbor Advertisement (FNA) And a handover step of delivering all the buffered packets to the mobile terminal when a message is transmitted.

An embodiment of the present invention is to provide a handover system and method for supporting smooth handover between a macro cell, a small cell, and a small cell in a heterogeneous network in which a macro cell and a small cell coexist.

It should be understood, however, that the technical scope of the present invention is not limited to the above-described technical problems, and other technical problems may exist.

According to an aspect of the present invention, there is provided a handover method of a user terminal using a wireless LAN in a heterogeneous network including a macro cell and a small cell, Reporting the signal strength measurement information to the source small cell base station and requesting handover; Receiving a connection re-establishment message including information of a target base station from the source small cell base station; Attempting a connection with the target base station based on the connection re-establishment message and performing a handover; And receiving downlink data from the source small cell base station through a wireless LAN communication channel until completing a cellular communication channel setup with the target base station through the handover, Wireless LAN coverage is set wider than cellular coverage.

A user terminal capable of connecting to a wireless LAN communication network and a cellular communication network according to another aspect of the present invention includes a wireless LAN communication module for processing a wireless LAN communication interface with a small cell; A cellular communication module for processing a cellular communication interface with a macro cell and a small cell; A signal strength measurement module for measuring a cellular signal strength and a wireless LAN signal strength of a neighbor base station; And reporting the signal strength measurement information including the cellular signal strength of the neighbor base station to the source small cell base station through the cellular communication module to request a handover, And a handover processing module for receiving a connection re-establishment message including base station information and attempting a connection with the target base station based on the connection re-establishment message, The WLAN communication module receives downlink data from the source small cell base station until the cellular communication channel setup with the target base station is completed.

According to another aspect of the present invention, there is provided a method of processing a handover using a wireless LAN of a small cell base station in a heterogeneous network including a macro cell and a small cell, Receiving signal strength measurement information including an intensity; Transmitting the signal strength measurement information to a backhaul network and requesting handover to the user terminal; Receiving a handover command from the backhaul network to the target base station determined based on the signal strength measurement information for the user terminal; Transmitting a connection re-establishment message including information of the target base station to the user terminal; Receiving a resource release message for the user terminal from the backhaul network, releasing resources for the user terminal and completing the handover process; And transmitting downlink data to the user terminal through a wireless LAN communication channel until the resource release message is received, wherein the wireless LAN coverage of the small cell base station is set wider than the cellular coverage.

According to another aspect of the present invention, in a heterogeneous network including a macro cell and a small cell, a small-cell base station for processing a handover using a wireless LAN includes a wireless LAN communication unit for processing a wireless LAN communication interface with a user terminal, ; A cellular communication unit for processing a cellular communication interface with a user terminal; A handover request receiver for receiving signal strength measurement information including a cellular signal strength of a neighbor BS and a WLAN signal strength from a serving user terminal; And transmitting the signal strength measurement information to a backhaul network to request a handover to the user terminal, and upon receiving a handover command from the backhaul network to the target base station, And a handover processor for transmitting a connection re-establishment message including information of the target base station and releasing a resource for the user terminal when the resource release message for the user terminal is received from the backhaul network, The wireless LAN communication unit processes the handover using a wireless LAN that transmits downlink data to the user terminal through the wireless LAN communication channel until the resource release message is received after the signal strength measurement information is received do.

According to any one of the above-mentioned objects of the present invention, the user terminal moves out of the cellular coverage of the source IFW-HeNB (Integrated Femto WiFi-Home eNode B) The downlink data to the user terminal can be continuously transmitted between the user terminal and the source IFW-HeNB through the wireless LAN interface connection even during the exchange of the signaling message, thereby providing seamless handover.

1 is a block diagram showing the configuration of a heterogeneous network system to which the present invention is applied.
2 is a diagram for explaining an uplink and a downlink data transmission scheme between a small cell base station and a user terminal according to an embodiment of the present invention.
3 is a block diagram illustrating a configuration of a small cell base station that handles handover according to an embodiment of the present invention.
4 is a diagram illustrating a configuration of a user terminal for performing handover according to an embodiment of the present invention.
5 is a data flow chart for explaining a handover method using a wireless LAN according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. 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 order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when a part is referred to as being "connected" to another part, it includes not only "directly connected" but also "electrically connected" with another part in between . Also, when an element is referred to as "comprising ", it means that it can include other elements as well, without departing from the other elements unless specifically stated otherwise.

1 is a block diagram showing the configuration of a heterogeneous network system to which the present invention is applied. 2 is a view for explaining an uplink and a downlink data transmission scheme between a small cell base station and a user terminal according to an embodiment of the present invention.

The heterogeneous network system 10 to which the present invention shown in FIG. 1 is applied may be a wireless communication system such as WCDMA, CDMA2000, WiMAX and LTE, and may be a wireless communication system using an orthogonal frequency division multiplex have. For reference, an embodiment of the present invention describes that a user terminal performs cellular communication through a wireless communication system, and cellular communication refers to both mobile communication and wireless data communication.

In addition, the heterogeneous network system 10 to which the embodiment of the present invention is applied refers to a communication environment in which a macro cell and a femto-cell are mixed. Hereinafter, a small cell includes a femtocell, Will be described as an example. 1, a base station (i.e., a macro base station) of a macro cell is denoted by an eNB 100, a base station (i.e., a small base station) of a small cell is denoted by an HeNB 300, A user terminal that performs wireless LAN communication is shown as a UE 300.

Meanwhile, the small-cell base station 200 according to an embodiment of the present invention is an integrated small-cell base station that processes both a wireless LAN communication interface and a cellular communication interface. In FIG. 1, an integrated femto-WiFi (IFW) Respectively.

Specifically, the IFW-HeNB 200 can be connected to a plurality of UEs 300 through cellular and wireless LAN (i.e., Wi-Fi) connectivity. 1, one of the source IFW-HeNBs 200 handles handover to a macro cell or other small cell according to the movement of the serving UE 300. In this case,

In particular, as shown in FIG. 2, the IFW-HeNB 200 according to an exemplary embodiment of the present invention includes an uplink / downlink channel (UL / DL channel) with respect to a UE 300-2 located in a cellular coverage (Wi-Fi connection) to the UE 300-1 located within the coverage of the WLAN beyond the cellular coverage and replaces the cellular downlink (DL) channel. For reference, since the IFW-HeNB 200 has a wider coverage than the DL in case of the UL, the UL data can maintain the connection through the cellular communication channel even in the case of the UE 300-1.

For example, as in the case of 'A' shown in FIG. 1, when the UE 300 belonging to the source IFW-HeNB 200 is out of cellular coverage and is in the Wi-Fi coverage edge ). In this case, in the existing femtocell environment, since the UE 300 is out of the cellular coverage of the source IFW HeNB 200, but there is no other small cell capable of being connected to the periphery, the handover is directly performed to the eNB 100 of the macro cell . However, according to an exemplary embodiment of the present invention, the UE 300 transmits the DL data to the UE 300 through the wireless LAN communication channel until the UE 300 leaves the wireless LAN coverage of the source IFW-HeNB 200.

1, the UE 300 belonging to the source IFW-HeNB 200 moves out of the cellular coverage of the source IFW-HeNB 200 and is transmitted to another HeNB 200, (I.e., Wi-Fi coverage). In this case, in the existing femtocell environment, since the UE 300 has not yet entered into the cellular coverage of another HeNB 200, it must be handed over to the eNB 100 of the macro cell. However, in an embodiment of the present invention, since the UE 300 is located within the wireless LAN coverage of the other IFW-HeNB 200 and the wireless LAN coverage of the source IFW-HeNB 200, the source IFW- And transmits the DL data to the corresponding UE 300 through the communication channel.

Also, as in the case of 'C' shown in FIG. 1, the UE 300 belonging to the source IFW-HeNB 200 can move out of the cellular coverage to the cellular coverage of another HeNB 200. In this case, in the conventional femtocell environment, there is no overlap between the cellular coverage of the two HeNBs 200, so that a handover from the small cell to the macro cell occurs or a handover from the first small cell to the macro cell and macro Handover from the cell to the second small cell occurs. However, in an embodiment of the present invention, the UE 300 transmits DL data to the corresponding UE 300 through the wireless LAN communication channel until the UE 300 leaves the wireless LAN coverage of the source IFW-HeNB 200.

That is, in the various handover scenarios described above, the source IFW HeNB 200 stably stores the DL data of the UE 300 on the wireless LAN communication channel until the UE 300 completes the handover to the eNB 100 A seamless handover is possible even if the cellular X2 interface is not set up between the source HeNB 200 and the eNB 100. [

Hereinafter, a handover system using a wireless LAN in a heterogeneous network and a method thereof according to an embodiment of the present invention will be described in detail with reference to FIG. 3 to FIG.

3 is a diagram illustrating a configuration of a user terminal for performing handover according to an embodiment of the present invention.

3, the user terminal 300 according to an exemplary embodiment of the present invention includes a wireless LAN communication module (e.g., a wireless LAN communication module) for processing a wireless LAN communication interface (i.e., a Wi-Fi interface) with the small- 310, a cellular communication module 320 for processing a cellular communication interface with a macro cell and a small cell, a signal strength measurement module 330, a handover processing module 340 and a data processing module 350.

The signal strength measurement module 330 measures the cellular signal strength and the WLAN signal strength of neighboring base stations except for the source small cell base station 200 to which the user terminal 300 is connected. At this time, the signal strength measurement module 330 can periodically measure the signal strength of the neighboring base station when the signal strength of the source small cell base station 200 is lower than a preset reference signal strength.

For reference, the neighbor base station includes both a small cell base station and a macro cell base station. In addition, the signal strength measurement module 330 can measure only the cellular signal strength of the neighbor base station when the neighbor base station is a general small cell base station that does not support the macro base station or the wireless LAN interface at the same time, In a wireless LAN integrated base station, both the cellular signal strength and the WLAN signal strength can be measured.

The signal strength measurement module 330 transmits the signal strength measurement information including the measured cellular signal strength and the WLAN signal strength to the handover processing module 340.

The handover processing module 340 reports the signal strength measurement information of the peripheral base station received from the signal strength measurement module 330 to the source small cell base station 200 through the cellular communication module 320 and requests handover.

Then, the handover processing module 340 receives a connection re-establishment message corresponding to the handover request from the source small cell base station 200, attempts connection with the target base station based on the connection re-establishment message, . In this case, the connection reset message includes the target base station information, and the target base station may be either a macro base station or a small cell base station. When the target base station is a small cell base station, a normal small cell base station or a cellular / It can be one. At this time, the wireless LAN communication module 310 can receive the connection re-establishment message through the wireless LAN communication channel with the source small cell base station 200.

Meanwhile, while the handover procedure to the target base station through the handover processing module 340 is being processed, the wireless LAN communication module 310 transmits the handover request message to the source small cell base station 200 until the cellular communication channel setup with the target base station is completed, Lt; / RTI >

When the handover procedure to the target base station is being processed, the handover processing module 340 transmits a connection reset completion message to the target base station through the cellular communication module 320 when the cellular communication channel setup with the target base station is completed .

At this time, the connection reset completion message may include the sequence number of the last downlink data successfully received through the wireless LAN communication channel. Accordingly, after completing the handover procedure with the target base station through the handover processing module 340, the cellular communication module 320 transmits the last downlink data (i.e., the wireless LAN communication channel from the source small cell base station And downlink data received after the downlink data received via the downlink data receiving unit.

In addition, while the handover procedure to the target base station via the handover processing module 340 is being processed, the cellular communication module 320 transmits the uplink data to the source small cell base station 200 via the cellular communication channel.

The data processing module 350 combines the downlink data received through the wireless LAN communication module 310 with the cellular data. For example, the downlink data received from the source small cell base station 200 via the wireless LAN communication channel may be data converted to the wireless LAN communication format, or may be data that is obtained by contaminating (i.e., encapsulating) the cellular data into the wireless LAN communication format Lt; / RTI > Accordingly, the data processing module 350 converts the downlink data received in the WLAN communication format into a cellular data format and combines the received downlink data with the received cellular data. For reference, the sequence numbers are assigned to the downlink data, and sequential combining is possible through the data processing module 350.

4 is a block diagram illustrating a configuration of a small cell base station that handles handover according to an embodiment of the present invention.

4, a small-cell base station 200 according to an exemplary embodiment of the present invention includes a wireless LAN communication unit 210 for processing a wireless LAN communication interface (i.e., a Wi-Fi interface) with a user terminal, A handover request receiving unit 230, a handover processing unit 240, a data processing unit 250, and a data transfer unit 260. The cellular communication unit 220 processes a cellular communication interface with the user terminal 300,

The handover request receiver 230 receives the signal strength measurement information including the cellular signal strength of the neighbor BS and the WLAN signal strength from the serving user terminal 300.

Upon receiving the signal strength measurement information, the handover processor 240 determines a handover process for the user terminal 300, and transmits a handover request including signal strength measurement information to the backhaul network (not shown) . For reference, the backhaul network (not shown) refers to a set of network equipment that collects and aggregates wired / wireless data through a small cell base station and transmits the data to a cellular backbone network. In one embodiment of the present invention, the backhaul network includes a Mobility Management Entity (MME) / Serving Gateway (S-GW) connected to HeNB GWs, HeNB GWs and macro base stations connected to small cell base stations.

The handover processing unit 240 receives a handover command from the backhaul network to the target base station for the user terminal 300 and transmits a connection reestablishment message including the information of the target base station to the user terminal 300.

At this time, the handover processing unit 240 may transmit a connection re-establishment message to the wireless LAN communication unit 210 to be transmitted to the user terminal 300 through the wireless LAN communication channel. This is because the signal strength through the cellular communication channel with the user terminal 300 is weak, so that the connection reset message can be securely transmitted through the wireless LAN communication channel having a wider coverage.

Then, the handover processing unit 240 receives the resource release message for the user terminal 300 from the backhaul network, releases the resource for the user terminal 300, and completes the handover process.

In addition, the handover processing unit 240 transmits a status transmission message including Packet Data Convergence Protocol transmission and reception status information to the target base station through the backhaul network. This is to allow the target base station to acquire the state information of the source small cell base station 200 and set the uplink PDCP reception state and the downlink PDCP transmission state.

Meanwhile, until the handover processing for the user terminal 300 is completed through the handover processing unit 240, the downlink data for the user terminal 300 received from the backhaul network is transmitted to the wireless LAN communication unit 210 To the wireless LAN communication channel. That is, the wireless LAN communication unit 210 transmits the downlink data to the user terminal 300 through the wireless LAN communication channel until the resource release message is received after the signal strength measurement information is received.

The cellular communication unit 220 receives the uplink data of the user terminal 300 through the cellular communication channel until the handover processing for the corresponding user terminal 300 is completed through the handover processing unit 240 can do.

The data processing unit 250 converts the downlink data to the user terminal 300 received from the backhaul network into a wireless LAN communication format and transmits the data to the wireless LAN communication unit 210. That is, as described above, the data processing unit 250 converts the cellular downlink data to the user terminal 300 into a wireless LAN communication format or processes the data.

The data transfer unit 260 transfers at least one of the uplink data and the downlink data of the user terminal 300 to the target base station through the GTP tunnel until the resource release message is received. This is because uplink data received from the user terminal 300 to the target base station or downlink data to be transmitted to the user terminal 300 in a situation where signal strength through the cellular and wireless LAN communication channel with the user terminal 300 becomes weak, So as to prevent loss of uplink / downlink data to the user terminal 300.

Referring to FIG. 5, a handover processing method using a wireless LAN according to an embodiment of the present invention will be described in detail.

5 is a data flow chart for explaining a handover method using a wireless LAN according to an embodiment of the present invention.

First, the user terminal 300 transmits a handover request message (RRC: Measurement (RRC) message) reporting the signal strength measurement information including the measured cellular signal strength and the WLAN signal strength to the source small cell base station 200-1 Report) (S501).

Then, the source small cell base station 200-1 determines handover to the user terminal 300 in step S502, and transmits the hand over to the backhaul network (i.e., the mobility management entity / serving gateway 400) Over request message (S1AP: HandoverRequest) (S503). At this time, the received signal strength measurement information is included in the handover request message.

Then, the mobility management entity / serving gateway 400 transmits a handover request message (S1AP: HandoverRequest) to the target base station 200-2 determined based on the signal strength measurement information received from the source small cell base station 200-1 (S504), and receives a handover request response (S1AP: HandoverRequestAck) from the target base station 200-2 (S505).

Then, the mobility management entity / serving gateway 400 transmits a message (S1AP: Handover Command) instructing handover processing to the source small cell base station 200-1 (S506).

At this time, the handover processing command message received by the source small cell base station 200-1 includes a RRC (RRConnectionReconfiguration) included in the handover request response of the target base station 200-2.

Accordingly, the source small cell base station 200-1 transmits a connection reset message (RRCConnectionReconfiguration) including the target base station information to the user terminal 300 (S507).

For reference, the source small cell base station 200-1 can transmit a connection reset message through a cellular communication channel or a wireless LAN communication channel (S507).

Then, the source small cell base station 200-1 transmits a Status Transmission Message (S1AP) including Packet Data Convergence Protocol transmission and reception status information to the mobility management entity / serving gateway 400, (S508), and the mobility management entity / serving gateway 400 transmits the status transmission message (S1AP: Status Transfer) to the target base station 200-2 (S509).

Meanwhile, the source small cell base station 200-1 transmits downlink data (DL data) to the user terminal 300 received through the backhaul network to the user terminal 300 through a wireless LAN communication channel (i.e., Wi-Fi) (S510).

5, it is assumed that the source small cell base station 200-1 transmits the downlink data to the user terminal 300 through the wireless LAN communication channel after the steps S508 and S509 However, the present invention is not limited to the order and the sequence, but may be continuously processed until the handover procedure with the target base station 200-2 is completed after the user terminal 300 requests handover.

After receiving the connection re-establishment message, the user terminal 300 proceeds to the switching procedure from the source small cell base station 200-1 to the target base station 200-2 (S511).

Then, when the switching procedure is completed and the cellular communication channel setup with the target base station 200-2 is completed, the user terminal 300 transmits an RRC Connection Reconfiguration (RRC) message to the target BS 200-2 Complete (S512).

For reference, the connection reset completion message may include the sequence number of the last downlink data successfully received through the wireless LAN communication channel. Accordingly, after the step S512, the user terminal 300 can receive the downlink data after the last downlink data from the target base station 200-2 through the cellular communication channel.

Also, the user terminal 300 may transmit the uplink data through the cellular communication interface to the source small cell base station 200-1 until the setup of the cellular communication channel with the target base station 200-2 is completed.

Further, after receiving the downlink data, the user terminal 300 may further perform combining the downlink data received via the wireless LAN communication channel with the cellular data.

The target base station 200-2 having received the connection reset completion message from the user terminal 300 transmits a message requesting data path switching to the corresponding user terminal 300 to the mobility management entity / (Path Switch Request Ack) from the mobility management entity / serving gateway 400 and completes the path change procedure (S514) after transmitting the Path Switch Request Request (Step S513).

Subsequently, the mobility management entity / serving gateway 400 transmits a resource release message (S1AP: UE Context Release) to the source small cell base station 200-1 (S515) And releases all resources for the user terminal 300 to complete the handover process.

Meanwhile, the source small cell base station 200-1 transmits downlink data to the user terminal 300 through the wireless LAN communication channel until receiving the resource release message, and transmits the downlink data to the user terminal 300 received from the back- A procedure for converting the downlink data into the wireless LAN communication format can be performed.

Also, the source small cell base station 200-1 transmits at least one of the uplink data and the downlink data of the user terminal 300 to the target base station 200-2 through the GTP tunnel until receiving the resource release message .

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

10: Heterogeneous network system
100: macro cell base station (eNB)
200: Small cell base station (HeNB)
300: User terminal (UE)

Claims (24)

A handover method using a wireless LAN of a user terminal in a heterogeneous network including a macro cell and a small cell,
Reporting signal strength measurement information including a cellular signal strength of a neighbor BS and a WLAN signal strength to a source small cell BS and requesting handover;
Receiving a connection re-establishment message including information of a target base station from the source small cell base station;
Attempting a connection with the target base station based on the connection re-establishment message and performing a handover; And
Receiving downlink data from the source small cell base station through a wireless LAN communication channel until completing a cellular communication channel setup with the target base station through the handover,
Wherein the wireless LAN coverage of the source small cell base station is set wider than the cellular coverage. The method according to claim 1,
Wherein the handover step comprises:
And transmitting a connection reset completion message to the target BS when the cellular communication channel setup with the target BS is completed,
The connection reset completion message includes:
And a sequence number of the last downlink data successfully received through the wireless LAN communication channel. 3. The method of claim 2,
After the handover step,
And receiving downlink data after the last downlink data from the target base station through a cellular communication channel. The method according to claim 1,
And transmitting the uplink data to the source small cell base station through the cellular communication interface until the cellular communication channel setup with the target base station is completed. The method according to claim 1,
The step of receiving the connection re-
And receiving the connection re-establishment message through a wireless LAN communication channel with the source small cell base station. The method according to claim 1,
After receiving the downlink data,
And combining the downlink data received through the wireless LAN communication channel with the cellular data. 1. A user terminal capable of connecting to a wireless LAN communication network and a cellular communication network,
A wireless LAN communication module for processing a wireless LAN communication interface with a small cell;
A cellular communication module for processing a cellular communication interface with a macro cell and a small cell;
A signal strength measurement module for measuring a cellular signal strength and a wireless LAN signal strength of a neighbor base station; And
Reporting the signal strength measurement information including the cellular signal strength of the neighbor base station to the source small cell base station through the cellular communication module and requesting handover; and transmitting, from the source small cell base station, And a handover processing module for performing a handover by attempting a connection with the target base station based on the connection re-establishment message,
The wireless LAN coverage of the source small cell base station is set wider than the cellular coverage,
Wherein the wireless LAN communication module comprises:
And receiving downlink data from the source small cell base station until completion of the cellular communication channel setup with the target base station. 8. The method of claim 7,
The handover processing module includes:
When the establishment of the cellular communication channel with the target base station is completed, transmits a connection reset completion message to the target base station through the cellular communication module,
The connection reset completion message includes:
And a sequence number of the last downlink data successfully received over the wireless LAN communication channel. 9. The method of claim 8,
The cellular communication module comprising:
And receiving downlink data after the last downlink data from the target base station when the cellular communication channel setup with the target base station through the handover processing module is completed. 8. The method of claim 7,
The cellular communication module comprising:
And transmits the uplink data to the source small cell base station via the cellular communication channel until the cellular communication channel setup with the target base station through the handover processing module is completed. 8. The method of claim 7,
Wherein the wireless LAN communication module comprises:
And receiving the connection re-establishment message through a wireless LAN communication channel with the source small cell base station. 8. The method of claim 7,
And a data processing module for combining the downlink data received via the wireless LAN communication module with cellular data. A handover processing method using a wireless LAN of a small cell base station in a heterogeneous network including a macro cell and a small cell,
Receiving signal strength measurement information including a cellular signal strength and a wireless LAN signal strength of a peripheral base station from a serving user terminal;
Transmitting the signal strength measurement information to a backhaul network and requesting handover to the user terminal;
Receiving a handover command from the backhaul network to the target base station determined based on the signal strength measurement information for the user terminal;
Transmitting a connection re-establishment message including information of the target base station to the user terminal;
Receiving a resource release message for the user terminal from the backhaul network, releasing resources for the user terminal and completing the handover process; And
And transmitting downlink data to the user terminal through the wireless LAN communication channel until receiving the resource release message,
Wherein the wireless LAN coverage of the small cell base station is set wider than the cellular coverage. 14. The method of claim 13,
Wherein the step of transmitting downlink data to the user terminal through the wireless LAN communication channel comprises:
And converting the downlink data to the user terminal received from the backhaul network into a wireless LAN communication format. 14. The method of claim 13,
Wherein the transmitting the connection reset message comprises:
And transmitting the connection reestablishment message through the wireless LAN communication channel. 14. The method of claim 13,
And transferring at least one of uplink data and downlink data of the user terminal to the target BS through the GTP tunnel until the resource release message is received by the handover process using the wireless LAN of the small cell base station Way. 14. The method of claim 13,
After the step of transmitting the connection reset message,
And transmitting a status transmission message including Packet Data Convergence Protocol transmission and reception status information to the target base station through the backhaul network. The handover processing method using a wireless LAN of a small cell base station . 14. The method of claim 13,
And receiving uplink data of the user terminal through a cellular communication channel until receiving the resource release message. 1. A small cell base station for handover using a wireless LAN in a heterogeneous network including a macro cell and a small cell,
A wireless LAN communication unit for processing a wireless LAN communication interface with a user terminal;
A cellular communication unit for processing a cellular communication interface with a user terminal;
A handover request receiver for receiving signal strength measurement information including a cellular signal strength of a neighbor BS and a WLAN signal strength from a serving user terminal; And
And transmits the signal strength measurement information to a backhaul network to request a handover to the user terminal. Upon receiving a handover command from the backhaul network to the target base station, And a handover processor for transmitting a connection reset message including information on a base station and releasing a resource for the user terminal when the resource release message for the user terminal is received from the backhaul network,
Wherein the wireless LAN communication unit comprises:
And handles the handover using a wireless LAN that transmits downlink data to the user terminal through a wireless LAN communication channel until the resource release message is received after the signal strength measurement information is received. 20. The method of claim 19,
And a data processing unit for converting the downlink data to the user terminal received from the backhaul network into a wireless LAN communication format and transmitting the data to the wireless LAN communication unit, the small cell base station processing the handover using the wireless LAN. 20. The method of claim 19,
The handover processing unit,
And handles the handover using a wireless LAN that transmits the connection re-establishment message to the wireless LAN communication unit and transmits the connection re-establishment message to the user terminal through the wireless LAN communication channel. 20. The method of claim 19,
And a data transfer unit for transferring at least one of the uplink data and the downlink data of the user terminal to the target BS through the GTP tunnel until the resource release message is received, Small cell base station. 20. The method of claim 19,
The handover processing unit,
Packet Data Convergence Protocol Packet Data Convergence Protocol Small cell base station handles handover using a wireless LAN that transmits a status transmission message including transmission and reception status information to the target base station through the backhaul network. 20. The method of claim 19,
The cellular communication unit includes:
And handles the handover using a wireless LAN that receives uplink data of the user terminal through a cellular communication channel until receiving the resource release message.

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