KR101255466B1 - Method and system for supporting mobility based on beam considering load distribution - Google Patents

Abstract

PURPOSE: A beam based mobility supporting method which considers load distribution and a system thereof are provided to form an accurate beam through the system, thereby adaptively supplying an access link by considering mobility of a user. CONSTITUTION: A mobility determination unit(310) determines mobility support for a mobile terminal based on location information of the mobile terminal. When the mobility support for the mobile terminal is necessary, a beam control unit(320) controls the beam output for the mobile terminal corresponding to the location information of the mobile terminal. A cooperation transmission unit(330) performs cooperation transmission with a base station which is adjacent to the mobile terminal, corresponding to control of the beam output. When the cooperation transmission with the base station is completed, a handover performance unit(340) performs handover to the base station. [Reference numerals] (310) Mobility determination unit; (320) Beam control unit; (330) Cooperation transmission unit; (340) Handover performance unit; (350) Load determination unit;

Description

Beam-based mobility support method and system considering load balancing {METHOD AND SYSTEM FOR SUPPORTING MOBILITY BASED ON BEAM CONSIDERING LOAD DISTRIBUTION}

Embodiments of the present invention relate to a method for effectively supporting user mobility and network load balancing through a beam-based mobile communication system.

Mobile traffic demands are increasing due to the development of new mobile communication services such as social network service (SNS) and mobile internet and new mobile communication terminals such as smartphones and tablets, while the frequency resources that can be provided for mobile communication services are limited. . Due to limited resource and traffic demands, service quality is deteriorated. In particular, mobile users frequently experience poor phone quality when moving between base stations. In addition, in the hot spot area where users are concentrated, such as near the Gangnam station, network load management is poor and user service quality is deteriorated.

In order to provide a high quality mobile communication service, a sudden deterioration in performance should not occur while a user moves. In particular, it should be ensured that users moving between cells (users entering one cell area beyond another cell area) do not experience poor call quality. In addition, when a large number of users are suddenly concentrated due to group movement of users, the quality of service experienced by each user is degraded due to limited resources regardless of the channel situation between the user and the base station.

Korean Patent Publication No. 10-2008-0050280 (published June 05, 2008) discloses a technology for supporting seamless mobility service between cells by performing an optimized handover.

In the conventional mobile communication system technology, a user-received signal is measured to perform inter-cell handover to provide user mobility. Nevertheless, as shown in FIG. 1, a user 101 moving between two cells experiences a temporary service interruption while handover between two cells is in progress at the cell boundary region. In addition, while located in an area where a handover is performed (cell boundary area), the user 101 experiences a deterioration in quality of service due to intercell interference.

In addition, the existing mobile communication system uses a cell breathing method to reduce / expand the cell area 201 by adjusting the base station transmission power as shown in FIG. 2 for load balancing between two cells. In other words, when the number of users to be covered by the base station increases, cell coverage 201 is extended through transmission power adjustment for load balancing. In such a cell breeding scheme, an interference amount increases due to an increase in transmission power of a base station, and thus, a system capacity decreases at a boundary region with a neighboring cell, resulting in a decrease in service performance.

In this specification, a method for effectively performing user mobility support and network load balancing through a beam-based mobile communication system is proposed.

A mobility support method and system for adaptively providing an access link in consideration of a user's mobility by forming a fine beam through a beam-based mobile communication system are provided.

The present invention provides a mobility support method and a system capable of preventing the system capacity of the network from being degraded through the support of mobility and load balancing between cells.

A base station providing mobility support of a mobile terminal in a communication network for a mobile communication service includes a mobility determination unit that determines whether the mobile terminal supports mobility based on location information of the mobile terminal; A beam adjuster configured to adjust beam output to the mobile terminal according to location information of the mobile terminal when mobility support of the mobile terminal is required; A cooperative transmitter configured to perform cooperative transmission with a mobile station and an adjacent base station as the beam output is adjusted; And a handover performing unit for performing handover to the neighbor base station when the cooperative transmission with the neighbor base station is terminated.

According to one aspect, the beam adjuster may extend the transmission output allocated to the beam for the mobile terminal as the position of the mobile terminal is farther away.

According to another aspect, the method may further include a load determination unit that determines whether to support load balancing for the neighboring base station by using load information of the neighboring base station. In this case, when the load balancing support for the neighboring base station is required, the beam adjuster may extend the beam output to at least one mobile terminal located in the cell coverage of the neighboring base station.

According to another aspect, the load determination unit may determine that the load balancing support is necessary if the load information of the neighboring base station exceeds a threshold that is a criterion for determining the deterioration of the quality of the mobile communication service.

A base station providing mobility support of a mobile terminal in a communication network for a mobile communication service includes a load determination unit determining whether to support load balancing for a neighboring base station by using load information of a neighboring base station adjacent to the mobile terminal; And a beam adjuster that extends beam output to the mobile terminal to delay handover to the neighbor base station when load balancing support for the neighbor base station is required.

According to one aspect, the cooperative transmission unit for performing cooperative transmission with the neighboring base station when the load balancing support for the neighboring base station is not required; And a handover performer configured to perform handover to the neighboring base station when the cooperative transmission with the neighboring base station is terminated. In this case, the beam adjuster may extend the beam output to the mobile terminal for cooperative transmission with the neighbor base station.

A communication system for providing mobility support of a mobile terminal in a communication network for a mobile communication service includes: a mobile terminal requesting handover for mobility support when moving between cells; And when the mobility support of the mobile terminal is necessary based on the location information of the mobile terminal, after performing cooperative transmission with the neighboring base station by adjusting the beam output to the mobile terminal, the neighboring base station according to the handover request of the mobile terminal. It may include a base station for performing a handover to.

A mobility support method of providing mobility support of a mobile terminal in a communication system providing a mobile communication service includes determining whether the mobile terminal supports mobility based on location information of the mobile terminal; Adjusting the beam output to the mobile terminal according to the location information of the mobile terminal when mobility support of the mobile terminal is required; Performing cooperative transmission with a mobile station and an adjacent base station as the beam output is adjusted; And when the cooperative transmission with the neighbor base station ends, performing a handover to the neighbor base station.

A mobility support method for providing mobility support of a mobile terminal in a communication system providing a mobile communication service includes determining whether to support load balancing for a neighboring base station by using load information of a neighboring base station adjacent to the mobile terminal; And extending beam output for the mobile terminal to delay handover to the neighbor base station when load balancing support for the neighbor base station is needed.

By providing the access link adaptively through the beam extension in consideration of the mobility of the user, it is possible to maintain the quality of service at the cell boundary area through efficient mobility management.

When load is concentrated in a specific cell due to user group movement, the fine beam is extended in an adjacent cell to absorb traffic of some load-intensive users, thereby enabling effective load balancing for mobility support.

1 is a diagram illustrating a handover process through an existing mobile communication system.
2 is a diagram illustrating a cell breeding method for conventional load balancing.
3 is a block diagram illustrating an internal configuration of a mobility support system that performs mobility support and network load balancing through a beam-based mobile communication system according to an embodiment of the present invention.
FIG. 4 is a diagram for explaining a handover process using a beam based mobility support scheme according to an embodiment of the present invention.
FIG. 5 is a diagram for describing a load balancing process using a beam based mobility support scheme according to an embodiment of the present invention.
6 is a flowchart illustrating a mobility support method for performing mobility support and network load balancing through a beam-based mobile communication system.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

This embodiment provides a mobility support system and method that can efficiently perform handover and load balancing using a beam-based mobility support scheme.

The mobility support system and method according to an embodiment of the present invention may be applied to a communication system that provides inter-cell mobility support of a mobile node in a communication network for a mobile communication service. In particular, the present embodiments can be applied to a beam-based mobile communication system that can send and receive signals through beamforming using a beamforming technology when providing a service to a mobile node.

In the present specification, the base station may mean a network and a network, or a network and a terminal, or a communication relay system connecting the terminal and the terminal, or an upper system controlling the communication relay system. Here, the term base station may mean any station having cell coverage, such as a base station (BS), an access point (AP), a radio access station (RAS), and the like, as well as an AP, a wibro access point. It can be used to encompass all types of wireless relay devices such as point) and repeaters. The node may be a terminal device of a service user subscribed to a base station, and may include a subscriber station (SS) such as a mobile terminal that receives data from the base station. In the following, the node is referred to as a mobile terminal.

3 is a block diagram illustrating an internal configuration of a mobility support system that performs mobility support and network load balancing through a beam-based mobile communication system according to an embodiment of the present invention.

As shown in FIG. 3, the mobility support system 300 according to an embodiment includes a mobility determiner 310, a beam adjuster 320, a cooperative transmitter 330, a handover performer 340, and a load. The determination unit 350 may be configured to be included.

The mobility determining unit 310 determines whether to support mobility for providing a high quality mobile communication service based on the location information of the mobile terminal. In this case, the mobility determining unit 310 may obtain location information of the mobile terminal located within the cell coverage of the serving base station and determine whether mobility support is required according to the location information of the mobile terminal. Here, the location information of the mobile terminal is distance information between the serving base station and the terminal, and may be information calculated based on signal strength or channel state from the serving base station, or may mean an actual longitude value. The mobility determining unit 310 may determine that mobility support is required when the mobile terminal is adjacent to a boundary area with an adjacent cell as the user moves. The cell boundary region, which is a criterion for determining whether to support mobility, may be determined in consideration of the amount of interference between cells.

When it is determined that mobility support for the mobile terminal is required, the beam adjuster 320 adjusts beam output to the mobile terminal according to the location information of the mobile terminal. The beam adjuster 320 may adjust the transmission output allocated to the beam such that the beam formed for the mobile terminal is extended as the distance from the serving base station increases based on the location of the mobile terminal. This is to allow the existing serving base station to provide the service to the user until the user completely moves to the geographically neighboring cell in order to prevent the degradation of the quality of the mobile communication service during the inter-cell movement. That is, the beam adjuster 320 performs beam expansion for accommodating the terminal even if the mobile terminal moves to an adjacent cell to some extent. As shown in (a) of FIG. 4, when the user 401 of the mobile terminal approaches the cell boundary region of the neighbor cell, the serving base station 410 beams until the handover to the neighbor base station 420 occurs. Support continued service through expansion.

The cooperative transmitter 330 performs cooperative transmission with a base station of a neighboring cell adjacent to the mobile terminal through beam extension. The base stations periodically broadcast a predetermined message for handover to mobile terminals within cell coverage. At this time, the mobile terminal discovers a new base station through a message and is handed over to a new base station (hereinafter, referred to as a 'neighbor base station'). Accordingly, as shown in (b) of FIG. 4, as the neighboring base station 420 receives the user 401 who has entered the cell coverage by itself, the existing serving base station 410 for the mobile terminal of the user 401. ) And cooperative communication between the neighbor base station 420 may be supported. That is, the existing serving base station 410 adjusts the output allocated to the beam as the user 401 geographically moves away to perform cooperative transmission with the base station 420 of the neighbor cell at the time of handover and to improve the quality of service. It keeps going.

The handover performer 340 performs handover to the neighbor base station when cooperative transmission with the neighbor base station ends. In the case of the serving base station, since the user completely moves to the neighbor cell and service support for the mobile terminal of the user is no longer possible, handover to the neighbor base station may be performed when the cooperative transmission with the neighbor base station is stopped. Basically, the mobile terminal performs handover initialization through a process of exchanging handover signal messages (eg, MOB_MSHO-REQ and MOB_MSHO-RSP) between the mobile terminal and the serving base station. At this time, when the serving base station sends a handover signal message to the mobile terminal, handover initialization is performed.

Therefore, after the user of the mobile terminal is provided with the service through the cooperative transmission of the serving base station and the neighboring base station near the cell boundary and completely moves to the area where there is no inter-cell interference, as shown in (c) of FIG. Since the service is provided only by the base station 420 of the neighbor cell through the handover to the cell, even when the user 401 passes through the cell boundary area, the user 401 does not experience the deterioration of the quality of service according to the stable handover.

Furthermore, the mobility support system 300 according to an embodiment supports the absorption of traffic of some users located in the load-concentrated cell by neighboring cells when the load is concentrated in a specific cell due to the movement of the user group in the mobility support process. Inter-cell load balancing can be performed.

To this end, the load determination unit 350 determines whether to support the load balancing for the neighboring base station by using the load information of the neighboring base station. The load determination unit 350 may determine the amount of traffic in the cell according to the load information of the neighboring base station, and may determine that support for load balancing is necessary when the load information of the neighboring base station exceeds a preset threshold. . In this case, the threshold may refer to a reference value for determining the deterioration of the quality of the mobile communication service.

Accordingly, when it is determined that load balancing support is required by the load determination unit 350, the beam adjuster 320 extends beam output to at least one mobile terminal located in cell coverage of the neighboring base station for load balancing of the neighboring cell. can do. In other words, the beam adjuster 320 expands beamforming by adjusting a transmission output to accommodate a mobile terminal located in a cell economic region when traffic of an adjacent cell affects the quality of service. Referring to FIG. 5, when the user 501 moves from the cell of the serving base station 510 to the neighbor cell, the situation is closer to the base station 520 of the neighbor cell, but the load is concentrated on the neighbor base station 520. Through load balancing based on beam extension, the service is continuously provided by the existing serving base station 510. Since the amount of interference between neighboring cells occurs only in a very narrow region, there is little advantage in reducing overall system capacity when applying load balancing method between neighboring cells for mobility support.

6 is a flowchart illustrating a mobility support method for performing mobility support and network load balancing through a beam-based mobile communication system. In the mobility support method according to an exemplary embodiment, each step may be performed by the moving line support system 300 described with reference to FIG. 3.

In operation 610, the mobile line support system 300 may obtain location information of mobile terminals in a cell by receiving location information from a mobile terminal located in cell coverage of the serving base station. In this case, the location information of the mobile terminal is distance information between the serving base station and the terminal, and may be information calculated based on signal strength or channel state from the serving base station or may mean an actual longitude value.

In operation 620, the mobile line support system 300 may determine whether to support mobility for providing a high quality mobile communication service based on the location information of the mobile terminal. The mobile line support system 300 may determine that mobility support is necessary when the mobile terminal is adjacent to a boundary area with an adjacent cell as the user moves.

In operation 630, the mobile line support system 300 determines that mobility support for the mobile terminal is not necessary when the mobile terminal is in a stable zone having little inter-cell interference, and performs beam adjustment according to the position of the user's stable zone.

If it is determined in step 640 that the mobility support system 300 needs mobility support, the mobile line support system 300 adjusts the transmission power according to the location information of the mobile terminal for beam extension. The mobile line support system 300 adjusts a transmission output allocated to the beam so that the beam formed for the mobile terminal is extended as the distance from the serving base station increases, and accommodating the terminal even if the mobile terminal moves to an adjacent cell to some extent. To extend the beam formation.

In operation 650, the mobile line support system 300 may obtain load information of the neighboring base station by receiving load information indicating the amount of traffic in the cell from the base station of the neighboring cell.

In operation 660, the mobile line support system 300 may determine whether to support load balancing for the neighbor base station by using load information of the neighbor base station. In this case, the mobile line support system 300 may determine that the load balancing support is necessary when the load information of the neighboring base station exceeds a threshold that is a criterion for determining the deterioration of the quality of the mobile communication service.

If it is determined that load balancing support is required for the neighboring cell, the mobile line support system 300 may extend the beam output to at least one mobile terminal located in the cell coverage of the neighboring base station. In other words, a user who moves from a cell of a serving base station to a neighbor cell is geographically closer to the base station of the neighbor cell, but if the load is concentrated in the neighbor base station, the existing serving base station can continue to serve the service through load balancing based on beam extension. Receive and temporarily delay handover to an adjacent cell.

On the other hand, if it is determined that the load balancing support for the neighbor cell is not necessary, the mobile line support system 300 starts a process of performing handover to the neighbor cell.

In step 670, the mobile line support system 300 performs cooperative transmission between the serving base station and the neighboring base station through beam extension before performing the actual handover process. As the user moves from the neighboring base station to accommodate the user entering his cell, the existing serving base station may perform cooperative communication with the neighboring base station through beam extension for the user.

In step 680, the mobile line support system 300 performs handover to the neighbor base station when the cooperative transmission with the neighbor base station ends. In the case of the serving base station, if the user completely moves to the stable region of the neighbor cell, service support for the mobile terminal of the user is no longer possible, and thus, the mobile line support system 300 moves the hand to the neighbor cell when the cooperative transmission with the neighbor base station is stopped. Over can be performed stably.

The mobility support management method and the load balancing management method described above may include shorter operations or additional operations. In addition, more than one operation may be combined, and the order of operations may be changed.

As described above, according to the embodiments of the present invention, performance reduction in a cell boundary region due to intercell interference can be minimized by forming a fine beam for the intercell mobile user to provide mobility support. In addition, in providing inter-cell mobility support, a more active inter-cell load balancing management is supported by using a beam extension method, thereby easily solving a load concentration problem caused by user group movement.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above embodiments, and those skilled in the art to which the present invention pertains various modifications and variations from such descriptions. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

300: mobility support system
310: mobility determination unit
320: beam control unit
330: cooperative transmission unit
340: handover performer
350: load determination unit

Claims (14)

A base station providing mobility support of a mobile terminal in a communication network for a mobile communication service,
A mobility determination unit determining whether the mobile terminal supports mobility based on the location information of the mobile terminal;
A beam adjuster for adjusting a beam output to the mobile terminal according to location information of the mobile terminal when mobility support of the mobile terminal is required;
A cooperative transmitter configured to perform cooperative transmission with the neighboring base station adjacent to the mobile terminal as the beam output is adjusted; And
Handover execution unit for performing a handover to the neighboring base station when the cooperative transmission with the neighboring base station is terminated
/ RTI > The method of claim 1,
The beam control unit,
Extending the transmission output allocated to the beam for the mobile terminal as the mobile terminal is further away from the position
Base station characterized in that. The method of claim 1,
A load determination unit that determines whether to support the load balancing for the neighboring base station by using the load information of the neighboring base station
Further comprising:
The beam control unit,
Extending the beam output to at least one mobile terminal located in cell coverage of the neighboring base station when load balancing support for the neighboring base station is required
Base station characterized in that. The method of claim 3,
The load determination unit,
Determining that the load balancing support is necessary when the load information of the neighboring base station exceeds a threshold that is a criterion for determining the deterioration of the quality of the mobile communication service.
Base station characterized in that. A base station providing mobility support of a mobile terminal in a communication network for a mobile communication service,
A load determination unit that determines whether to support load balancing for the neighboring base station by using load information of the neighboring base station adjacent to the mobile terminal; And
A beam adjuster configured to extend a beam output to the mobile station to delay handover to the neighbor base station when load balancing support for the neighbor base station is required
/ RTI > The method of claim 5,
A cooperative transmission unit performing cooperative transmission with the neighbor base station when the load balancing support for the neighbor base station is not required; And
Handover execution unit for performing a handover to the neighboring base station when the cooperative transmission with the neighboring base station is terminated
Further comprising:
The beam control unit,
Extending the beam output for the mobile terminal for cooperative transmission with the neighbor base station
Base station characterized in that. A communication system for providing mobility support of a mobile terminal in a communication network for a mobile communication service,
A mobile terminal for requesting handover for mobility support when moving between cells; And
When the mobility support of the mobile terminal is required based on the location information of the mobile terminal, the mobile terminal requests coordination with the neighboring base station adjacent to the mobile terminal by adjusting a beam output to the mobile terminal and then requests a handover of the mobile terminal. A base station performing handover to the neighbor base station according to
Communication system comprising a. The method of claim 7, wherein
The base station comprises:
After determining whether to support the load balancing for the neighboring base station by using the load information of the neighboring base station, if the load balancing support is necessary, the beam output is extended to at least one mobile terminal located in the cell coverage of the neighboring base station To do
Communication system characterized in that. In a mobility support method for providing mobility support of a mobile terminal in a communication system for providing a mobile communication service,
Determining whether the mobile terminal supports mobility based on the location information of the mobile terminal;
Adjusting the beam output to the mobile terminal according to the location information of the mobile terminal when mobility support of the mobile terminal is required;
Performing cooperative transmission with the neighboring base station adjacent to the mobile terminal as the beam output is adjusted; And
Performing handover to the neighbor base station when the cooperative transmission with the neighbor base station is terminated;
Mobility support method comprising a. 10. The method of claim 9,
Adjusting the beam output to the mobile terminal,
Extending the transmission output allocated to the beam for the mobile terminal as the mobile terminal is further away from the position
Mobility support method characterized in that. 10. The method of claim 9,
The mobility support method,
Determining whether to support load balancing for the neighboring base station by using the load information of the neighboring base station;
Further comprising:
Adjusting the beam output to the mobile terminal,
Extending the beam output to at least one mobile terminal located in cell coverage of the neighboring base station when load balancing support for the neighboring base station is required
Mobility support method characterized in that. The method of claim 11,
Determining whether or not the load balancing support for the neighboring base station,
Determining that the load balancing support is necessary when the load information of the neighboring base station exceeds a threshold that is a criterion for determining the deterioration of the quality of the mobile communication service.
Mobility support method characterized in that. In a mobility support method for providing mobility support of a mobile terminal in a communication system for providing a mobile communication service,
Determining whether to support load balancing for the neighboring base station by using load information of the neighboring base station adjacent to the mobile terminal; And
Extending the beam output for the mobile terminal to delay handover to the neighbor base station when load balancing support is needed for the neighbor base station;
Mobility support method comprising a. The method of claim 13,
The mobility support method,
Performing cooperative transmission with the neighbor base station when the load balancing support for the neighbor base station is not necessary; And
Performing handover to the neighbor base station when the cooperative transmission with the neighbor base station is terminated;
Further comprising:
The beam output for the mobile terminal is extended for cooperative transmission with the neighbor base station.
Mobility support method characterized in that.

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