KR20120045554A - System and method for controlling coverage of femtocell base station - Google Patents

Abstract

PURPOSE: A system for controlling the coverage of a femto cell base station and method thereof are provided to request handover to a macro cell base station by maintaining transmission voltages in femto cell coverage. CONSTITUTION: A macro cell base station(300) requests handover to user terminals(100a,100b). In case the macro cell base station is need to execute handover, a femto cell base station(200) inquires user information. The femto cell base station controls femto cell coverage by controlling transmission voltages. The femto cell base station controls the handover of the user terminal.

Description

System and Method for controlling coverage of Femtocell Base Station

The present invention relates to a system and method for coverage adjustment of a femtocell base station, and more particularly, when a femtocell base station requests a handover from a macrocell base station or requires a handover to a macrocell base station, previously stored user information. The present invention relates to a system and a method for controlling coverage of a femtocell base station for controlling handover of the user terminal and controlling femtocell coverage by controlling transmission power according to a result of the determination. .

Existing mobile communication service has been progressed based on voice service-oriented business model. However, with the advent of various high-speed data service systems such as HSDPA and Mobile WiMAX, the center of gravity of the business is shifting to wireless data service.

However, even a system providing such a high-speed data service has a channel capacity of only a few Mbps, and the channel capacity is shared by hundreds of users located within base station coverage, and thus the available download speed per person is only tens to hundreds of Kbps. Therefore, users who have experienced tens of Mbps speeds of wired and wireless LANs are greatly reduced in terms of satisfaction.

In order to solve this problem, according to the development of semiconductor technology, it can be manufactured inexpensively, and it can be installed at home or indoor and used by a few users (about 1 ~ 4), which can reach several Mbps per subscriber in mobile communication systems. Attempts have been made to provide transmission capacity.

In this regard, recently, a femtocell, which is a personal base station installed indoors and serving 1 to 4 subscribers, has been proposed. The femtocell is a combination of femto, which represents one-tenth of a trillion (10 to 15 squared), and a cell, which represents a unit of a service area in charge of one base station in mobile communication. It refers to a service that covers an area much smaller than the service radius, and connects a micro base station that looks like a DSL modem to a wired IP network in a home so that users can freely use wired and wireless communication as a user terminal. In addition, since mobile communication data is transmitted from the base station to the exchange immediately without going through the indoor repeater, the operator can reduce network load, improve frequency load and improve call quality. Can provide.

In the femtocell coverage, the femtocell base station is in charge of the service in the house and the macro-cell base station of the outside (Out-Door) is in charge of the service.

However, due to the characteristics of the wireless medium, such clear coverage is difficult to distinguish, and relatively small femtocell coverage compared to macrocell coverage is greatly affected by the output of the macrocell base station, causing frequent handover.

As a result, such a phenomenon acts as a barrier to stable connection between a femtocell base station and a user terminal and is recognized as the biggest obstacle to commercial femtocell commercialization.

Therefore, in order to minimize the influence of interference with the macrocell base station and provide the maximum transmission speed to the subscribers in the femtocell, it is necessary to secure the optimal femtocell coverage.

However, when an interference source is installed in the periphery, a phenomenon may occur in which the femtocell coverage is smaller than the area to be secured at least. In this case, when the user terminal is located in the building in which the femtocell base station is installed, the user terminal may be connected to the macrocell and cause “Camp on”, and the LBS service for the femto zone may not be properly performed.

In addition, if the femtocell coverage is extended beyond the optimal femtocell coverage by eliminating interference sources in the vicinity, unnecessary handover may occur when the user terminal receiving the service from the macrocell base station passes through the femtocell, thereby wasting radio resources. .

In addition, as the femtocell coverage decreases, the number of handovers increases, so there is a disadvantage in that coverage may continuously decrease.

In addition, since the femtocell base station uses the same frequency band as the macrocell base station, there is an advantage that the terminal does not need to be changed, but a handoff problem between the macrocell base station and the femtocell, a call quality deterioration problem due to frequency interference between adjacent femtocells, And a problem of synchronization between systems.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a system for adjusting the coverage of a femtocell base station which can automatically maintain a predetermined optimal coverage even when interference sources are installed in the vicinity. And providing a method.

It is another object of the present invention to provide a system and method for coverage control of a femtocell base station that can automatically maintain a predetermined optimal coverage even when femtocell coverage is extended beyond the optimal femtocell coverage by eliminating interference sources around the periphery. It is.

According to an aspect of the present invention to achieve the above object, in the system for adjusting the femtocell coverage in the state in which femtocell coverage and macrocell coverage is adjacent, whether to perform a handover using a measurement report message from a user terminal If a handover is required, the macrocell base station requesting the handover to the femtocell base station, if the handover is requested from the macrocell base station, or if the handover to the macrocell base station is required, the user information is queried. Provided is a system for controlling coverage of a femtocell base station including a femtocell base station for determining whether the user is an authenticated user, controlling the femtocell coverage by controlling the transmission power according to the determination result and controlling the handover of the user terminal. do.

According to another aspect of the present invention, a communication interface unit for communication with a user terminal or a macrocell base station, when a handover is requested from the macrocell base station through the communication interface unit, it is determined whether the user is authenticated by inquiring user information. A femtocell base station is provided that includes an authentication unit for determining and a first transmission power control unit for controlling handover of the user terminal while controlling femtocell coverage by controlling transmission power according to the determination result of the authentication unit.

When the femtocell base station receives a measurement report message from the user terminal through the communication interface unit, the femtocell base station determines whether to perform a handover using the measurement report message, and if the handover is required to request user authentication to the authentication unit. Handover determination unit, if the user is authenticated, the transmission power is increased so that the current femtocell coverage is the pre-stored optimal femtocell coverage so that the user terminal is not handed over to the macrocell base station, if not the authenticated user The second transmission power control unit may further include a second transmission power control unit for requesting handover to the macrocell base station by maintaining transmission power to maintain current femtocell coverage.

The femtocell base station may further include a user information database in which user terminal information is stored.

The authentication unit performs user authentication using whether the user terminal information included in the handover request is registered in the user information database or the home location register.

The first transmission power control unit maintains transmission power so that the current femtocell coverage is maintained when the user is authenticated, so that the user terminal is handed over, and when the user is not an authenticated user, the current femtocell coverage is optimal femtocell coverage. The power is reduced so that the user terminal is not handed over.

According to another aspect of the present invention, a method for adjusting femtocell coverage by a femtocell base station adjacent to a macrocell base station, comprising: (a) a handover request from the macrocell base station or a handover to the macrocell base station; If necessary, determine whether the user is authenticated by querying the previously stored user information, (b) handover of the user terminal while controlling femtocell coverage by controlling the transmission power according to the determination result of step (a) There is provided a method for coverage adjustment of a femtocell base station comprising the step of controlling.

When the handover is requested from the macro cell base station, the step (b) may be performed so that the user terminal is handed over by maintaining transmission power so that the current femtocell coverage is maintained if the user is an authenticated user. If the user is not an authenticated user, the transmission power is reduced so that the current femtocell coverage becomes a predetermined optimal femtocell coverage so that the user terminal is not handed over.

When the handover to the macrocell base station is required, the step (b) may increase the transmission power so that the current femtocell coverage becomes a predetermined optimal femtocell coverage when the user is an authenticated user as a result of the determination of the step (a). The handover is not requested to the macrocell base station, and the handset is requested to the macrocell base station by maintaining transmission power so that femtocell coverage is maintained if the user is not an authenticated user.

As described above, according to the present invention, even when an interference source is installed in the periphery, femtocell coverage can automatically maintain a predetermined optimum coverage.

In addition, even when the interference source is removed from the periphery, femtocell coverage can be automatically maintained even if the femtocell coverage is preset optimal coverage.

1 is a diagram illustrating a system for coverage adjustment of a femtocell base station according to an embodiment of the present invention.
2 is a block diagram schematically showing the configuration of a femtocell base station capable of setting an optimal coverage according to an embodiment of the present invention.
3 is a diagram illustrating a method for adjusting coverage when femtocell coverage is expanded according to an embodiment of the present invention.
4 is a diagram illustrating a method for adjusting coverage when femtocell coverage is reduced according to an embodiment of the present invention.

The foregoing and other objects, features, and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

Hereinafter, a base station that manages a macro cell is used as a macro cell base station, and a base station that manages a femtocell is called a femtocell base station.

1 is a diagram illustrating a system for coverage adjustment of a femtocell base station according to an embodiment of the present invention.

Referring to FIG. 1, a system for adjusting a coverage of a femtocell base station is adjacent to a femtocell base station 200 and a femtocell base station 200 for providing a communication service by setting an inside of a building to femtocell coverage (A). Macro cell base station 300 that manages the macro cell (B), located inside the building set to femtocell coverage (A) or outside the building set to macro cell coverage (B) bordering the building outer wall, handover to the corresponding coverage And user terminals 100a and 100b that receive communication services accordingly.

Here, the output of the macro cell is set to 20W, having a coverage of 500 ~ 1000m, while the femtocell has an output of several tens of mW, has a coverage of 10 ~ 20m. Through this, femtocells are implemented inside buildings such as homes or indoors to provide a communication service with a transmission capacity of several Mbps per subscriber to a small number of users (around 1 ~ 4).

The user terminals 100a and 100b periodically measure Reference Signal Received Quality (RSRQ), Reference Signal Received Power (RSRP), and the like to the macrocell base station 300 or the femtocell base station 200 existing in the coverage where they are located. Send a measurement report message. Here, the RSRQ refers to the ratio between the received power of the predefined signal and the received noise power in the same frequency band, and the RSRP is assigned a cell-specific reference signal within the considered measurement frequency bandwidth. It is a linear average of the power distributed to the resource elements.

That is, the first user terminal 100a transmits a measurement report message to the macrocell base station 300, and the second user terminal 100b transmits a measurement report message to the femtocell base station 200.

The macro cell base station 300 determines whether to perform the handover of the first user terminal 100a by using the measurement report message from the first user terminal 100a, and when the handover is necessary, the femtocell base station 200 Request a handover.

When the femtocell base station 200 requests a handover from the macro cell base station 300, the femtocell base station 200 searches the stored user information to determine whether the user is an authenticated user, and controls the transmission power according to the determination result to cover the femtocell coverage. While controlling (A), the handover of the first user terminal 100a is controlled.

That is, when the interference from the surroundings is reduced, femtocell coverage is extended, whereby the first user terminal 100a located in the macrocell coverage B moves to the boundary between the macrocell coverage B and the femtocell coverage A. If so, the macro cell base station 300 requests a handover of the first user terminal 100a to the femtocell base station 200.

Then, the femtocell base station 200 determines whether the first user terminal 100a is an authenticated user. As a result of the determination, when the user is an authenticated user, the femtocell base station 200 maintains transmission power so that the current femtocell coverage is maintained so that the first user terminal 100a is handed over, and when the user is not an authenticated user, the current femtocell coverage The transmission power is reduced so that the optimal femtocell coverage is achieved so that the first user terminal 100a is not handed over. In this case, the information on the optimum femtocell coverage is stored in advance.

In other words, if femtocell coverage is extended due to reduced interference from the surroundings, there is a possibility that an unauthenticated user is handed over to a femtocell due to the change of coverage. It is reduced so that the first user terminal 100a is not handed over.

In addition, when the femtocell base station 200 receives the measurement report message from the second user terminal 100b in its coverage A, the femtocell base station 200 determines whether to perform a handover by using the measurement report message, and performs handover. If necessary, look up the user information to determine whether the user is authenticated. Then, when the user is authenticated, the femtocell base station 200 increases the transmission power so that the current femtocell coverage becomes optimal femtocell coverage so that the second user terminal 100b is not handed over to the macrocell base station 300. do.

That is, when interference from the surroundings is increased, femtocell coverage is reduced. At this time, the second user terminal 100b located in the femtocell coverage A moves to the boundary between the macrocell coverage B and the femtocell coverage A. FIG. If so, the femtocell base station 200 determines whether to perform handover using the measurement report message from the second user terminal 100b.

Then, when the handover is required, the femtocell base station 200 determines whether the user is an authenticated user by looking up user information, and when the user is an authenticated user, increases the transmission power so that the current femtocell coverage becomes the optimal femtocell coverage. The second user terminal 100b does not hand over to the macro cell base station 300, and if the user is not an authenticated user, the transmission power is maintained so that femtocell coverage is maintained so as to request the handover to the macro cell base station 300. do.

In other words, if femtocell coverage is reduced due to an increase in interference, there is a possibility that an authenticated user is handed over to the macrocell base station 300 due to a change in femtocell coverage. In this case, the femtocell base station 200 increases the transmission power. The second user terminal 100b is not handed over to the macro cell base station 300.

In addition, when the femtocell coverage is reduced when the user terminal 100 is not located at the femtocell coverage boundary, the femtocell base station 200 increases a small amount of transmission power if no handover occurs for a predetermined time.

In addition, the femtocell base station 200 transmits a radio signal for providing a communication service for the femtocell coverage (A) inside the building to distinguish from the macrocell coverage (B) outside the building.

In addition, the femtocell base station 200 implements a registered user terminal so as not to obtain user authentication even if other user terminals other than the user terminal of the building resident are located in the femtocell coverage A around the building for a predetermined time. Only a communication service can be provided.

2 is a block diagram schematically illustrating a configuration of a femtocell base station capable of setting optimal coverage according to an embodiment of the present invention.

2, a femtocell base station 200 capable of setting optimal coverage includes a communication interface 202 for communicating with a user terminal or a macrocell base station, a user information database 204 for storing user information, and an authentication unit 206. ), And a first transmission power control unit 208.

The user information database 204 stores information such as a terminal number of a user who can use the femtocell base station 200.

When the handover is requested from the macro cell base station through the communication interface 202, the authenticator 206 determines whether the corresponding user is an authenticated user by inquiring user information.

That is, when a handover is requested from the macro cell base station, the authentication unit 206 inquires user information from a pre-stored user information database 204 or a home location register (not shown), and the user selects a corresponding femtocell base station. Determines whether the user is authorized to use.

The first transmission power control unit 208 controls femtocell coverage by controlling transmission power according to the determination result of the authentication unit 206 and simultaneously controls handover of the user terminal.

That is, when the user is authenticated, the first transmission power control unit 208 maintains transmission power so that the current femtocell coverage is maintained so that the user terminal is handed over. In other words, when the user is authenticated, the first transmission power controller 208 determines that the current femtocell coverage is optimal femtocell coverage and maintains the current transmission power as it is. Then, the user terminal is automatically handed over.

In addition, when the user is not an authenticated user, the first transmission power control unit 208 reduces the transmission power so that the current femtocell coverage is optimal femtocell coverage so that the user terminal is not handed over.

In other words, if the user is not an authenticated user, the first transmission power control unit 208 determines that femtocell coverage is extended beyond optimal femtocell coverage and requests handover to an unauthenticated user, so that the current femtocell coverage is optimal femtocell coverage. Reduce transmit power to Then, the unauthenticated user terminal is not handed over and is provided with a communication service through the macro cell base station.

The above-configured system is used when femtocell coverage is extended due to reduced interference from the surroundings, and when an unauthenticated user has a possibility of handover to a femtocell due to the coverage change.

In addition, when femtocell coverage is reduced due to an increase in interference from the surroundings, the femtocell base station 200 determines whether to perform a handover to an authenticated user due to a femtocell coverage change. 210, the second transmission power control unit 212 is further included.

When the handover determination unit 210 receives a measurement report message from the user terminal through the communication interface unit 202, the handover determination unit determines whether to perform a handover using the measurement report message, and requires handover. In case of requesting user authentication, the authentication unit 206 is requested.

Then, the authentication unit 206 inquires the user information from the pre-stored user information database 204 or the home location register (not shown) to determine whether the user is authorized to use the femtocell base station 200. To judge.

The second transmission power control unit 212 controls femtocell coverage by controlling transmission power according to the determination result of the authentication unit 206 and simultaneously controls handover of the user terminal.

That is, when the user is authenticated, the second transmission power control unit 212 increases the transmission power so that the current femtocell coverage becomes optimal femtocell coverage so that the user terminal is not handed over to the macrocell base station. If not, the transmit power is maintained to maintain the current femtocell coverage and requests a handover to the macrocell base station.

In other words, when the user is authenticated, the second transmission power control unit 212 determines that femtocell coverage is reduced from the optimal femtocell coverage, so that the authenticated user requests a handover to the macrocell base station, and thus the femtocell coverage is optimal. Increase transmit power to be coverage. Then, the authenticated user terminal is provided with a communication service through the femtocell base station without being handed over to the macrocell base station.

In addition, if the user is not an authenticated user, the second transmission power control unit 212 determines that the current femtocell coverage is optimal femtocell coverage and maintains the current transmission power as it is.

3 is a diagram illustrating a method for adjusting coverage when femtocell coverage is extended according to an embodiment of the present invention.

Referring to FIG. 3, the macrocell base station receives a measurement report message from a user terminal in macrocell coverage that it manages (S300). That is, the user terminal periodically measures the RSRQ, RSRP and the like and transmits a measurement report message to the macrocell base station in the coverage where it is located.

The macro cell base station determines whether to perform a handover using the measurement report message from the user terminal (S302). That is, the macro cell base station compares each RSRQ, RSRP, etc. in the measurement report message including the RSRQ, RSRP, etc. by each base station, and determines that handover should be performed when the base station having the highest value is not itself.

If handover is necessary according to the determination of S302 (S304), the macrocell base station requests handover to the femtocell base station (S306). The handover request includes macro cell base station information, user terminal information, and the like.

Upon receiving the handover request from the macrocell base station, the femtocell base station inquires previously stored user information (S308) and determines whether the corresponding user is an authenticated user (S310). That is, the femtocell base station determines whether the user terminal information is registered in a user information database or a home location register. If the user terminal information is registered as a result of the determination, the femtocell base station determines that the user is an authenticated user.

As a result of the determination of S310, when the user is an authenticated user, the femtocell base station maintains transmission power so that the femtocell coverage is maintained so that the user terminal is handed over (S312).

If the user determines that the user is not an authenticated user, the femtocell base station reduces the transmission power so that the current femtocell coverage becomes optimal femtocell coverage so that the user terminal is not handed over (S314).

If no handover is necessary in S304, the macrocell base station provides a communication service to the user terminal (S316).

4 is a diagram illustrating a method for adjusting coverage when femtocell coverage is reduced according to an embodiment of the present invention.

Referring to FIG. 4, the femtocell base station receives a measurement report message from a user terminal in femtocell coverage that it manages (S400). That is, the user terminal periodically measures the RSRQ and RSRP and transmits a measurement report message to the femtocell base station in the coverage where it is located.

The femtocell base station determines whether to perform handover using the measurement report message from the user terminal (S402). That is, the femtocell base station compares each RSRQ, RSRP, etc. in the measurement report message including RSRQ, RSRP, etc. by each base station, and determines that handover should be performed when the base station having the highest value is not itself.

If the handover is necessary according to the determination of S402 (S404), the femtocell base station queries the previously stored user information (S406) and determines whether the corresponding user is an authenticated user (S408). That is, the femtocell base station determines whether user terminal information is registered in a user information database or a home location register. If the user terminal information is registered as a result of the determination, the femtocell base station determines that the user is an authenticated user.

When the user is authenticated as a result of the determination in S408, the femtocell base station increases the transmission power so that the current femtocell coverage becomes a predetermined optimal femtocell coverage so that the user terminal is not handed over to the macrocell base station (S410).

If the user determines that the user is not an authenticated user, the femtocell base station requests handover to the macrocell base station by maintaining transmission power so that femtocell coverage is maintained (S412).

If the handover is not necessary in step S404, the femtocell base station provides a communication service to the user terminal (S414).

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

As described above, the system and method for the coverage adjustment of the femtocell base station of the present invention is the femtocell coverage is the femtocell coverage is the case where the interference source is installed in the vicinity of the femtocell coverage is reduced than the predetermined optimal coverage or the interference source is removed around the femtocell coverage Even if it is extended, it is suitable when femtocell coverage needs to automatically maintain a predetermined optimal coverage.

100: user terminal 200: femtocell base station
202: communication interface unit 204: user information database
206: authentication unit 208: first transmission power control unit
210: handover determination unit 212: second transmission power control unit
300: macro cell base station

Claims (9)

A system for adjusting femtocell coverage in a state where femtocell coverage and macrocell coverage are adjacent to each other,
A macrocell base station for determining whether to perform a handover using a measurement report message from a user terminal and requesting a handover to a femtocell base station when handover is required; And
When a handover is requested from the macro cell base station or when a handover to the macro cell base station is required, it is determined whether the user is an authenticated user by inquiring user information, and the transmission power is controlled according to the determination result to thereby cover the femtocell coverage. A femtocell base station for controlling the handover of the user terminal at the same time as adjusting the number;
System for the coverage adjustment of the femtocell base station comprising a. A communication interface unit for communication with a user terminal or a macro cell base station;
An authentication unit for determining whether the user is an authenticated user by inquiring user information when a handover is requested from the macro cell base station through the communication interface unit; And
A first transmission power control unit controlling a handover of the user terminal while controlling femtocell coverage by controlling transmission power according to a determination result of the authentication unit;
Femtocell base station comprising a. The method of claim 2,
When the measurement report message is received from the user terminal through the communication interface unit, it is determined whether the handover is performed using the measurement report message, and if the handover is necessary, whether the handover requesting user authentication to the authentication unit is determined. part; And
When the user is authenticated, the transmission power is increased so that the current femtocell coverage becomes a predetermined optimal femtocell coverage so that the user terminal is not handed over to the macrocell base station, and if the user is not an authenticated user, the femtocell coverage is maintained. The femtocell base station further comprises a second transmission power control unit for maintaining a transmission power to request a handover to the macro cell base station. The method of claim 2,
A femtocell base station further comprising a user information database storing user terminal information. The method according to claim 2 or 4,
The authentication unit femtocell base station, characterized in that for performing the user authentication using whether the user terminal information included in the handover request is registered in the user information database or home location register. The method of claim 2,
When the user is authenticated, the first transmission power control unit maintains the transmission power so that the current femtocell coverage is maintained so that the user terminal is handed over, and when the user is not an authenticated user, the optimal femtocell coverage is preset. The femtocell base station, characterized in that to reduce the transmission power so that the user terminal is not handed over. A method for adjusting femtocell coverage by a femtocell base station adjacent to a macrocell base station,
(a) when handover is requested from the macrocell base station or when handover is required to the macrocell base station, determining whether the user is an authenticated user by searching previously stored user information; And
(b) controlling femtocell coverage by controlling transmission power and controlling handover of a user terminal according to the determination result of step (a);
Method for coverage adjustment of a femtocell base station comprising a. The method of claim 7, wherein
When handover is requested from the macro cell base station,
In step (b), the user terminal is handed over by maintaining the transmission power so that the current femtocell coverage is maintained when the user is an authenticated user, and the femtocell coverage is pre-existed when the user is not an authenticated user. The method for adjusting the coverage of the femtocell base station, characterized in that the user terminal is not handed over by reducing the transmission power so as to set the optimal femtocell coverage. The method of claim 7, wherein
When handover to the macro cell base station is necessary,
In step (b), if the user is an authenticated user as a result of the determination of step (a), the transmission power is increased so that the current femtocell coverage becomes a predetermined optimal femtocell coverage so that the user terminal is not handed over to the macrocell base station. The method for adjusting the coverage of a femtocell base station, if the user is not an authenticated user, requesting handover to the macrocell base station by maintaining transmission power so that current femtocell coverage is maintained.

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