KR20130141989A - System for mobile and server and method for network access for load balancing thereof - Google Patents

Abstract

If a server, which is coupled with a first base station and a second base station, receives resource block usage rate information from the first base station and the second base station, the server monitors network loads of the first base station and second base station based on the received resource block usage rate information. If a network load is generated at a certain network, the server updates a load indicator, checks if the updated load indicator is identical to the previous load indicator, and then generates network load information. And the server transmits the generated network load information to a base station of the network where the load is generated, and controls a terminal to connect to a network other than the network where the load is generated. [Reference numerals] (200) Virtualization server

Description

Terminal, server, and network access method for load balancing {System for mobile and server and method for network access for load balancing}

The present invention relates to a terminal, a server, and a network access method using the same for load balancing.

A method of configuring a single network of FDD Frequency Division Multiplexing LTE (FDD LTE) or TDD Time Division Multiplexing LTE (LTE) technology according to activation of a Long Term Evolution (LTE) service, and using femtocell / macrocell to expand network capacity and coverage. Were considered. Recently, however, scenarios for increasing network efficiency by establishing a network in which TDD and FDD coexist due to various factors such as cost have been actively discussed.

In such an environment in which an FDD network and a TDD network coexist, there is a need for a method for efficiently distributing loads through a traffic off-loading technique between the FDD network and the TDD network due to the spread of LTE services.

Accordingly, the present invention provides a terminal, a server, and a network access method for accessing a network by distributing a load by using a virtualization server in an LTE FDD / TDD coexistence network.

In order to achieve the technical problem of the present invention, a method of accessing a terminal connected to a first base station, which is one feature of the present invention, in accordance with a network change from a first network to a second network,

Receiving network load information from the first base station; If the load indicator included in the network load information is an indicator indicating that a load has occurred in the network, checking whether the switching information included in the network load information is first switching information or second switching information; If the switch information is first switch information, determining whether target information, which is information about a network switch target terminal stored with the switch information, and the terminal information match; Generating a random number when the target information and the terminal information match; And waiting for a predetermined time calculated based on the generated random number and switching time limit information included in the network load information, and then switching to and connecting to the second network.

Determining whether the switch information is first switch information or second switch information;

Checking the switching ratio information indicating the number of network switching target terminals included together with the switching information, if the switching information is second switching information; Generating a first random number; Determining whether the generated first random number is included in a target terminal to switch a network based on the conversion ratio information; Generating a second random number if the first random number is included in the conversion ratio; And waiting for the waiting time calculated based on the generated second random number and the switching time limit information, and then switching to and connecting to the second network.

The first network and the second network may be any one of a time division multiplexing (TDD) network or a frequency division multiplexing (FDD) network, and the first network and the second network may be different networks.

In another aspect of the present invention, a server interoperates with a first base station and a second base station, and a method for allowing a terminal located at the first base station or a second base station to access a network.

Receiving information indicative of resource block utilization rates from the first base station and the second base station, respectively; Monitoring network loads of the first base station and the second base station based on the received information; If it is determined that a network load has occurred in any network, updating a load indicator for the network in which the load has occurred; Generating network load information after checking whether the updated load indicator and the load indicator before the updated load indicator are the same; And transmitting the generated network load information to a base station of a network in which a load occurs and controlling the terminal to access a network other than the network in which the load occurs.

The generating of the network load information may include generating the network load information when the updated load indicator and the previous load indicator are different, wherein the network load information includes a load indicator and a base station of a network in which the load is generated. Information, switching information for network switching, and switching time limit information.

The switch information is either one of first switch information or second switch information, and if the switch information is the first switch information, the switch information includes target information indicating a network switch target terminal, and the switch information includes the second switch information. If it may include the conversion ratio information of the terminal.

A terminal receiving a service through any one of the first network or the second network in an environment in which a first network and a second network overlap with each other features of the present invention for achieving the technical problem of the present invention ,

A load indicator included in the network load information, receiving network load information from any one of the base stations receiving the service in cooperation with the first base station forming the first network or the second base station forming the second network Includes information indicating that a load has occurred in the network, checks the switching information included in the network load information and requests to generate a random number of either the first random number or the second random number according to the verified switching information, A mode conversion controller for requesting to generate a second random number according to the first random number; A first random number generator generating a first random number at the request of the mode conversion controller and transferring the first random number to the mode conversion controller; A second random number generator for generating a second random number at the request of the mode conversion controller; And waiting for a time calculated based on the second random number generated by the second random number generator and the switching time limit information included in the network load information, and then attempting to connect to a base station different from the base station that transmitted the network load information. It includes a mode connection.

The mode connection unit may include a first mode connection unit for controlling the terminal to be connected to a first base station forming a first network; And a second mode connection unit for controlling the terminal to be connected to a second base station forming a second network.

A server for interworking with a first base station and a second base station, which is another feature of the present invention for achieving the technical problem of the present invention, and allowing a terminal located at the first base station or the second base station to access a network,

A network load monitoring unit that receives resource block utilization information from the first base station and the second base station, respectively, and monitors whether a load has occurred in the first network for the first base station or the second network for the second base station. ; A load indicator changing unit for changing a load indicator for a corresponding network according to whether or not a load occurs on any network in the network load monitoring unit; A load information generator configured to generate network load information including the load indicator information changed by the load indicator changer; And an access network information transmitter for transmitting the network load information generated by the load information generator to a base station of a network in which a load is generated or released.

A load indicator storage unit may store a load indicator changed by the load indicator changer, and the load indicator may include a first indicator indicating that a load has occurred and a second indicator indicating that no load has occurred.

According to the present invention, since the load of the FDD / TDD network can be monitored, the UE can receive a service through the optimized network by selecting a connection to a network having a low load.

1 is an exemplary diagram of an FDD / TDD coexistence network according to an embodiment of the present invention.
2 is a structural diagram of a terminal according to an embodiment of the present invention.
3 is a structural diagram of a virtualization server according to an embodiment of the present invention.
4 is a flowchart illustrating a network access method according to a first embodiment of the present invention.
5 is a flowchart illustrating a network access method according to a second 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 order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters 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, except to exclude other components unless otherwise stated.

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 network selection system and method according to load balancing in an FDD / TDD coexistence network according to an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is an exemplary diagram of an FDD / TDD coexistence network according to an embodiment of the present invention.

As shown in FIG. 1, the terminal 100 is located in a network in which FDD and TDD coexist, and receives a communication service through LTE in cooperation with base stations 300-1 and 300-2. In this case, the terminal 100 is a dual mode terminal, and may receive a service in both FDD and TDD. The base stations 300-1 and 300-2 interoperate with the virtualization server 200, and the virtualization server 200 monitors the load of the FDD network or the TDD network and selects a network to which the terminal 100 accesses. 1, 300-2 is transmitted to the terminal 100. The base station forming the FDD network is assumed to be the first base station 300-1, and the base station forming the TDD network is assumed to be the second base station 300-2.

The structure of the terminal 100 and the virtualization server 200 that can selectively access a network according to load balancing in an FDD / TDD coexistence network will be described with reference to FIGS. 2 and 3.

2 is a structural diagram of a terminal according to an embodiment of the present invention.

As shown in FIG. 2, the mode conversion controller 110, a first random number generator 130, a second random number generator 120, a first mode connection unit 140, and a second mode connection unit 150 are included. Although not mentioned in the embodiment of the present invention, it may also include components that perform the functions of a general terminal.

When the mode conversion controller 110 receives the network load information broadcast from the base stations 300-1 and 300-2, the mode conversion controller 110 determines whether the load indicator included in the network load information is information indicating that a load has occurred in the corresponding network. . If the information indicating that the load has occurred is included, it is checked whether the switching information included in the network load information includes the first switching information or the second switching information.

In an embodiment of the present invention, network switching is performed by two methods. The first method, in which the switching information is the first switching information, designates a terminal to be switched over by the virtualization server 200, and the switching information is the second switching. The second method of information is to determine the proportion of the terminal to be switched in the virtual server 200, the terminal is determined whether the terminal to be switched through a random number that occurs randomly.

That is, the virtual server 200 selects a target terminal to be switched to the network using a part of information such as a unique number assigned to the terminal 100, and the target terminal to be switched to the network by the virtualization server 200. There is a second method of specifying a ratio of the number of terminals to be switched without selecting and generating a random number in the terminal itself, and then allowing the terminals corresponding to the ratio to switch networks.

Therefore, the mode conversion controller 110 requests the second random number generator 120 to generate a random number if the first switch information corresponding to the first method is set as the switch information.

However, if the second conversion information is set as the switching information as a result of the check by the mode conversion control unit 110, the mode conversion control unit 110 requests the first random number generator 130 to generate a random number. When the random number generated by the first random number generator 130 is determined to be a terminal to be converted according to a ratio included in the network load information, the mode conversion controller 110 generates a random number by the second random number generator 120. request.

The first random number generator 130 generates the first random number and transmits the first random number to the mode conversion controller 110. In an embodiment of the present invention, a random number that can be represented by identification information of a terminal is generated as a first random number, which is described as an example of generating any one of integers from 0 to 9, but is limited as described above. It is not.

The second random number generator 120 generates a second random number. In the exemplary embodiment of the present invention, a random number between 0 and 1, which is a number used to calculate a waiting time when the terminal switches to another network with a second random number, is generated, but is not necessarily limited thereto. The two random numbers will be described in detail later.

The first mode connection unit 140 is a connection unit that allows the terminal to access the first network. In the embodiment of the present invention, the first network is set as the FDD network, but is not necessarily limited thereto. At this time, when accessing the first network by network switching, the schedule is based on the switching time limit information included in the network load information and the random number generated to calculate the waiting time when switching the network generated by the second random number generator 120. After waiting for a time, control to connect to the first network.

The second mode connection unit 150 is a connection unit that allows the terminal to access the second network. In the embodiment of the present invention, the second mode connection unit 150 is set as the TDD network, but is not necessarily limited thereto. At this time, when connecting to the second network by the network switching, based on the switching time limit information included in the network load information and the random number generated to calculate the waiting time when switching the network generated by the second random number generator 120, After waiting for a time, control to connect to the second network.

Next, a structure of the virtualization server 200 that selects a network to which the terminal 100 accesses according to the load of the network in association with the base stations 300-1 and 300-2 will be described with reference to FIG. 3. In the embodiment of the present invention, the components for monitoring the FDD network and the TDD network are expressed as one for convenience of description, but the FDD network and the TDD network may be separately monitored through separate components.

3 is a structural diagram of a virtualization server according to an embodiment of the present invention.

As shown in FIG. 3, the virtualization server 200 transmits the network load monitoring unit 210, the load indicator changing unit 220, the load indicator storage unit 230, the load information generator 240, and the access network information. The unit 250 is included.

The network load monitoring unit 210 receives information on resource block utilization rates transmitted from the first base station 300-1 and the second base station 300-2, respectively. Monitor whether or not a load has occurred. The information on the resource block utilization rate is transmitted from the first base station 300-1 and the second base station 300-2 at predetermined time intervals, or when a change occurs in the network load such as a sudden load on one network. May be sent.

The load indicator changing unit 220 changes the load indicator according to whether the network load monitored by the network load monitoring unit 210 and the load indicator information stored in the load indicator storage unit 230 to be described below. That is, the load indicator is represented by one of 0 and 1 depending on whether the network is loaded. In the embodiment of the present invention, when the load indicator is 0, no load is generated and when the load indicator is 1, To indicate that a load has occurred, but is not necessarily limited to this. When a change occurs in the load indicator, the load information generator 240 requests the network load information to be generated.

The load indicator storage unit 230 updates and stores load indicator information changed by the load indicator changing unit 220.

The load information generator 240 generates network load information according to a request of the load indicator changer 220. In this case, the network load information includes a load indicator (0 or 1), network information (eg, base station identifier information) indicating which network has a load, switching information indicating a switching method of a terminal, and switching time limit information. .

The load indicator is a value that changes dynamically according to the network load.

The switching information is included together with any one of the target information of the terminal or the ratio information of the terminal to switch the network according to two embodiments of the present invention. That is, the virtualization server 200 may directly select terminals to switch the network, and may include target information of the selected terminal as target terminal information, or the virtualization server 200 may not directly select terminals to switch the network. Only the ratio of the terminal to be switched may be determined to include the ratio information as the target terminal information. The switching information may be dynamically included according to the setting of the virtualization server 200 or may be included in any one form.

The switching time limit information corresponds to a limit time until the switching target of the terminals located in the network in which the load is generated changes terminals from one network to another. The switch time limit information may be set in advance by the virtualization server 200 or may be changed by external input, but is not limited to any one form.

The access network information transmitter 250 transmits the network load information generated by the load information generator 240 to the terminal 100.

Next, a method of accessing the terminal 100 to the network through the virtualization server 200 described above will be described with reference to FIGS. 4 and 5. Prior to describing a method of accessing a network according to an embodiment of the present invention, in the embodiment of the present invention, while a terminal accesses a first network, that is, an FDD network, and receives a service, a load occurs in the first network and the second network is generated. That is, a description will be given by an example of switching to a TDD network and receiving a service.

4 is a flowchart illustrating a network access method according to a first embodiment of the present invention, and FIG. 5 is a flowchart illustrating a network access method according to a second embodiment of the present invention.

First, the first embodiment shown in FIG. 4 will be described. It is assumed that a terminal is connected to a first base station and receives a service from a first network (S100). In an environment where the first network and the second network overlap, the first base station and the second base station transmit resource resource utilization information to the virtualization server 200 at predetermined intervals or according to a situation defined in other systems. (S101, S102). Here, the resource block utilization rate information includes information such as base station information and resource block utilization rate.

The network load monitoring unit 100 of the virtualization server 200 determines which network load has occurred in which network load based on the resource block usage ratio of the resource block utilization information transmitted from the first base station and the second base station in steps S101 and S102. To monitor (S103). If there is a load in any network, the load indicator for that network is updated to 1. Then, it is determined whether the updated load indicator is the same as the previous load indicator (S104).

If the previous load indicator and the updated load indicator are the same or the load indicator is 0, the network load monitoring in step S103 is continued. However, if the load indicator is 1 and the previous load indicator is different from the updated load indicator, the load indicator storage unit 230 stores the newly updated load indicator, and the load information generator 240 updates the network load information. (S105).

In this case, the network load information includes a load indicator, network information on which a load has occurred, switching information for network switching, and switching time limit information. The switching information is represented by 0 when the terminal to switch to another network is determined, and 1 when the terminals switch networks according to the ratio of the network switching terminal. In addition, in the case of 0, target information of the terminal to switch the network is included together. In the case of 1, the ratio information of the network switching terminal is included.

The access network information transmitter 250 transmits the network load information generated by the load information generator 240 to the first base station in which the load occurs in step S105 (S106), and the first base station receives the network load received in step S106. The information is broadcast to all terminals in the first base station area (S107). The mode conversion controller 110 of the terminal 100 within the first base station area checks whether the load indicator includes information indicating that a load has occurred in the corresponding network in the network load information broadcast in step S107 (S108).

If an indicator indicating that no load is generated is included, the service is used while being connected to the first base station (S109). However, if a load occurs, it is checked whether the switching information included in the network load information is 1 (S110). If the conversion information is 1, the procedure after the step indicated by "B" is performed. If the conversion information is not 1, the procedure after the step indicated by "A" is performed, which will be described later with reference to FIG. .

First, referring to FIG. 5 for the "A" procedure when the switching information is 0, it is determined whether the target information stored together with the switching information and the terminal's own information match (S111). That is, when the load information generation unit 240 of the virtualization server 200 updates the load information and generates the load information, when the terminal to switch the network is designated, the target information for the designated terminal is also included.

For example, if the load information generation unit 240 is configured to switch the terminal having the last number 0 and 1 from the identification number (telephone number, etc.) of the terminal from the first network to the second network, 1 includes information about the base station, 0, which is switching information, and 0 and 1, which are target information. Therefore, the terminal receiving the network load information determines whether the target information corresponds to the identification number of the terminal itself.

If the target information and the terminal information is different, the terminal 100 continues to use the service through the first base station (S112). However, when the target information and the terminal information match, the second random number generator 120 of the terminal 100 generates a random number between 0 and 1 (S113). The UE waits for access to the second base station for a predetermined time based on the random time generated in step S113 and the switching time limit information included in the network load information before switching to the second base station and accesses the second base station. By using the service (S114, S115).

That is, when the switch time limit information is 10 minutes and the random number generated by the second random number generator 120 in step S113 is 0.35, the corresponding terminal multiplies the switch time limit information by the random number, that is, 3.5 minutes, and then the second base station. Perform the connection with. This prevents network overload due to a signaling storm that may occur when terminals having identification numbers 0 and 1 in the first base station simultaneously access the second base station and perform network switching. That is, to allow all terminals to perform network switching sequentially.

In the embodiment of the present invention, a case in which a load occurs in the first network has been described. However, even when the load is released to the network in which the load occurs, the above-mentioned procedure is changed to a state of a network that can generally provide services. Can be performed. In this case, whether or not the terminal 100 switched to the other network is switched to the originally connected network may be variously set according to the system design, and the detailed description thereof will be omitted.

Meanwhile, the procedure "B" for the case where the mode conversion controller 110 of the terminal determines that the switching information in the network load information is 1 will be described in step S108 as follows. When the switching information is 1, the terminal to switch to the other network is not determined, but when the virtualization server 200 determines the ratio of the terminal to switch to the other network, the terminals are each first random number generator 130 accordingly accordingly. 1 means generating a random number and then switching to another network according to the generated first random number. To this end, the first random number is described as an example of generating an integer from 0 to 9. For example, if the ratio of the terminal is 30%, the first random numbers 0 to 3 are generated. The conversion will be described with an example.

If the switching information is confirmed as 1, the first random number generator 130 generates a first random number of any number from 0 to 9 (S116). In operation S117, it is determined whether the generated first random number is a number included in the conversion target ratio. If it is assumed that the first random number generated in the terminal is 8 and the ratio information on the network switched terminal is 30%, the terminal having the first random number 8 does not correspond to the terminal to be switched to the network, and thus continues through the first base station. The service is provided (S118).

However, when the first random number generated by the first random number generator 130 is 2, it corresponds to a network switching target terminal, and thus the second random number generator 120 generates a second random number between 0 and 1 (S119). The UE waits for access to the second base station for a predetermined time based on the switching time limit information included in the second random number and the network load information generated in step S119 before switching to the second base station. Access to the service to use (S120, S121).

In this way, when the terminal 100 selectively connects to any one of the first network and the second network to use a communication service, the load of the network can be efficiently reduced.

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 (13)

A method for accessing a terminal connected to a first base station according to a switch from a first network, which is an area of a first base station, to a second network, which is an area of a second base station,
Receiving network load information from the first base station;
If the load indicator included in the network load information is an indicator indicating that a load has occurred in the network, checking whether the switching information included in the network load information is first switching information or second switching information;
If the switch information is first switch information, determining whether target information, which is information about a network switch target terminal stored with the switch information, and the terminal information match;
Generating a random number when the target information and the terminal information match; And
Waiting for a predetermined time calculated based on the generated random number and switching time limit information included in the network load information, and then switching to and connecting to the second network
Network connection method comprising a. The method of claim 1,
If the target information and the terminal information do not match, connecting to the first base station to use a service
Network connection method comprising a. The method of claim 1,
Determining whether the switch information is first switch information or second switch information;
Checking the switching ratio information indicating the number of network switching target terminals included together with the switching information, if the switching information is second switching information;
Generating a first random number;
Determining whether the generated first random number is included in a target terminal to switch a network based on the conversion ratio information;
Generating a second random number if the first random number is included in the conversion ratio; And
Waiting for a waiting time calculated based on the generated second random number and the switching time limit information, and then switching to and connecting to the second network
Network connection method comprising a. The method of claim 3,
The waiting time is calculated by multiplying the generated second random number by the time according to the switching time limit information. The method of claim 3,
If the first random number is not included in the switching ratio and the terminal that has generated the first random number is not included in the network switching target terminal, connecting to the first base station to use a service
Network connection method comprising a. The method of claim 1,
The first network and the second network is any one of a time division multiplexing (TDD) network or a frequency division multiplexing (FDD) network, and the first network and the second network are different networks. In a method in which a server interoperates with a first base station and a second base station, and the terminal located in the first base station or the second base station to access the network,
Receiving information indicative of resource block utilization rates from the first base station and the second base station, respectively;
Monitoring network loads of the first base station and the second base station based on the received information;
If it is determined that a network load has occurred in any network, updating a load indicator for the network in which the load has occurred;
Generating network load information after checking whether the updated load indicator and the load indicator before the updated load indicator are the same; And
Transmitting the generated network load information to a base station of a network in which a load occurs and controlling the terminal to access a network other than the network in which the load occurs.
Network connection method comprising a. The method of claim 7, wherein
Generating the network load information,
If the updated load indicator is different from the previous load indicator, generating the network load information
Including;
The network load information includes a load indicator, base station information of a network where a load is generated, switching information for switching a network, and switching time limit information. 9. The method of claim 8,
The switch information is any one of the first switch information or the second switch information,
If the switch information is the first switch information, including the target information indicating the network switching target terminal,
And if the switch information is the second switch information, including the switch ratio information of the terminal. A terminal receiving a service through any one of the first network and the second network in an environment where a first network and a second network overlap,
A load indicator included in the network load information, receiving network load information from any one of the base stations receiving the service in cooperation with the first base station forming the first network or the second base station forming the second network Includes information indicating that a load has occurred in the network, checks the switching information included in the network load information and requests to generate a random number of either the first random number or the second random number according to the verified switching information, A mode conversion controller for requesting to generate a second random number according to the first random number;
A first random number generator generating a first random number at the request of the mode conversion controller and transferring the first random number to the mode conversion controller;
A second random number generator for generating a second random number at the request of the mode conversion controller; And
Mode for waiting for a time calculated based on the second random number generated by the second random number generator and the switching time limit information included in the network load information, and then attempting to connect to a base station different from the base station transmitting the network load information. Connection
. The method of claim 10,
The mode connection unit,
A first mode connection unit controlling the terminal to be connected to a first base station forming a first network; And
Second mode connection unit for controlling the terminal is connected to the second base station forming a second network
. A server interoperating with a first base station and a second base station and allowing a terminal located at the first base station or the second base station to access a network.
Network load for receiving information indicating the resource block utilization rate from the first base station and the second base station, respectively, and monitors whether there is a load on the first network for the first base station or the second network for the second base station based on the information Monitoring unit;
A load indicator changing unit for changing a load indicator for a corresponding network according to whether or not a load occurs on any network in the network load monitoring unit;
A load information generator configured to generate network load information including the load indicator information changed by the load indicator changer; And
An access network information transmitter for transmitting the network load information generated by the load information generator to a base station of a network in which a load is generated or released.
/ RTI > The method of claim 12,
A load indicator storage unit for storing the load indicator changed by the load indicator changing unit
Including;
The load indicator includes a first indicator indicating that a load has occurred and a second indicator indicating that no load has occurred.

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