KR20130041655A - System and method for control of load balancing in heterogeneous network - Google Patents

Abstract

PURPOSE: A load control system between heterogeneous networks and a method thereof are provided to share load information between the heterogeneous networks. CONSTITUTION: When the strength of a signal received by a heterogeneous network signal reception unit is bigger than a second threshold value, a load information reception unit(230) requests memory pointer information on a second base station from a first virtualization system. The first virtualization system connects to a base station of a first network. A handover determination unit(240) receives the load information on the base station in the second network from the first virtualization system based on the memory pointing information of the base station in the load information reception unit. The handover determination unit determines the handover of a terminal based on the received load information on the second network. [Reference numerals] (210) Traffic calculation unit; (220) Heterogeneous network signal reception unit; (230) Load information reception unit; (240) Handover determination unit; (250) Handover indication unit; (AA) Traffic; (BB) Heterogeneous network signal; (CC) Information request message; (DD) Memory pointer; (EE) Load information; (FF) Handover indication message;

Description

System and method for control of load balancing in heterogeneous network

The present invention relates to a system and method for load balancing between heterogeneous networks.

In general, when controlling load balancing in a network, a method of controlling load balancing between foreign agents (FA) has been studied. This is to control the load balancing according to the system capacity, taking into account the number of terminals connected to the base station. As described above, when load balancing is controlled by considering only the number of terminals, there is a problem in that the load on each terminal cannot be reflected.

In addition, a method of using a RAN Information Management (RIM) procedure for sharing load information between heterogeneous networks has been studied. In this case, a large resource allocation is required to use the RIM procedure, which causes an additional load on the network.

Accordingly, the present invention provides a heterogeneous network load balancing control system and method for sharing heterogeneous network load information.

In order to achieve the technical problem of the present invention, a method of controlling a load on the terminal by a base station of a first network to which a terminal is connected, which is one feature of the present invention,

The base station of the first network interworks with a virtualization system, and the virtualization system interworks with a base station of a second network different from the first network, calculates traffic for the terminal, and the calculated traffic is preset. Determining whether the value is less than the first threshold value; If the calculated traffic is less than the first threshold, requesting the memory pointer information storing the load information for the base station of the second network to the virtualization system; Receiving memory pointer information on the base station of the second network from the virtualization system and receiving load information on the base station of the second network from the virtualization system based on the received memory pointer information; And instructing handover of the terminal to the base station of the second network based on the received load information of the base station of the second network.

The requesting the memory pointer information may include: receiving a signal broadcast from a base station of the second network; And requesting memory pointer information for the base station of the second network from the virtualization system, including base station information for the base station of the second network, when the strength of the received signal is greater than a preset second threshold. It may include.

The virtualization system stores and manages load information of the base station of the first network and load information of the base station of the second network, and load information of the base station of the first network and the load information of the base station of the second network are different from each other. Can be stored and managed at the storage address.

The instructing handover to the base station of the second network may include: checking whether load information of the base station of the second network is greater than a preset third threshold value; And if the load information of the base station of the second network is greater than the third threshold value, instructing the terminal to handover to the base station of the second network.

Load balancing control method for providing a plurality of load information for a plurality of base stations by a virtualization system which is another feature of the present invention for achieving the technical problem of the present invention,

The plurality of base stations includes a base station of a first network to which a terminal is connected and a base station of a second network different from the first network, and the base station of the first network interworks with a first virtualization system and A base station interworks with a second virtualization system, the first virtualization system and the second virtualization system interoperate with one load information system, and the first virtualization system is a base station of the second network from the base station of the first network. Receiving a request for memory pointer information for; The first virtualization system requests memory pointer information for a base station of the second network from the second virtualization system, and obtains memory pointer information for a base station of the second network from the second virtualization system. Transmitting to; And a base station of the second network stored in the load information system based on the memory pointer information when the first virtualization system is requested to provide load information for the base station of the second network from the base station of the first network. Acquiring the load information for and transmitting the load information to the base station of the first network.

Load balancing control system which is another feature of the present invention for achieving the technical problem of the present invention,

A traffic calculator configured to calculate traffic for a terminal connected to a first network, and determine whether the calculated traffic is smaller than a preset first threshold value; A heterogeneous network signal receiving unit receiving a signal broadcast from a second network different from the first network and confirming signal reception strength when the traffic calculated by the traffic calculating unit is smaller than the first threshold value; If the signal reception strength of the heterogeneous network signal receiver is greater than a preset second threshold value, requesting memory pointer information for the base station of the second network to the first virtualization system to which the base station of the first network interworks Load information receiving unit; And load information of the second network from the first virtualization system based on memory pointer information of the base station of the second network received by the load information receiving unit, and load information of the received base station of the second network. It includes a handover determination unit for determining a handover of the terminal based on.

The load balancing control system may include a handover indicating unit for instructing the terminal to handover to a base station of a second network determined by the handover determining unit.

The load balancing control system for controlling the handover of the terminal in a system environment in which the first network and the second network different from the first network is another feature of the present invention for achieving the technical problem of the present invention,

The base station of the first network includes a first control system and the base station of the second network includes a second control system, interlocked with the first control system and the second control system, and the first control system and the first control system. 2 when receiving the memory pointer information for the base station of the first network and the base station of the second network from the control system to provide any one of the memory pointer information for the base station of the first network or the base station of the second network; Virtualization system; And a load information system that stores and manages load information of the base station of the first network and the second network base station and provides load information according to a request of the virtualization system.

The virtualization system may include a memory pointer receiver configured to receive a memory pointer for a base station of the second network from the first control system; A load information receiver configured to check and receive load information on the base station of the second network stored in the load information system based on the memory pointer of the base station of the second network received by the memory pointer receiver; And a load information transmission unit configured to transmit load information on the base station of the second network, received and checked by the load information receiver, to the first control system.

When the virtualization system receives the information request message for the base station of the second network from the first control system, the memory for the base station of the second network to the second control system connected to the first control system. It may include an information transmitting and receiving unit for requesting to provide a pointer, and transmitting a memory pointer for the base station of the second network to the first control system.

The load information system may include a load information storage unit configured to collect and store load information of the first network and the second network from the first network and the second network according to a preset time; And a load information transmission unit at the request of the virtualization system.

According to the present invention, not only can control load balancing between heterogeneous networks, but can also provide load balancing instructions by sharing load balancing information between heterogeneous networks.

In addition, by reducing the amount of resources allocated for the load information sharing, it is possible to share the load information with only a small amount of resources when real-time information sharing.

1 is an exemplary diagram of a system environment for controlling load balancing according to an embodiment of the present invention.
2 is a structural diagram of a control system according to an embodiment of the present invention.
3 is a structural diagram of a virtualization system according to an embodiment of the present invention.
4 is a structural diagram of a load information system according to an embodiment of the present invention.
5 is an exemplary diagram for sharing load balancing information between heterogeneous networks according to an embodiment of the present invention.
6 is a flowchart illustrating a load balancing control method according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement 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 the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

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

In this specification, a base station (BS) is an access point (AP), a radio access station (RAS), a node B, a base transceiver station (BTS) Mobile Multihop Relay) -BS, and may include all or some of the functions of an access point, a radio access station, a Node B, a base transceiver station, and an MMR-BS.

Hereinafter, a load balancing control system and method between heterogeneous networks according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exemplary diagram of a system environment for controlling load balancing according to an embodiment of the present invention.

As shown in FIG. 1, a distributed system for distributing a load of a network includes a load balancing control system 200 (hereinafter, referred to as a “control system”) that provides data to the terminal 100 in each network area. Included is a base station 20 and a virtualization system 300 for sharing and providing load balancing information in conjunction with the base station 20.

In addition, the plurality of virtualization systems 300 may store and manage load information of the base stations 30 in one place by using the same load information system 400. In this case, the load information system may be implemented in a form included in the virtualization system so that the virtualization system 300 can share information, or may be implemented as a separate system outside the virtualization system. In the embodiment of the present invention will be described with an example implemented in a separate system.

The plurality of virtualization systems 300 are connected to each other by a protocol such as Ethernet, and may transmit and receive memory pointer information to each other through Ethernet. In the embodiment of the present invention, for convenience of description, the terminal 100 is handed over from the first network to the second network for load balancing.

The first network is described as a WCDMA network, and the second network is described as an LTE network, for example, but is not necessarily limited thereto. In addition, for convenience of description, the base station forming the first network is the first base station 20-1, and the virtualization system connected to the first base station is the first virtualization system 300-1 and the first base station 20-1. The base station adjacent to and forming the second network is referred to as a second base station 20-2 and a virtualization system connected to the second base station.

Next, a structure of the control system 200, the virtualization system 300, and the load information system 400 for load balancing control for controlling load balancing of the terminal 100 will be described with reference to FIGS. 2 to 4. do.

2 is a structural diagram of a control system according to an embodiment of the present invention, Figure 3 is a structural diagram of a virtualization system according to an embodiment of the present invention. 4 is a structural diagram of a load information system according to an embodiment of the present invention.

First, as shown in FIG. 2, the control system 200 includes a traffic calculator 210, a heterogeneous network signal receiver 220, a load information receiver 230, a handover determiner 240, and a handover instructor 250. It includes.

The traffic calculator 210 calculates traffic of each of the terminals located in the area of the first base station 20-1 or the entire first base station 20-1 at predetermined time intervals. The second base station 20-2 adjacent to the heterogeneous network signal receiver 220 when the average traffic per terminal is monitored through the calculated traffic information of each terminal and the average traffic monitored is calculated to be less than or equal to a preset threshold. Requests to measure the strength of the transmitted signal.

At the same time, the traffic calculator 210 requests the load information receiver 230 to receive load information. In this case, the load information receiver 230 may request to receive load information not only when the average traffic per terminal is lower than or equal to the threshold but also when the traffic of the first base station 20-1 is lower than or equal to the threshold.

When the heterogeneous network signal receiving unit 220 receives a request from the traffic calculating unit 210 to measure the received signal strength of the heterogeneous network signal, the second base station 20-adjacent to the first base station 20 to which the terminal 100 is connected. 2) receives a signal broadcast from the and measures the strength of the received signal. The strength of the received signal measured in this way is transmitted to the load information receiver 230.

When the load information receiver 230 is requested to receive load information from the traffic calculator 210, and when the strength of the received signal received from the heterogeneous network signal receiver 220 is greater than a preset threshold, the load information receiver 230 generates an information request message. Create At this time, the information request message is adjacent to the first base station 20-1 and the terminal 100 collects load information on the second base station 20-2 broadcasting the signal received at a strength greater than a threshold value. To request the required memory pointer information.

That is, the load information receiver 230 transmits an information request message to the first virtualization system 300-1 with which the first base station 20-1 is linked, and the second base station 20-2 connected with Ethernet. ) Requests from the second virtualization system 300-2 with which) to provide information of a memory pointer in which load information on the second base station 20-2 is stored. In this case, the information request message includes base station information (eg, base station identifier information or base station location information) of the first base station 20-1 and the second base station 20-2 that request information of the memory pointer. Include.

The load information receiver 230 receives the memory pointer information provided through the Ethernet from the second virtualization system 300-2 with which the second base station 20-2 is linked through the first virtualization system 300-1. Receive. In this case, the memory pointer information is position information including load information of the second base station 20-2, that is, the second base station 20-2 stored in the load information storage unit 410 of the load information system 400. Indicates the storage address of the load information.

However, if it is requested to receive the load information from the traffic calculation unit 210, but the strength of the received signal received from the heterogeneous network signal receiving unit 220 is smaller than the preset threshold, the terminal 100 without generating the information request message ) Continues to use the service from the first base station 20-1.

The handover determiner 240 uses the memory pointer information received by the load information receiver 230 to the second base station 20-2 to the load information system 400 through the first virtualization system 300-1. Request and receive load information about The load information is information indicating the current load degree of the second base station 20-2, that is, the heterogeneous network.

The handover determination unit 240 checks whether the load degree of the second base station 20-2 is greater than a preset threshold based on the received load information of the second base station 20-2. If the received load is greater than the threshold, it is determined that the second base station 20-2 instructs handover of the terminal. However, if the load degree is smaller than the threshold value, the terminal 100 to continue to use the service from the first base station 20-1.

The handover instructing unit 250 generates a handover instruction message including the second base station information determined by the handover determining unit 240. The terminal 100 transmits a handover instruction message instructing handover.

On the other hand, the structure of the virtualization system 300 in conjunction with the control system 200 with reference to Figure 3, the virtualization system 300, the information transmitting and receiving unit 310, memory pointer receiving unit 320, load information receiving unit 330 and the load information transmission unit 340.

The information transmitting and receiving unit 310 transmits the information request message transmitted from the control system 200 to the second virtualization system 300-2 with which the second base station 20-2 interworks. That is, when receiving an information request message requesting to provide information on the adjacent second base station 20-2 from the first base station 20-1, the second virtualization system 300 connected with a protocol such as Ethernet. -2) request to provide a memory pointer of the second base station 20-2.

When the information transmitting / receiving unit 310 receives the memory pointer information which is the location where the load information of the second base station 20-2 is stored from the second virtualization system 300-2, the information transmitting / receiving unit 310 controls the received memory pointer information. The load information receiver 230 transmits the load information to the load information receiver 230.

When the memory pointer receiver 320 receives the memory pointer information from the first base station 20-1, the memory pointer receiver 320 transmits the corresponding memory pointer information to the load information receiver 330.

When the load information receiver 330 receives the memory pointer information received from the first base station 20-1 from the memory pointer receiver 320, the load information receiver 330 is stored in the load information system 400 based on the memory pointer information. Check and receive the load information for the base station 20-2.

The load information transmitter 340 receives the load information on the second base station 20-2 received by the load information receiver 330 and transmits the load information to the control system 200 in the first base station 20-1. . This will be described later in detail through the method.

Meanwhile, referring to FIG. 4, a load information system 400 that not only provides load information to the virtualization system 300 interoperating with the control system 200 but also shares load information between heterogeneous networks, may be referred to as load information. The storage unit 410 and the load information transmitter 420 are included.

The load information storage unit 410 stores load information of all base stations 20-1 and 20-2 interoperating with the virtualization system 300. Here, the load information refers to the strength of the received signal that the terminals connected to the base stations 20-1 and 20-2 receive signals from the base station. The received signal strength is received and stored in a predetermined time period from the base stations. In this case, the load information storage unit 410 stores the memory pointer information in which the corresponding information is stored.

When the load information transmitter 420 receives the information request message transmitted from the load information receiver 230 of the control system 200 through the virtualization system 300, the memory corresponding to the base station information included in the information request message is received. The pointer information is transmitted to the virtualization system 300. In addition, the first virtualization system 300-1 may store memory pointer information requesting to provide load information for the second base station 20-2 from the control system 200 included in the first base station 20-1. When received through), the load information for the second base station 20-2 stored in the corresponding memory pointer information is provided.

At this time, the load information storage unit 410 stores the information in the form shown in FIG. 5 so that all base stations can share through the load information transmission unit 420. This will be described first with reference to FIG. 5.

5 is an exemplary diagram for sharing load balancing information between heterogeneous networks according to an embodiment of the present invention.

As shown in FIG. 5, the load information storage unit 410 of the load information system 400 stores all load information of heterogeneous networks in one memory. The load information for the first network is stored in a memory pointer, that is, a location corresponding to the storage address 0001, and the load information for the second network is stored in a location corresponding to the storage address 0100. These load information is information collected by the first virtualization system 300-1 and the second virtualization system 300-2 at predetermined time intervals through the respective base stations 20-1 and 20-2.

Each load information is stored in the memory pointer information through the virtualization servers 300-1 and 300-2 linked to the base stations 20-1 and 20-2 in which the corresponding load information is collected. -2), so that the load information of heterogeneous networks can be shared with one load information system 400.

Next, a method of controlling load balancing of a terminal through the above-described systems will be described with reference to FIG. 6. In this case, the control of the terminal 100 to be handed over from the first base station 20-1 to the second base station 20-2 for load balancing will be described as an example. For the convenience of description, the first virtualization system 300-1 and the second virtualization system 300-2, to which the first base station 20-1 and the second base station 20-2 interoperate, and The first control system 200-1 and the second control system 200-2 included in the first base station 20-1 and the second base station 20-2 will be omitted in the drawings.

6 is a flowchart illustrating a load balancing control method according to an embodiment of the present invention.

As shown in FIG. 6, the terminal 100 uses a communication service through the first base station 20-1 including the first control system 200-1 (S100). In this case, the traffic calculator 210 calculates traffic of each terminal based on traffic periodically transmitted from the terminal 100 or collects traffic for the entire first base station 20-1 to calculate the traffic. Then, the traffic calculator 210 calculates average traffic for each terminal or the first base station 20-1 (S110). Since there may be various methods for calculating the traffic degree, the embodiment of the present invention is not limited to any one method.

When the traffic calculating unit 210 calculates the average traffic, the load information receiving unit 230 determines whether the average traffic calculated in step S110 is smaller than the first threshold value set in advance (S120). If the average traffic of the entire first base station 20-1 or the average traffic of the terminal 100 is greater than the first threshold value, the terminal 100 continuously receives communication service from the first base station 20-1. .

However, when the average traffic is smaller than the first threshold, the heterogeneous network signal receiver 220 receives a signal broadcast from the second base station 20-2 adjacent to the first base station 20-1, and receives the received signal. It is determined whether a signal is larger than a preset second threshold value (S130, S140). If the signal received in step S130 is smaller than the second threshold value, the terminal 100 continuously receives a communication service from the first base station 20-1 as in step S100.

However, if the signal received in step S130 is greater than the second threshold value, the load information receiving unit 230 of the first control system 200-1 through the first virtualization system 300-1 (the second virtualization system ( The information request message is transmitted to the 300-2) to request information on the second base station 20-2 (S150). To this end, the information request message includes base station information for the first base station 20-1 and the second base station 20-2.

When the first virtualization system 300-1 receives memory pointer information, which is location information in which load information of the second base station 20-2 is stored, from the second virtualization system 300-2 (S160), handover is performed. The determination unit 240 requests to provide load information for the second base station 20-2 stored in the load information system 400 through the first virtualization system 300-1 based on the memory pointer information. (S170).

The load information system 400 searches for load information on the second base station 20-2 requested by the first virtualization system 300-1 based on the memory pointer information, and then loads the load information system 400 through the first virtualization system 300-1. The first base station 20-1 including the first control system 200-1 is transferred to operation S180. The handover determination unit 240 of the first control system 200-1 determines a third threshold value preset by the degree of load of the second base station 20-2 based on the load information received through step S180. It is determined whether or not it is larger (S190).

If the degree of load is greater than the third threshold, the terminal 100 receives the communication service continuously from the first base station 20-1. However, if the load degree of the second base station 20-2 is less than the third threshold value, the handover determiner 240 controls the terminal 100 connected to the first base station 20-1 to the second base station. The handover instruction to (20-2) is determined. Then, the handover indicating unit 250 instructs the terminal 100 to perform a handover to the second base station 20-2 (S200).

Using this method, not only load information between heterogeneous networks can be shared, but also memory load information is shared when load information is shared, thereby reducing the load for information sharing.

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 (12)

A method of controlling a load on a terminal by a base station of a first network to which a terminal is connected,
The base station of the first network interworks with a virtualization system, and the virtualization system interworks with a base station of a second network different from the first network.
Calculating traffic for the terminal and determining whether the calculated traffic is smaller than a preset first threshold;
If the calculated traffic is less than the first threshold, requesting the memory pointer information storing the load information for the base station of the second network to the virtualization system;
Receiving memory pointer information on the base station of the second network from the virtualization system and receiving load information on the base station of the second network from the virtualization system based on the received memory pointer information; And
Instructing handover of the terminal to a base station of the second network based on the received load information of the base station of the second network;
Load balancing control method comprising a. The method of claim 1,
The requesting the memory pointer information may include:
Receiving a signal broadcast from a base station of the second network; And
Requesting the memory pointer information for the base station of the second network to the virtualization system, including base station information for the base station of the second network, when the strength of the received signal is greater than a preset second threshold value;
Load balancing control method comprising a. The method of claim 2,
The virtualization system stores and manages load information of the base station of the first network and load information of the base station of the second network, and load information of the base station of the first network and the load information of the base station of the second network are different from each other. Load balancing control method stored and managed at storage address. The method of claim 1,
Instructing handover to the base station of the second network,
Checking whether load information of the base station of the second network is greater than a third threshold value preset; And
Instructing the terminal to handover to the base station of the second network if the load information of the base station of the second network is greater than the third threshold value.
Load balancing control method comprising a. A load balancing control method in which a virtualization system provides a plurality of load information for a plurality of base stations,
The plurality of base stations includes a base station of a first network to which a terminal is connected and a base station of a second network different from the first network, and the base station of the first network interworks with a first virtualization system and The base station interworks with a second virtualization system, and the first virtualization system and the second virtualization system interoperate with one load information system.
Receiving, by the first virtualization system, a request for memory pointer information for a base station of the second network from a base station of the first network;
The first virtualization system requests memory pointer information for a base station of the second network from the second virtualization system, and obtains memory pointer information for a base station of the second network from the second virtualization system. Transmitting to; And
When the first virtualization system is requested to provide load information for the base station of the second network from the base station of the first network, the base station of the second network stored in the load information system based on the memory pointer information. Acquiring load information of the load and transmitting the load information to the base station of the first network
Load balancing control method comprising a. The method of claim 5,
And the first virtualization system and the second virtualization system are connected by Ethernet. A traffic calculator configured to calculate traffic for a terminal connected to a first network, and determine whether the calculated traffic is smaller than a preset first threshold value;
A heterogeneous network signal receiving unit receiving a signal broadcast from a second network different from the first network and confirming signal reception strength when the traffic calculated by the traffic calculating unit is smaller than the first threshold value;
If the signal reception strength of the heterogeneous network signal receiver is greater than a preset second threshold value, requesting memory pointer information for the base station of the second network to the first virtualization system to which the base station of the first network interworks Load information receiving unit; And
The load information receiving unit receives load information of the second network from the first virtualization system based on memory pointer information of the base station of the second network, and based on the received load information of the base station of the second network. Handover decision unit for determining the handover of the terminal
Load balancing control system comprising a. The method of claim 7, wherein
A handover instructing unit for instructing the terminal to handover to a base station of a second network determined by the handover determining unit;
Load balancing control system comprising a. A load balancing control system for controlling handover of a terminal in a system environment in which a first network and a second network different from the first network are located,
The base station of the first network includes a first control system and the base station of the second network includes a second control system,
The first network is interworked with the first control system and the second control system, and when the memory pointer information for the base station of the first network and the base station of the second network is requested from the first control system and the second control system. The virtualization system providing any one of memory pointer information for a base station of the base station or the base station of the second network; And
A load information system that stores and manages load information of the base station of the first network and the second network base station and provides load information at the request of the virtualization system.
Load balancing control system comprising a. 10. The method of claim 9,
The virtualization system,
A memory pointer receiver configured to receive a memory pointer for a base station of the second network from the first control system;
A load information receiver configured to check and receive load information on the base station of the second network stored in the load information system based on the memory pointer of the base station of the second network received by the memory pointer receiver; And
A load information transmission unit for transmitting the load information for the base station of the second network received by the load information receiving unit to the first control system;
Load balancing control system comprising a. The method of claim 10,
Upon receiving the information request message for the base station of the second network from the first control system, requesting the second control system connected to the first control system to provide a memory pointer for the base station of the second network. And an information transceiver for transmitting a memory pointer for the base station of the second network to the first control system.
Load balancing control system comprising a. 10. The method of claim 9,
The load information system,
A load information storage unit for collecting and storing load information of the first network and the second network from the first network and the second network according to a preset time; And
Load information transmission unit at the request of the virtualization system
Load balancing control system comprising a.

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