KR20120096802A - Network selection system and method therof in heterogeneous network - Google Patents

Abstract

PURPOSE: A network selection system and a method thereof in a heterogeneous network are provided to perform optimum network selection by application by selecting a network suitable for an application. CONSTITUTION: A network management server(100) generates network selection information for supporting a handover by a predefined application. A terminal device(200) recognizes a current state by network based on network selection information about a specific heterogeneous network which is received from the network management server. The terminal device selects a handover network corresponding to the type of the application by reflecting a current state of a network.

Description

NETWORK SELECTION SYSTEM AND METHOD THEROF IN HETEROGENEOUS NETWORK}

The present invention relates to a network selection method in a heterogeneous network. More particularly, the present invention relates to a network suitable for an application being used in a terminal device by applying neighbor network information and application-specific network selection policy in a mixed network environment. A network selection system and method thereof for selecting a mixed network, a network management server and an operation method thereof, and a terminal device and an operation method thereof.

In a mixed network environment where two or more different networks are mixed, the utilization of the entire system and the user's satisfaction may vary greatly depending on the criteria selected by the user. Looking at a general example of the widely used UMTS-WLAN mixed network, when a user moves to a WLAN using area, a notification window appears on the screen of the terminal and the network is selected according to the user's preference. However, for more efficient network selection, rather than relying on the preferences of each user, it is necessary to select the appropriate network by using the current state information of the surrounding network.

In this regard, various studies have been conducted. Especially, the 3GPP standardization organization defined an access network discovery and selection function (ANDSF) structure for efficient network selection in mixed networks, and designed a network selection process using ANDSF. However, since it is not specified how to select a network, various selection criteria can be applied.

Among the proposed network selection techniques, the preferred network priority selection technique and the traffic load based network selection technique are mentioned. First of all, the preferred network priority selection technique is to select the network with the highest preference among the available networks by setting the network preference in consideration of fixed properties such as service area, maximum bandwidth, and usage cost. It can be implemented, but it does not reflect the real-time state of the network. In addition, applying the traffic load-based network selection technique can be expected to balance the overall usage of the entire network.

However, since existing network selection techniques operate regardless of the type of application, they cannot reflect the characteristics of various applications. In other words, the bandwidth and latency requirements are different according to the characteristics of the application, and the degree of quality deterioration felt by the user when the data is lost or when the data transfer time becomes long is also significantly different. For example, in the preferred network priority selection scheme, if the WLAN is set to a high preference in the UMTS-WLAN mixed network, the WLAN is preferentially used when making a call using VoIP or watching a video by VOD. In addition, the traffic load-based network selection scheme also has a problem that always select a network with a low load rate regardless of the bandwidth requirements of the application.

That is, in the conventional mixed network environment, since network selection is not made according to the characteristics of the application, it is impossible to provide an optimal service quality to the user. In other words, despite the availability of higher quality services, poor network quality can result in poor service quality.

The present invention was created in view of the above circumstances, and an object of the present invention is to collect a state information indicating a current state for one or more mixed networks, and to support a handover for each predefined application type. Generates selection information for each mixed network, and the terminal device configures the specific mixed network based on the state information and the network selection information for the specific mixed network received from the network management server as the specific mixed network enters. A network selection system and a method for selecting a handover target network corresponding to a type of an application currently running by recognizing the current state and reflecting the current state for each network, and a method thereof, thereby providing a network selection system in a mixed network environment And it may apply the network policy by selecting the application to select the best network to the application being used by the terminal device.

The present invention was created in view of the above circumstances, and another object of the present invention is to collect state information indicating a current state for each mixed network when a predefined event occurs, and mix according to a predefined application type. A network management server for generating network selection information for supporting handover of a terminal device for each network and providing the status information and network selection information corresponding to the specific mixed network as the terminal device enters a specific mixed network, and an operation method thereof By providing the, by selecting the network best suited to the application being used in the terminal device by applying the network information and the network selection policy for each application in the mixed network environment.

The present invention was created in view of the above circumstances, and another object to be reached in the present invention is to access a network management server according to entry of a mixed network, and to provide status information on the mixed network and a predefined application type hand. Receives network selection information for supporting over, recognizes the current state of each network constituting the specific mixed network based on the state information, and reflects the current state of the recognized network based on the network selection information. By providing a terminal device for selecting a handover target network corresponding to a type of running application and a method of operating the same, the terminal device is most suitable for an application being used in the terminal device by applying neighbor network information and a network selection policy for each application in a mixed network environment. Yeah It is to select a worksheet.

In accordance with an aspect of the present invention, a network selection system in a mixed network is provided. The system collects state information indicating a current state for each of one or more mixed networks, and performs handover for each predefined application type. A network management server generating network selection information for supporting the mixed network; And recognizing the current state of each network constituting the specific mixed network and reflecting the current state of each network based on state information and network selection information of the specific mixed network received from the network management server as a specific mixed network enters. And a terminal device for selecting a handover target network corresponding to the type of the application currently running.

According to another aspect of the present invention, there is provided a network management server, comprising: an information collecting unit for collecting state information indicating a current state for each mixed network when a predefined event occurs; An information generation unit for generating network selection information for supporting handover of the terminal device for each mixed network according to a predefined application type; And an information providing unit for providing the status information and network selection information corresponding to the specific mixed network as the terminal enters the specific mixed network.

Preferably, the information collecting unit, characterized in that for collecting the state information for each mixed network configured to include one or more wireless relay device based on the base station mobile communication system based on the universal mobile communication system.

Preferably, the information collecting unit, characterized in that for collecting the state information including the maximum bandwidth and the current load for the network constituting each mixed network.

Preferably, the information generating unit corresponds to an application type that is driven in the terminal device based on a policy parameter including a maximum bandwidth, a current load amount, an available bandwidth, and a traffic load ratio for a network constituting each mixed network. And generating network selection information.

According to another aspect of the present invention, a terminal device is provided: The device connects to a network management server as a mixed network enters, and selects a network for supporting handover for each application type and status information on the mixed network. An information receiving unit for receiving information; A network recognition unit recognizing a current state for each network constituting the specific mixed network based on the state information; And a network selector configured to select a handover target network corresponding to the type of an application currently running based on the recognized network current state based on the network selection information.

Preferably, the information receiving unit refers to the network management server by referring to the address information provided from the base station apparatus in accordance with the entry of the mixed network configured to include one or more wireless relay apparatuses based on the universal mobile communication system based base station apparatus. It is characterized by connecting.

Preferably, the network recognition unit is characterized in that to recognize the current status for each network constituting the mixed network based on the state information including the maximum bandwidth and the current load for the network constituting the mixed network.

Preferably, the network selection unit, based on the network selection information of the currently running application on the basis of policy parameters including the maximum bandwidth, current load amount, available bandwidth, and traffic load ratio for the network constituting the mixed network; The handover target network corresponding to the type may be selected.

Preferably, the network selection unit selects a handover target network based on the network selection information according to a predetermined priority for one or more applications currently being run.

According to another aspect of the present invention, there is provided a method for selecting a network in a mixed network, the method comprising: a state information collecting step of collecting, by a network management server, state information indicating a current state for each of one or more mixed networks; A selection information generation step of generating, by the network management server, network selection information for supporting a handover for each predefined application type for each mixed network; An information receiving step of a terminal device accessing the network management server according to entry of a specific mixed network and receiving status information and network selection information for the specific mixed network; A state information recognition step of the terminal device recognizing a current state for each network constituting the specific mixed network based on the state information; And a network selection step of selecting a handover target network corresponding to the type of an application currently running based on the recognized network current state based on the network selection information.

According to another aspect of the present invention, a method of operating a network management server is provided. The method includes: an information collecting step of collecting state information indicating a current state for each mixed network when a predefined event occurs; An information generation step of generating network selection information for supporting handover of a terminal device for each mixed network according to a predefined application type; And an information providing step of providing the status information and network selection information corresponding to the specific mixed network as the terminal enters the specific mixed network.

Preferably, the information collection step, characterized in that for collecting the state information for each mixed network configured to include one or more wireless relay device based on the base station apparatus for universal mobile communication system.

Preferably, the information gathering step is characterized in that for collecting the state information including the maximum bandwidth and the current load for the network constituting each mixed network.

Preferably, the information generating step corresponds to an application type driven in the terminal device based on a policy parameter including a maximum bandwidth, a current load amount, an available bandwidth, and a traffic load ratio for a network constituting each mixed network. And generating network selection information.

According to yet another aspect of the present invention, there is provided a method of operating a terminal device: The method supports access to a network management server according to entry of a mixed network and supports status information on the mixed network and handover for each predefined application type. An information receiving step of receiving network selection information for transmitting; A network recognition step of recognizing a current state of each network constituting the specific mixed network based on the state information; And a network selection step of selecting a handover target network corresponding to the type of an application currently running based on the recognized network current state based on the network selection information.

Preferably, the information receiving step, the network management server with reference to the address information provided from the base station apparatus in accordance with the entry into the mixed network configured to include one or more wireless relay apparatus based on the base station apparatus for universal mobile communication system It is characterized by connecting to.

Preferably, the network recognition step is characterized by recognizing the current state for each network constituting the mixed network based on the state information including the maximum bandwidth and the current load for the network constituting the mixed network.

Preferably, the network selection step, the currently running application based on the policy parameters including the maximum bandwidth, the current load amount, available bandwidth, and traffic load ratio for the network constituting the mixed network according to the network selection information The handover target network corresponding to the type is selected.

The network selection step may include selecting a handover target network based on the network selection information according to a predetermined priority for one or more applications currently running.

According to a network selection system and a method thereof in a mixed network according to the present invention, in a mixed network environment where wireless communication networks of different technologies coexist, neighboring network information and application-specific network selection policy are applied to an application being used by a terminal device. By implementing the appropriate network selection, the optimal network selection is made for each application, thereby increasing user satisfaction.

1 is a schematic structural diagram of a network selection system in a mixed network according to an embodiment of the present invention;
2 is a schematic configuration diagram of a network management server according to an embodiment of the present invention.
3 illustrates an example network selection policy in accordance with an embodiment of the present invention.
4 is a schematic structural diagram of a terminal device according to an embodiment of the present invention;
5 is a schematic flowchart illustrating an operation method of a network selection system in a mixed network according to an embodiment of the present invention.
6 is a schematic flowchart illustrating a method of operating a network management server according to an embodiment of the present invention.
7 is a schematic flowchart illustrating a method of operating a terminal device according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a schematic structural diagram of a network selection system in a mixed network according to an embodiment of the present invention.

As shown in FIG. 1, the system recognizes the network management server 100 that provides status information and network selection information for each mixed network and the current status for each network constituting the mixed network, and corresponds to the type of application currently running. It has a configuration that includes a terminal device 200 for selecting a handover target network. Here, the heterogeneous network (Heterogeneous N / W) refers to all or part of the wireless network that the terminal device can access through the interworking of the N / W provided by each service provider or a plurality of operators. For example, an environment in which a Universal Mobile Telecommunication System (UMTS) including WCDMA, CDMA, WiBro, and WLAN (WiFi), which is a recent short-range wireless network, may be interworked. One or more wireless relay apparatuses are included based on the communication system based base station apparatus.

The network management server 100 collects state information indicating a current state for each mixed network when a predefined event occurs. More specifically, the network management server 100 may be configured for each mixed network configured to include one or more wireless relay devices based on a general mobile communication system based base station device according to an event occurrence, for example, according to a collection period according to a user setting. The state information including the maximum bandwidth and the current load for the network constituting the mixed network is collected. In this case, the network management server 100 uses a separate protocol for network management such as, for example, SNMP (Simple Network Management Protocol) for collecting status information from each network constituting the mixed network. In addition, the collection period is determined according to the user's setting and may be appropriately set in consideration of the overhead of the core network. It is also possible to flexibly change the measurement interval depending on values such as the current load of each network or the number of connected users. Here, the maximum bandwidth is set by the administrator to a fixed value that does not change over time. Maximum bandwidth refers to the maximum bandwidth that an application can actually use, not the data rate at the physical layer. In addition, the current load represents the amount of data transferred on the radio link per unit time.

In addition, the network management server 100 generates network selection information for supporting handover of the terminal device 200 for each mixed network according to a predefined application type. More specifically, the network management server 100 checks the identification information of the base station apparatus for each mixed network, and if the wireless relay apparatus does not exist in the service area of the base station apparatus, the corresponding information is transmitted to the terminal apparatus 200. By doing so, when the terminal device 200 needs to select a network later, the terminal device 200 always uses the base station device without searching for the radio relay device. Furthermore, the network management server 100 may include a policy parameter including a maximum bandwidth, a current load, an available bandwidth which is obtained by subtracting the current load from the maximum bandwidth, and a traffic load ratio which is a ratio of the current load to the maximum bandwidth for the network constituting the mixed network. On the basis of this, the network selection information corresponding to the application type driven in the terminal device 200 is generated. For example, the network management server 100 may use a different policy when the load of the base station apparatus for each mixed network is less than or equal to a predetermined level. In addition, it may be possible to determine whether to use various network selection policies based on information such as the number of users accessing the base station apparatus and the wireless relay apparatus or the data usage of the user.

In addition, the network management server 100 provides the state information and network selection information corresponding to the specific mixed network as the terminal apparatus 200 enters the specific mixed network. More specifically, the network management server 100 is the base station for the terminal device 200 connected based on the address information provided from the base station device in accordance with the specific mixed network entry of the terminal device 200 through the base station device, The state information and network selection information corresponding to the specific mixed network are extracted and provided to the terminal device 200 based on the identification information of the device.

The terminal device 200 accesses the network management server 100 as the mixed network enters and receives network information and network selection information for supporting handover for each predefined application type. More specifically, the terminal device 200 refers to a network management server by referring to address information provided from the base station device according to the mixed network entry configured to include one or more wireless relay devices based on the general mobile communication system based base station device. By accessing 100), it receives status information indicating the current state of the mixed network and network selection information for supporting handover for each predefined application type.

In addition, the terminal device 200 recognizes the current state for each network constituting the specific mixed network based on the state information. More specifically, the terminal device 200 recognizes the current state for each network constituting the mixed network based on the state information including the maximum bandwidth and the current load for the network constituting the mixed network. On the other hand, in the case of a wireless relay device constituting a mixed network, since the service range is very limited, even if receiving the information of the available wireless relay device from the network management server 100, it may not actually be available at the current location of the terminal device 200. It may be. Accordingly, the terminal device 200 activates the wireless interface and searches for the wireless relay device through channel scanning in order to check whether there is a wireless relay device that can be actually connected to itself. As such, the channel scanning operation follows the operation defined in the IEEE 802.11 standard. If the discovery of the radio relay apparatus fails through channel scanning, packet data is transmitted and received through the base station apparatus regardless of previously received network selection information.

In addition, when the terminal apparatus 200 recognizes a situation in which the wireless relay apparatus can be connected to the wireless relay apparatus through the above-described scanning operation, the terminal apparatus 200 reflects the current status of the recognized network based on the network selection information. Select the corresponding handover target network. More specifically, the terminal device 200 is based on the network selection information of the currently running application on the basis of policy parameters including the maximum bandwidth, current load amount, available bandwidth, and traffic load ratio for the network constituting the mixed network; Select the handover target network corresponding to the type. On the other hand, when there are a plurality of applications currently running, the terminal device 200 selects a specific application according to a predetermined priority, for example, user preference, execution priority, and activation, and thus, a handover target based on the network selection information. You will select a network.

Hereinafter, with reference to FIG. 2, a more specific configuration of the network management server 100 according to an embodiment of the present invention will be described.

That is, the network management server 100 collects state information indicating the current state for each mixed network when an event occurs, for supporting handover of the terminal device for each mixed network according to a predefined application type. An information generation unit 120 for generating network selection information, and an information providing unit 130 for providing the state information and network selection information corresponding to the specific mixed network as the terminal apparatus 200 enters the specific mixed network. It has to comprise.

The information collecting unit 110 collects state information indicating a current state for each mixed network when a predefined event occurs. More specifically, the information collecting unit 110 is configured for each mixed network configured to include one or more wireless relay devices based on a general mobile communication system based base station device according to an event occurrence, for example, a collection period according to a user setting. The state information including the maximum bandwidth and the current load for the network constituting the mixed network is collected. In this case, the information collecting unit 110 uses a separate protocol for network management such as, for example, SNMP (Simple Network Management Protocol) for collecting status information from each network constituting the mixed network. In addition, the collection period is determined according to the user's setting and may be appropriately set in consideration of the overhead of the core network. It is also possible to flexibly change the measurement interval depending on values such as the current load of each network or the number of connected users. Here, the maximum bandwidth is set by the administrator to a fixed value that does not change over time. Maximum bandwidth refers to the maximum bandwidth that an application can actually use, not the data rate at the physical layer. In addition, the current load represents the amount of data transferred on the radio link per unit time.

The information generation unit 120 generates network selection information for supporting handover of the terminal device 200 for each mixed network according to a predefined application type. More specifically, the information generating unit 120 checks the identification information of the base station apparatus for each mixed network, and if the wireless relay apparatus does not exist in the service area of the base station apparatus, the corresponding information is transmitted to the terminal apparatus 200. By doing so, when the terminal device 200 needs to select a network later, the terminal device 200 always uses the base station device without searching for the radio relay device. Furthermore, the information generation unit 120 includes a policy including a maximum bandwidth, a current load, an available bandwidth of the maximum bandwidth minus the current load, and a traffic load ratio that is a ratio of the current load to the maximum bandwidth for the network constituting the mixed network. Based on the parameter, network selection information corresponding to the type of application running in the terminal device 200 is generated. For example, the network management server 100 may use a different policy when the load of the base station apparatus for each mixed network is less than or equal to a predetermined level. In addition, it may be possible to determine whether to use various network selection policies based on information such as the number of users accessing the base station apparatus and the wireless relay apparatus or the data usage of the user. That is, the four applications of VoIP, VOD, Web, and FTP running on the terminal device 200 will be described with reference to FIG. 3. If you want to use the VoIP service, it is implemented to connect to the base station device regardless of the presence or absence of an accessible wireless relay device. This is because VoIP does not require large bandwidth, but because there is a minimum delay requirement, it is efficient to use a general-purpose mobile communication system that can guarantee QoS. On the other hand, in the case of a local area network (WLAN), there is a concern that the delay of the delivery of VoIP packets is long because QoS is not basically guaranteed. In addition, if the terminal device 200 intends to watch through the VOD service, the terminal device 200 selects a larger available bandwidth from the base station device and the wireless relay device. Like VoIP, VOD is an important application for packet delivery delay, but the bandwidth required is relatively higher than that of VoIP, which increases the probability of data loss using only general purpose mobile communication systems. Therefore, it is desirable to always select a network based on available bandwidth rather than using a general purpose mobile communication system. In addition, when using a web application, it is implemented to select a network with a low traffic load ratio. While using web applications, text and small image files are downloaded, so they do not require large bandwidth. In other words, whether the user uses a general-purpose mobile communication system or a wireless network, the haptic performance felt by the user is not significantly different. For this reason, it is desirable to be able to select the network in such a way that the traffic load ratio of the network is balanced. Finally, if the service to be used is an FTP service, in order to reduce the load of the general-purpose mobile communication system, if there is an accessible wireless relay device, the access point is first implemented. In other words, FTP is considerably larger in nature than other applications, and the amount of data transmission from the TCP server may change frequently over time. These characteristics can adversely affect other applications that require QoS such as VoIP if the FTP user uses a general-purpose mobile communication system. Therefore, it is desirable to apply the policy of AP priority access.

The information providing unit 130 provides the state information and the network selection information corresponding to the specific mixed network as the terminal apparatus 200 enters the specific mixed network. More specifically, the information providing unit 130 with respect to the terminal device 200 connected based on the address information provided from the base station device as the terminal device 200 enters a specific mixed network through the base station device, the base station The state information and network selection information corresponding to the specific mixed network are extracted and provided to the terminal device 200 based on the identification information of the device.

Hereinafter, with reference to FIG. 4, a more specific configuration of the terminal device 200 according to an embodiment of the present invention will be described.

That is, the terminal device 200 accesses the network management server as the mixed network enters, and receives the information receiving unit 210 for receiving the status information on the mixed network and network selection information for supporting handover for each predefined application type. A network recognition unit 220 for recognizing the current state of each network constituting the specific mixed network based on the state information, and reflects the current state of the recognized network based on network selection information to correspond to the type of the application currently running. It has a configuration including a network selector 230 for selecting a handover target network.

The information receiver 210 accesses the network management server 100 as the mixed network enters and receives network information and network selection information for supporting handover for each predefined application type. More specifically, the information receiving unit 210 refers to a network management server by referring to the address information provided from the base station apparatus according to the mixed network entry configured to include one or more wireless relay apparatuses based on the general mobile communication system based base station apparatus. By accessing 100), it receives status information indicating the current state of the mixed network and network selection information for supporting handover for each predefined application type.

The network recognition unit 220 recognizes the current state for each network constituting the specific mixed network based on the state information. More specifically, the network recognition unit 220 recognizes the current state for each network constituting the mixed network based on the state information including the maximum bandwidth and the current load for the network constituting the mixed network. On the other hand, in the case of a wireless relay device constituting a mixed network, since the service range is very limited, even if receiving the information of the available wireless relay device from the network management server 100, it may not actually be available at the current location of the terminal device 200. It may be. Accordingly, the network recognition unit 220 activates the radio interface and searches for the radio relay apparatus through channel scanning in order to confirm whether there is a radio relay apparatus that can be actually connected to itself. As such, the channel scanning operation follows the operation defined in the IEEE 802.11 standard. If the discovery of the radio relay apparatus fails through channel scanning, packet data is transmitted and received through the base station apparatus regardless of previously received network selection information.

When the network selection unit 230 detects a situation in which the wireless relay apparatus can be accessed through the above-described scanning operation, the network selection unit 230 reflects the current state of the recognized network based on the network selection information to determine the type of application currently running. Select the corresponding handover target network. More specifically, the network selecting unit 230 is an application currently running on the basis of policy parameters including the maximum bandwidth, current load, available bandwidth, and traffic load ratio for the network constituting the mixed network according to the network selection information. Select the handover target network corresponding to the type of. For example, when the current terminal device 200 uses VoIP, the network selector 230 directly accesses the base station device without comparing with the wireless relay device. In addition, when using the VOD application, if there are two or more accessible wireless relay devices, the wireless relay device having the largest available bandwidth is selected among the wireless relay devices, and the available bandwidth with the base station device is compared. In this case, if the available bandwidth of the base station apparatus is large, communication is performed through the base station apparatus, and in the opposite case, communication is performed through the wireless relay apparatus. Also, when using web and FTP applications, select the wireless relay device with the smallest traffic load ratio for two or more available wireless relay devices. In the case of FTP, perform the communication through the selected wireless relay device. Compared with the base station apparatus and the traffic load ratio, communication is performed through the lower ratio. On the other hand, when there are a plurality of applications currently running, the network selection unit 230 selects a specific application according to a predetermined priority, for example, user preference, execution priority, and activation, thereby handover based on the network selection information. You will select the target network.

As described above, according to the network selection system in a mixed network according to the present invention, a connection between a base station (BS) of a universal mobile communication system and a wireless relay (AP) of a wireless network system The network selection policy for each application to be transmitted is determined based on the collected information including the number of users and the respective loads, and the terminal device is used by the terminal device by applying the peripheral network information obtained from the network management server and the network selection policy for each application. By selecting the most appropriate network for the application in use, the optimal network selection is made for each application, thereby increasing the user's satisfaction. In particular, VoIP applications can provide seamless voice calls, and VOD applications will enable higher quality video playback.

Hereinafter, a method of selecting a network in a mixed network according to an embodiment of the present invention will be described with reference to FIGS. 5 to 7. Here, for the convenience of description, the configuration shown in FIGS. 1 to 4 will be described with reference to the corresponding reference numerals.

First, a method of operating a network selection system in a mixed network according to an embodiment of the present invention will be described with reference to FIG. 5.

First, the network management server 100 collects state information indicating the current state for each mixed network when a predefined event occurs (S110-S120). More specifically, the network management server 100 may be configured for each mixed network configured to include one or more wireless relay devices based on a general mobile communication system based base station device according to an event occurrence, for example, according to a collection period according to a user setting. The state information including the maximum bandwidth and the current load for the network constituting the mixed network is collected. In this case, the network management server 100 uses a separate protocol for network management such as, for example, SNMP (Simple Network Management Protocol) for collecting status information from each network constituting the mixed network. In addition, the collection period is determined according to the user's setting and may be appropriately set in consideration of the overhead of the core network. It is also possible to flexibly change the measurement interval depending on values such as the current load of each network or the number of connected users. Here, the maximum bandwidth is set by the administrator to a fixed value that does not change over time. Maximum bandwidth refers to the maximum bandwidth that an application can actually use, not the data rate at the physical layer. In addition, the current load represents the amount of data transferred on the radio link per unit time.

Then, the network management server 100 generates network selection information for supporting handover of the terminal device 200 for each mixed network according to the predefined application type (S130). Preferably, the network management server 100 checks the identification information of the base station apparatus for each mixed network, and if the wireless relay apparatus does not exist in the service area of the base station apparatus, the corresponding information is transmitted to the terminal apparatus 200. By doing so, when the terminal device 200 needs to select a network later, the terminal device 200 always uses the base station device without searching for the radio relay device. Furthermore, the network management server 100 may include a policy parameter including a maximum bandwidth, a current load, an available bandwidth which is obtained by subtracting the current load from the maximum bandwidth, and a traffic load ratio which is a ratio of the current load to the maximum bandwidth for the network constituting the mixed network. On the basis of this, the network selection information corresponding to the application type driven in the terminal device 200 is generated. For example, the network management server 100 may use a different policy when the load of the base station apparatus for each mixed network is less than or equal to a predetermined level. In addition, it may be possible to determine whether to use various network selection policies based on information such as the number of users accessing the base station apparatus and the wireless relay apparatus or the data usage of the user.

Next, the terminal device 200 accesses the network management server 100 as the mixed network enters (S140-S160). Preferably, the terminal device 200 refers to a network management server with reference to address information provided from the base station device according to the mixed network entry configured to include one or more wireless relay devices based on the general mobile communication system based base station device. 100).

Then, the network management server 100 provides the state information and the network selection information corresponding to the specific mixed network as the terminal apparatus 200 enters the specific mixed network (S170-S180). Preferably, the network management server 100 is connected to the terminal device 200 based on the address information provided from the base station device in response to the specific mixed network of the terminal device 200 through the base station device, the base station The state information and network selection information corresponding to the specific mixed network are extracted and provided to the terminal device 200 based on the identification information of the device.

Then, the terminal device 200 recognizes the current state for each network constituting the specific mixed network based on the state information (S190). Preferably, the terminal device 200 recognizes the current state for each network constituting the mixed network based on the state information including the maximum bandwidth and the current load for the network constituting the mixed network. On the other hand, in the case of a wireless relay device constituting a mixed network, since the service range is very limited, even if receiving the information of the available wireless relay device from the network management server 100, it may not actually be available at the current location of the terminal device 200. It may be. Accordingly, the terminal device 200 activates the wireless interface and searches for the wireless relay device through channel scanning in order to check whether there is a wireless relay device that can be actually connected to itself. As such, the channel scanning operation follows the operation defined in the IEEE 802.11 standard. If the discovery of the radio relay apparatus fails through channel scanning, packet data is transmitted and received through the base station apparatus regardless of previously received network selection information.

Subsequently, when it is recognized that the terminal device 200 can access the wireless relay device through the above-described scanning operation, the terminal device 200 reflects the current state of the recognized network based on the network selection information to determine the type of application currently running. A corresponding handover target network is selected (S200). Preferably, the terminal device 200 is based on the network selection information of the currently running application based on the policy parameters including the maximum bandwidth, the current load amount, the available bandwidth, and the traffic load ratio for the network constituting the mixed network; Select the handover target network corresponding to the type. On the other hand, when there are a plurality of applications currently running, the terminal device 200 selects a specific application according to a predetermined priority, for example, user preference, execution priority, and activation, and thus, a handover target based on the network selection information. You will select a network.

Hereinafter, a method of operating the network management server 100 according to an embodiment of the present invention will be described with reference to FIG. 6.

First, when the predefined event occurs, the state information indicating the current state for each mixed network is collected (S210-S220). Preferably, the information collecting unit 110 is configured for each mixed network configured to include one or more wireless relay devices based on a universal mobile communication system based base station device according to an event occurrence, for example, a collection period according to a user setting. The state information including the maximum bandwidth and the current load for the network constituting the mixed network is collected. In this case, the information collecting unit 110 uses a separate protocol for network management such as, for example, SNMP (Simple Network Management Protocol) for collecting status information from each network constituting the mixed network. In addition, the collection period is determined according to the user's setting and may be appropriately set in consideration of the overhead of the core network. It is also possible to flexibly change the measurement interval depending on values such as the current load of each network or the number of connected users. Here, the maximum bandwidth is set by the administrator to a fixed value that does not change over time. Maximum bandwidth refers to the maximum bandwidth that an application can actually use, not the data rate at the physical layer. In addition, the current load represents the amount of data transferred on the radio link per unit time.

Thereafter, network selection information for supporting handover of the terminal device 200 is generated for each mixed network according to a predefined application type (S230-S240). Preferably, the information generating unit 120 checks the identification information of the base station apparatus for each mixed network, and if the wireless relay apparatus does not exist in the service area of the base station apparatus, the corresponding information is transmitted to the terminal apparatus 200. By doing so, when the terminal device 200 needs to select a network later, the terminal device 200 always uses the base station device without searching for the radio relay device. Furthermore, the information generation unit 120 includes a policy including a maximum bandwidth, a current load, an available bandwidth of the maximum bandwidth minus the current load, and a traffic load ratio that is a ratio of the current load to the maximum bandwidth for the network constituting the mixed network. Based on the parameter, network selection information corresponding to the type of application running in the terminal device 200 is generated. For example, the network management server 100 may use a different policy when the load of the base station apparatus for each mixed network is less than or equal to a predetermined level. In addition, it may be possible to determine whether to use various network selection policies based on information such as the number of users accessing the base station apparatus and the wireless relay apparatus or the data usage of the user. That is, the four applications of VoIP, VOD, Web, and FTP running on the terminal device 200 will be described with reference to FIG. 3. If you want to use the VoIP service, it is implemented to connect to the base station device regardless of the presence or absence of an accessible wireless relay device. This is because VoIP does not require large bandwidth, but because there is a minimum delay requirement, it is efficient to use a general-purpose mobile communication system that can guarantee QoS. On the other hand, in the case of a local area network (WLAN), there is a concern that the delay of the delivery of VoIP packets is long because QoS is not basically guaranteed. In addition, if the terminal device 200 intends to watch through the VOD service, the terminal device 200 selects a larger available bandwidth from the base station device and the wireless relay device. Like VoIP, VOD is an important application for packet delivery delay, but the bandwidth required is relatively higher than that of VoIP, which increases the probability of data loss using only general purpose mobile communication systems. Therefore, it is desirable to always select a network based on available bandwidth rather than using a general purpose mobile communication system. In addition, when using a web application, it is implemented to select a network with a low traffic load ratio. While using web applications, text and small image files are downloaded, so they do not require large bandwidth. In other words, whether the user uses a general-purpose mobile communication system or a wireless network, the haptic performance felt by the user is not significantly different. For this reason, it is desirable to be able to select the network in such a way that the traffic load ratio of the network is balanced. Finally, if the service to be used is an FTP service, in order to reduce the load of the general-purpose mobile communication system, if there is an accessible wireless relay device, the access point is first implemented. In other words, FTP is considerably larger in nature than other applications, and the amount of data transmission from the TCP server may change frequently over time. These characteristics can adversely affect other applications that require QoS such as VoIP if the FTP user uses a general-purpose mobile communication system. Therefore, it is desirable to apply the policy of AP priority access.

Thereafter, as the terminal apparatus 200 enters a specific mixed network, the terminal device 200 provides the state information and network selection information corresponding to the specific mixed network (S250-S280). Preferably, the information providing unit 130 with respect to the terminal device 200 connected based on the address information provided from the base station device in accordance with the specific mixed network of the terminal device 200 through the base station device, the base station The state information and network selection information corresponding to the specific mixed network are extracted and provided to the terminal device 200 based on the identification information of the device.

Hereinafter, a driving method of the terminal device 200 according to an embodiment of the present invention will be described with reference to FIG. 7.

First, as the mixed network enters, it accesses the network management server 100 and receives the state information on the mixed network and network selection information for supporting handover for each predefined application type (S310-S340). Preferably, the information receiving unit 210 refers to a network management server by referring to the address information provided from the base station apparatus according to the mixed network entry configured to include one or more wireless relay apparatuses based on the universal mobile communication system based base station apparatus. By accessing 100), it receives status information indicating the current state of the mixed network and network selection information for supporting handover for each predefined application type.

Then, based on the state information to recognize the current state for each network constituting the particular mixed network (S350-S360). Preferably, the network recognition unit 220 recognizes the current state for each network constituting the mixed network based on the state information including the maximum bandwidth and the current load for the network constituting the mixed network. On the other hand, in the case of a wireless relay device constituting a mixed network, since the service range is very limited, even if receiving the information of the available wireless relay device from the network management server 100, it may not actually be available at the current location of the terminal device 200. It may be. Accordingly, the network recognition unit 220 activates the radio interface and searches for the radio relay apparatus through channel scanning in order to confirm whether there is a radio relay apparatus that can be actually connected to itself. As such, the channel scanning operation follows the operation defined in the IEEE 802.11 standard. If the discovery of the radio relay apparatus fails through channel scanning, packet data is transmitted and received through the base station apparatus regardless of previously received network selection information.

Subsequently, when a situation in which the wireless relay apparatus is accessible through the above-described scanning operation is recognized, the handover target network corresponding to the type of the application currently running is reflected by reflecting the current state of each recognized network based on the network selection information. Select (S370-S380). Preferably, the network selecting unit 230 is an application currently running on the basis of policy parameters including the maximum bandwidth, current load, available bandwidth, and traffic load ratio for the network constituting the mixed network according to the network selection information. Select the handover target network corresponding to the type of. For example, when the current terminal device 200 uses VoIP, the network selector 230 directly accesses the base station device without comparing with the wireless relay device. In addition, when using the VOD application, if there are two or more accessible wireless relay devices, the wireless relay device having the largest available bandwidth is selected among the wireless relay devices, and the available bandwidth with the base station device is compared. In this case, if the available bandwidth of the base station apparatus is large, communication is performed through the base station apparatus, and in the opposite case, communication is performed through the wireless relay apparatus. Also, when using web and FTP applications, select the wireless relay device with the smallest traffic load ratio for two or more available wireless relay devices. In the case of FTP, perform the communication through the selected wireless relay device. Compared with the base station apparatus and the traffic load ratio, communication is performed through the lower ratio. On the other hand, when there are a plurality of applications currently running, the network selection unit 230 selects a specific application according to a predetermined priority, for example, user preference, execution priority, and activation, thereby handover based on the network selection information. You will select the target network.

As described above, according to the network selection method in the mixed network according to the present invention, the network management server is a base station (BS, Base Station) of the universal mobile communication system and a wireless relay device (AP, Access Point) of the wireless network system Network selection policy for each transmission target application is determined based on the collected information including the number of connected users and their respective loads, and the terminal device applies the network selection policy and the periphery network information obtained from the network management server. By selecting the most appropriate network for the application being used by the terminal device, the optimum network selection is made for each application, thereby increasing the user's satisfaction. In particular, VoIP applications can provide seamless voice calls, and VOD applications will enable higher quality video playback.

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, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

According to a network selection system and a method thereof in a mixed network according to the present invention, the existing technology in that a terminal device selects a network most suitable for an application being used by applying neighboring network information and application-specific network selection policy in a mixed network environment. It is an invention that has industrial applicability because the possibility of marketing or sales of the applied device is not only sufficient for the use of related technology but also practically obvious as it goes beyond the limit of.

100: network management server
110: information collecting unit 120: information generating unit
130: information provider
200: terminal device
210: information receiver 220: network recognition unit
230: network selection unit

Claims (20)

A network management server that collects state information indicating a current state for one or more mixed networks, and generates network selection information for each mixed network for supporting handover for each predefined application type; And
Recognizing the current state of each network constituting the specific mixed network and reflecting the current state of each network, based on the state information and network selection information of the specific mixed network received from the network management server as the specific mixed network enters. And a terminal device for selecting a handover target network corresponding to the type of the application currently running. An information collecting unit collecting state information indicating a current state for each mixed network when a predefined event occurs;
An information generation unit for generating network selection information for supporting handover of the terminal device for each mixed network according to a predefined application type; And
And an information provider for providing the status information and network selection information corresponding to the specific mixed network as the terminal enters the specific mixed network. The method of claim 2,
The information collecting unit,
Network management server, characterized in that for collecting the status information for each mixed network configured to include one or more wireless relay device based on the base station device based on the universal mobile communication system. The method of claim 3, wherein
The information collecting unit,
And collecting the state information including the maximum bandwidth and the current load for the networks constituting each mixed network. The method of claim 4, wherein
The information generation unit,
Generating network selection information corresponding to the type of application running in the terminal device based on the policy parameters including the maximum bandwidth, the current load, the available bandwidth, and the traffic load ratio for each network constituting the mixed network Network management server. An information receiver for accessing a network management server according to entry of a mixed network and receiving network information and network selection information for supporting handover for each predefined application type;
A network recognition unit recognizing a current state for each network constituting the specific mixed network based on the state information; And
And a network selector configured to select a handover target network corresponding to a type of an application currently running based on the recognized network current state based on the network selection information. The method according to claim 6,
The information receiver,
And a terminal device connected to the network management server with reference to address information provided from the base station device as the mixed network is configured to include one or more wireless relay devices based on a universal mobile communication system based base station device. The method according to claim 6,
The network recognition unit,
And a terminal device for recognizing a current state of each network constituting the mixed network based on the state information including the maximum bandwidth and the current load for the network constituting the mixed network. The method of claim 8,
The network selector,
Based on the network selection information, a handover target network corresponding to a type of an application currently running based on a policy parameter including a maximum bandwidth, a current load amount, an available bandwidth, and a traffic load ratio for a network constituting the mixed network is selected. Terminal device characterized in that the selection. The method according to claim 6,
The network selector,
And a terminal for selecting a handover target network based on the network selection information according to a predetermined priority for one or more applications currently running. A state information collection step of collecting, by the network management server, state information indicating a current state for each of one or more mixed networks;
A selection information generation step of generating, by the network management server, network selection information for supporting a handover for each predefined application type for each mixed network;
An information receiving step of a terminal device accessing the network management server according to entry of a specific mixed network and receiving status information and network selection information for the specific mixed network;
A state information recognition step of the terminal device recognizing a current state for each network constituting the specific mixed network based on the state information; And
And a network selection step of selecting a handover target network corresponding to a type of an application currently running based on the recognized network-specific current state based on the network selection information. . An information collecting step of collecting state information indicating a current state for each mixed network when a predefined event occurs;
An information generation step of generating network selection information for supporting handover of a terminal device for each mixed network according to a predefined application type; And
And an information providing step of providing the status information and network selection information corresponding to the specific mixed network as a terminal enters a specific mixed network. The method of claim 12,
The information collection step,
A method for operating a network management server, comprising collecting status information for each mixed network configured to include one or more wireless relay devices based on a universal mobile communication system based base station device. The method of claim 13,
The information collection step,
And collecting the status information including the maximum bandwidth and the current load for the networks constituting each mixed network. 15. The method of claim 14,
The information generation step,
Generating network selection information corresponding to the type of application running in the terminal device based on the policy parameters including the maximum bandwidth, the current load, the available bandwidth, and the traffic load ratio for each network constituting the mixed network Operation method of the network management server. An information receiving step of accessing a network management server according to entry of a mixed network and receiving network information and network selection information for supporting handover for each predefined application type;
A network recognition step of recognizing a current state of each network constituting the specific mixed network based on the state information; And
And a network selection step of selecting a handover target network corresponding to a type of an application currently running based on the recognized network current state based on the network selection information. 17. The method of claim 16,
The information receiving step,
Based on the universal mobile communication system-based base station apparatus based on the entry into the mixed network configured to include one or more wireless relay apparatus to access the network management server with reference to the address information provided from the base station apparatus How it works. 17. The method of claim 16,
The network recognition step,
And recognizing the current state for each network constituting the mixed network based on the state information including the maximum bandwidth and the current load for the network constituting the mixed network. The method of claim 18,
The network selection step,
Based on the network selection information, a handover target network corresponding to a type of an application currently running based on a policy parameter including a maximum bandwidth, a current load amount, an available bandwidth, and a traffic load ratio for a network constituting the mixed network is selected. Operating method of the terminal device characterized in that the selection. 17. The method of claim 16,
The network selection step,
And selecting a handover target network based on the network selection information according to a predetermined priority for one or more applications currently running.

Images