KR100775428B1 - Network interworking control device and method according to movement speed and type of service - Google Patents

Abstract

The present invention relates to an apparatus and method for controlling network interworking between a third generation mobile communication network and a wireless LAN network according to a moving speed and a type of provided service, wherein a subscriber station is an area in which first and second networks coexist in a first network area. In the case of entering the network, the mobile terminal checks the moving speed and the service type of the subscriber station, compares the moving speed and the network interworking limit speed corresponding to the service type, and determines whether to interwork with the second network according to the comparison result. By determining the A, it is possible to obtain an effect of improving performance of the subscriber station, reducing power consumption, and maintaining load balance.

Description

Apparatus and Method For Vertical Handover according to the Service and the Velocity of the Terminal}

1 is a block diagram illustrating a network interworking concept between a WiBro network and a CDMA network.

Figure 2 is a block diagram for showing a problem occurring when the network interworking according to the prior art.

3 is a block diagram showing the concept of a network interworking control method according to an embodiment of the present invention.

4 is a flowchart illustrating a network interworking control method according to another embodiment of the present invention.

5 is a block diagram showing the internal structure of a network interworking control device according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: subscriber station 11: reception sensitivity check unit

12: speed detection unit 13: control unit

14: limit speed setting module 15: speed comparison module

16: network interworking control module 17: WLAN transceiver

18: CDMA transceiver

The present invention relates to an apparatus and a method for controlling network interworking between a third generation mobile communication network and a wireless LAN network according to a moving speed and a type of provided service.

In the future, it will develop into an environment where different heterogeneous networks coexist. For example, WLAN networks, WiBro, and third generation mobile communication networks coexist. In this situation, the vertical handover technology is an essential element and research on this is being actively conducted.

Network interworking means that the IP address assigned to a subscriber station is changed when using a WLAN and moving to a CDMA network in view of the network layer. The most important task at the network layer is packet routing, which is based on IP addresses. Therefore, if the IP address of the subscriber station that he is using is changed, he cannot receive any packets sent to him. Moreover, TCP uses IP address and port as the data to maintain the connection. Changing the IP address means that the TCP connection is disconnected. Recently, research on mobile IP is continuously conducted to maintain all sessions even when the IP address is changed.

However, when interworking from a CDMA network to a WiBro network, the situation is worse than when the IP address is changed. This is because not only the IP address of the subscriber station is changed, but the entire configuration of the sub-network is changed. In other words, the network layer problem and the data link layer problem occur together. In order to solve this problem, a network interworking technology is also being developed to provide data services seamlessly between heterogeneous networks.

1 is a block diagram illustrating a network interworking concept between a WiBro network and a CDMA network.

When the subscriber station 10 enters an area that can be connected only to the CDMA network outside the Wibro network area, the subscriber station tries to access the CDMA network. When the network is switched, the data transmitted to the WiBro network is switched to the CDMA network and transmitted to the subscriber station.

In the example of FIG. 1, the path of data transmitted from the public Internet to the subscriber station is changed. In practice, it is possible to change the path of data by creating a pipe from a WLAN network to a CDMA network without changing the path of data in the public Internet.

By using such a network interworking technology, the subscriber station can seamlessly transmit and receive data even when moving across heterogeneous networks.

2 is a block diagram illustrating a problem occurring when interworking with a network according to the prior art.

As shown in FIG. 2, area a is an area in which subscriber station 10 can receive a service using only a third generation mobile communication network, and area b is a subscriber station through a third generation mobile communication network or a wireless LAN network (WLAN). (10) This is the area where the service can be provided.

The subscriber station 10 first exists in the area a and is connected to the third generation mobile communication network to receive a service (S201). When the subscriber station 10 moves to an area where both a WLAN and a third generation mobile communication network can be used, such as an area b (S202), the subscriber station 10 performs a vertical handover. do. That is, when the subscriber station 10 moves to the area b, first, it attempts to connect to the WLAN network (S203). If the access to the WLAN network is successful, the subscriber terminal 10 disconnects from the third generation mobile communication network (S204). ).

When the subscriber station 10 moves from the b area to the a area again (S205), since the a area is an area in which the service is not provided using the WLAN network, the subscriber station 10 interworks with the 3G mobile communication network. You must do it again. That is, the subscriber station 10 attempts to connect with the 3G mobile communication network (S206), and if the connection is successfully made, disconnects from the WLAN network (S207).

According to the general network interworking method described above, when the subscriber station moves to an area where the WLAN network and the 3G mobile communication network coexist, the subscriber station performs an unconditional network interworking process. When the network interworking with the WLAN network as described above, frequent network interworking occurs due to the narrow cell area of the WLAN network. When the network is interlocked, packet loss may occur, and a lot of power of the subscriber station is consumed. In addition, if all of the subscriber stations in the area where the 3G mobile communication network and the wireless LAN network coexist with the wireless LAN network, the concentration phenomenon to the wireless LAN network is intensified and the performance of the subscriber terminal connected to the wireless LAN network is degraded. Also occurs.

Accordingly, the present invention is to solve the problems according to the prior art, a network interworking control system for determining whether the network interworking in consideration of the moving speed and the use service of the subscriber station when the subscriber station moves between heterogeneous networks and In providing a method.

According to an aspect of the present invention, there is provided a method for controlling a vertical handover between heterogeneous networks, when a terminal enters an area supporting both first and second networks from an area supporting only a first network, a moving speed of the terminal. And checking the type of the used service, comparing the maximum limit speed preset for each type of the used service with the moving speed of the terminal, and determining whether the terminal is interworked with the second network according to the comparison result. It includes.

In this case, the network refers to a third generation mobile communication network, a wireless LAN network (WLAN) or a Wibro, and the use service of the terminal includes a voice call service and a multimedia service. The maximum speed limit set for the voice call service may be set to be smaller than the maximum speed limit set for the multimedia service.

The determining of whether the terminal interworks with the network may be performed such that the terminal interworks with the second network when the movement speed of the terminal is smaller than the maximum limit speed preset for each service type.

According to another aspect of the present invention, there is provided a method for controlling inter-network interworking, when a terminal enters a region supporting both first and second networks from a region supporting only a first network, checking a type of service used by the terminal. And determining whether the terminal interworks with a second network according to the type of service used by the terminal.

In this case, the use service of the terminal includes a voice call service, a multimedia service, and the step of determining whether the network interworking is performed when the terminal uses the voice call service without interworking with the terminal and the second network. In the case of using, the terminal and the second network may be interlocked.

The heterogeneous network interworking control method according to another aspect of the present invention, when the terminal enters the region supporting the third generation mobile communication network and the wireless LAN network from the region supporting only the third generation mobile communication network, And checking the use service type and comparing the maximum limit speed preset for each use service type with the moving speed of the terminal, and determining whether the terminal is interworking with the wireless LAN network according to the comparison result.

In this case, the step of determining whether the terminal is interworking with the network is characterized in that the terminal interworking with the wireless LAN network when the moving speed of the terminal is smaller than the maximum limit speed preset for each service type.

A terminal for interworking between heterogeneous networks according to another aspect of the present invention includes a reception sensitivity checker for checking reception sensitivity using packets received from first and second networks, and the first and second results of the reception sensitivity check. When network interworking is possible between the network, a speed detecting unit measuring a moving speed of the terminal, and comparing the moving speed of the terminal and the maximum limit speed preset for each type of service provided by the terminal, and the terminal and the second according to the comparison result. It includes a control unit for determining whether the network interworking with the network.

In this case, the control unit includes a limit speed setting module for setting a maximum limit speed for interworking with each service provided by the terminal, a speed comparison module for comparing the maximum speed limit with a moving speed of the terminal measured by the speed detection unit, and the terminal. And a network interworking control module for interworking between the terminal and the second network when the moving speed is smaller than the maximum limit speed.

The limit speed setting module may be configured to set a maximum limit speed corresponding to a multimedia service more than a maximum speed limit corresponding to a voice call service.

Hereinafter, an apparatus and a method for controlling network interworking between a third generation communication network and a wireless LAN network in consideration of a moving speed and a service according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram showing the concept of a network interworking control method according to an embodiment of the present invention.

As in the example of FIG. 2, FIG. 3 assumes an area a in which only a third generation mobile communication network exists and an area b in which a WLAN network and a third generation mobile communication network coexist at the same time. In the network interworking control method according to the present invention, when the subscriber station 10 moves from the a area to the b area, the moving speed of the subscriber station 10 entering the b area from the a area rather than the network interworking is unconditional. The subscriber station 10 determines whether to interwork with the network in consideration of the service provided.

The subscriber station 10 may have various moving speeds from the stationary state to the high speed driving state. In addition, the subscriber station 10 may be provided with a low capacity service requiring a small bandwidth such as a voice call, and may also be provided with a high capacity multimedia service requiring a large bandwidth such as a video service. It is to determine whether the subscriber station network interworking according to the moving speed and the service provided by the subscriber station 10.

Hereinafter, a method of determining whether the subscriber station is interworked with the network according to the type of service being provided will be described in detail.

When the subscriber station 10 is provided with a low-capacity service such as a voice call, the network does not interwork with a wireless LAN network. This is because the voice call service can guarantee sufficient QoS to the user even using the third generation mobile communication network. As a result, even though the subscriber station 10 moves to the b area, the subscriber station 10 makes a voice call through the third generation mobile communication network.

When the subscriber station 10 receives a multimedia service such as a video service, the subscriber station 10 interworks with a wireless LAN network having a high transmission efficiency. Providing multimedia services using 3G mobile communication networks is not only costly but also because of poor QoS.

When two networks coexist in this manner, it may be controlled whether to interwork with the network according to the type of service provided to the subscriber station 10. Of course, it is not necessary to limit the division of services to voice service and video service. Examples of other services include a push to talk (PTT) service.

Hereinafter, a method of determining whether to interwork with a network in consideration of both the moving speed of a subscriber station and the type of service provided will be described.

Such a network interworking control method basically compares the maximum velocity set by the movement speed of the subscriber station 10 and the type of service, and only when the movement speed of the subscriber station 10 is smaller than the limit speed. It is interworking with the network.

If the subscriber station 10 is provided with a low-capacity service such as a voice call, the network interworking to the WLAN network does not provide a lot of advantages, so the threshold speed, which is a criterion for determining network interworking, is set small. Through such a setting process, the subscriber station 10 performs network interworking with the WLAN network only when entering the b area at a lower speed than the maximum limit speed. When the network interworking is made, the subscriber station 10 makes a voice call using a wireless LAN network. This can be summarized as a simple formula:

First, in the case of a voice call service, the maximum limit speed of the subscriber station 10 that interworks with the WLAN network is called Limit_For_Voice. In addition, the speed of the subscriber station 10 currently entering the b area is called v _t . Ten thousand and one v _t> If the Limit_For_Voice subscriber terminal 10 is not a network interface, using a 3G mobile communication network and the voice call, v _t <If Limit_For_Voice subscriber terminal 10, a radio in the third generation mobile communication network, Network interworking with LAN network.

On the other hand, if the subscriber terminal 10 is provided with a high quality data service such as a multimedia service, it is efficient in terms of service quality to interwork the subscriber terminal 10 to a wireless LAN network with a high transmission rate. Therefore, it increases the probability of interworking with a wireless LAN network by increasing the threshold speed that is a standard of network interworking. Similarly, a simple formula can be summarized as follows.

Here, when the packet-based data service such as the multimedia service is provided, the maximum speed of the subscriber station interworking with the wireless LAN is set to Limit_For_Packet. If v _t > Limit_For_Packet, the subscriber station 10 receives the data service using the 3G mobile communication network. If v _t <Limit_For_Packet, the subscriber station 10 interworks with the WLAN network from the 3G mobile communication network. The data service is provided through the WLAN network.

As described above, when two service networks coexist, a threshold speed may be set according to a service type provided to the subscriber station 10, and the threshold speed may be compared with a moving speed of the subscriber station 10 to interwork with a network. Each can be controlled.

Since it is more efficient for a terminal using a multimedia service to use a wireless LAN network than a voice call service, it is desirable to determine a maximum limit speed while satisfying a condition of Limit_For_Voice <Limit_For_Packet. The limit speeds for each service provided by the subscriber station as described above are the amount of energy consumed when the network is interworked, in the case of a certain rate, the duration of time that the subscriber station is present in the WLAN network cell area, the throughput obtained when the network is interworked, It can be calculated by considering the cost of each service provision.

In the case of network interworking, the subscriber station consumes more power every time, so frequent network interworking reduces the battery duration of the subscriber station. However, when the network is interworked with the WLAN network, the user may pay less to receive the packet service and may receive better QoS. When interworking with the network, both advantages and disadvantages occur. Therefore, the operator can determine the network interworking speed limit according to the service in consideration of the trade off.

When the subscriber station 10 moves to the area a again, the 3rd generation mobile communication network should be used. Therefore, when the subscriber station 10 interworks with the WLAN network in area b, the subscriber station 10 must interwork with the third generation mobile communication network again. However, if the subscriber station 10 does not interwork with the WLAN network in the b area, the service is provided using the third generation mobile communication network without a separate network interworking procedure.

4 is a flowchart illustrating a network interworking control method according to another embodiment of the present invention.

Similarly, as in the case of FIG. 3, an area accessible only by the third generation mobile communication network is referred to as an area a, and an area in which a service can be provided using the third generation mobile communication network and a wireless LAN network is called an area b.

Since the subscriber station existing in the area a is accessible only to the third generation mobile communication network, the subscriber terminal receives a voice call service or a data service through the third generation mobile communication network (S401). It is determined whether the subscriber station existing in the area a moves to the area b (S402). This determination can be known by checking the packet reception sensitivity received by the subscriber station from the access point of the WLAN network. If the subscriber station continues to exist in the a region, the subscriber station continues to be provided with the service using the third generation mobile communication network according to step S401.

If the subscriber station moves to the b area, the moving speed of the subscriber station is calculated (S403). The movement speed of the subscriber terminal can be calculated by using a technology such as GPS. In addition, it is determined whether the service provided by the subscriber station is a voice call service or a multimedia service through packet transmission (S404). If the subscriber station is provided with the voice call service, Limit_For_Voice is set to the maximum limit speed (Limit Velocity) of the subscriber station to determine network interworking (S405). On the other hand, if the subscriber station is provided with a multimedia service, Limit_For_Packet is set to the maximum limit speed of the subscriber station to determine network interworking (S406). The movement speed of the subscriber station measured in step S403 is compared with the maximum limit speed set in step S405 or S406 (S407).

If the moving speed of the subscriber station is less than the maximum threshold speed in step S407, the subscriber station is interworked with the wireless LAN network (S408), and the subscriber station is provided with the service through the wireless LAN network (S409). If the network interworking to the WLAN network occurs, it is determined whether the subscriber station moves from the area b to the area a (S410), and if it moves to the area a again, the network interworking with the third generation mobile communication network is performed (S411). Of course, the service is then provided to the subscriber station using the third generation mobile communication network (S412).

If the moving speed of the subscriber station is greater than the maximum threshold speed in step S407, the subscriber station is provided with voice call service and data service using the third generation mobile communication network without interworking with the network (S412).

5 is a block diagram showing the internal structure of a subscriber station according to another embodiment of the present invention.

As shown in FIG. 5, the subscriber station 10 includes a reception sensitivity checker 11, a speed detector 12, a controller 13, a wireless LAN network (WLAN) transceiver 17, and a CDMA transceiver 18. ) And the like.

The reception sensitivity checker 11 is connected to an antenna of the CDMA transceiver 18 and an antenna of the WLAN network transceiver 17. The reception sensitivity checker 11 checks the sensitivity of the packet received from the CDMA or WLAN network and measures a distance away from the base station or the access point. The reception sensitivity check unit 11 notifies the controller 13 of the packet sensitivity transmission and reception from the CDMA only as a result of the reception sensitivity check, and the network interworking control module 16 of the controller 13 activates only the CDMA transceiver 17. Let's do it. In addition, the reception sensitivity check unit 11 notifies the speed detection unit 12 and the control unit 13 when the sensitivity check results in communication between the CDMA network and the wireless LAN network.

The speed detector 12 detects the current moving speed of the subscriber station 10 according to the notification of the reception checker 11. As such, a method of detecting a current moving speed of the subscriber station 10 includes a method using GPS, a method using a network triangulation method, a method using a Doppler spreading effect by a downlink channel, and the like. The current speed of the subscriber station 10 measured as described above is transmitted to the speed comparison module 15 in the control unit 13.

The controller 13 may include a limit speed setting module 14, a speed comparison module 15, and a network interworking control module 16.

The limit speed setting module 14 sets the maximum limit speed according to the type of service provided by the user through the WLAN network transceiver 18 or the CDMA transceiver 17. The maximum limit speed set in this way is transmitted to the speed comparison module 15.

The speed comparison module 15 compares the maximum speed limit received from the speed limit setting module 14 and the speed detection unit 12 with the magnitude of the current speed of the subscriber station 10, and compares the result with the network linkage control module ( 16). When the current speed of the subscriber station 10 is less than the maximum limit speed, the network interworking control module 16 controls to perform a network handover between the WLAN network and the CDMA. In this case, the network interworking may be performed by providing a service by selecting one of a packet received by the WLAN network transceiver 18 or a packet received by the CDMA transceiver 17.

The WLAN network transceiver 18 corresponds to an apparatus for transmitting and receiving a packet using a WLAN network, and the CDMA transceiver 17 is used for transmitting and receiving data using a CDMA network, which is one of 3G mobile communication networks. Corresponds to the device. Of course, the present invention is not limited to the wireless LAN network and the CDMA network, the subscriber station 10 may be provided with other network equipment such as a Wi-Fi transceiver (not shown), GSM transceiver (not shown). . Using such a component, the network interworking control method described in FIG. 3 or 4 is performed.

The preferred embodiment of the present invention has been described above. The present invention is not limited to the above-described embodiment, and various modifications can be made by anyone having ordinary skill in the art to which the present invention pertains.

For example, in the present invention, the criterion for determining the threshold speed of the subscriber station is divided into voice call and data call only. However, in case of a voice call, the speed limit may be set by dividing the service in detail according to the quality of the voice call.In the case of the data transmission service, a video data service, a voice data service such as MP3, an image data service and The speeds can be set separately for each.

In addition, in the present invention, only the case where the subscriber station moves between the third generation mobile communication network and the wireless LAN network. However, it is obvious that the present invention can be applied even when the subscriber station moves between the 3G mobile communication network and the WiBro network.

In addition, in the present invention, only an embodiment in which two networks coexist, but described in the same manner can be applied to the case where three networks coexist. When the first, second, and third networks described in detail coexist, the speed interval of the subscriber station for operating in the first, second, and third networks is provided for each service provided. After that, the speed of the mobile station is calculated to determine which speed range it belongs to and whether to interwork with the network.

According to the apparatus and method for controlling the interworking between the third generation mobile communication network and the wireless LAN network according to the present invention as described above, the performance of the subscriber station by adjusting the network interworking frequency according to the moving speed and the type of service of the subscriber station. It can improve the power consumption and reduce the power consumption, and reduce the unnecessary network interworking, which can bring the advantages of preventing data loss to provide services and maintaining load balance concentrated in one network.

Claims (13)

In the method of controlling network handover between heterogeneous networks, Checking a moving speed and a current service of the terminal when the terminal enters a region supporting the first and second networks from the region supporting only the first network; Wow And comparing the maximum speed limit set for each of the currently used services with a moving speed of the terminal, and determining whether the terminal interworks with the second network according to the comparison result. The method of claim 1, The network is a network interworking control method comprising at least one of a third generation mobile communication network, a wireless LAN network (WLAN) or Wibro (Wibro). The method of claim 1, The current use service of the terminal includes a voice call service, a multimedia service. The method of claim 3, The maximum speed limit set for the voice call service is set to be smaller than the maximum speed limit set for the multimedia service. The method of claim 1, Determining whether the terminal is interworking with the network, And if the moving speed of the terminal is smaller than a maximum limit speed preset for each type of service used, the terminal to interwork with the second network. In the network interworking control method between heterogeneous networks, Checking a current use service of the terminal when the terminal enters a region supporting both the first and second networks from the region supporting only the first network; Wow And determining whether to interwork with the terminal and the second network according to a current service of the terminal. The method of claim 6, The current use service of the terminal includes a voice call service, a multimedia service. The method of claim 6, Determining whether or not the network interworking, When the terminal uses a voice call service, the terminal does not interwork with the second network, and when using a multimedia service interworking control method for the terminal and the second network. In the network interworking control method between heterogeneous networks, When the terminal enters an area supporting a third generation mobile communication network and a wireless LAN network in an area supporting only a third generation mobile communication network, checking a moving speed of the terminal and a currently used service; Wow And comparing the maximum limit speed preset for each of the currently used services with the moving speed of the terminal, and determining whether the terminal interworks with the wireless LAN network according to the comparison result. The method of claim 9, Determining whether the terminal is interworking with the network, And controlling the terminal to interwork with the wireless LAN network when the moving speed of the terminal is smaller than a maximum limit speed preset for each service type. In the terminal for interworking network between heterogeneous networks, A reception sensitivity checker which checks a reception sensitivity using packets received from the first and second networks; A speed detector configured to measure a moving speed of the terminal when network reception between the first and second networks is possible as a result of the reception sensitivity check; And And a control unit for comparing the moving speed of the terminal with a maximum limit speed set for each type of service currently provided by the terminal, and determining whether the terminal interworks with a second network according to the comparison result. The method of claim 11, The control unit, A limit speed setting module for setting a maximum limit speed for interworking with each service currently provided by the terminal; A speed comparison module comparing the maximum speed limit with a moving speed of the terminal measured by the speed detection unit; And And a network interworking control module for interworking between the terminal and the second network when the moving speed of the terminal is smaller than the maximum limit speed. The method of claim 12, The threshold speed setting module, A terminal for setting a maximum limit speed corresponding to a multimedia service larger than the maximum limit speed corresponding to a voice call service.

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