KR20160137450A - Wireless communication system comprising femto gateway apparatus and handover method in the same - Google Patents

Abstract

Disclosed are a wireless communication system including a femto gateway device and a handover method in the same. The system includes an area management unit, a movement determination unit, and a control unit. The area management unit divides a macro-cell area into a plurality of sectors, groups a femto base station included in each sector in the unit of the sector, sets a specific area including a boundary of each sector to an overlay area, and groups the femto base station, which is included in the overlay area, in the unit of the overlay area. The movement determination unit determines, based on movement path information of a terminal received in response to the request for a list of neighbor base stations by the femto base station, whether the movement of the terminal is at least one of movement in a sector instead of the overlay area, the movement to the overlay area, the movement in the sector in the overlay area, the movement into the sector instead of the overlay area, and movement between sectors in the overlay area. The control unit performs the handover of the terminal by searching for a cell based on the list of neighbor base stations by transmitting the list of the neighbor base stations grouped in the sector determined due to the movement of the terminal, or the list of neighbor base stations grouped in each of a sector determined due to the movement of the terminal and the overlay area to the terminal.

Description

[0001] The present invention relates to a wireless communication system including a femto gateway apparatus and a handover method in the system.

The present invention relates to a wireless communication system including a femto gateway apparatus and a handover method in the system.

With the development of mobile communication and diversification of usage patterns of users, users want to receive wireless service anytime and anywhere. For example, there is a demand for a small base station research that solves the indoor shadow problem and effectively uses limited frequency resources to provide a better wireless environment to a large number of users, since the indoor environment such as a home or an office is difficult to talk due to the shadowing problem It is getting bigger.

Femtocell is a next-generation wireless communication technology that reduces the cell radius to a size suitable for indoor use. Such a femtocell improves the indoor call quality in which the coverage of the macrocell is insufficient, or shares the load of the macrocell in the overloaded area.

However, there is a common problem that occurs when a plurality of femtocells are densely arranged in a macro cell. If a plurality of femtocells are arranged, the performance may be degraded due to mutual influences.

For example, in a femtocell, a temporary load occurs in the process of exchanging information of a large number of femtocells with a base station for cell management.

A mobile terminal moving from a serving cell serving as a base station to a target cell serving as a new base station collects information on neighboring femtocells and handover the information to the best femtocell. In this case, the process of collecting neighbor femtocell information in the cell management step before performing the handover procedure is called scanning. The base station of the femtocell provides a list of all the femtocells located in the area of the macro base station to the mobile terminal In order to perform scanning for all the femtocells, the mobile terminal lengthens the scanning time. During this time, the base station stores information to be transmitted to the mobile terminal, and when the scanning process is completed, When the femtocell is present, the amount of data to be stored by the base station is increased and it is difficult to guarantee the QoS. Also, since the base station of the femtocell provides the list of all the femtocells to the mobile terminal, There is a problem that the overhead also becomes very large.

In order to compensate for this, the femto base station included in the divided cells is divided by dividing the macro cell region into a plurality of sectors, and when the inter-sector handover occurs, femto base station information grouped in the corresponding sector is provided, A technique has been proposed that reduces the amount of information for handover as well as reducing time.

However, in this technique, when the mobile terminal is located in a boundary region of a sector, it can not provide a service of a better channel environment because it can not recognize a femtocell having a good channel environment of another sector.

SUMMARY OF THE INVENTION The present invention is directed to a wireless communication system including a femto gateway apparatus capable of efficient handover at a boundary between a plurality of sectors and capable of providing seamless handover at the boundaries of sectors, Over method.

A femto gateway apparatus according to an aspect of the present invention includes:

A femto base station is divided into a plurality of sectors by dividing a macro cell area into a plurality of sectors, and the femto base stations included in each divided sector are grouped and managed for each sector. A specific area including a boundary of each sector is set as an overlap area, An area manager for grouping and managing the base stations by the overlapping areas; Using the movement path information of the terminal transmitted together with the neighboring base station list request from the femto base station, the movements of the mobile station are moved in the sector other than the overlapping region, movement to the overlapping region, movement in the sector in the overlapping region, A movement judging unit for judging whether the movement is within a sector other than the movement in the overlapping area and the movement between sectors in the overlapping area; And a neighboring base station list grouped in a sector determined by the movement of the mobile station or a neighboring base station list grouped into a sector determined by movement of the mobile station and the overlapping area, And a controller for performing a handover of the UE by performing a cell search.

Here, the controller determines that the movement of the terminal is any one of movement in a sector other than the overlap area, movement to the overlap area, movement in a sector in the overlap area, and movement to a sector other than the overlap area A list of neighboring base stations of a sector to which the terminal is currently connected and belongs to the femto BS is transmitted to the terminal.

The control unit transfers the list of neighboring base stations of the overlapping area to the terminal when the terminal is located in the overlapping area due to movement of the terminal.

In addition, when the movement of the mobile station is determined to be a movement between sectors in the overlap area, the control unit transfers a neighboring base station list of a sector to which the mobile station moves to the mobile station.

In addition, when it is determined that the movement of the terminal is not within the overlap area but is within a sector other than the overlap area, movement to the overlap area, movement within a sector within the overlap area, and movement into a sector other than the overlap area, And transmits an instruction to perform the cell search using the list of neighboring base stations stored in the neighboring base station list.

In addition, a tracking area code (TAC) is assigned to the plurality of sectors and the overlap area, respectively, and managed.

A wireless communication system according to another aspect of the present invention includes:

The macro cell area is divided into a plurality of sectors, the femto BSs included in each sector to be divided are grouped by sector and managed as a list of neighboring BSs per sector, a specific area including a border of each sector is set as an overlap area, A femto gateway unit for grouping the femto base stations included in the overlap area by the overlapping area and managing the femto base stations as a list of neighboring base stations for each overlapping area; And a cell search request from the terminal, wherein the cell search request includes a movement path of the terminal, and transmits the movement path of the terminal to the femto gateway device, and includes a list of neighboring base stations transmitted from the femto gateway device And a femto base station for transmitting a cell search response to the femto base station, the femto base station transmitting a cell search response to the femto base station, And determines whether the neighboring BS list is located in the overlapping area and uses the neighboring BS list to be grouped in the determined sector when the MS is not located in the overlapping area, And the group and the group By the use of a neighboring base station list, it characterized in that the mobile station is to perform a handover to perform cell search.

Here, the femto gateway apparatus may be configured such that, based on the movement path of the terminal, the movement of the terminal is moved in a sector other than the overlap area, movement in the overlap area, movement in a sector in the overlap area, And determining whether or not the sector is located in the overlapping area according to whether the movement into the overlapping area or the movement between the sectors in the overlapping area.

In addition, when the femtocell gateway apparatus determines that the movement of the terminal is a movement within a sector other than the overlapping region, a movement to the overlapping region, a movement in a sector within the overlapping region, and a movement into a sector other than the overlapping region And transmits an instruction for performing a cell search to the terminal using the list of neighboring base stations stored in the terminal.

The femto gateway apparatus may further include: an area manager for grouping and managing the femto base stations included in the plurality of sectors by sector and grouping the femto base stations included in the overlap area by the overlapping areas; Using the movement path information of the terminal transmitted together with the neighboring base station list request from the femto base station, the movements of the mobile station are moved in the sector other than the overlapping region, movement to the overlapping region, movement in the sector in the overlapping region, A movement judging unit for judging whether the movement is within a sector other than the movement in the overlapping area and the movement between sectors in the overlapping area; And a neighboring base station list grouped in a sector determined by the movement of the mobile station or a neighboring base station list grouped into a sector determined by movement of the mobile station and the overlapping area, And a controller for performing a handover of the UE by performing a cell search.

In addition, the femto gateway apparatus registers the femto base station having the highest priority in the queue with the cell search result signal, and when the femto base station of the priority order is registered in the queue for a predetermined time, Over control is performed.

If the femto BS having the highest priority is unable to provide service beyond the user, the femto gateway apparatus registers the femto base station of the priority order in the queue and then performs handover to the femto base station of a lower rank And controls the terminal to perform handover to the femto base station of the priority order if the signal of the femto base station of the priority order registered in the queue is the best even after a predetermined time and the service is available.

According to another aspect of the present invention,

The femto gateway unit divides the macro cell area into a plurality of sectors, groups the femto BSs included in each sector to be divided into groups, and manages the femto BSs as a list of neighboring BSs for each sector, Grouping the femto BSs included in the overlapping region into the overlapping regions and managing the femto BSs as a list of neighboring BSs for each overlapping region; Determining whether a sector is located in the overlapping area and a sector in which the terminal moves based on a movement path from the terminal; If the terminal is not located in the overlapping area due to its position in the overlapping area, the neighboring base station list is transmitted to the terminal, which is grouped in a sector in which the terminal is located. If the terminal is located in the overlapping area Transmitting a neighboring BS list grouped to each of the sector in which the MS is located and the overlap region to the MS; Determining a target femtocell base station to be handed over by the terminal performing a cell search based on the list of neighbor base stations; And performing a handover to the terminal in cooperation with the target femtocell base station apparatus by the femtocell base station apparatus to which the terminal is connected.

Here, the step of determining whether the mobile terminal is located in the sector and the overlap region includes: requesting the terminal to search for a cell in the femto base station, wherein the search for the cell includes the path of the terminal; The femto base station transmits a movement path of the terminal to the femto gateway apparatus to request a list of neighboring base stations; Wherein the femto gateway apparatus is configured to move, based on a movement route of the terminal, movement of the terminal in a sector other than the overlap region, movement to the overlap region, movement in a sector in the overlap region, Determining whether the movement is one of movement and movement between sectors in the overlap area; When it is determined that the movement of the terminal is one of movement in a sector other than the overlap area, movement to a superposition area, movement in a sector in the overlap area, and movement to a sector other than the overlap area, Determining a sector including the connected femto base station apparatus; Determines that the terminal is located in the overlapping region if the movement of the terminal is any one of movement to the overlap region, movement in a sector within the overlap region, and movement between sectors in the overlap region, Determining that the terminal is not located in the overlapping region if it is within the sector that is not the overlap region or is moving into a sector that is not the overlap region; And determining a sector to which the terminal moves if the movement of the terminal is an inter-sector movement in the overlap region.

According to another aspect of the present invention,

The femto gateway unit divides the macro cell area into a plurality of sectors, groups the femto BSs included in each sector to be divided into groups, and manages the femto BSs as a list of neighboring BSs for each sector, Grouping the femto BSs included in the overlapping region into the overlapping regions and managing the femto BSs as a list of neighboring BSs for each overlapping region; Determining whether a sector is located in the overlapping area and a sector in which the terminal moves based on a movement path from the terminal; Transmitting a list of neighboring base stations stored in the terminal to the terminal when it is determined that the movement of the terminal is a movement in a sector; Transmitting a list of neighboring base stations to be grouped in the overlapping area to the terminal if the terminal is determined to be located in the overlapping area according to whether the terminal is located in the overlapping area; Transmitting a list of neighboring BSs grouped in a sector to which the MS moves when the movement of the MS is determined to be an inter-sector movement; Determining a target femtocell base station to be handed over by the terminal performing a cell search based on a list of neighbor base stations; And performing a handover to the terminal in cooperation with the target femtocell base station apparatus by the femtocell base station apparatus to which the terminal is connected.

Here, the step of determining whether the mobile terminal is located in the sector and the overlap region includes: requesting the terminal to search for a cell in the femto base station, wherein the search for the cell includes the path of the terminal; The femto base station transmits a movement path of the terminal to the femto gateway apparatus to request a list of neighboring base stations; Wherein the femto gateway apparatus is configured to move, based on a movement route of the terminal, movement of the terminal in a sector other than the overlap region, movement to the overlap region, movement in a sector in the overlap region, Determining whether the movement is one of movement and movement between sectors in the overlap area; When it is determined that the movement of the terminal is one of movement in a sector other than the overlap area, movement to a superposition area, movement in a sector in the overlap area, and movement to a sector other than the overlap area, Determining a sector including the connected femto base station apparatus; Determines that the terminal is located in the overlapping region if the movement of the terminal is any one of movement to the overlap region, movement in a sector within the overlap region, and movement between sectors in the overlap region, Determining that the terminal is not located in the overlapping region if it is within the sector that is not the overlap region or is moving into a sector that is not the overlap region; And determining a sector to which the terminal moves if the movement of the terminal is an inter-sector movement in the overlap region.

In the step of transmitting the list of neighboring base stations stored in the terminal to the terminal, the femto base station transmits information indicating that the femto gateway apparatus performs a cell search using the list of neighboring base stations stored in the terminal, To the terminal.

According to the present invention, efficient handover is possible at the boundary of a plurality of sectors.

In addition, seamless handover can be provided at the boundary of a plurality of sectors.

In addition, the cell search time for handover of the UE decreases.

Also, the amount of information transfer for handover is also reduced.

This improves system performance.

1 is a diagram schematically illustrating a wireless communication system according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a concept of dividing a macro cell into a plurality of sectors in a wireless communication system according to an embodiment of the present invention, and managing a femto base station by setting an inter-cell boundary region as an overlap region.
FIG. 3 is a diagram showing a specific configuration of the femto gateway 300 shown in FIG.
FIG. 4 is a view showing a movable path of a terminal in the macrocell shown in FIG. 2. FIG.
FIG. 5 is a diagram showing a specific configuration of the femto base station 210 shown in FIG.
6 is a flowchart of a handover method according to an embodiment of the present invention.
7 is a diagram illustrating a handover method considering a signal state change of a neighboring femto base station in a wireless communication system according to an embodiment of the present invention.
8 is a diagram illustrating a handover method considering a service incapable state due to a user exceeding a neighbor femto base station in a wireless communication system 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 so that those skilled in the art can easily carry out 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 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 an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise. Also, the terms " part, "" module," and " module ", etc. in the specification mean a unit for processing at least one function or operation and may be implemented by hardware or software or a combination of hardware and software have.

1 is a diagram schematically illustrating a wireless communication system according to an embodiment of the present invention.

1, a wireless communication system according to an exemplary embodiment of the present invention includes a macro base station 100, a plurality of femto base stations 210, 220 and 230, (HeNB Gateway) 300.

The macro base station 100 is a base station that manages a macro cell 10 and provides a service to the terminal 400 in the macro cell 10. The macro cell 10 includes a plurality of femtocells 21, 22, and 23 managed by a plurality of femto base stations 210, 220, and 230, respectively. The macro cell 10 refers to a cell in an area larger than the femtocell 21, 22, or 23, and is not limited to the dictionary definition of the term macro.

The femto base stations 210, 220, and 230 are micro-base stations that provide wireless communication services to a narrow range (for example, a range of 30 m), and manage the femtocells 21, 22, For example, in a shaded area where radio waves of other cells deteriorate as in a home or a building, thereby securing the quality of the mobile communication service. Here, the femto base stations 210, 220, and 230 and the femto cells 21, 22, and 23 are not limited to the dictionary definition of femto but may be a femto base station and a femto cell, Range.

The femto gateway 300 is a network element for supporting a plurality of femto base stations 210, 220, and 230, and performs a control plane function such as mobility management of a user. The femto gateway 300 performs signal transmission between the core network (not shown) and the femto base stations 210, 220 and 230.

On the other hand, since the coverage of the femtocells 21, 22, and 23 is very small, a large number of femtocells may exist in one macrocell 10. [

2, the macro cell 10 is first divided into a plurality of sectors 11, 12, 13, 14, 15, and 16 having a predetermined area, The list of femto base stations included in each of the divided sectors 11, 12, 13, 14, 15 and 16 is managed for each of the sectors 11, 12, 13, 14, 15 and 16, SA2, SA3, SA4, SA5, and SA6 including the boundary regions of the overlapping regions SA1, SA2, SA3, SA4, SA5, SA2, SA3, SA4, SA5, and SA6 of the femto base stations included in the femto BS. The ranges of the boundary areas of the sectors 11, 12, 13, 14, 15, and 16 forming the overlapping areas SA1, SA2, SA3, SA4, SA5, and SA6 are the same as those of the system according to the embodiment of the present invention These are related settings and can be set by various methods.

Meanwhile, in the embodiment of the present invention, the femto BSs included in each of the sectors 11, 12, 13, 14, 15 and 16 and the femto BSs included in the overlapping areas SA1, SA2, SA3, SA4, SA5, In order to manage the femto base stations 210, 220 and 230 managed by the femto gateway 300 having the same ID value, the femto gateway 300 receives a unique ID value from the core network, 13, 14, 15, 16 and each of the overlapping areas SA1, SA2, SA3, SA4, SA5, and SA5 by allocating a tracking area code (TAC) SA6). That is, the list of the femto base stations 210, 220, 230 grouped by the sectors 11, 12, 13, 14, 15, 16 and the overlapping areas SA1, SA2, SA3, SA4, SA5, And becomes a list of tracking area codes indicating the base stations 210, 220, and 230.

FIG. 3 is a diagram showing a specific configuration of the femto gateway 300 shown in FIG.

3, the femto gateway 300 includes a lower communication unit 310, an upper communication unit 320, a storage unit 330, an area management unit 340, a movement determination unit 350, and a control unit 360 . Here, the general configuration of the femto gateway 300 not related to the features of the present invention is well known for convenience of description, and a description thereof will be omitted.

The lower communication unit 310 is a communication interface and performs wired or wireless communication with the femto base stations 210, 220, and 230 located in the macro cell 10.

The upper communication unit 320 is a communication interface, and performs communication with the core network by wire or wireless.

The storage unit 330 stores various kinds of information for the femto base stations 210, 220 and 230 to provide wireless communication to the terminal 400 in cooperation with the core network. 2, the storage unit 330 stores a list of the femto base stations 210, 220, and 230 grouped by the sectors 11, 12, 13, 14, 15, And a list of the femto base stations 210, 220, and 230 grouped by the overlapping areas SA1, SA2, SA3, SA4, SA5, and SA6.

2, the area management unit 340 divides an area of the macro cell 10 into a plurality of sectors 11, 12, 13, 14, 15 and 16, 220 and 230 belonging to the femto base stations 210, 220 and 230 and performs a grouping on the femto base stations 210, 220 and 230 for each sector to store the sectors 11, 12, 13, 14, .

The area management unit 340 sets the overlapping areas SA1, SA2, SA3, SA4, SA5, and SA6 including the boundary areas of the sectors 11, 12, 13, 14, 15, SA2, SA3, SA4, SA5, and SA6 to which the femto base stations 210, 220, and 230 belonging to the femto base stations 210 and 210 belong to the overlapping regions SA1, SA2, SA3, SA4, Performs grouping on the femto base stations (210, 220, 230), and stores them in the storage unit (330).

At this time, the area management unit 340 assigns unique TACs to the femto base stations 210, 220, and 230 to perform management.

The movement determining unit 350 determines the movement of the terminal 400 based on the location information of the terminal 400, in particular, the movement path information of the terminal 400 and the information of the sector and the overlapping area managed by the area manager 340 The type of movement of the terminal 400 is determined.

For example, referring to FIG. 4, for convenience of description, an overlap area SA1 set by two sectors 11 and 12 and a border area between two sectors 11 and 12 is used as an example . At this time, four femto base stations 211, 212, 213 and 214 are included in the sector 11, three femto base stations 215, 216 and 217 are included in the sector 12, SA1 includes four femto base stations 213, 214, 215, and 216, respectively. At this time, two of the four femto base stations 213, 214, 215, and 216 included in the overlap area SA1 are the femto base stations included in the sector 11, Is a femto base station included in another sector 12. That is, the femto base stations 213, 214, 215 and 216 of the other sectors 11 and 12 are included in the overlapping area SA1. In the example of FIG. 4, it is assumed that the terminal 400 moves from the area of the femto base station 211 to the area of the femto base station 212 in the area of the femto base station 211, Moving to the area of the femto base station 213 is shifting to the area of the femto base station 213 and moving to the area of the femto base station 214 is a movement in the sector within the overlapping area, Moving to the area of the femto base station 215 is a movement between the sectors in the overlapping area. Moving from the area of the femto base station 213 to the area of the femto base station 212 represents the movement into the sector, not the overlapping area.

Here, among the five movements of the terminal 400, movement in a sector other than the overlap area, movement to a superposition area, movement in a sector in the overlap area, and movement into a sector other than the overlap area, And the movement between sectors in the overlap area indicates movement between sectors to other sectors out of the sectors.

Accordingly, the movement determining unit 350 determines whether the movement of the terminal 400 is based on the above-mentioned five movements, that is, the movement in the sector other than the overlapping region, the movement to the overlapping region, It is judged that one of the intra-sector movement, the inter-sector movement in the overlap area, and the intra-sector movement instead of the overlap area.

In addition, the movement determining unit 350 determines the sector where the terminal 400 is located according to the movement of the terminal 400.

The control unit 360 communicates with the femto base stations 210, 220 and 230 through the lower communication unit 310 and communicates with the core network through the upper communication unit 320, And stores the related information on the base stations 210, 220, and 230 in the storage unit 330.

In addition, when the location information of the terminal 400, in particular, the movement route information of the terminal 400 is transmitted from the femto base stations 210, 220 and 230, the control unit 360 transmits the movement route information to the movement determination unit 350 SA2, SA3, SA4, SA5, and SA6. When the femto base station is not located in the overlapping areas SA1, SA2, SA3, SA5, and SA6, SA2, SA3, SA4, SA5, and SA6 to the femto base stations 210, 220, and 230 through the lower communication unit 310 as a list of neighboring base stations. A list of the femto base stations 210, 220 and 230 grouped in the overlapping areas SA1, SA2, SA3, SA4, SA5 and SA6 as well as the femto base stations 210, 220 and 230 grouped in the corresponding sector To the femto base stations 210, 220, and 230 through the lower communication unit 310 as a list of neighboring base stations. At this time, the femto base stations 210, 220 and 230 grouped in the overlapping areas SA1, SA2, SA3, SA4, SA5 and SA6 are not only the femto base stations grouped in the sector but also the overlapping areas SA1, SA2, , SA5, and SA6 are included in the femto BS.

FIG. 5 is a diagram showing a specific configuration of the femto base station 210 shown in FIG. Here, since the femto base stations 210, 220, and 230 have the same configuration, one femto base station 210 will be described as an example. In addition, since the general configuration of the femto base station 210, which is not related to the features of the present invention, is well known for the sake of convenience of description, a description thereof will be omitted.

5, the femto base station 210 includes an upper communication unit 211, a lower communication unit 213, a storage unit 215, a cell search management unit 217, and a handover control unit 219.

The upper communication unit 211 communicates with the femto gateway 300 through a wired or wireless communication interface.

The lower communication unit 213 communicates wirelessly with the terminal 400 as a communication interface.

The storage unit 215 stores a list of neighboring base stations transmitted from the femto gateway 300.

When there is a cell search request transmitted from the terminal 400 through the lower communication unit 213, the cell search management unit 217 searches for the location information of the terminal 400 included in the cell search request, And receives the list of neighboring base stations transmitted from the femto gateway 300 and stores the list in the storage unit 215 and transmits the list to the terminal 210 through the lower communication unit 212. [ 400).

When the cell search result information is transmitted from the terminal 400, the cell search management unit 217 determines the target femto base station to which the terminal 400 handover based on the cell search result information.

The handover control unit 219 performs handover to the target femto base station 400 determined by the cell search management unit 217. [

Hereinafter, a handover method according to an embodiment of the present invention will be described.

6 is a flowchart of a handover method according to an embodiment of the present invention.

6, the femtocell gateway 300 divides a macro cell 10 into a plurality of sectors 11, 12, 13, 14, 15, and 16 in a certain area, The femto base stations 210, 220, and 230 in the macro cell 10 are set in the sectors 11, 12, 13, 14, and 15 by setting a plurality of overlapping areas SA1, SA2, SA3, SA4, 15 and 16 to store the grouped femto base station list information and the list information of the femto base stations 210, 220 and 230 included in the overlapping areas SA1, SA2, SA3, SA4, SA5 and SA6, SA2, SA3, SA4, SA5, and SA6, and stores and manages them as femto base station list information (S100).

When it is determined that the handover is necessary due to the movement of the terminal 400 in the femto base station 210 region (S110), the terminal 400 transmits a cell search request including its own path information to the femto base station 210 (S120). Here, the movement path information of the terminal 400 can be determined through various methods, and such a method is well known, and a detailed description thereof will be omitted here.

Then, the femto base station 210 extracts the mobile path information of the terminal 400 included in the cell search request from the terminal 400, and transmits the extracted path information to the femto gateway 300 (S130) .

The femto gateway 300 determines whether the movement of the terminal 400 is a movement in a sector according to a movement path of the terminal 400 in response to a neighboring base station list request from the femto base station 210 at step S140.

The femto gateway 300 determines the currently connected sector as a mobile sector when the movement of the terminal 400 is a move in the sector (S150). Here, when the movement of the terminal 400 is not in the overlapping area but in a sector, a movement to an overlapping area, a movement in a sector in the overlapping area, and a shift to a sector other than the overlapping area, the movement corresponds to the movement in the sector.

However, if it is determined that the movement of the terminal 400 is an inter-sector movement, the femto gateway 300 determines a moving sector as a mobile sector, not a currently connected sector (S160). Here, the case where the movement of the terminal 400 is the movement between the sectors in the overlapping area corresponds to the movement between the sectors.

Thereafter, the femto gateway 300 determines whether the terminal 400 is located in the overlapping area SA1 by the movement of the terminal 400 (S170). In the above example, the terminal 400 is located in the overlapping area SA1 in the case of movement from the five movements to the overlapping area, movement within the overlapping area, and movement between sectors in the overlapping area.

When it is determined that the femto gateway 300 is located in the overlapping area SA1 due to the movement of the terminal 400, the femto gateway 300 determines whether the neighboring area corresponding to the mobile sector determined in steps S150 and S160 The list of neighboring base stations corresponding to the base station list and the overlapping area SA1 is extracted (S180) and transmitted to the femto base station 210 (S190).

However, if it is determined that the terminal 400 is not located in the overlapping area SA1, the femto gateway 300 extracts only the neighboring base station list corresponding to the mobile sector determined in steps S150 and S160 (S180) to the femto base station 210 (S200). If it is determined that the terminal 400 is not located in the overlapping area SA1 due to the movement of the terminal 400, the movement of the terminal 400 is not in the overlap area but in the sector and not in the overlap area.

Thereafter, the femto base station 210 includes the list of neighboring base stations transmitted from the femto gateway 300 in the cell search response, and transmits the list to the terminal 400 (S210).

Accordingly, the terminal 400 performs cell search only on the femto base station of the sector included in the list of neighboring base stations transmitted from the femto base station 210 or the femto base station of the sector and the femto base station of the overlapping area SA1 (S220) , And transmits the performed cell search result to the femto base station 210 (S230).

Thereafter, the femto base station 210 determines the femto base station 220 that is the best femto base station for handover of the terminal 400 according to the cell search result transmitted from the terminal 400, the femto base station 220 in the embodiment of the present invention (S240), and performs a handover to the femto base station 220 with respect to the terminal 400 by accessing the femto base station 220 (S250). Here, the operation of the femto base station 210 serving as the serving base station handover the terminal 400 to the femto base station 220 serving as the target base station is well known, and a detailed description thereof will be omitted here.

As described above, in the embodiment of the present invention, the macrocell 10 is divided into a plurality of sectors 11, 12, 13, 14, 15 and 16, a list of femto base stations is managed for each divided sector, The overlapping areas SA1, SA2, SA3, SA4, SA5 and SA6 including the border areas are set and the list of the femto base stations is managed by the overlapping areas SA1, SA2, SA3, SA4, A cell search is performed using a list of neighboring base stations of a femto BS located in a boundary region of other sectors as well as within a sector during handover of the terminal 400 located in the regions SA1, SA2, SA3, SA4, SA5, and SA6 SA2, SA3, SA4, SA5, SA6 (SA1, SA2, SA3, SA4, SA5, and SA6) even if handover is possible to the better environment and the handover between the other sectors in the overlapping areas SA1, SA2, SA3, Of the neighboring overlapping areas SA1, SA2, SA3, SA4, SA5, and SA6 of the other sector, By knowing the base station information, it is possible to seamlessly perform handover, thereby reducing the time required for cell search as well as increasing the accuracy of the handover occurring in the cell boundary region, thereby satisfying QoS guarantee and performance improvement at the same time.

7, if there are two femto base stations 221 and 222 in the neighboring base station list of the terminal 400 and the signal area of the femto base station 221 temporarily improves (13) and then deteriorates again (14) in which the signal area is good (16) and the femto base station (222) is temporarily deteriorated. At this time, when the terminal 400 searches for a cell for two femto base stations 221 and 222, the signal of the femto base station 221 is better than the signal of the femto base station 222, The signal of the femto base station 222 becomes better than the signal of the femto base station 221 when the terminal 400 performs the handover to the femto base station 221. [ Accordingly, in such a case, handover of the terminal 400 can not be regarded as efficient.

In order to solve this problem, the femto base stations indicating the best signal as a result of the cell search are registered in the queue, and if the femto base stations are registered in the queue for a preset predetermined time, It is possible to perform handover to the femto base station so that efficient handover can be performed.

8, there are two femto base stations 231 and 232 in the list of neighboring base stations of the terminal 400, and the signal of the femto base station 231 as a result of the cell search is the best, A service to the terminal 400 can not be performed due to an excess of the service user of the femto base station 231.

In this case, in general, the terminal 400 must perform a handover to the femto base station 232 of a lower rank and continuously receive services. However, in the embodiment of the present invention, the signal is transmitted to the femto base station 231 having the highest priority, If the service can not be performed due to the user's exceeding of the femto base station 231, the signal of the priority femto base station 231 registered in a predetermined time period or at a random time continues to be the best and the user excess is released, The handover is performed to the femto base station 231 registered in the queue, thereby providing a more efficient handover service.

At this time, the femto gateway 300 should perform control so that services are sequentially performed if there are other users in the queue.

In the above description, only the list of neighboring base stations is provided based on the movement of the terminal 400, but the technical scope of the present invention is not limited thereto and can be implemented in various ways. For example, when the terminal 400 is powered on and connects to the femto base station 210 in the overlapping areas SA1, SA2, SA3, SA4, SA5 and SA6, the overlapping areas SA1, SA2, SA3, SA4, SA5, and SA6 are stored in the terminal 400. The neighboring base station lists are grouped into SA4, SA5, and SA6. Accordingly, when the movement of the terminal 400 is judged as movement within the overlapping areas SA1, SA2, SA3, SA4, SA5, and SA6, the femto gateway 300 sets the overlapping areas SA1, SA2, SA3, SA4, SA5, and SA6 to the terminal 400. In this case,

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 (17)

A femto base station is divided into a plurality of sectors by dividing a macro cell area into a plurality of sectors, and the femto base stations included in each divided sector are grouped and managed for each sector. A specific area including a boundary of each sector is set as an overlap area, An area manager for grouping and managing the base stations by the overlapping areas;
Using the movement path information of the terminal transmitted together with the neighboring base station list request from the femto base station, the movements of the mobile station are moved in the sector other than the overlapping region, movement to the overlapping region, movement in the sector in the overlapping region, A movement judging unit for judging whether the movement is within a sector other than the movement in the overlapping area and the movement between sectors in the overlapping area; And
A list of neighboring base stations grouped in a sector determined by the movement of the mobile station or a neighboring base station group grouped into a sector determined by movement of the mobile station and a group of neighboring base stations respectively grouped into the overlapping area, And a handover of the terminal is performed by searching
The femto gateway apparatus comprising: The method according to claim 1,
Wherein if the movement of the terminal is judged to be any one of movement in a sector other than the overlap area, movement to a superposition area, movement in a sector in the overlap area, and movement into a sector other than the overlap area, Wherein the femto station transmits a neighboring base station list of a sector to which the terminal is currently connected to the femto base station to the terminal. 3. The method of claim 2,
Wherein the control unit transfers the list of neighboring base stations of the overlapping area to the terminal when the terminal is located in the overlapping area due to movement of the terminal. The method of claim 3,
Wherein the controller transfers a list of neighboring base stations of a sector to which the terminal moves when the movement of the terminal is determined to be a movement between sectors in the overlap area. The method according to claim 1,
If the movement of the terminal is judged to be movement in a sector other than the overlap area, movement to a superposition area, movement in a sector in the overlap area, and movement into a sector other than the overlap area, And transmits an instruction to perform the cell search using the neighboring base station list. 6. The method according to any one of claims 1 to 5,
And a tracking area code (TAC) is assigned to the plurality of sectors and the overlap area, respectively. The macro cell area is divided into a plurality of sectors, the femto BSs included in each sector to be divided are grouped by sector and managed as a list of neighboring BSs per sector, a specific area including a border of each sector is set as an overlap area, A femto gateway unit for grouping the femto base stations included in the overlap area by the overlapping area and managing the femto base stations as a list of neighboring base stations for each overlapping area; And
A cell search request from a terminal, wherein the cell search request includes a mobile path of the mobile station, and transmits the mobile path of the mobile station to the femto gateway device, and includes a list of neighboring base stations transmitted from the femto gateway device And a femto base station for transmitting a cell search response to the terminal and performing a cell search based on the list of neighboring base stations,
Wherein the femto gateway apparatus determines whether or not the femto base station to which the terminal should be handed over belongs to a sector to which the terminal belongs and the overlapping region based on the movement path of the terminal, The mobile station performs cell search using a neighboring base station list grouped in the determined sector and each of the overlapping areas, and performs handover To do
And the wireless communication system. 8. The method of claim 7,
The femto gateway apparatus is characterized in that the movement of the mobile station is performed in a sector other than the overlap region, a shift to the overlap region, a shift in the sector in the overlap region, And determines whether or not the sector and the overlapped region are positioned according to whether the movement is one of movement and movement between sectors in the overlap region. 8. The method of claim 7,
When the femto gateway apparatus determines that the movement of the terminal is a movement in a sector other than the overlap area, a movement to a superposition area, a movement in a sector in the overlap area, and a movement into a sector other than the overlap area, And transmits an instruction to perform the cell search using the list of neighboring base stations stored in the neighboring base station list. 8. The method of claim 7,
The femto gateway apparatus includes:
An area manager for grouping and managing the femto base stations included in the plurality of sectors by sector and for grouping and managing the femto base stations included in the overlapping area according to the overlapping areas;
Using the movement path information of the terminal transmitted together with the neighboring base station list request from the femto base station, the movements of the mobile station are moved in the sector other than the overlapping region, movement to the overlapping region, movement in the sector in the overlapping region, A movement judging unit for judging whether the movement is within a sector other than the movement in the overlapping area and the movement between sectors in the overlapping area; And
A list of neighboring base stations grouped in a sector determined by the movement of the mobile station or a neighboring base station group grouped into a sector determined by movement of the mobile station and a group of neighboring base stations respectively grouped into the overlapping area, And a handover of the terminal is performed by searching
≪ / RTI > 11. The method according to any one of claims 7 to 10,
The femto gateway apparatus registers the femto base station having the highest priority in the queue as the cell search result signal, and if the femto base station of the priority order is registered in the queue for a predetermined time, To perform the control. 11. The method according to any one of claims 7 to 10,
The femto gateway apparatus registers the femto base station of the priority order in the queue if the cell search result signal indicates that the femto base station having the highest priority can not provide service beyond the user and then controls the terminal to perform handover to the femto base station of a lower rank Wherein the control unit controls the terminal to perform a handover to the femto base station of the priority if the signal of the femto base station of the priority registered in the queue is the best even after a predetermined time, and the service is available. The femto gateway unit divides the macro cell area into a plurality of sectors, groups the femto BSs included in each sector to be divided into groups, and manages the femto BSs as a list of neighboring BSs for each sector, Grouping the femto BSs included in the overlapping region into the overlapping regions and managing the femto BSs as a list of neighboring BSs for each overlapping region;
Determining whether a sector is located in the overlapping area and a sector in which the terminal moves based on a movement path from the terminal;
If the terminal is not located in the overlapping area due to its position in the overlapping area, the neighboring base station list is transmitted to the terminal, which is grouped in a sector in which the terminal is located. If the terminal is located in the overlapping area Transmitting a neighboring BS list grouped to each of the sector in which the MS is located and the overlap region to the MS;
Determining a target femtocell base station to be handed over by the terminal performing a cell search based on the list of neighbor base stations; And
The femtocell base station apparatus to which the terminal is connected performs handover to the terminal in cooperation with the target femtocell base station apparatus
/ RTI > 14. The method of claim 13,
Wherein the step of determining whether to position the sector and the overlapping area comprises:
Requesting the terminal to search for a cell in the femto base station device, wherein the cell search includes the path of the terminal;
The femto base station transmits a movement path of the terminal to the femto gateway apparatus to request a list of neighboring base stations;
Wherein the femto gateway apparatus is configured to move, based on a movement route of the terminal, movement of the terminal in a sector other than the overlap region, movement to the overlap region, movement in a sector in the overlap region, Determining whether the movement is one of movement and movement between sectors in the overlap area;
When it is determined that the movement of the terminal is one of movement in a sector other than the overlap area, movement to a superposition area, movement in a sector in the overlap area, and movement to a sector other than the overlap area, Determining a sector including the connected femto base station apparatus;
Determines that the terminal is located in the overlapping region if the movement of the terminal is any one of movement to the overlapping region, movement in a sector within the overlapping region, and movement between sectors in the overlapping region, Determining that the terminal is not located in the overlapping region if it is within the sector that is not the overlap region or is moving into a sector that is not the overlap region; And
Determining a sector to which the terminal moves if the movement of the terminal is a movement between sectors in the overlap area
/ RTI > The femto gateway unit divides the macro cell area into a plurality of sectors, groups the femto BSs included in each sector to be divided into groups, and manages the femto BSs as a list of neighboring BSs for each sector, Grouping the femto BSs included in the overlapping region into the overlapping regions and managing the femto BSs as a list of neighboring BSs for each overlapping region;
Determining whether a sector is located in the overlapping area and a sector in which the terminal moves based on a movement path from the terminal;
Transmitting a list of neighboring base stations stored in the terminal to the terminal when it is determined that the movement of the terminal is a movement in a sector;
Transmitting a list of neighboring base stations to be grouped in the overlapping area to the terminal if the terminal is determined to be located in the overlapping area according to whether the terminal is located in the overlapping area;
Transmitting a list of neighboring BSs grouped in a sector to which the MS moves when the movement of the MS is determined to be an inter-sector movement;
Determining a target femtocell base station to be handed over by the terminal performing a cell search based on a list of neighbor base stations; And
The femtocell base station apparatus to which the terminal is connected performs handover to the terminal in cooperation with the target femtocell base station apparatus
/ RTI > 16. The method of claim 15,
Wherein the step of determining whether to position the sector and the overlapping area comprises:
Requesting the terminal to search for a cell in the femto base station device, wherein the cell search includes the path of the terminal;
The femto base station transmits a movement path of the terminal to the femto gateway apparatus to request a list of neighboring base stations;
Wherein the femto gateway apparatus is configured to move, based on a movement route of the terminal, movement of the terminal in a sector other than the overlap region, movement to the overlap region, movement in a sector in the overlap region, Determining whether the movement is one of movement and movement between sectors in the overlap area;
When it is determined that the movement of the terminal is one of movement in a sector other than the overlap area, movement to a superposition area, movement in a sector in the overlap area, and movement to a sector other than the overlap area, Determining a sector including the connected femto base station apparatus;
Determines that the terminal is located in the overlapping region if the movement of the terminal is any one of movement to the overlap region, movement in a sector within the overlap region, and movement between sectors in the overlap region, Determining that the terminal is not located in the overlapping region if it is within the sector that is not the overlap region or is moving into a sector that is not the overlap region; And
Determining a sector to which the terminal moves if the movement of the terminal is a movement between sectors in the overlap area
/ RTI > 16. The method of claim 15,
In the step of transmitting the list of neighboring base stations stored in the terminal to the terminal,
Wherein the femto gateway apparatus transmits information indicating that the femto gateway apparatus performs a cell search using a list of neighboring base stations stored in the terminal to the terminal through the femto base station apparatus.

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