KR20180097075A - Method and femto base station for detecting change of location - Google Patents

Abstract

A method for detecting a change of location and a femto base station performing the same are provided. The method includes a step of acquiring at least one piece of neighboring base station information adjacent to a femto base station through network listening after rebooting, a step of determining whether the acquired at least one neighboring base station information is included in a generated neighboring list, and a step of detecting a change in the location of the femto base station if it is not included. The neighboring list includes the at least one piece of neighboring base station information obtained through network listening before the rebooting. The neighboring base station includes at least one macro base station adjacent to the femto base station. It is possible to detect the change of the location of the femto base station by using the neighboring list.

Description

TECHNICAL FIELD [0001] The present invention relates to a femto base station, and more particularly,

The present invention relates to a position change detection method and a femto base station performing the position change detection method.

Currently, a broadband wireless communication system is considering a femto base station extension to supplement a macro base station. The femto base station is located in the area of the macro base station with a large radius or outside the area of the macro base station, and provides a specific communication service with femtocell coverage for a small number of subscribers.

In the case of a femto base station that is a very small base station, in general, a GPS (Global Positioning System) module is not built in to lower the product price. Even if the GPS module is installed, it is not easy to receive the GPS due to the fact that the femto base station is installed indoors.

Since the femto base station is small and light in nature, and is installed mainly in a room such as a home and an office, the location of the femto base station may be changed when moving or moving to an office.

However, it is difficult for the operator to know the location change of the femto base station in the absence of GPS information. In this case, it may lose its original purpose of improving radio quality and offloading data of the macro base station and may interfere with neighboring subscribers.

In order to prevent such a phenomenon, when the location of the femto base station is changed, the operator must detect the femto base station or retrieve the femto base station or relocate it to reduce the cost.

SUMMARY OF THE INVENTION The present invention provides a method of detecting a femto base station position change using a neighbor list collected by a femto base station and a femto base station performing the method.

According to an aspect of the present invention, there is provided a method of detecting a change in location of a femto base station, the method comprising: acquiring at least one neighboring base station information adjacent to the femto base station through network listening after rebooting; Determining whether the femto base station is included in the generated neighbor list, and if the femto base station is not included, detecting a change in the position of the femto base station, wherein the neighboring base station includes at least one macro base station adjacent to the femto base station .

The neighboring base station information includes a cell identifier, and the detecting step includes: when the cell identifier of the neighboring base station acquired through network listening after the rebooting is not included in the neighbor list, changing the location of the femto base station Can be detected.

Wherein the neighboring base station information includes a TAC (Tracking Area Code), and the detecting includes: if the TAC of the neighboring base station obtained through network listening after the rebooting is not included in the neighbor list, The position change can be detected.

Determining whether a media access control (MAC) address of an upper network device connected to the femto base station has been changed after the determining step, wherein the detecting step comprises: When the base station information is not included in the neighbor list and the MAC address is changed, the femto base station can detect a change in the location of the femto base station.

Wherein the neighboring base station information includes a cell identifier and a tracking area code (TAC), and the detecting step comprises: if the cell identifier of the neighboring base station obtained through the network listening after the rebooting is not included in the neighbor list, Detecting a first stage location change and detecting a second stage location change when the TAC of the neighboring base station obtained through the network listening is not included in the neighbor list.

The method of claim 1, further comprising: determining whether a media access control (MAC) address of an upper network equipment connected to the femto base station is changed after the determining, wherein, if the MAC address is changed, And a step of detecting a three-step position change.

The method may further include the step of sequentially transmitting the first-stage position change alarm, the second-stage position change alarm, and the third-stage position change alarm to the femto base station management system.

According to another aspect of the present invention, there is provided a method of detecting a location change, the method comprising: a first neighbor list including at least one macro base station information adjacent to the femto base station obtained through network listening; Storing the first neighbor list in a non-volatile memory, storing the second neighbor list in a volatile memory, deleting the second neighbor list when the power is off, Acquiring at least one macro base station information adjacent to the femto base station through network listening at the reboot to reproduce the second neighbor list, comparing the first neighbor list with the second neighbor list, And if the femto base station does not match, And a step of detecting a value varying.

Wherein the macro base station information includes a cell identifier of a macro base station and the determining step determines whether at least one of the cell identifiers of the macro base stations included in the first neighbor list and the second neighbor list, can do.

Wherein the macro base station information includes a tracking area code (TAC) of a macro base station, and the determining step includes determining that at least one of the TACs of the macro base stations included in the first neighbor list and the second neighbor list It is possible to judge whether or not they match.

Further comprising determining whether a media access control (MAC) address of a higher-level network device connected to the femto base station has been changed after the step of determining if the mismatch occurs, When the second neighbor list is inconsistent with each other and the MAC address is changed, it is possible to detect a change in the location of the femto BS.

The method may further include transmitting the location change detection alarm to the femto base station management system.

The method may further include the step of synchronizing the nonvolatile memory and the volatile memory according to an instruction from the femto base station management system.

According to another aspect of the present invention, a femto base station includes a communication unit for receiving at least one macro base station information adjacent to a femto base station through network listening, a program for performing position change detection, A temporary memory for storing a second neighbor list including the at least one macro base station information, and a processor for executing the program, the program comprising: Wherein the second neighbor list includes at least one macro base station information included in the second neighbor list, the second neighbor list including at least one macro base station information obtained by performing the network listening according to the reboot, If not included in the first neighbor list, And instructions for detecting a change in position.

The program may include instructions for detecting a position change if at least one of the cell identifiers included in the second neighbor list is not included in the first neighbor list.

Wherein if at least one of the cell identifiers included in the second neighbor list is not included in the first neighbor list, at least one of the TACs included in the second neighbor list, If it is not included in the list, it may include instructions for detecting the change of position.

Wherein when the cell identifier included in the second neighbor list and the media access control (MAC) address of an upper network equipment connected to the communication unit are changed without the TAC being included in the first neighbor list, And the like.

According to the embodiment of the present invention, the macro base station information adjacent to the femto base station is detected, and it can be known that the location of the actual femto base station has been changed. It is possible to prevent interference at unnecessary locations, Can be saved.

1 is a network configuration diagram according to an embodiment of the present invention.
2 is a diagram illustrating an example in which a femto base station detects a new macro base station according to an embodiment of the present invention.
3 is a diagram illustrating an example in which a femto base station detects a new macro base station according to another embodiment of the present invention.
4 is a block diagram illustrating a configuration of a femto base station according to an embodiment of the present invention.
5 is a flowchart illustrating a method of detecting a location change of a femto base station 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 explain the present invention, parts not related to the description are omitted, and like parts are denoted by similar reference numerals 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.

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

In this specification, a base station (BS) includes an access point (AP), a radio access station (RAS), a node B, an evolved Node B (eNodeB) (BS), a base transceiver station (BTS), a mobile multihop relay (MMR) -BS, and the like, or may be a function of all or a part of an access node, a base station, a radio access station, a node B, an eNodeB, a base transceiver station, .

Hereinafter, a location change detection method according to an embodiment of the present invention and a femto base station performing the method will be described with reference to the drawings.

FIG. 1 is a configuration diagram of a wireless communication system according to an embodiment of the present invention. FIG. 2 is a diagram illustrating an example in which a femto base station detects a new macro base station according to an embodiment of the present invention. And the femto base station detects a new macro base station according to the example.

Referring first to FIG. 1, a wireless communication system includes at least one femto base station 100 and at least one macro base station 200 having different cell sizes. At least one femto base station 100 is connected to the femto base station management system 300.

The femto base station 100 is an ultra-small base station that provides wireless communication services to a narrow range (for example, a range of 30 m). The femto base station 100 manages a femtocell and secures the quality of a mobile communication service by installing the femtocell in a shaded area where radio waves of other cells deteriorate, for example, in a home or a building. The femto base station 100 is connected to a mobile communication core network (EPC) by using a digital subscriber line (DSL) installed in a room such as a home or office and a public network such as Ethernet, .

The femto base station 100 may be used in various terms such as a small base station, a pico base station and a HeNodeB in 3GPP standard terminology. The femto base station 100 is not limited to the dictionary definition of femto, Lt; RTI ID = 0.0 > cell < / RTI >

The femto base station 100 is located in a macro cell served by the macro base station 200. At this time, there is at least one macro base station that is a neighboring base station adjacent to the femto base station 100. The femto base station 100 periodically performs network listening at boot time and after booting to receive base station information broadcast by at least one neighboring macro base station 200.

At this time, the base station information to be acquired may include a cell ID, a tracking area code (TAC), and a physical cell identity (PCI) of a neighboring base station located in the vicinity of the femto base station 100.

The cell identifier is a cell-specific value, and TAC is a minimum unit for paging, and is a unit that generally includes several cells. The communication service provider defines groups of adjacent macro base stations 200 as one TA, and each macro base station 200 knows in advance which TA it belongs to. For example, the macro base stations 200 located in Samsung-Dong can be set as TA1, the macro base stations 200 located in the reverse direction can be designated as TA2, and the macro base stations 200 located in Nonhyun-dong can be set as TA3. The TAC represents a unique value assigned to each TA by the communication carrier. For example, TA1 = 0x0001 and TA3 = 0x0002 may be set.

The femto base station 100 creates, modifies, and deletes a neighbor list (Neighbor List) composed of neighboring base station information obtained through network listening, and reports the generated neighbor list to the femto base station management system 300. Here, the neighbor list is used for handover processing.

The femto base station 100 may perform an Automatic Neighbor Relation (ANR) operation to update the neighbor list. The femto base station 100 may perform an ANR operation defined by the 3GPP when a physical cell identity (PCI) unknown to the femto base station 100 is detected by a terminal (not shown).

The macro base station 200 manages macro cells. Here, the macrocell means a cell in an area larger than the femtocell, and is not limited to the dictionary definition of the term macro. The macro base station 200 can be a base station of a mobile communication network such as an LTE (Long Term Evolution) network, a WCDMA network, a Code Division Multiple Access (CDMA) network, a Wibro have.

The femto base station 100 and the macro base station 200 can be operated by generating a plurality of thin and precise beams using a beam forming technique.

The base station management system 300 is a system for operating and managing the femto base station 100, and manages a neighbor list received from at least one femto base station 100.

In the case of the femto base station 100 without the Global Positioning System (GPS), a method of recognizing that the surrounding environment has changed is a method of recognizing that the information of the neighboring macro base station 200 having a fixed location is changed .

2, when the macro base station # 1 and the macro base station # 2 are present as neighboring base stations of the femto base station 100, the femto base station 100 transmits a new macro base station # 3 This is the case when it is detected. In this case, the neighbor list is updated to include the new macro base station # 3.

Referring to FIG. 3, when the femto base station 100 moves to a new area, the femto base station 100, which has been moved to a new area, acquires neighboring macro base station # 3 information through network listening and updates the neighbor list.

However, it is difficult to distinguish whether the macro base station # 3 information is newly added, or whether it is due to a change of the base station environment, such as an additional cell generation or an antenna adjustment, as shown in FIG. This is because, in both cases, new macro base station # 3 information is additionally generated while the existing neighbor list remains intact.

Therefore, in the embodiment of the present invention, when the macro base station # 3 information is added to the neighbor list, the femto base station 100 may be configured to detect the macro base station 200 due to additional cell generation or antenna adjustment, A case where the location of the macro base station 200 in a new area is changed is discriminated.

When the femto base station 100 moves, it is inevitably rebooted. Accordingly, the femto base station 100 divides the space for storing the neighbor list into two types according to whether the neighbor list is deleted upon rebooting. After rebooting, the femto base station 100 compares the newly created neighbor list through the network listening with the unchanged previous neighbor list after rebooting And detects whether the femto base station 100 has changed its position. By dividing the neighbor list storage area, it is possible to distinguish the case where the new neighboring base station is opened around the femto base station and the case where the femto base station 100 is moved to the new area.

In the case of FIG. 2, the neighbor lists of the two regions will be the same. However, if the location of the femto base station 100 is changed, as shown in FIG. 3, the neighbor list generated before the reboot and the neighbor list generated after the reboot will not coincide with each other. In this manner, when the neighbor lists are inconsistent with each other, it is possible to determine the change in the position of the femto base station 100.

The femto base station 100 may increase the detection probability for the location change by checking whether the MAC address of the upper network equipment has been changed.

When the femto base station 100 detects a position change, it transmits a location change alarm to the femto base station management system 300. The femto base station 100 compares the cell identifiers included in the neighbor list with the TACs and further checks whether the MAC address of the upper equipment of the femto base station 100 has been changed to generate a position change alarm stepwise, To detect the position change.

If the location of the femto base station 100 has not been changed, base station information for the new macro base station 200 is updated to update the neighbor list, and then the two types of neighbor list storage spaces are synchronized.

When receiving the location change alarm from the femto base station 100, the femto base station management system 300 manages the location information of the femto base station 100. The femto base station management system 300 is connected to and manages the femto base stations 100 installed in various areas.

4 is a block diagram illustrating a configuration of a femto base station according to an embodiment of the present invention.

4, the femto base station 100 includes a storage unit 101 for storing a first neighbor list, a temporary memory 103 for storing a second neighbor list, a base station control unit 105, and a communication unit 107 do. The storage unit 101, the temporary memory 103, and the communication unit 107 are connected to the base station control unit 105 and operate.

The storage unit 101 is a nonvolatile memory, and stored data is not deleted even when the power is turned off. That is, even if the femto base station 100 reboots, the first neighbor list stored in the storage unit 101 is not changed.

Also, the storage unit 101 stores a location change detection program of the femto base station 100. The location change detection program can be implemented by a device manufacturer as a default built-in type, an application type installed by a user or an operator, an application type installed and executed by a remote server, and the like.

The temporary memory 103 is a volatile memory, and when the power is turned off, the stored data is deleted. That is, when the femto base station 100 reboots, the second neighbor list stored in the temporary memory 103 is changed. The temporary memory 103 may be a memory included in the base station control unit 105.

The neighbor list used by the femto base station 100 for management and handover is a second neighbor list stored in the temporary memory 103. [

The base station control unit 105 executes a position change detection program stored in the storage unit 101 as a processor. Here, the location change detection program deletes the second neighbor list when the power is turned off, regenerates a second neighbor list including at least one macro base station information obtained by performing the network listening according to the reboot, And instructions for detecting a change in position if at least one included macro base station information is not included in the first neighbor list.

In addition, the location change detection program may include instructions for detecting a change of location if at least one of the cell identifiers included in the second neighbor list is not included in the first neighbor list.

In addition, if at least one of the cell identifiers included in the second neighbor list is not included in the first neighbor list and at least one of the TACs included in the second neighbor list is not included in the first neighbor list, And may include instructions to detect a change in position.

If the MAC address of the upper network equipment connected to the communication unit 107 is changed and the TAC is not included in the first neighbor list and the cell identifier included in the second neighbor list is changed, Lt; / RTI >

The communication unit 107 is connected to the base station control unit 105 to receive wireless signals of at least one neighboring neighboring base station 200 or the macro base station 200 and transmits and receives a wireless signal to and from the femto base station management system 300. [ do. And transmits and / or receives radio signals.

The communication unit 107 receives base station information broadcasted from the neighboring macro base station 200 through network listening and transmits the received base station information to the base station control unit 105. The communication unit 107 may receive neighbor base station information through booting due to the initial installation of the femto base station 100, rebooting due to repositioning by relocation, or periodically network listening.

 FIG. 5 is a flowchart illustrating a method of detecting a location change of a femto base station according to an embodiment of the present invention, and shows an operation of the femto base station 100.

Referring to FIG. 5, the base station control unit 105 receives neighbor base station information through network listening (S101). Here, the step S101 may be a process of initial installation.

The base station control unit 105 stores the first neighbor list and the second neighbor list including the neighboring base station information in the storage unit 101 and the temporary memory 103, respectively (S103, S105). At this time, the first neighbor list and the second neighbor list are equal to each other.

Thereafter, when the power is turned off, the second neighbor list stored in the temporary memory 103 is deleted (S107). Then, in step S109, the base station control unit 105 receives neighbor base station information through network listening (S111) and regenerates the second neighbor list (S113).

The base station control unit 105 compares the first neighbor list generated before the reboot with the second neighbor list regenerated in step S113 (S115).

The base station control unit 105 determines whether at least one cell identifier included in the second neighbor list is included in the first neighbor list (S117). That is, since the second neighbor list includes the newly generated cell identifier, it is checked whether any one of the previously generated cell identifiers exists.

If it exists, the process ends. If not, the first stage position change detection alarm is transmitted to the femto base station management system 300 (S119).

The base station control unit 105 determines whether at least one TAC included in the second neighbor list is included in the first neighbor list (S121). It is predicted that the TAC is wider than the cell and that the same TAC does not exist in the existing neighbor list, it is highly probable that the location change exceeding the TAC radius is detected.

If it exists, the process is terminated. If it does not exist, a two-step position change alarm is transmitted to the femto base station management system 300 (S123).

The base station control unit 105 determines whether the MAC address of the upper network equipment (not shown) connected to the communication unit 107 has been changed (S125). Since the change of the MAC address in the state of occurrence of the second stage change detection alarm means that it is linked to another upper network device, the probability of the change of position is further increased.

If the MAC address of the upper network equipment (not shown) is changed, the third-stage position change detection alarm is transmitted to the femto base station management system 300 (S123).

At this time, the step-by-step position change detection alarm indicates that the position change probability is higher as the step is higher.

The base station control unit 105 maintains the alarm state until the location change detection alarm is cleared by the operator in the femto base station management system 300 and synchronizes the storage unit 101 with the temporary memory 103 Do not. Thereafter, when the femto base station management system 300 clears, that is, when a synchronization instruction is received, the storage unit 101 and the temporary memory 103 are synchronized. When synchronization is performed, the first neighbor list and the second neighbor list become equal to each other.

After the reboot, if the neighbors list newly generated through network listening is compared with the neighbor list generated before rebooting and if there is not at least one cell identifier and TAC that match each other, It is easy to remotely manage the femto base station 100 by changing the location of the femto base station 100 by generating an alarm when the femto base station 100 has changed its MAC address.

The embodiments of the present invention described above are not implemented only by the apparatus and method, but may be implemented through a program for realizing the function corresponding to the configuration of the embodiment of the present invention or a recording medium on which the program is recorded.

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)

CLAIMS 1. A method for a femto base station to detect a location change,
Acquiring at least one neighboring base station information adjacent to the femto base station through network listening after rebooting,
Determining whether the acquired at least one neighboring base station information is included in the generated neighbor list, and
Detecting a change in the position of the femto base station if the femto base station is not included,
The neighboring base station,
And at least one macro base station adjacent to the femto base station. The method of claim 1,
Wherein the neighboring base station information includes a cell identifier,
Wherein the sensing comprises:
And detecting a change in the location of the femto BS if the cell identifier of the neighbor BS acquired through network listening after the reboot is not included in the neighbor list. The method of claim 1,
The neighboring base station information includes a TAC (Tracking Area Code)
Wherein the sensing comprises:
And detecting a change in the location of the femto BS if the TAC of the neighbor BS acquired through network listening after the reboot is not included in the neighbor list. The method of claim 1,
After the determining,
Further comprising the step of determining whether a media access control (MAC) address of an upper network equipment connected to the femto base station has been changed,
Wherein the sensing comprises:
And detecting a change in the location of the femto BS when the neighbor BS information acquired through the network listening after the reboot is not included in the neighbor list and the MAC address is changed. The method of claim 1,
The neighboring base station information includes a cell identifier and a TAC (Tracking Area Code)
Wherein the sensing comprises:
If the cell identifier of the neighboring base station acquired through the network listening after the reboot is not included in the neighbor list,
If the TAC of the neighboring base station obtained through the network listening is not included in the neighbor list,
Further comprising the steps of: The method of claim 5,
After the determining,
Further comprising the step of determining whether a media access control (MAC) address of an upper network equipment connected to the femto base station has been changed,
Wherein the sensing comprises:
If the MAC address is changed, detecting a 3-step position change of the femto base station
Further comprising the steps of: The method of claim 6,
After the sensing step,
A step of sequentially transmitting a first-stage position change alarm, a second-stage position change alarm and a third-stage position change alarm to the femto base station management system
Further comprising the steps of: CLAIMS 1. A method for a femto base station to detect a location change,
Generating a first neighbor list and a second neighbor list including at least one macro base station information adjacent to the femto base station obtained through the network listening,
Storing the first neighbor list in a non-volatile memory and storing the second neighbor list in a volatile memory,
When the power is off, deleting the second neighbor list,
Acquiring at least one macro base station information adjacent to the femto base station through network listening at the reboot and regenerating the second neighbor list,
Comparing the first neighbor list with the second neighbor list to determine whether at least one neighbor base station information matches; and
If there is a discrepancy, the step of detecting the change of the position of the femto base station
Wherein the location change detection method comprises: 9. The method of claim 8,
Wherein the macro base station information includes a cell identifier of a macro base station,
Wherein the determining step comprises:
And determines whether at least one of the cell identifiers of the macro base stations included in the first neighbor list and the second neighbor list coincides with each other. 9. The method of claim 8,
Wherein the macro base station information includes a tracking area code (TAC) of a macro base station,
Wherein the determining step comprises:
And determines whether at least one of the TACs of the macro base stations included in the first neighbor list and the second neighbor list coincides with each other. 9. The method of claim 8,
After the determining,
Determining whether a media access control (MAC) address of an upper network equipment connected to the femto base station has been changed, if the mismatch occurs,
Wherein the sensing comprises:
And detecting a change in the location of the femto BS when the first neighbor list and the second neighbor list are inconsistent with each other and the MAC address is changed. 9. The method of claim 8,
After the sensing step,
Transmitting the location change detection alarm to the femto base station management system
Further comprising the steps of: The method of claim 12,
After the sensing step,
And synchronizing the nonvolatile memory and the volatile memory according to an instruction from the femto base station management system
Further comprising the steps of: A communication unit for receiving at least one macro base station information adjacent to the femto base station through network listening,
A storage unit for storing a program for performing position change detection and a first neighbor list including the at least one macro base station information,
A temporary memory for storing a second neighbor list including the at least one macro base station information, and
And a processor for executing the program,
The program includes:
Wherein the second neighbor list includes at least one macro base station information obtained by performing the network listening according to a reboot when the power is turned off and at least a second neighbor list including at least one macro base station information included in the second neighbor list And instructions for detecting a location change if one macro base station information is not included in the first neighbor list. The method of claim 14,
The program includes:
And detecting a position change if at least one of the cell identifiers included in the second neighbor list is not included in the first neighbor list. 16. The method of claim 15,
The program includes:
If at least one of the cell identifiers included in the second neighbor list is not included in the first neighbor list, at least one of the TACs included in the second neighbor list is not included in the first neighbor list The instructions further comprising instructions for detecting a change in location of the femto base station. 17. The method of claim 16,
The program includes:
When the cell identifier included in the second neighbor list and the TAC are not included in the first neighbor list and the media access control (MAC) address of an upper network equipment connected to the communication unit is changed, And a femto base station.

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