KR101526865B1 - Method for Configuring Neighbor List in Long Term Evolution FemtoCell System and Handover Method thereby - Google Patents

Abstract

A method for measuring neighboring frequency cells in a LTE femtocell system and a handover method therefor are disclosed. The present invention proposes a new method for constructing a neighbor cell list including neighboring frequency cell information for handover between Inter Frequency Cells in an LT femtocell environment. The femtocell sets a measurement interval from a time point when the VoLTE call connection service is terminated to a time point when the user's inactivity timer is terminated, as a measurement interval, and when the VoLTE service of the specific terminal is completed, It is possible to perform the measurement on the heterogeneous frequency cell so that the latest information on the heterogeneous frequency cell can be managed in the neighbor cell list at a normal time. Accordingly, heterogeneous inter-frequency handover can be performed without a separate heterogeneous frequency cell measurement when heterogeneous frequency handover is required.

Description

TECHNICAL FIELD The present invention relates to a method of constructing a list of neighboring frequency cells of a neighboring femtocell system and a handover method thereof,

The present invention relates to a method and apparatus for handover between Inter Frequency Cells in an LTE femtocell environment, a method for constructing a neighbor cell list including neighboring heterogeneous frequency cell information, To a method of constructing a frequency cell list and a handover method therefor.

In an LTE (Long Term Evolution) femtocell system, an Automatic Neighbor Relation (ANR) function is used for measurement of neighboring cells for handover and automation of neighbor cell list configuration And Network Monitor Mode (NMM). The NMM function is a function of analyzing signals received from neighboring cells located at the location where the LTE femtocell is installed and extracting necessary information to construct a list of neighboring cells. The automatic neighbor relationship setting function is a function of the LTE femtocell Information is measured and reported, and a neighbor cell list is configured through information of neighboring cells received from the terminal.

In the case of the NMM function, since the LTE femtocell measures only neighboring cells around itself, the neighbor femtocell constructs a list of neighboring cells. Therefore, there are various restrictions to perform handover based on the neighboring cell list only. On the other hand, according to the automatic neighbor relation setting function, since the femtocell constructs a list of neighboring cells through information on neighboring cells measured and reported by the terminals located in various regions in the femtocell coverage, . ≪ / RTI >

FIG. 1 is a conceptual diagram illustrating an LTE femtocell arranged in a macrocell area. The LTE femtocell C1 is included in the coverage of the first macrocell M 1 and the second macrocell M 2 have. The first macrocell M 1 is an Intra Frequency Macro Cell having the same frequency as that of the LT femtocell C 1 and the second macrocell M 2 is an Intra Frequency Macro Cell Is an Inter Frequency Macro Cell that uses an interferometer.

The femtocell C1 can perform the handover to the other cell with respect to the terminal 10 receiving the service for various reasons. For example, when the signal quality of the femtocell C1 serving as a serving cell is lower than a threshold value due to the movement of the terminal 10, handover generally occurs. Generally, the first macrocell M1 Handover is performed between the same frequency (Intra Frequency).

On the other hand, if the signal quality of the first macrocell M 1 of the same frequency is bad or the handover is forcibly proceeded to a cell of a corresponding frequency (for example, a second macrocell) according to a protocol defined to use a specific frequency according to the contents of the service It is possible. In such a case, a handover between different frequencies occurs.

2 is a diagram illustrating a method of constructing an inter-frequency cell list of an ELF femtocell using an ANR function. The femtocell C1 is a serving cell and the terminal 10 is a cell of a femtocell C1. You are receiving services within coverage. However, in the case where the signal strength of the serving cell is lower than the signal strength of neighboring frequency cells in step S203, the method of FIG. The report of the result is omitted. For convenience of explanation, the operation of the femtocell base station 100 in each step is described as the operation of the femtocell C1.

First, the femtocell base station 100, that is, the femtocell C1, provides a measurement control message (Measure Control) including threshold information of a serving cell signal strength to the terminal 10, And report the measurement result such as the intensity of the signal (S201).

When the signal strength of the femtocell C1 serving as the serving cell is lower than the threshold, the terminal 10 reports the serving cell signal measurement result to the femtocell C1. Here, the threshold value is a reference value for measurement of a heterogeneous frequency cell (S203).

The femtocell C1 receives the serving cell signal measurement result and requests the terminal 10 to start measurement of a heterogeneous frequency cell in its vicinity (S205) Frequency cell information to the femtocell C1 (S207).

The femtocell C1 compares the reported result from the terminal 10 with a neighboring cell list to determine whether the heterogeneous frequency cell is already included in the neighboring cell list (S209). If the reported heterogeneous frequency cell has a neighboring cell If it is already included in the cell list, handover to the heterogeneous frequency cell is started (S211).

If it is determined in step S209 that the reported heterogeneous frequency cell is not included in the neighboring cell list, the femtocell C1 requests the terminal 10 to start the inter-frequency ANR And the additional information of the heterogeneous frequency cell is measured and reported (S213).

The femtocell C1 receives the result of measuring the additional information of the heterogeneous frequency cell from the terminal 10 (S215), newly configures the neighboring cell list (S217), and starts the handover to the heterogeneous frequency cell (S219 ).

If the signal quality of the same frequency cell is equal to or better than the signal quality of the heterogeneous frequency cell in step S203, the terminal 10 will provide the measurement result to the femtocell C1, Accordingly, handover between the same frequencies is performed.

Thus, if the signal quality of the same frequency cell is similar to or better than the signal quality of the different frequency cell, no measurements for the heterogeneous frequency cell or a new configuration of the neighbor list are made. If a handover to a heterogeneous frequency cell is required for a particular purpose, such as a situation where a handover is required to a specific heterogeneous frequency cell according to a protocol for using a specific frequency for a specific service, A neighboring cell list can not be constructed and necessary handover can not be performed.

Meanwhile, since the method of FIG. 2 may be a state in which the signal quality of the serving cell has already deteriorated considerably at the time of measurement of the heterogeneous frequency cell and the user may be in a state of receiving a service using a large amount of data, (ANR), the UE frequently fails to measure heterogeneous frequency cells.

However, if the threshold value for measurement of the heterogeneous frequency cell is set higher, even if the signal quality of the femtocell is good, handover to the heterogeneous frequency cell may occur and the coverage of the LT femtocell may be reduced.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an LTE femtocell for constructing a list of neighboring cells including neighboring heterogeneous frequency cell information for handover between Inter Frequency Cells in an LTE femtocell environment, And a method of constructing a list of different frequency cell lists of a system.

Another object of the present invention is to provide a novel femtocell system which is capable of performing heterogeneous frequency handover at any time by maintaining the latest neighboring cell list by repeatedly measuring the peripheral heterogeneous frequency cell information irresponsively or periodically, Over method.

In order to accomplish the above object, the present invention sets up a separate measurement period for measuring peripheral heterogeneous frequency cells using Automatic Neighbor Relation (ANR). Here, the measurement period is a period during which a User Inactivity Timer is terminated from the time when a VoLTE (Voice over LTE or HD Voice) call, which is a service for providing a voice or video call through a data packet, is released in an LTE network Is set as a section from the start point to the start point.

A method of measuring a heterogeneous frequency cell for constructing a list of neighboring frequency cells of an ELT femtocell system according to the present invention includes: determining whether a call connection of a terminal in a VoLTE call service is released; Determining that the measurement interval is started; Requesting the terminal to measure a heterogeneous frequency cell in the vicinity of the measurement period and reporting information on a heterogeneous frequency cell having the best signal quality among the neighboring heterogeneous frequency cells from the terminal; Requesting the mobile station to initiate an automatic neighbor relation (ANR) for heterogeneous frequency cells reported from the terminal and reporting additional information about the reported heterogeneous frequency cells; And constructing a new neighboring cell list based on the additional information.

According to an embodiment of the present invention, when the heterogeneous frequency cell reported as having the best signal quality from the terminal is a cell included in the preset neighbor cell list, the method does not request the heterogeneous frequency automatic neighbor relationship setting (ANR) The step of maintaining the neighboring cell list as it is may be further added.

According to another embodiment, it is preferable that the step of reporting the additional information from the step of receiving the measurement result is performed during a predetermined user idle period from the point of time when the call connection is released.

According to another embodiment, the determining may be performed only for at least one terminal that determines whether a predetermined time interval has elapsed, and disconnects the call after the time interval has elapsed. Alternatively, the determining may be performed for at least one terminal where a call connection is released when the number of heterogeneous frequency cells included in the neighboring cell list is less than a predetermined number.

According to another aspect of the present invention, there is provided a heterogeneous frequency-to-frequency handover method for an ELTI femtocell base station serving as a serving cell, comprising: constructing and managing a neighbor cell list according to the neighbor cell list configuration method; And initiating a handover to a heterogeneous frequency cell included in the neighboring cell list when handover to a heterogeneous frequency cell is required for a terminal in service.

According to the present invention, the LTE femtocell sets a separate measurement interval from a time point when the VoLTE call connection service is terminated to a time point at which a predetermined user inactivity timer is terminated, It is possible to perform the measurement on the heterogeneous frequency cells with respect to all (or a part of) terminals, so that the latest information on the heterogeneous frequency cells can be managed in the neighboring cell list at a normal time.

Accordingly, heterogeneous inter-frequency handover can be performed without a separate heterogeneous frequency cell measurement when heterogeneous frequency handover is required.

Since the measurement of the heterogeneous frequency cell of the present invention is started when the VoLTE service is terminated, there is a high possibility that the signal quality of the femtocell serving as the serving cell is in a good state and the VoLTE call is released. The success rate of the heterogeneous frequency cell signal measurement is also very high and the measurement time is relatively short.

In addition, the measurement of the present invention can be performed selectively for one or a plurality of terminals at predetermined time intervals, instead of for all terminals corresponding to the measurement period, thereby reducing resource usage of the terminal.

According to the present invention, it is possible to solve the problem that the heterogeneous frequency cell list can not be constructed because the heterogeneous frequency automatic neighbor relation setting (Inter Frequency ANR) function can not be started according to the environment in which the femtocell is installed.

Also, the manager does not have to measure all the signals of the adjacent cells to add to the list of neighboring cells by searching for the area where all the LTE femtocells are installed, and the configuration of the neighboring cell list by the NMM function measures all the neighboring cells of the femtocell Overcome the limitations.

FIG. 1 is a conceptual diagram showing an ELT femtocell placed in a macro cell area,
2 is a diagram illustrating a method of configuring an ELF femtocell Inter Frequency Cell list using the ANR function,
3 is a block diagram of a femtocell base station of the present invention, and
4 is a flow chart provided in the description of a heterogeneous frequency cell measurement method of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will be described in more detail with reference to the drawings.

Referring to FIG. 3, the femtocell base station 200 of the present invention operates a femtocell C2 and is connected to a femtocell controller (FNC) and a core network via the Internet. Hereinafter, a femtocell not only indicates a femtocell itself, but may also represent a femtocell base station (BEM), which is a management entity of the femtocell, and a macro cell may be a macro cell itself as well as a macro cell base station . Hereinafter, it is assumed that the femtocell C2 operated by the femtocell base station 200 is located within the same macrocell coverage as the femtocell C1 presented above.

The femtocell base station 200 of the present invention further includes a neighbor list management unit 210 in addition to the conventional femtocell base station 100. The neighbor list management unit 210 performs a heterogeneous frequency handover And measures and collects information about neighboring frequency cells in advance to manage a list of neighboring frequency cells.

Specifically, the femtocell base station 200 of the present invention sets a separate measurement period for measuring the peripheral heterogeneous frequency cells using the inter-frequency automatic neighbor relation setting (Inter Frequency ANR). Here, the measurement period is a period during which a User Inactivity Timer is terminated from the time when a VoLTE (Voice of LTE, or HD Voice) call, which is a service for providing voice or video call through a data packet, is released in the LTE network. Is set as a section from the start point to the start point. Normally, the user idle period of the LTE femtocell is 10 seconds after the release of the VoLTE call.

4 is a flow chart provided in the description of a heterogeneous frequency cell measurement method of the present invention. The femtocell C1 of the present invention basically has a feature of constructing a list of neighboring cells in advance by applying the method of FIG. 4 described below while performing a procedure according to the method of FIG. Hereinafter, the operation of the femtocell base station 200 is explained for convenience of description, but it may be understood as a control operation of the neighbor list management unit 210 unless otherwise specified.

The femtocell base station 200 determines whether the call connection is released while continuing the VoLTE call service to the terminal 10 receiving the service in its own femtocell C2 (S401 to S405), and the VoLTE call connection is released It determines that the measurement period for measuring the heterogeneous frequency cell is started and requests the terminal 10 to start measurement of the heterogeneous frequency cell in the vicinity (S407).

In response to the request of step S407, the terminal 10 measures heterogeneous frequency cells in the vicinity and reports information on the latest heterogeneous frequency cell having the best signal quality (signal strength) to the femtocell base station 200 (S409).

The femtocell base station 200 determines whether or not the latest heterogeneous frequency cell reported from the terminal 10 is included in the neighboring cell list held by the femtocell base station 200, The frequency cell measurement procedure is terminated and the current neighboring cell list is maintained. Naturally, the terminal 10 enters a standby state (S411).

As a result of the determination in step S411, if the reported latest heterogeneous frequency cell is not included in the neighboring cell list, the femtocell base station 200 informs the terminal 10 of the heterogeneous frequency automatic neighbor relationship (ANR) to measure and report additional information of the latest heterogeneous frequency cell (S413).

The femtocell base station 200 receives the result of measuring the additional information of the latest heterogeneous frequency cell from the terminal 10 (S415), terminates the surrounding heterogeneous frequency cell measurement procedure by newly constructing the neighboring cell list, (S417) to enter the waiting state again.

As described above, the interval from S407 to S417 in FIG. 3 must be performed within the measurement interval that is set by the present invention, that is, before the user inactivity timer is terminated.

According to the method described above, the femtocell base station 200 of the present invention can allow the terminal 10 to measure information about neighboring frequency cells in advance and maintain the latest neighboring cell list. Accordingly, the femtocell base station 200 requiring the heterogeneous frequency handover for a specific terminal can perform the handover to the heterogeneous frequency cell immediately by referring to the neighbor cell list without performing the procedure of FIG.

If a signal of a heterogeneous frequency cell is measured by performing an Inter Frequency ANR during a VoLTE call rather than a specific interval set by the present invention, the call quality may be significantly degraded. In addition, since the femtocell base station 200, which is a serving cell, generally has a very good signal quality and a VoLTE call is released at a specific interval set by the present invention, the probability that a user will use a large amount of data is small, The success rate of the heterogeneous frequency cell signal measurement is also very high and the measurement time is relatively short.

The above-described method of FIG. 4 is based on that all terminals 10 receiving the service from the femtocell C2 and corresponding to the measurement period of the present invention (i.e., terminating the VoLTE call) are performed.

However, according to the embodiment, the femtocell base station 200 may include a separate timer to check whether the femtocell base station 200 is within a predetermined time interval, instead of repeating the procedure of FIG. 4 for all terminals that terminate the VoLTE service , The method of FIG. 4 may be applied to one or a plurality of terminals every time a corresponding time interval is reached. For example, the time interval may be set to 30 minutes, and the neighbor list management unit 210 may control to measure the peripheral heterogeneous frequency cells according to the method of FIG. 3 for two terminals terminating the VoLTE call every 30 minutes .

Alternatively, the femtocell C2 sets a reference value for the number of heterogeneous frequency cells included in the neighbor list, and if the number of heterogeneous frequency cells included in the neighbor list is less than (or less than) the reference value, It is possible to control the surrounding heterogeneous frequency cells to be measured according to the method of FIG. 4 for all terminals in service until the number of heterogeneous frequency cells included is equal to or greater than the reference value (or a specific number).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

Claims (6)

A heterogeneous frequency cell measurement method for constructing a list of neighboring heterogeneous frequency cells of an LT femtocell system,
Determining whether a call connection of a terminal in service of a Voice over LTE (VoLTE) call is released, determining that a measurement interval for measuring a heterogeneous frequency cell is started when the call connection is released;
Requesting the terminal for measurement of a heterogeneous frequency cell in the vicinity of the measurement period and reporting information on a heterogeneous frequency cell having the best signal quality among the heterogeneous frequency cells in the vicinity from the terminal as a measurement result;
Requesting the mobile station to initiate an automatic neighbor relation (ANR) for heterogeneous frequency cells reported from the terminal and reporting additional information about the reported heterogeneous frequency cells; And
And constructing a new neighboring cell list based on the additional information,
Wherein the step of reporting the additional information from the step of receiving the measurement result is performed during a predetermined user idle period from the point of time when the call connection is released.
The method according to claim 1,
If the heterogeneous frequency cell reported as having the best signal quality from the terminal is a cell included in the predetermined neighboring cell list, maintaining the neighboring cell list without requesting the heterogeneous frequency automatic neighbor relationship setting (ANR) Wherein the femtocell system is further configured to add the neighbor cell list to the neighbor list.
delete 3. The method according to claim 1 or 2,
Wherein the determining is performed for at least one terminal that determines whether a predetermined time interval has elapsed and releases a call connection after the time interval elapses. How to organize your lists.
3. The method according to claim 1 or 2,
Wherein the determining is performed for at least one terminal whose call connection is released when the number of heterogeneous frequency cells included in the neighboring cell list is less than a predetermined number. How to build a cell list.
In a heterogeneous inter-frequency handover method of an LT femtocell base station serving as a serving cell,
Constructing and managing a neighboring cell list according to claim 1 or 2; And
And initiating a handover to a heterogeneous frequency cell included in the neighbor cell list when handover to a heterogeneous frequency cell is required for a serving terminal.

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