KR101492540B1 - Method for simultaneously transmitting data in heterogeneous network and apparatus - Google Patents

Abstract

The present invention implements a simultaneous transmission service environment in which one piece of data is transmitted and received corresponding to a transmitting apparatus (terminal apparatus) and transmitted / received through a plurality of heterogeneous networks. Particularly, A heterogeneous network-based data concurrent transmission service method and apparatus that propose a method for ensuring seamless continuity in transmission to a terminal device via a plurality of heterogeneous networks is disclosed. A network device for relaying data transmission / reception between a specific transmission device and a specific management device located in a specific network confirms a connection state with the transmission device, and a connection with the transmission device Requesting rerouting for specific data to the transmitting apparatus received from the management apparatus when the status is abnormal and transmitting the specific partial data divided from one specific data through two or more network interfaces When the rerouting request is received from the network device corresponding to the specific network interface, transmitting the specific partial data according to the rerouting request to the transmitting device through another network interface of the two or more network interfaces.

Description

[0001] METHOD FOR SIMULTANEOUSLY TRANSMITTING DATA IN HETEROGENEOUS NETWORK AND APPARATUS [0002]

The present invention relates to a method and apparatus for simultaneous transmission of heterogeneous network-based data, and more particularly to a method and apparatus for simultaneously transmitting and receiving data corresponding to a transmitting apparatus (terminal apparatus) A heterogeneous network-based data concurrent transfer service method which proposes a method for ensuring seamless continuity in transmitting divided partial data to a terminal device via a plurality of heterogeneous networks, A method of operating the network device and a network device, and a method of operating the management device and the management device.

Recently, operators often provide services based on multiple wireless technologies at the same time. In Korea, major operators are building and servicing networks by introducing WCDMA, CDMA, WiBro and WLAN (WiFi) technology, which is the nearest wireless network. In addition, LTE (Long Term Evolution) network is actively being introduced recently.

The present method in which a terminal device uses a data service in a heterogeneous network environment in which a plurality of networks are mixed is a method in which a controllability of a provider is excluded by an access network selection method by directly changing a terminal device user It is a passive method when considering the position of the business operator.

Meanwhile, as various wireless devices such as smartphones and tablet PCs are increasing and data rates are becoming cheaper, and at the same time, various large-capacity data services are increasing, the network load ratio of operators is rapidly rising, It is a threat from the side.

Accordingly, there is a need for a new service method for efficiently selecting an access network of a terminal device according to the state of a network in a heterogeneous network environment where a plurality of networks are mixed and efficiently transmitting data using the selected network.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a network device for relaying data transmission / reception between a specific transmission device and a specific management device, And requests rerouting for the specific data to the transmitting apparatus, which is received from the management apparatus, when the connection status with the transmitting apparatus is abnormal, and transmits the specific partial data divided from one specific data to the at least two network interfaces When receiving the rerouting request from the network device corresponding to the specific network interface, transmits the specific partial data according to the rerouting request to the transmission device through the other network interface of the two or more network interfaces it is transmitted to The present invention provides a simultaneous transmission service environment in which one data is transmitted and received through a plurality of heterogeneous networks in response to data transmission and reception corresponding to a transmission apparatus, And to ensure seamless continuity in transmitting partial data to a transmitting apparatus via a plurality of heterogeneous networks.

Another object to be achieved by the present invention is to provide a method and system for relaying specific partial data transmission and reception divided in specific data between a transmitting apparatus and a specific management apparatus connected through a specific network, A network device for determining whether or not the connection status of the device is abnormal and requesting rerouting of specific partial data to the transmission device received from the management device when the connection status of the transmission device is abnormal; The present invention provides a simultaneous transmission service environment in which one data is divided and transmitted / received corresponding to a transmitting apparatus through a plurality of heterogeneous networks. Particularly, the divided data is divided into a plurality of heterogeneous networks In the transmission to the transmitting apparatus To ensure continuity.

It is another object of the present invention to provide a method and apparatus for transmitting and receiving specific partial data divided from one specific data through two or more network interfaces through two or more networks to a specific transmitting apparatus And when a specific rerouting request is received from a network device corresponding to a specific network interface among the two or more network interfaces, the corresponding partial data corresponding to the rerouting request is transmitted to the transmitting device through another network interface of the two or more network interfaces A management apparatus and an operation method of a management apparatus to implement a simultaneous transmission service environment in which one data is divided and transmitted / received corresponding to a transmission apparatus through a plurality of heterogeneous networks, The And to ensure seamless continuity in transmitting partial data to a transmitting apparatus via a plurality of heterogeneous networks.

According to a first aspect of the present invention, there is provided a heterogeneous network-based data concurrent transmission service system for relaying data transmission / reception between a specific transmitting apparatus and a specific managing apparatus located in a specific network, A network device for requesting rerouting of specific data to the transmitting apparatus received from the management apparatus when the network apparatus is abnormal; And transmits the specific partial data divided from one specific data to the transmitting apparatus through two or more network interfaces. When the rerouting request is received from the network apparatus corresponding to a specific network interface among the two or more network interfaces, And transmitting the corresponding partial data according to the request to the transmitting apparatus through another network interface among the two or more network interfaces.

According to a second aspect of the present invention, there is provided a network device comprising: a data relay unit for relaying specific partial data transmission / reception divided from specific data between a transmitting apparatus and a specific management apparatus connected through a specific network; And a rerouting control unit for requesting rerouting of the specific partial data to the transmission apparatus, which is received from the management apparatus, when the connection state of the transmission apparatus is abnormal.

Preferably, the rerouting control unit monitors the connection status of the transmitting apparatus to determine a first situation in which a response corresponding to transmission to the transmitting apparatus exceeds a predefined delay threshold, It is possible to determine that the connection state of the transmission apparatus is abnormal if at least one of the first situation and the second situation occurs.

Preferably, the rerouting control unit, when the connection state of the transmission apparatus is abnormal, may further include a re-routing unit configured to re-route the data received from the management apparatus, according to a specific rerouting policy including at least one of specific return address information and data return information The rerouting request including at least one of the specific partial data to the transmitting apparatus to which the rerouting request is made, the partial information of the partial data, the apparatus identification information of the transmitting apparatus, and the abnormal state information indicating that the connection state is abnormal, To the specific device corresponding to the return address information.

Preferably, the rerouting policy includes at least one of a management apparatus, a specific apparatus corresponding to the returned address information, and a specific policy management apparatus that determines a network selection policy based on network status information for the two or more networks Lt; / RTI >

Preferably, the rerouting control unit is configured to relay, when the connection state of the transmitting apparatus changes from abnormal to normal, the data relaying unit to normally relay the specific partial data to the transmitting apparatus, which is received from the managing apparatus, And a second operation for providing steady state information indicating that the connection state of the transmitting apparatus is normally switched to the corresponding apparatus providing the rerouting request, .

According to a third aspect of the present invention, there is provided a management apparatus comprising: a multi-communication unit for supporting two or more network interfaces through two or more networks; And transmits the specific partial data segmented in one specific data to the specific transmission device through the two or more network interfaces, and when a specific rerouting request is received from a network device corresponding to a specific network interface among the two or more network interfaces, And transmitting the corresponding partial data according to the routing request to the transmitting apparatus through another network interface among the two or more network interfaces.

Preferably, the control unit may include at least one of partial data identification information indicating specific partial data, the partial partial data, device identification information of the transmission apparatus, and abnormal state information indicating that the connection state is abnormal, When the routing request is received, the partial data included in the rerouting request may be transmitted to the transmitting apparatus through a specific one of the two or more network interfaces.

Preferably, the control unit may include at least one of partial data identification information indicating specific partial data, the partial partial data, device identification information of the transmission apparatus, and abnormal state information indicating that the connection state is abnormal, When the routing request is received, the corresponding partial data according to the partial data identification information included in the rerouting request may be acquired and transmitted to the transmission device through the specific one of the two or more network interfaces.

Preferably, the control unit may include at least one of partial data identification information indicating specific partial data, the partial partial data, device identification information of the transmission apparatus, and abnormal state information indicating that the connection state is abnormal, The method of claim 1, further comprising: when the routing request is received, recognizing an abnormal state of the connection state of the transmission apparatus based on the abnormal state information included in the rerouting request and then transmitting the rerouting request to the transmission apparatus via the network interface And transmit at least one piece of partial data to the transmitting apparatus through a specific one of the two or more network interfaces.

Preferably, when the normal state information indicating that the connection state of the transmission apparatus is normally switched from the network apparatus is received, the control unit recognizes the normal state of the connection state of the transmission apparatus, The partial data can be normally transmitted to the transmitting apparatus through the network interface.

According to a fourth aspect of the present invention, there is provided a simultaneous heterogeneous network-based data concurrent transmission service method, wherein a network apparatus for relaying data transmission / reception between a specific transmitting apparatus and a specific managing apparatus located in a specific network, Checking a connection status; Requesting rerouting of specific data to the transmission apparatus, which is received from the management apparatus, when the network apparatus is in an abnormal state of connection with the transmission apparatus; When the management device that transmits and receives specific partial data segmented in one specific data via two or more network interfaces receives the rerouting request from the network device corresponding to a specific network interface, To the transmitting apparatus through another network interface among the two or more network interfaces.

According to a fifth aspect of the present invention, there is provided a method of operating a network device, the method comprising: relaying a specific partial data transmission / reception performed on specific data between a transmitting apparatus and a specific management apparatus connected through a specific network; A status judging step of judging whether or not the connection status of the transmitting apparatus is abnormal; And a rerouting request step of requesting rerouting of the specific partial data to the transmitting apparatus received from the management apparatus when the connection state of the transmitting apparatus is abnormal.

Preferably, the status determination step may include monitoring a connection status of the transmission device to determine whether a response corresponding to transmission to the transmission device exceeds a predefined delay threshold, It is possible to determine that the connection state of the transmission apparatus is abnormal if at least one of the first situation and the second situation occurs.

Preferably, the rerouting requesting step includes receiving, from the management apparatus, a request for re-routing according to a specific rerouting policy including at least one of specific return address information and data return information when the connection state of the transmitting apparatus is abnormal Wherein the relaying request includes at least one of specific partial data to the transmitting apparatus to which the relaying request is made, identification information of the partial data, device identification information of the transmitting apparatus, and abnormal state information indicating that the connection state is abnormal. To the specific device corresponding to the return address information.

Preferably, the rerouting policy includes at least one of a management apparatus, a specific apparatus corresponding to the returned address information, and a specific policy management apparatus that determines a network selection policy based on network status information for the two or more networks Lt; / RTI >

A first operation for normally relaying the specific partial data to the transmission apparatus received from the management apparatus to the transmission apparatus when the connection state of the transmission apparatus changes from abnormal to normal, And a second operation for providing steady state information indicating that the connection status of the transmission apparatus is normally switched to the first connection status.

According to a sixth aspect of the present invention, there is provided a method of operating a management device, comprising: transmitting / receiving specific partial data divided from one specific data through two or more network interfaces through two or more networks to / ; And when a specific rerouting request is received from a network device corresponding to a specific network interface among the two or more network interfaces, the corresponding partial data corresponding to the rerouting request is transmitted to the transmitting device through another network interface of the two or more network interfaces And a rerouting step.

Preferably, the rerouting step includes at least any one of partial data identification information indicating specific partial data, the partial partial data, device identification information of the transmission apparatus, and abnormal state information indicating that the connection state is abnormal When the rerouting request is received, the partial data included in the rerouting request may be transmitted to the transmitting device through a specific one of the two or more network interfaces.

Preferably, the rerouting step includes at least any one of partial data identification information indicating specific partial data, the partial partial data, device identification information of the transmission apparatus, and abnormal state information indicating that the connection state is abnormal When the rerouting request is received, corresponding partial data according to the partial data identification information included in the rerouting request may be acquired and transmitted to the transmitting apparatus through another specific one of the two or more network interfaces.

Preferably, the rerouting step includes at least any one of partial data identification information indicating specific partial data, the partial partial data, device identification information of the transmission apparatus, and abnormal state information indicating that the connection state is abnormal Wherein when the rerouting request is received, it is recognized that the connection state of the transmitting apparatus is abnormal based on the abnormal state information included in the rerouting request, and then transmitted to the transmitting apparatus via the network interface And transmit at least one piece of partial data to be transmitted to the transmitting apparatus through a specific one of the two or more network interfaces.

Preferably, when the normal state information indicating that the connection state of the transmission apparatus is normally switched is received from the network apparatus, the normal state information of the transmission apparatus is recognized, and thereafter, And transmitting the partial data to the transmitting apparatus through the normal transmission step.

According to another aspect of the present invention, there is provided a method and apparatus for simultaneously transmitting data using a heterogeneous network, the method comprising: dividing one data for transmission and reception of data corresponding to a transmitting apparatus (terminal apparatus) It is possible to implement a simultaneous transmission service environment and to transmit to a terminal device through another network interface through rerouting of partial data attempted to be transmitted through a specific network interface (for example, WiFi) whose connection status with the terminal device is abnormal , It is possible to guarantee continuous continuity in transmitting each partial data to the terminal device through the heterogeneous network, thereby improving the reliability and quality of the service.

1 is a configuration diagram illustrating a heterogeneous network-based data concurrent transmission service system according to a preferred embodiment of the present invention.
2 is a block diagram illustrating a configuration of a network device according to a preferred embodiment of the present invention.
3 is a block diagram showing a configuration of a management apparatus according to a preferred embodiment of the present invention.
4 is a flowchart illustrating a service flow of a heterogeneous network-based data concurrent transmission service method according to a preferred embodiment of the present invention.
5 is a flowchart illustrating an operation method of a network device according to a preferred embodiment of the present invention.
6 is a flowchart illustrating an operation method of a management apparatus according to an exemplary embodiment of the present invention.

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

FIG. 1 illustrates a heterogeneous network-based data concurrent transmission service system according to a preferred embodiment of the present invention.

As shown in FIG. 1, the heterogeneous network-based data concurrent transmission service system according to the present invention relays data transmission / reception between a specific transmission apparatus 100 and a specific management apparatus 400 located in a specific network, The network device 200 or 300 requesting rerouting of specific data to the terminal device 100 received from the management device 400 when the connection state with the network device 100 is abnormal, And transmits the corresponding partial data according to the rerouting request when the rerouting request is received from the network device 200 or 300 corresponding to the specific network interface among the two or more network interfaces. To the transmitting apparatus 100 via another network interface among the two or more network interfaces It comprises a management unit (400). The transmitting apparatus 100 will be described as the terminal apparatus 100 for convenience of explanation.

Furthermore, the heterogeneous network-based data concurrent transmission service system according to the present invention includes an external device 500 that receives combined data from the management device 400 and a policy management device 600 that provides a network selection policy .

Accordingly, the heterogeneous network-based data concurrent transfer service according to the present invention divides data for data transmission / reception between the terminal device 100 and the external device 500, and uses a plurality of heterogeneous networks (e.g., a 3G network and a WiFi network) Transmission / reception is implemented.

The external device 500 refers to a server device that transmits and receives data to and from the terminal device 100 through the management device 400. The external device 500 may transmit and receive data to and from the terminal device 100 through the management device 400, Portal service, and content providing service.

In addition, the policy management apparatus 600 can manage various network parameters on the heterogeneous network including the subscriber preference, the subscriber type, the subscription plan, the type of the service target application, and the like, 400 to provide the network selection policy to the terminal device 100 and the management device 400. [

Meanwhile, the heterogeneous networks may be various access networks including WCDMA, CDMA, WiBro, WLAN (WiFi) and LTE (Long Term Evolution), for example. However, in the present embodiment, (Hereinafter referred to as a " WiFi network ") which refers to a first network (hereinafter referred to as a 3G network) and a second wireless network (WiFi)

Accordingly, the first network device 200 refers to a 3G network, that is, a Gateway GPRS Support Node (GGSN) for operating a wireless packet service network. In addition, the second network device 300 includes a WiFi network, And an access point (AP) for operating a short-range wireless network.

In addition, the terminal device 100 and the management device 400 may be configured to transmit / receive data according to a service flow, i.e., a subject that transmits data using a simultaneous data transmission service, that is, an uplink process and a downlink process And may be a receiving apparatus that receives / combines partial data.

First, in order to use the simultaneous data transmission service in the heterogeneous network environment, the service registration procedure between the terminal device 100 and the management device 400 must be preceded.

In this regard, the terminal device 100 is allocated its own first network connection information (e.g., 3G IP) to the 3G network and allocates its second network connection information (e.g., WiFi IP) to the WiFi network Will receive.

For example, the terminal device 100 performs location registration in the 3G network and receives its first network access information (e.g., 3G IP) according to an existing access information allocation scheme from the first network device 200 .

In addition, the terminal device 100 can access the WiFi network and receive second network connection information (e.g., WiFi IP) from the second network device 300 according to an existing connection information allocation scheme.

The terminal device 100 is connected to the 3G network connection management device (hereinafter, referred to as " 3G network connection management device ") that can access the management device 400 through the first network, Access information (e.g., management information) of the management device 400 for WiFi network that can acquire the access information (e.g., management device 3G IP) of the WiFi network 400 and access the management device 400 via the second network, Device WiFi IP).

At this time, in the terminal device 100, the access information (e.g., management device 3G IP) of the management device 400 for access to the 3G network and the access information (e.g., management device WiFi IP) of the management device 400 for connection to the WiFi network Acquisition / awareness will be possible through various procedures.

When the connection information acquisition procedure for the management apparatus 400 is completed, a service registration procedure between the terminal apparatus 100 and the management apparatus 400 must be performed.

In this regard, the terminal device 100 accesses the management apparatus 400 via the 3G network and the WiFi network based on the acquired 3G network connection access information and WiFi network connection access information, and requests service registration .

For example, the terminal apparatus 100 is connected to the management apparatus 400 via the first network, that is, the 3G network, based on the obtained connection information (for example, the management apparatus 3G IP) of the management apparatus 400 for access to a public network And transmits a binding update message (Binding Update) to request registration of the service for the terminal device 100 itself. Accordingly, the management apparatus 400 receives the additional information included in the service registration request, such as device identification information (e.g., IMSI), first network connection information (e.g., 3G IP) (Binding Update Ack) to the terminal device 100 by checking service type information (e.g., 3G) and service classification information (Initial, Update, and Remove) By returning, the service registration procedure through the 3G network can be performed.

The terminal device 100 accesses the management device 400 via the second network, that is, the WiFi network, based on the acquired connection information (e.g., management device WiFi IP) of the management device 400 for connection to the WiFi network, Message (Binding Update) to request registration of the service for the terminal device 100 itself. Accordingly, the management apparatus 400 transmits the additional information included in the service registration request, such as device identification information (e.g., IMSI), second network connection information (e.g., WiFi IP) (Binding Update Ack) to the terminal device 100 by confirming the type information (e.g., WiFi) and the service classification information (Initial, Update, and Remove) , The service registration procedure through the WiFi network can be performed.

Based on the additional information included in the service registration request of the terminal device 100, which is received through the service registration procedure with the terminal device 100, that is, through the 3G network and the WiFi network, (E.g., 3G IP and WiFi IP) and service classification information (e.g., 3GPP) that are mapped on the basis of unique table information, for example, device identification information (e.g., IMSI) Initial, Update, Remove), and the like. The management apparatus 400 includes a network selection policy for traffic distribution in a heterogeneous network environment, for example, source IP, source port, destination IP, destination port, protocol (UDP, TCP, And the traffic distribution rate per network can be additionally managed to the subscriber-specific table information.

When the terminal device 100 and the management device 400 have completed the procedures for registering the service between the terminal device 100 and the management device 400, the first network interface through the 3G network and the WiFi network Lt; / RTI > is connected.

A simultaneous transmission service through a heterogeneous network, that is, a 3G network and a WiFi network, for data transmission / reception between the terminal device 100 and the external device 500 will be started.

First, a description will be made on the basis of an uplink process in which the terminal apparatus 100 transmits data to the management apparatus 400 as a receiving apparatus as a transmitting apparatus.

The terminal device 100 divides the transmission target data into partial data to use the simultaneous transmission service.

That is, the terminal device 100 divides the data to be transmitted in correspondence with the number of networks for simultaneous transmission of data using the heterogeneous network environment, that is, the 3G network and the WiFi network, and this division process is transmitted from the policy management apparatus 600 Based on the changed network-specific traffic distribution rate received from the management apparatus 400 according to the network selection policy or the real-time network status detection.

In other words, the terminal device 100 confirms a first transmission rate for data transmission to the first network device 200 included in the network selection policy and a second transmission rate for data transmission to the second network device 300 Selects the first partial data to be transmitted to the first network device 200 among the divided partial data based on the confirmed transmission ratio and selects the second partial data to be transmitted to the second network device 300 among the remaining partial data .

Accordingly, the terminal device 100 performs the above-described data division process based on the network selection policy and the traffic distribution rate for each network that is changed in real time, so that the relative use ratio of the 3G network and the WiFi network is changed to 10% 90% of WiFi network, 90% of 3G network and 10% of WiFi network, 50% of 3G network and 50% of WiFi network, 0% of 3G network and 100% of WiFi network and 100% of 3G network and 0% of WiFi network have.

Then, the terminal device 100 transmits the first partial data through the first network interface and transmits the second partial data through the second network interface.

That is, the terminal device 100 includes first network access information (e.g., 3G IP) corresponding to the first network in the first partial data, and further includes management device 400 corresponding to the first network, (For example, management apparatus 3G IP) of the management apparatus 400 for access to the 3G network and connection information of the external apparatus 500 corresponding to the final destination.

In addition, the terminal device 100 may include second network access information (e.g., WiFi IP) of its own corresponding to the second network in the second partial data, and further includes management device 400 corresponding to the second network, (E.g., management device WiFi IP) of the management device 400 for connection to the WiFi network and connection information of the external device 500 corresponding to the final destination.

The first network device 200 located in the 3G network will transmit the first partial data from the terminal device 100 to the management device 400 as the receiving device.

And the second network device 300 located in the WiFi network will transmit the second partial data from the terminal device 100 to the management device 400 as the receiving device.

The first partial data divided in the terminal device 100 is transmitted to the management device 400 via the 3G network and the divided second partial data is transmitted to the management device 400 via the WiFi network.

The management device 400 as the receiving device receives the first partial data from the first network device 200 and receives the second partial data from the second network device 300 and receives the received first partial data and the second partial data The first partial data and the second partial data from the terminal device 100 are combined / combined according to the order information included in the corresponding partial data to generate original data, The target data is restored.

Then, the management apparatus 400 may use the connection information of the external device corresponding to the final destination recognized through the partial data of at least one of the first partial data and the second partial data, And transmits the data to be transmitted.

As described above, the first partial data and the second partial data divided in the terminal device 100 are transmitted through the management device 400 through the heterogeneous network (3G and WiFi networks), i.e., the first network interface and the second network interface, respectively Is combined with the management device 400 and restored to original transfer target data, and the restored transfer target data is transferred as one data to the external device 500 which is the final destination.

Next, with respect to the data concurrent transfer service procedure between the terminal device 100 and the management device 400, the management device 400 performs a downlink process of transmitting data to the terminal device 100 as a receiving device as a transmitting device .

For data requested to be transmitted from the external device 500 to the terminal device 100, the management device 400 divides the data to be transmitted into partial data to use the simultaneous transmission service.

That is, the management apparatus 400 divides the data to be transmitted in correspondence with the number of the network in order to simultaneously transmit data using the heterogeneous network environment, that is, the 3G network and the WiFi network. The division process is transmitted from the policy management apparatus 600 Based on the network selection policy or the real-time network state detection.

In other words, the management apparatus 400 confirms a first transmission rate for data transmission to the first network device 200 included in the network selection policy and a second transmission rate for data transmission to the second network device 300 Selects the first partial data to be transmitted to the first network device 200 among the divided partial data based on the confirmed transmission ratio and selects the second partial data to be transmitted to the second network device 300 among the remaining partial data .

Accordingly, the management apparatus 400 performs the above-described data division process based on the network selection policy and the traffic distribution rate for each network that is changed in real time, so that the relative use ratio of the 3G network and the WiFi network is changed to, for example, 10% 90% of WiFi network, 90% of 3G network and 10% of WiFi network, 50% of 3G network and 50% of WiFi network, 0% of 3G network and 100% of WiFi network and 100% of 3G network and 0% of WiFi network have.

Then, the management apparatus 400 acquires access information (e.g., 3G IP and WiFi IP) for each network corresponding to the terminal device 100 which is the final destination of the current data transmission, based on the subscriber- .

Then, the management apparatus 400 transmits the first network access information (e.g., 3G IP) of the terminal apparatus 100 corresponding to the first network to the first partial data, the second network access information (E.g., WiFi IP) of the terminal device 100 that is connected to the network.

Of course, the management apparatus 400 may also include the first network connection information (e.g., the management apparatus 3G IP) corresponding to the first network and the connection information of the external apparatus 500 corresponding to the first transmission destination, Data.

In addition, the management apparatus 400 may also connect its own second network connection information (e.g., management device WiFi IP) corresponding to the second network and the connection information of the external device 500 corresponding to the first transmission destination, Data.

Thereafter, the management apparatus 400 transmits the first partial data to the terminal apparatus 100 as the receiving apparatus through the first network interface, and transmits the second partial data to the terminal apparatus 100 (serving as the receiving apparatus) via the second network interface ).

The first network device 200 located in the 3G network will transmit the first partial data from the management device 400 to the terminal device 100 as the receiving device.

And the second network device 300 located in the WiFi network will transmit the second partial data from the management device 400 to the terminal device 100 as the receiving device.

The data transmitted from the external device 500 is divided in the process of passing through the management device 400. The first partial data segmented by the management device 400 is transmitted to the terminal device 100 via the 3G network The divided second partial data is transmitted to the terminal device 100 via the WiFi network.

The terminal device 100 as the receiving device receives the first partial data from the first network device 200 and receives the second partial data from the second network device 300 and the received first partial data and the second partial data Data is combined / combined according to the order information included in the corresponding partial data to generate original data, thereby restoring the transmission target data to be transmitted by the management apparatus 400. [

The first partial data and the second partial data divided in the management device 400 are transmitted to the terminal device 100 through the heterogeneous network (3G and WiFi network) and are combined in the terminal device 100, Lt; / RTI >

If a heterogeneous network interface is not always maintained between the terminal device 100 and the management device 400 in order to provide a simultaneous transmission service between the terminal device 100 and the external device 500 through the heterogeneous network as described above, Any partial data of the partial data segmented from the data may be lost.

For example, the second network, that is, the WiFi network interface, is characterized by its small coverage and frequent changes in link characteristics. In particular, considering the case where the management apparatus 400 transmits data to the terminal apparatus 100 via the WiFi network interface, the connection state of the terminal apparatus 100 through the WiFi network interface is not normal, There may be a situation where it is difficult to guarantee the quality of service such as data flow is broken.

Therefore, in the present invention, it is possible to prevent the expected situation as described above, and to provide the partial data to the terminal device 100 when providing simultaneous transmission service through the heterogeneous network as described above between the terminal device 100 and the external device 500 The present invention further proposes a configuration capable of maintaining reliability and quality by ensuring seamless continuity in transmission.

The network devices 200 and 300 (hereinafter referred to as the second network device 300 for convenience of explanation) check the connection state with the terminal device 100 and receive from the management device 400 when the connection state is abnormal And requests rerouting for specific data to the terminal device 100 that is connected to the network.

That is, the second network device 300 confirms the connection state with the terminal device 100 connected thereto through its own network interface, that is, the WiFi network interface. At this time, the second network device 300 can confirm the connection state with the terminal device 100 every predetermined confirmation period, or can check the connection state with the terminal device 100 every time partial data requested to be transmitted to the terminal device 100 is received. Can be confirmed.

If the second network device 300 determines that the connection state with the terminal device 100 is abnormal, the second network device 300 performs rerouting on specific data, i.e., partial data, from the management device 400 to the terminal device 100 that is currently received And can request the management apparatus 400. [

The management apparatus 400 transmits and receives specific partial data divided from one specific data to the terminal apparatus 100 through two or more network interfaces (for example, 3G, WiFi) as described above, Lt; / RTI >

At this time, when the rerouting request is received from a network device corresponding to a specific network interface among the two or more network interfaces, the management device 400 transmits corresponding partial data according to the rerouting request to another network interface of the two or more network interfaces To the terminal device (100).

That is, in order to provide a simultaneous transmission service through the heterogeneous network as described above, the management device 400 stores the first partial data and the second partial data, which are divided from the data to be transmitted to the terminal device 100 in the downlink process, The first network device 200 and the second network device 300 may attempt to transmit to the terminal device 100 through a heterogeneous network interface (e.g., 3G, WiFi).

At this time, when the rerouting request is received from the second network device 300 corresponding to the specific network interface (e.g., WiFi), the management device 400 transmits the corresponding partial data, i.e., the second partial data, Described second partial data to be transmitted to the terminal device 100 through another network interface (e.g., 3G) of two or more network interfaces to the first network device 200 corresponding to the 3G network interface.

Partial data to be transmitted through a specific network interface (e.g., WiFi) having an abnormal connection state with the terminal apparatus 100 among the heterogeneous network interfaces is transmitted to the terminal apparatus (e.g., 3G) through another network interface 100), the terminal device 100 can normally receive all of the partial data segmented from one piece of data.

Accordingly, the terminal device 100 combines / combines the received first partial data and the second partial data according to the order information included in the corresponding partial data to generate original data, so that the management device 400 The transmission target data to be transmitted is restored.

Hereinafter, the configuration of the network device according to the present invention will be described in more detail with reference to FIG. For ease of explanation, reference numerals of 300 of the first network device 200 and the second network device 300 will be described.

The network device 300 according to the present invention includes a data relay unit 310 for relaying specific partial data transmission and reception divided from specific data between a terminal device 100 and a specific management device 400 connected through a specific network, And a rerouting control unit 320 for requesting rerouting of specific partial data to the terminal apparatus 100 received from the management apparatus 400 when the connection state of the terminal apparatus 100 is abnormal.

The data relay unit 310 is connected to the terminal device 100 connected via a specific network (e.g., WiFi) in which the network device 300 is located and a specific management device 400 for simultaneous transmission service through the heterogeneous network described above. Lt; / RTI >

In other words, the data relaying unit 310 relays data transmission / reception between the terminal device 100 and the management apparatus 400 connected via the WiFi network interface, that is, transmission / reception of specific partial data divided from specific data.

For example, when the second partial data segmented from one piece of data is received from the terminal device 100 in the uplink process, the rerouting control unit 320 provides the second partial data to the management device 400, When the second partial data segmented from one piece of data is received from the device 400, the second partial data is relayed to the terminal device 100 and the data transmission / reception between the terminal device 100 and the management device 400.

The rerouting control unit 320 requests rerouting for specific partial data to the terminal apparatus 100 received from the management apparatus 400 when the connection state of the terminal apparatus 100 is abnormal.

More specifically, the rerouting control unit 320 monitors the connection status of the terminal device 100. [ At this time, the rerouting control unit 320 can confirm / monitor the connection state with the terminal device 100 at a specific confirmation time. For example, the rerouting control unit 320 can confirm / monitor the connection state with the terminal device 100 at each time point that the predetermined confirmation period elapses, or when the partial data requested to be transmitted to the terminal device 100 is received The state of connection with the terminal device 100 can be confirmed / monitored.

The rerouting control unit 320 may control the rerouting control unit 320 so that the response corresponding to the transmission to the terminal apparatus 100 is transmitted to the terminal apparatus 100 in at least one of a first state in which a response exceeding a predetermined delay threshold and a second state in which a specific event recognized as a connection disconnection occurs It can be determined that the connection state of the terminal device 100 is abnormal.

That is, the rerouting control unit 320 determines whether or not the response (e.g., the first partial data) to be transmitted to the terminal apparatus 100 For example, ack) exceeds a predetermined delay threshold (e.g., x sec), it can be determined that the connection state of the terminal device 100 is abnormal.

Alternatively, the rerouting control unit 320 may transmit a predetermined predefined event (e.g., ack non-response, connection end acknowledgment, etc.) recognized as a connection disconnection to the terminal apparatus 100 as a result of checking the connection state with the terminal apparatus 100, It is possible to judge that the connection state of the terminal device 100 is abnormal.

The rerouting control unit 320 determines that the specific partial data to the terminal apparatus 100 received from the management apparatus 400 (for example, the second partial data ) To the destination node.

In other words, the rerouting control unit 320 preferably has a specific rerouting policy including at least one of specific return address information and data return information.

That is, the rerouting control unit 320 determines whether to return / provide partial data to request rerouting, return address information indicating an address to a device (for example, the management apparatus 400) And a returning policy that includes at least one of the data return information indicating whether the data is returned or not. Further, the rerouting policy may include a policy for the confirmation point based on the confirmation of the connection state with the terminal apparatus 100 mentioned above, and the connection state of the terminal apparatus 100 mentioned above may be abnormal A first situation and a second situation as a basis for judging whether or not the user is a person who is in charge of the present invention, and various other situations.

Here, the rerouting policy includes a management apparatus 400 and a specific policy management apparatus 600 for determining a network selection policy based on network status information on a specific device (not shown) corresponding to the return address information and two or more networks Or the like).

Hereinafter, an embodiment in which the network device 300 maintains the above-described rerouting policy through interlocking with the management apparatus 400, and the rerouting policy is updated by the management apparatus 400 thereafter will be described.

That is, when the connection state of the terminal device 100 is abnormal, the rerouting control unit 320 having the above-described rerouting policy interlocked with the management device 400, according to the rerouting policy, And at least one of the identification information of the partial data to be transmitted to the terminal device 100 to be requested to be returned and the partial identification data of the partial data and the abnormal state information indicating that the connection state is abnormal and the device identification information of the terminal device 100 To the specific device (e.g., management device 400) corresponding to the return address information.

In the first embodiment, the rerouting control unit 320, when the connection status of the terminal apparatus 100 is abnormal, displays the device identification information (e.g., IMSI) of the terminal apparatus 100, To the management device 400, a rerouting request including specific partial data to the terminal device 100 to be requested for rerouting received from the device 400. [

Each time the network device 300 according to the present invention receives partial data requested to be transmitted to the terminal device 100 having an abnormal connection status from the management device 400, And requests the management device 400 to transmit the partial data returned through the other network interface (e.g., 3G) to the terminal device 100 as described above.

On the other hand, if the connection state of the terminal apparatus 100 is abnormal, the rerouting control unit 320 may determine whether the terminal apparatus 100 (100) to be rerouted received from the management apparatus 400 according to the rerouting policy To the management device 400 as a rerouting request.

Each time the network device 300 according to the present invention receives partial data requested to be transmitted to the terminal device 100 having an abnormal connection status from the management device 400, And requests the management device 400 to transmit the partial data returned through the other network interface (e.g., 3G) to the terminal device 100 as described above.

On the other hand, if the connection status of the terminal apparatus 100 is abnormal, the rerouting control unit 320 may determine that the device identification information (e.g., IMSI) of the terminal apparatus 100 , And provide the management apparatus 400 with a rerouting request including identification information on specific partial data to the terminal apparatus 100 received from the management apparatus 400 requesting the rerouting.

Each time the network device 300 according to the present invention receives partial data requested to be transmitted to the terminal device 100 having an abnormal connection status from the management device 400, Information to the management apparatus 400 and requests rerouting so that the management apparatus 400 transmits the corresponding partial data according to the identification information returned via the other network interface (e.g., 3G) to the terminal apparatus 100 ).

In the fourth embodiment, the rerouting control unit 320 determines the device identification information (e.g., IMSI) of the terminal device 100 according to the rerouting policy when the connection state of the terminal device 100 is abnormal, A rerouting request including abnormal state information indicating that the connection state is abnormal and identification information on specific partial data or partial data received from the management apparatus 400 to be requested for rerouting to the management apparatus 400 400).

The network device 300 according to the present invention reports the abnormal state information informing the management device 400 that the connection state of the current terminal device 100 is abnormal and requests rerouting, Transmits the partial data to be transmitted to the terminal device 100 through the network interface (e.g., WiFi) according to the network device 300 to the terminal device 100 via another network interface (e.g., 3G) as described above .

When the connection state of the terminal apparatus 100 changes from abnormal to normal, the rerouting control unit 320 transmits specific partial data to the terminal apparatus 100 received from the management apparatus 400 to the terminal apparatus 100 A normal operation of requesting the data relay unit 310 to relay the normal connection and the normal operation of notifying the corresponding device providing the rerouting request (for example, the management device 400) And a second operation for providing status information.

That is, referring to the first, second, and third embodiments described above, the rerouting control unit 320, when the connection state of the terminal device 100 is changed from abnormal to normal, Performs a first operation of requesting the data relay unit 310 to relay the partial data to the terminal apparatus 100 normally without requesting rerouting for the specific partial data to the terminal apparatus 100 received from the terminal apparatus 100 something to do.

When the second partial data segmented from one piece of data is received from the management apparatus 400 in the downlink process, the data relay unit 310 provides the second partial data to the terminal apparatus 100 with a normal connection state, ) And the management apparatus 400 will normally relay data.

In the meantime, referring to the above-described fourth embodiment, when the connection state of the terminal device 100 is changed from abnormal to normal, the rerouting control section 320 determines that the corresponding device (for example, (400) to provide the steady state information indicating that the connection status to the terminal apparatus 100 is normally switched.

The management apparatus 400 having received the normal status information then transmits the partial data to be transmitted to the terminal apparatus 100 via the network interface (e.g., WiFi) according to the network apparatus 300 to another network interface (e.g., 3G) The operation to transmit to the terminal device 100 via the network interface 300 (for example, WiFi) will be stopped.

When the second partial data segmented from one piece of data is received from the management apparatus 400 in the downlink process, the data relay unit 310 provides the second partial data to the terminal apparatus 100 having a normal connection state, 100 and the management apparatus 400 will be normally relayed.

Hereinafter, the configuration of the management apparatus according to the present invention will be described in more detail with reference to FIG.

The management apparatus 400 according to the present invention includes a multi-communication unit 430 for supporting two or more network interfaces through two or more networks, and a communication unit 430 for transmitting specific partial data divided from one specific data through the two or more network interfaces, When receiving a specific rerouting request from a network device corresponding to a specific network interface among the two or more network interfaces, transmits corresponding partial data according to the rerouting request to another network interface of the two or more network interfaces To the terminal device 100 through the control unit 440.

The multi-communicating unit 430 is a communication functional unit that supports two or more network interfaces through two or more different networks. For example, referring to two networks, the multi-communication unit 430 may include a first communication unit 410 supporting the first network and a second communication unit 420 supporting the second network.

Here, the first communication unit 410 is a communication module that supports a first network interface through a first network and transmits / receives data, for example, a communication module for interworking with the first network device 200 using a 3G network .

The second communication unit 420 is a communication module that supports the second network interface through the second network and transmits and receives data. For example, the second communication unit 420 is a communication module for interworking with the second network device 300 using a WiFi network .

1, the control unit 440 performs a service registration procedure with the terminal apparatus 100 via two or more heterogeneous networks, i.e., the first network and the second network, (I.e., a 3G network interface) and a second network interface (i.e., a WiFi network interface) and is connected to the terminal device 100 via the 3G network interface and the WiFi network interface And performs the aforementioned simultaneous transmission service by transmitting and receiving.

That is, the terminal device 100 divides the data to transmit the first partial data through the first network device 200, the 3G network interface, and the second partial data to the WiFi network interface The control unit 440 receives the first partial data through the 3G network interface and receives the second partial data through the WiFi network interface to generate the original data through a series of combining procedures / Restore.

Then, the control unit 440 transmits the restored data to the corresponding external device 500.

The control unit 440 controls the control unit 440 to transmit data from the external device 500 to the terminal device 100 in the downlink process in which the management device 400 divides / Transmits the first partial data to the terminal device 100 through the 3G network interface by dividing the data requested to be provided to the device 100 and transmits the second partial data to the second network device 300 To the terminal device 100 via the WiFi network interface.

When a specific rerouting request is received from a network device corresponding to a specific network interface among the two or more network interfaces, the controller 440 transmits corresponding partial data according to the rerouting request to the terminal To the device (100).

More specifically, the control unit 440 divides the data to transmit the first partial data to the terminal device 100 via the 3G network interface via the first network device 200, and transmits the second partial data to the second In the downlink process of transmitting to the terminal device 100 via the WiFi network interface via the network device 300, a specific rerouting request can be received from the network device 300 corresponding to a specific network interface (e.g., WiFi) have.

At this time, the received rerouting request includes specific partial data (e.g., second partial data) to the terminal device 100 to which the return is requested, identification information of the partial data, device identification information of the terminal device 100, And abnormality state information indicating that the abnormality is abnormal.

When the rerouting request is received, the controller 440 may transmit the partial data included in the rerouting request to the terminal device through a specific one of the two or more network interfaces.

That is, if the rerouting request including the device identification information (for example, IMSI) of the terminal device 100 and the specific partial data to the terminal device 100 to be rerouted is received as in the first embodiment described above, The control unit 440 provides the partial data (e.g., the second partial data) included in the rerouting request to the network device 200 of another specific network (e.g., 3G network) To the terminal device 100 via the network.

The management apparatus 400 according to the present invention divides the data in the downlink process and transmits the first partial data to the terminal device 100 through the 3G network interface and transmits the second partial data to the terminal device 100 via the WiFi network interface. And transmits the corresponding partial data returned through the rerouting request to the terminal 100 through another network interface.

On the other hand, if the specific partial data to the terminal device 100 to be rerouted in the terminal device 100 is received as a rerouting request as in the second embodiment, (E.g., the address of the second network device 300) and port information of the partial data (e.g., the second partial data), and recognizes that this partial data is rerouted data, : Second partial data) to the network device 200 of another specific network (e.g., 3G network) and transmit it to the terminal device 100 through another network interface (e.g., 3G).

The management apparatus 400 according to the present invention divides the data in the downlink process and transmits the first partial data to the terminal device 100 through the 3G network interface and transmits the second partial data to the terminal device 100 via the WiFi network interface. And transmits the corresponding partial data returned through the rerouting request to the terminal 100 through another network interface.

On the other hand, as in the third embodiment described above, the device identification information (e.g., IMSI) of the terminal device 100 and the identification information of the specific partial data to the terminal device 100 received from the management device 400 to be rerouted The control unit 440 acquires the corresponding partial data (e.g., second partial data) according to the partial data identification information included in the rerouting request and transmits it to another specific network (3G network) to the network device 200 and transmit it to the terminal device 100 through another network interface (e.g., 3G).

The management apparatus 400 according to the present invention divides the data in the downlink process and transmits the first partial data to the terminal device 100 through the 3G network interface and transmits the second partial data to the terminal device 100 via the WiFi network interface. And when the rerouting request is received, the corresponding partial data corresponding to the identification information returned through it is obtained from the past transmission history and can be transmitted to the terminal device 100 through another network interface.

On the other hand, as in the fourth embodiment described above, the device identification information (e.g., IMSI) of the terminal device 100, the abnormal state information indicating that the connection state is abnormal, The control unit 440 determines whether or not the partial data including the rerouting request or the identification information included in the rerouting request is received It is possible to acquire the partial data and transmit it to the network device 200 of another specific network (e.g., 3G network) and transmit it to the terminal device 100 through another network interface (e.g., 3G).

Then, the control unit 440 recognizes the connection state abnormality of the terminal device 100 based on the abnormal state information included in the rerouting request, and notifies the network interface (for example, WiFi) At least one piece of partial data to be transmitted to the terminal device 100 may be transmitted to the terminal device 100 through a specific one of the two or more network interfaces (e.g., 3G).

The management apparatus 400 according to the present invention recognizes an abnormal state of the connection state of the terminal apparatus 100 through a rerouting request and then divides the data in the downlink process to transmit the first partial data through the 3G network interface The second partial data to be transmitted through the WiFi network interface is transmitted to the terminal device 100 via the other network interface (e.g., 3G) without transmitting the abnormal second WiFi network interface to the terminal device 100, .

When the normal state information indicating that the connection state of the terminal device 100 is normally switched from the network device 300 is received, the controller 440 recognizes the normal state of the connection state of the terminal device 100, The partial data can be normally transmitted to the terminal device 100 through the network interface on which the status information is received.

That is, if the control unit 440 recognizes that the connection state of the terminal 100 is normally switched, the controller 440 does not transmit the second partial data to be transmitted through the WiFi network interface in the downlink process to the WiFi network interface whose connection state is abnormal It stops the operation of transmitting to the terminal device 100 via another network interface (for example, 3G), and transmits the second partial data again to the terminal device 100 via the WiFi network interface.

As described above, the heterogeneous network-based data concurrent transmission service system according to the present invention is a simultaneous transmission service system for dividing one data for transmission / reception of data corresponding to a terminal device and transmitting / receiving data through a plurality of heterogeneous networks Environment, and more particularly to a terminal device through another network interface through rerouting of partial data attempted to be transmitted through a specific network interface (e.g., WiFi) having an abnormal connection state with the terminal device, It is possible to guarantee seamless continuity in transmitting each partial data to the terminal device through the network, thereby improving the reliability and quality of the service.

Hereinafter, a method for simultaneously transmitting data based on heterogeneous networks according to a preferred embodiment of the present invention will be described with reference to FIG. 4 to FIG. Here, for convenience of description, the components shown in FIGS. 1 to 3 will be described with reference to corresponding reference numerals.

Referring to FIG. 4, a description will now be made of a service procedure of a method for simultaneously transmitting heterogeneous network-based data according to a preferred embodiment of the present invention.

First, in order to use the simultaneous data transmission service in a heterogeneous network environment, a service registration procedure between the terminal device 100 and the management device 400 must be preceded (S10, S15).

In this regard, the terminal device 100 is allocated its own first network connection information (e.g., 3G IP) to the 3G network and allocates its second network connection information (e.g., WiFi IP) to the WiFi network Will receive.

The terminal device 100 is connected to the 3G network connection management device (hereinafter, referred to as " 3G network connection management device ") that can access the management device 400 through the first network, Access information (e.g., management information) of the management device 400 for WiFi network that can acquire the access information (e.g., management device 3G IP) of the WiFi network 400 and access the management device 400 via the second network, Device WiFi IP).

When the connection information acquisition procedure for the management apparatus 400 is completed, a service registration procedure between the terminal apparatus 100 and the management apparatus 400 must be performed.

In this regard, the terminal device 100 accesses the management apparatus 400 via the 3G network and the WiFi network based on the acquired 3G network connection access information and WiFi network connection access information, and requests service registration .

For example, the terminal apparatus 100 is connected to the management apparatus 400 via the first network, that is, the 3G network, based on the obtained connection information (for example, the management apparatus 3G IP) of the management apparatus 400 for access to a public network And transmits a binding update message (Binding Update) to request registration of the service for the terminal device 100 itself. Accordingly, the management apparatus 400 receives the additional information included in the service registration request, such as device identification information (e.g., IMSI), first network connection information (e.g., 3G IP) (Binding Update Ack) to the terminal device 100 by checking service type information (e.g., 3G) and service classification information (Initial, Update, and Remove) By returning, the service registration procedure through the 3G network can be performed.

The terminal device 100 accesses the management device 400 via the second network, that is, the WiFi network, based on the acquired connection information (e.g., management device WiFi IP) of the management device 400 for connection to the WiFi network, Message (Binding Update) to request registration of the service for the terminal device 100 itself. Accordingly, the management apparatus 400 transmits the additional information included in the service registration request, such as device identification information (e.g., IMSI), second network connection information (e.g., WiFi IP) (Binding Update Ack) to the terminal device 100 by confirming the type information (e.g., WiFi) and the service classification information (Initial, Update, and Remove) , The service registration procedure through the WiFi network can be performed.

Based on the additional information included in the service registration request of the terminal device 100, which is received through the service registration procedure with the terminal device 100, that is, through the 3G network and the WiFi network, (E.g., 3G IP and WiFi IP) and service classification information (e.g., 3GPP) that are mapped on the basis of unique table information, for example, device identification information (e.g., IMSI) Initial, Update, Remove), and the like (S20). The management apparatus 400 includes a network selection policy for traffic distribution in a heterogeneous network environment, for example, source IP, source port, destination IP, destination port, protocol (UDP, TCP, And the traffic distribution rate per network can be additionally managed to the subscriber-specific table information.

When the terminal device 100 and the management device 400 have completed the procedures for registering the service between the terminal device 100 and the management device 400, the first network interface through the 3G network and the WiFi network Lt; / RTI > is connected.

The simultaneous transmission service through the heterogeneous network, that is, the 3G network and the WiFi network, will be performed for data transmission / reception between the terminal device 100 and the external device 500 (S20).

First, a description will be made on the basis of an uplink process in which the terminal apparatus 100 transmits data to the management apparatus 400 as a receiving apparatus as a transmitting apparatus.

The terminal device 100 divides the transmission target data into partial data to use the simultaneous transmission service.

That is, the terminal device 100 divides the data to be transmitted in correspondence with the number of networks for simultaneous transmission of data using the heterogeneous network environment, that is, the 3G network and the WiFi network, and this division process is transmitted from the policy management apparatus 600 Based on the changed network-specific traffic distribution rate received from the management apparatus 400 according to the network selection policy or the real-time network status detection.

In other words, the terminal device 100 confirms a first transmission rate for data transmission to the first network device 200 included in the network selection policy and a second transmission rate for data transmission to the second network device 300 Selects the first partial data to be transmitted to the first network device 200 among the divided partial data based on the confirmed transmission ratio and selects the second partial data to be transmitted to the second network device 300 among the remaining partial data .

Accordingly, the terminal device 100 performs the above-described data division process based on the network selection policy and the traffic distribution rate for each network that is changed in real time, so that the relative use ratio of the 3G network and the WiFi network is changed to 10% 90% of WiFi network, 90% of 3G network and 10% of WiFi network, 50% of 3G network and 50% of WiFi network, 0% of 3G network and 100% of WiFi network and 100% of 3G network and 0% of WiFi network have.

Then, the terminal device 100 transmits the first partial data through the first network interface (S40), and transmits the second partial data through the second network interface.

That is, the terminal device 100 includes first network access information (e.g., 3G IP) corresponding to the first network in the first partial data, and further includes management device 400 corresponding to the first network, (For example, management apparatus 3G IP) of the management apparatus 400 for access to the 3G network and connection information of the external apparatus 500 corresponding to the final destination.

In addition, the terminal device 100 may include second network access information (e.g., WiFi IP) of its own corresponding to the second network in the second partial data, and further includes management device 400 corresponding to the second network, (E.g., management device WiFi IP) of the management device 400 for connection to the WiFi network and connection information of the external device 500 corresponding to the final destination.

The first network device 200 located in the 3G network will transmit the first partial data from the terminal device 100 to the management device 400 as the receiving device.

And the second network device 300 located in the WiFi network will transmit the second partial data from the terminal device 100 to the management device 400 as the receiving device.

The first partial data divided in the terminal device 100 is transmitted to the management device 400 via the 3G network and the divided second partial data is transmitted to the management device 400 via the WiFi network.

The management device 400 as the receiving device receives the first partial data from the first network device 200 and receives the second partial data from the second network device 300 and receives the received first partial data and the second partial data The first partial data and the second partial data from the terminal device 100 are combined / combined according to the order information included in the corresponding partial data to generate original data, The target data is restored.

Then, the management apparatus 400 may use the connection information of the external device corresponding to the final destination recognized through the partial data of at least one of the first partial data and the second partial data, The transmission target data is transmitted (S25).

As described above, the first partial data and the second partial data divided in the terminal device 100 are transmitted through the management device 400 through the heterogeneous network (3G and WiFi networks), i.e., the first network interface and the second network interface, respectively Is combined with the management device 400 and restored to original transfer target data, and the restored transfer target data is transferred as one data to the external device 500 which is the final destination.

Next, with respect to the data concurrent transfer service procedure between the terminal device 100 and the management device 400, the management device 400 performs a downlink process of transmitting data to the terminal device 100 as a receiving device as a transmitting device .

The management apparatus 400 divides the data to be transmitted into partial data in order to use the simultaneous transmission service, with respect to the data requested to be transmitted from the external device 500 to the terminal device 100 (S25).

That is, the management apparatus 400 divides the data to be transmitted in correspondence with the number of the network in order to simultaneously transmit data using the heterogeneous network environment, that is, the 3G network and the WiFi network. The division process is transmitted from the policy management apparatus 600 Based on the network selection policy or the real-time network state detection.

In other words, the management apparatus 400 confirms a first transmission rate for data transmission to the first network device 200 included in the network selection policy and a second transmission rate for data transmission to the second network device 300 Selects the first partial data to be transmitted to the first network device 200 among the divided partial data based on the confirmed transmission ratio and selects the second partial data to be transmitted to the second network device 300 among the remaining partial data .

Accordingly, the management apparatus 400 performs the above-described data division process based on the network selection policy and the traffic distribution rate for each network that is changed in real time, so that the relative use ratio of the 3G network and the WiFi network is changed to, for example, 10% 90% of WiFi network, 90% of 3G network and 10% of WiFi network, 50% of 3G network and 50% of WiFi network, 0% of 3G network and 100% of WiFi network and 100% of 3G network and 0% of WiFi network have.

Then, the management apparatus 400 acquires access information (e.g., 3G IP and WiFi IP) for each network corresponding to the terminal device 100 which is the final destination of the current data transmission, based on the subscriber- .

Then, the management apparatus 400 transmits the first network access information (e.g., 3G IP) of the terminal apparatus 100 corresponding to the first network to the first partial data, the second network access information (E.g., WiFi IP) of the terminal device 100 that is connected to the network.

Of course, the management apparatus 400 may also include the first network connection information (e.g., the management apparatus 3G IP) corresponding to the first network and the connection information of the external apparatus 500 corresponding to the first transmission destination, Data.

In addition, the management apparatus 400 may also connect its own second network connection information (e.g., management device WiFi IP) corresponding to the second network and the connection information of the external device 500 corresponding to the first transmission destination, Data.

Thereafter, the management device 400 transmits the first partial data to the terminal device 100 as a receiving device through the first network interface (S90), and transmits the second partial data to the terminal device 100 as a receiving device through the second network interface To the device (100).

The first network device 200 located in the 3G network will transmit the first partial data from the management device 400 to the terminal device 100 as the receiving device.

And the second network device 300 located in the WiFi network will transmit the second partial data from the management device 400 to the terminal device 100 as the receiving device.

The data transmitted from the external device 500 is divided in the process of passing through the management device 400. The first partial data segmented by the management device 400 is transmitted to the terminal device 100 via the 3G network The divided second partial data is transmitted to the terminal device 100 via the WiFi network.

The terminal device 100 as the receiving device receives the first partial data from the first network device 200 and receives the second partial data from the second network device 300 and the received first partial data and the second partial data Data is combined / combined according to the order information included in the corresponding partial data to generate original data, thereby restoring the transmission target data to be transmitted by the management apparatus 400. [

The first partial data and the second partial data divided in the management device 400 are transmitted to the terminal device 100 through the heterogeneous network (3G and WiFi network) and are combined in the terminal device 100, Lt; / RTI >

If a heterogeneous network interface is not always maintained between the terminal device 100 and the management device 400 in order to provide a simultaneous transmission service between the terminal device 100 and the external device 500 through the heterogeneous network as described above, Any partial data of the partial data segmented from the data may be lost.

For example, the second network, that is, the WiFi network interface, is characterized by its small coverage and frequent changes in link characteristics. In particular, considering the case where the management apparatus 400 transmits data to the terminal apparatus 100 via the WiFi network interface, the connection state of the terminal apparatus 100 through the WiFi network interface is not normal, There may be a situation where it is difficult to guarantee the quality of service such as data flow is broken.

Therefore, in the present invention, it is possible to prevent the expected situation as described above, and to provide the partial data to the terminal device 100 when providing simultaneous transmission service through the heterogeneous network as described above between the terminal device 100 and the external device 500 The present invention further proposes a configuration capable of maintaining reliability and quality by ensuring seamless continuity in transmission.

The network devices 200 and 300 (hereinafter referred to as the second network device 300 for convenience of explanation) check the connection state with the terminal device 100 and receive from the management device 400 when the connection state is abnormal And requests rerouting for specific data to the terminal device 100 that is connected to the network.

That is, the second network device 300 confirms the connection state with the terminal device 100 connected thereto through its own network interface, that is, the WiFi network interface (S50). At this time, the second network device 300 can confirm the connection state with the terminal device 100 every predetermined confirmation period, or can check the connection state with the terminal device 100 every time partial data requested to be transmitted to the terminal device 100 is received. Can be confirmed.

If the second network device 300 determines that the connection state with the terminal device 100 is abnormal, the second network device 300 performs rerouting on specific data, i.e., partial data, from the management device 400 to the terminal device 100 that is currently received And may request the management apparatus 400 (S60).

The management apparatus 400 transmits and receives specific partial data divided from one specific data to the terminal apparatus 100 through two or more network interfaces (for example, 3G, WiFi) as described above, Lt; / RTI >

At this time, when the rerouting request is received from a network device corresponding to a specific network interface among the two or more network interfaces, the management device 400 transmits corresponding partial data according to the rerouting request to another network interface of the two or more network interfaces To the terminal device (100).

That is, in order to provide a simultaneous transmission service through the heterogeneous network as described above, the management device 400 stores the first partial data and the second partial data, which are divided from the data to be transmitted to the terminal device 100 in the downlink process, The first network device 200 and the second network device 300 to attempt transmission to the terminal device 100 through the heterogeneous network interface (e.g., 3G, WiFi) (S30, S40).

At this time, when the rerouting request is received from the second network device 300 corresponding to the specific network interface (e.g., WiFi), the management device 400 transmits the corresponding partial data, i.e., the second partial data, (S70) to the first network device 200 corresponding to the 3G network interface in order to transmit the second partial data of the two or more network interfaces to the terminal device 100 via another network interface (e.g., 3G).

Partial data to be transmitted through a specific network interface (e.g., WiFi) having an abnormal connection state with the terminal apparatus 100 among the heterogeneous network interfaces is transmitted to the terminal apparatus (e.g., 3G) through another network interface 100), the terminal device 100 can normally receive all of the partial data segmented from one piece of data.

Accordingly, the terminal device 100 combines / combines the received first partial data and the second partial data according to the order information included in the corresponding partial data to generate original data, so that the management device 400 The transmission target data to be transmitted is restored (S80).

Hereinafter, an operation method of the network device according to the present invention will be described in more detail with reference to FIG.

A method of operating a network device according to the present invention is a method of operating a network device between a terminal device 100 connected via a specific network (e.g., WiFi) located therein and a specific management device 400 for simultaneous transmission service through the heterogeneous network Data transmission / reception is relayed (S100).

In other words, the operation method of the network device according to the present invention relays data transmission / reception between the terminal device 100 and the management device 400 connected via the WiFi network interface, that is, specific partial data transmission / reception divided from specific data.

For example, a method of operating a network device according to the present invention is to provide the management device 400 with the second partial data segmented from one piece of data from the terminal device 100 in the uplink process, When the second partial data segmented from one piece of data is received from the management apparatus 400, the management unit 400 relays data transmission / reception between the terminal apparatus 100 and the management apparatus 400 by providing the second partial data to the terminal apparatus 100.

The operation method of the network device according to the present invention requests rerouting of specific partial data to the terminal device 100 received from the management device 400 when the connection state of the terminal device 100 is abnormal.

More specifically, the operation method of the network device according to the present invention monitors the connection state of the terminal device 100 and determines the connection state (S110). At this time, the operation method of the network device according to the present invention can confirm / monitor the connection state with the terminal device 100 at a specific confirmation time. For example, the operation method of the network device according to the present invention can confirm / monitor the connection state with the terminal device 100 at each time point of a predetermined confirmation period or transmit partial data requested to be transmitted to the terminal device 100 It is possible to confirm / monitor the connection state with the terminal device 100 at each time point of reception.

A method for operating a network device according to the present invention is characterized in that a first state in which a response corresponding to transmission to the terminal device exceeds a predefined delay threshold and a second state in which a specific event is detected, It can be determined that the connection state of the terminal device 100 is abnormal if at least one of the situations occurs.

That is, as a result of checking the connection state with the terminal device 100, the method of operation of the network device according to the present invention is a method in which a reply is sent in response to various transmissions including transmission of partial data (e.g., second partial data) It is possible to determine that the connection state of the terminal device 100 is abnormal if a first situation occurs in which the response time (for example, ack) response time exceeds a defined delay threshold (e.g., x sec).

Alternatively, the operation method of the network device according to the present invention may be a method of operating a network device, such as a predetermined event recognized as a connection disconnection from the terminal device 100 (e.g., ack non-response, Confirmation, or the like) occurs, it can be determined that the connection state of the terminal device 100 is abnormal.

The operation method of the network device according to the present invention is a method of operating the network device according to the present invention when the connection state of the terminal device 100 is abnormal as a result of the determination as described above, 2 partial data) (S120).

In other words, the operating method of the network device according to the present invention preferably has a specific rerouting policy including at least one of specific return address information and data return information.

That is, the method of operation of the network device according to the present invention returns / provides return address information indicating an address to a device (e.g., management device 400) to provide a rerouting request and partial data to be rerouted Or a data return whether or not the data is to be returned. Further, the rerouting policy may include a policy for the confirmation point based on the confirmation of the connection state with the terminal apparatus 100 mentioned above, and the connection state of the terminal apparatus 100 mentioned above may be abnormal A first situation and a second situation as a basis for judging whether or not the user is a person who is in charge of the present invention, and various other situations.

Here, the rerouting policy includes a management apparatus 400 and a specific policy management apparatus 600 for determining a network selection policy based on network status information on a specific device (not shown) corresponding to the return address information and two or more networks Or the like).

Hereinafter, an embodiment in which the network device 300 maintains the above-described rerouting policy through interlocking with the management apparatus 400, and the rerouting policy is updated by the management apparatus 400 thereafter will be described.

That is, when the connection state of the terminal device 100 is abnormal, the method of operating the network device according to the present invention having the aforementioned rerouting policy through interlocking with the management device 400, At least one of the specific partial data to the terminal device 100 to which the return is received and the partial data identification information and the device identification information of the terminal device 100 and the abnormal state information indicating that the connection state is abnormal, To the specific device (e.g., management device 400) corresponding to the return address information (S120).

The operation method of the network device according to the first embodiment of the present invention is an operation method of the network device according to the first embodiment when the connection state of the terminal device 100 is abnormal and the device identification information (e.g., IMSI) of the terminal device 100, And a rerouting request including specific partial data to the terminal device 100 to be requested for rerouting received from the management device 400 to the management device 400. [

Each time the network device 300 according to the present invention receives partial data requested to be transmitted to the terminal device 100 having an abnormal connection status from the management device 400, And requests the management device 400 to transmit the partial data returned through the other network interface (e.g., 3G) to the terminal device 100 as described above.

According to another embodiment of the present invention, when the connection state of the terminal device 100 is abnormal, the method of operating the network device according to the present invention may include: Specific data to device 100 to management device 400 as a rerouting request.

Each time the network device 300 according to the present invention receives partial data requested to be transmitted to the terminal device 100 having an abnormal connection status from the management device 400, And requests the management device 400 to transmit the partial data returned through the other network interface (e.g., 3G) to the terminal device 100 as described above.

In another embodiment of the present invention, an operation method of a network device according to the present invention is a method of operating a network device according to a third embodiment of the present invention. When the connection state of the terminal device 100 is abnormal, IMSI) and identification information on specific partial data to the terminal apparatus 100 received from the management apparatus 400 to request rerouting to the management apparatus 400. [0064]

Each time the network device 300 according to the present invention receives partial data requested to be transmitted to the terminal device 100 having an abnormal connection status from the management device 400, Information to the management apparatus 400 and requests rerouting so that the management apparatus 400 transmits the corresponding partial data according to the identification information returned via the other network interface (e.g., 3G) to the terminal apparatus 100 ).

According to another embodiment of the present invention, when the connection status of the terminal apparatus 100 is abnormal, the method for operating the network apparatus according to the present invention is characterized in that the apparatus identification information of the terminal apparatus 100 (IMSI), abnormal state information indicating that the connection state is abnormal, and identification information on specific partial data or partial data received from the management apparatus 400 to be requested for rerouting to the terminal apparatus 100 Management apparatus 400 according to the present invention.

The network device 300 according to the present invention reports the abnormal state information informing the management device 400 that the connection state of the current terminal device 100 is abnormal and requests rerouting, Transmits the partial data to be transmitted to the terminal device 100 through the network interface (e.g., WiFi) according to the network device 300 to the terminal device 100 via another network interface (e.g., 3G) as described above .

The operation method of the network device according to the present invention is a method for transmitting specific partial data to the terminal device 100 received from the management device 400 when the connection state of the terminal device 100 changes from abnormal to normal 100), and normal status information indicating that the connection status of the terminal device 100 is normally switched to the corresponding device (e.g., management device 400) providing the rerouting request And the second operation may be performed.

That is, referring to the above-described first, second, and third embodiments, a method of operating a network device according to the present invention is a method in which when a connection state of the terminal device 100 is changed from abnormal to normal, The first operation for relaying the partial data to the terminal device 100 normally without performing the rerouting request to the specific partial data to the terminal device 100 received from the management device 400 is performed (S140) .

Accordingly, when the second partial data segmented from one piece of data is received from the management apparatus 400 in the downlink process, the operation method of the network apparatus according to the present invention provides the second partial data to the terminal apparatus 100, The data transmission / reception between the device 100 and the management device 400 will be normally relayed.

In the meantime, referring to the fourth embodiment, when the connection state of the terminal device 100 is changed from abnormal to normal, the method of operating the network device according to the present invention is a method of operating the corresponding device : The management apparatus 400) performs a second operation of providing steady state information indicating that the connection status of the terminal apparatus 100 is normally switched (S150).

The management apparatus 400 having received the normal status information then transmits the partial data to be transmitted to the terminal apparatus 100 via the network interface (e.g., WiFi) according to the network apparatus 300 to another network interface (e.g., 3G) The operation to transmit to the terminal device 100 via the network interface 300 (for example, WiFi) will be stopped.

Accordingly, when the second partial data segmented from one piece of data is received from the management apparatus 400 in the downlink process, the method of operating the network apparatus according to the present invention provides the second partial data to the terminal apparatus 100, Reception of data between the terminal device 100 and the management device 400 will be normally relayed.

Hereinafter, an operation method of the management apparatus according to the present invention will be described in more detail with reference to FIG.

The operation method of the management device according to the present invention performs a service registration procedure with the terminal device 100 through two or more heterogeneous networks, i.e., a first network and a second network, The terminal device 100 is connected to the terminal device 100 through the network interface, i.e., the WiFi network interface (S200), and the partial data is transmitted / received from the terminal device 100 through the connected 3G network interface and the WiFi network interface, And performs a simultaneous transmission service (S210).

That is, the terminal device 100 divides the data to transmit the first partial data through the first network device 200, the 3G network interface, and the second partial data to the WiFi network interface The operation method of the management apparatus according to the present invention receives the first partial data through the 3G network interface and receives the second partial data through the WiFi network interface and performs a series of combining procedures Generate / restore original data.

The operation method of the management apparatus according to the present invention will transmit the restored data to the corresponding external device 500.

Meanwhile, in the downlink process in which the management apparatus 400 divides / transmits data requested to be provided from the external device 500 to the terminal device 100, the method for operating the management device according to the present invention includes: The first partial data is transmitted to the terminal device 100 via the 3G network interface via the first network device 200 and the second partial data is transmitted to the terminal device 100 by dividing the data requested to be supplied from the terminal device 500 to the terminal device 100, 2 network device 300 to the terminal device 100 via the WiFi network interface.

When a specific rerouting request is received from a network device corresponding to a specific network interface among the two or more network interfaces (S220), the method for operating the management device according to the present invention transmits corresponding partial data according to the rerouting request to the two or more networks To the terminal device 100 through another network interface (S230).

More specifically, the method of operation of the management apparatus according to the present invention divides data to transmit first partial data to the terminal device 100 via the 3G network interface via the first network device 200, In a downlink process of transmitting partial data to the terminal device 100 via the second network device 300 and the WiFi network interface, a specific rerouting process is performed from the network device 300 corresponding to a specific network interface (e.g., WiFi) The request may be received (S220).

At this time, the received rerouting request includes specific partial data (e.g., second partial data) to the terminal device 100 to which the return is requested, identification information of the partial data, device identification information of the terminal device 100, And abnormality state information indicating that the abnormality is abnormal.

When the rerouting request is received, the operation method of the management apparatus according to the present invention may transmit the partial data included in the rerouting request to the terminal device through a specific one of the two or more network interfaces S230).

That is, as in the first embodiment described above, the device identification information (for example, IMSI) of the terminal apparatus 100 and the information including the specific partial data to the terminal apparatus 100 to be requested for rerouting received from the management apparatus 400 If the routing request is received, the method of operation of the management device according to the present invention further includes transmitting the partial data (e.g., second partial data) included in the rerouting request to a network (e.g., a 3G network) To the device 200 and transmit it to the terminal device 100 through another network interface (e.g., 3G).

The operation method of the management apparatus according to the present invention is a method of operating the management apparatus by dividing data in a downlink process to transmit first partial data to the terminal device 100 through the 3G network interface and transmitting second partial data to the terminal device 100 via the WiFi network interface It is possible to transmit the corresponding partial data returned via the network interface to the terminal device 100 via the network interface while continuing the operation of transmitting the data to the device 100, 3G network interface to the terminal device 100 and transmits the second partial data to the terminal device 100 via the WiFi network interface.

The management apparatus 400 according to the present invention divides the data in the downlink process and transmits the first partial data to the terminal device 100 through the 3G network interface and transmits the second partial data to the terminal device 100 via the WiFi network interface. And transmits the corresponding partial data returned through the rerouting request to the terminal 100 through another network interface.

On the other hand, if the specific partial data to the terminal device 100 to be rerouted in the terminal device 100 is received as a rerouting request as in the above-described second embodiment, (For example, the address of the second network device 300) and port information of the corresponding partial data (e.g., second partial data) in accordance with the routing request to determine that the partial data is rerouted data , And transmit the partial data (e.g., the second partial data) to the network device 200 of another specific network (e.g., 3G network) and transmit the data to the terminal device 100 through another network interface .

The management apparatus 400 according to the present invention divides the data in the downlink process and transmits the first partial data to the terminal device 100 through the 3G network interface and transmits the second partial data to the terminal device 100 via the WiFi network interface. And transmits the corresponding partial data returned through the rerouting request to the terminal 100 through another network interface.

On the other hand, as in the third embodiment described above, the device identification information (e.g., IMSI) of the terminal device 100 and the identification information of the specific partial data to the terminal device 100 received from the management device 400 to be rerouted The operation method of the management apparatus according to the present invention may further include the step of, in step S230, transmitting corresponding partial data (e.g., second partial data) according to the partial data identification information included in the rerouting request And transmits it to the network device 200 of another specific network (for example, 3G network) and transmits the network device 200 to the terminal device 100 through another network interface (e.g., 3G).

The operation method of the management apparatus according to the present invention is a method of operating the management apparatus by dividing data in a downlink process to transmit first partial data to the terminal device 100 through the 3G network interface and transmitting second partial data to the terminal device 100 via the WiFi network interface When the specific rerouting request is received, the corresponding partial data corresponding to the identification information returned through the acquisition is obtained from the past transmission history and transmitted to the terminal device 100 through another network interface And can continue to transmit the first partial data to the terminal device 100 via the 3G network interface and to transmit the second partial data to the terminal device 100 via the WiFi network interface.

On the other hand, as in the fourth embodiment described above, the device identification information (e.g., IMSI) of the terminal device 100, the abnormal state information indicating that the connection state is abnormal, 100, the operation method of the management apparatus according to the present invention further includes a step of, in step S230, transmitting the partial data including the rerouting request or the rerouting request (For example, a 3G network) and transmits the partial data to the terminal device 100 through another network interface (e.g., 3G) by acquiring partial data according to the identification information included in the request and providing the partial data to the network device 200 of another specific network .

Thereafter, the method of operation of the management apparatus according to the present invention recognizes the abnormal state of the connection state of the terminal apparatus 100 based on the abnormal state information included in the rerouting request, (E.g., 3G) to at least one of the two or more network interfaces to the terminal device 100 via the network interface (e.g., WiFi).

The method of operation of the management apparatus according to the present invention is characterized in that if it recognizes an abnormal connection state of the terminal apparatus 100 through a rerouting request, it divides the data in the downlink process and transmits the first partial data through the 3G network interface The second partial data to be transmitted through the WiFi network interface is transmitted to the terminal device 100 via the other network interface (e.g., 3G) without transmitting the abnormal second WiFi network interface to the terminal device 100, It will keep the sending operation.

According to the fourth embodiment, when the normal state information indicating that the connection state of the terminal device 100 is normally switched from the network device 300 is received (S240), the operation method of the management device according to the present invention, The mobile terminal 100 recognizes normal connection state of the mobile terminal 100 and then transmits the partial data to the terminal device 100 through the network interface on which the normal state information is received (S250).

That is, the method of operation of the management device according to the present invention is a method of operating the management device, when it recognizes that the terminal device 100 is normally connected, transmits the second partial data to be transmitted through the WiFi network interface in the downlink process to the WiFi network The operation to transmit the second partial data to the terminal device 100 via the other network interface (e.g., 3G) is not performed and the second partial data is transmitted to the terminal device 100 via the WiFi network interface again. And transmits and receives partial data segmented from one data with the terminal apparatus 100 through a connected 3G network interface and a WiFi network interface as shown in FIG.

As described above, the heterogeneous network-based data concurrent transfer service method according to the present invention is a simultaneous transmission service method for dividing one data for transmission / reception of data corresponding to a terminal device and transmitting / receiving data through a plurality of heterogeneous networks Environment, and more particularly to a terminal device through another network interface through rerouting of partial data attempted to be transmitted through a specific network interface (e.g., WiFi) having an abnormal connection state with the terminal device, It is possible to guarantee seamless continuity in transmitting each partial data to the terminal device through the network, thereby improving the reliability and quality of the service.

Meanwhile, the steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of both. A software module may reside in a RAM memory, a flash memory, a ROM memory, an EPROM memory, an EEPROM memory, registers, a hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art. An exemplary storage medium is coupled to the processor such that the processor can read information from, and write information to, the storage medium. Alternatively, the storage medium may be integrated into the processor. The processor and the storage medium may be included within an ASIC. The ASIC may be included in the user terminal device. In the alternative, the processor and the storage medium may be included as separate components within the user terminal device.

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 another aspect of the present invention, there is provided a simultaneous transmission service environment in which one data is transmitted and received through a plurality of heterogeneous networks for data transmission and reception corresponding to a terminal device, And transmits the data to the terminal device via another network interface through rerouting of partial data attempted to be transmitted through a specific network interface (for example, WiFi) having an abnormal connection state with the terminal device, It is possible to implement a heterogeneous network-based data concurrent transmission service that guarantees seamless continuity in transmission of each partial data to a device. Therefore, as the technology is overcome, Or the possibility of sales But it is an invention that is industrially applicable because it can be practically carried out clearly.

100: transmitting apparatus (terminal apparatus)
200: first network device
300: second network device
400: management device
500: External device
600: Policy management device

Claims (21)

In two or more network-based data concurrent transmission techniques,
A data relay unit for relaying specific partial data transmission / reception divided in all data between a transmitting apparatus connected through a specific network among the two or more networks and a managing apparatus managing the two or more network data; And
A rerouting request for specific partial data lost corresponding to the transmitting apparatus is provided according to a specific rerouting policy including at least one of specific return address information and data return information when the data transmission status is abnormal And a rerouting control unit,
The rerouting policy,
And a specific policy management apparatus for determining a network selection policy based on the network state information on the management apparatus, the specific apparatus corresponding to the return address information, and the two or more networks. Network device. The method according to claim 1,
The rerouting control unit,
Monitoring at least one of a first situation in which the response corresponding to the transmission to the sending device exceeds a predefined delay threshold and a second situation in which a specific event is detected, The controller determines that the data transmission state is abnormal. delete delete 3. The method according to claim 1 or 2,
The rerouting control unit,
A first operation for requesting the data relay unit to normally relay specific data to the transmission apparatus, which is received from the management apparatus, from the transmission apparatus when the data transmission state changes from abnormal to normal, And a second operation for providing steady state information indicating that the connection state of the transmission apparatus to the transmission apparatus is normally switched to the corresponding apparatus provided with the second communication apparatus. A management apparatus for managing data through two or more networks,
A multi communicator supporting two or more network interfaces through two or more networks; And
And transmits / receives specific partial data segmented from one specific data through the two or more network interfaces to / from a specific transmission device, and when a data transmission state is abnormal from a network device corresponding to a specific network interface among the two or more network interfaces, If a rerouting request for partial data lost corresponding to the transmitting apparatus is provided according to a specific rerouting policy including at least one of return address information and data return information, To the transmitting apparatus via another network interface among the two or more network interfaces,
The rerouting policy,
And a specific policy management apparatus for determining a network selection policy based on the network state information on the management apparatus, the specific apparatus corresponding to the return address information, and the two or more networks. Management device. delete delete The method according to claim 6,
Wherein,
Recognizing an abnormal state of the connection state of the transmission apparatus based on the abnormal state information included in the rerouting request and then transmitting at least one partial data to be transmitted to the transmission apparatus via the network interface To the transmission device through another network interface. 10. The method of claim 9,
Wherein,
When the normal state information indicating that the connection state of the transmission apparatus is normally switched from the network apparatus is received, recognizes the normal state of the connection state of the transmission apparatus and thereafter notifies the transmission apparatus through the network interface And transmits the partial data normally. delete A data relaying step of relaying specific partial data transmission and reception divided in all data between a transmitting apparatus connected through a specific network among the two or more networks and a managing apparatus managing two or more network data;
A status determination step of determining whether a data transmission status is abnormal; And
A rerouting request for specific partial data lost corresponding to the transmitting apparatus is provided according to a specific rerouting policy including at least one of specific return address information and data return information when the data transmission status is abnormal Comprising a rerouting request step,
The rerouting policy,
And a specific policy management apparatus for determining a network selection policy based on the network state information on the management apparatus, the specific apparatus corresponding to the return address information, and the two or more networks. A method of operating a network device. 13. The method of claim 12,
The state determination step may include:
Monitoring at least one of a first situation in which the response corresponding to the transmission to the sending device exceeds a predefined delay threshold and a second situation in which a specific event is detected, The control unit determines that the data transmission state is abnormal. delete delete 13. The method of claim 12,
A first operation for normally relaying the specific partial data to the transmission apparatus, which is received from the management apparatus, to the transmission apparatus when the data transmission state changes from abnormal to normal, And a second operation of providing steady state information indicating that the connection status of the transmission apparatus is normally switched. The method of claim 1, further comprising the step of: A method of operating a management device for managing data over two or more networks,
Transmitting and receiving specific partial data segmented in one specific data to two or more network interfaces over two or more networks with a specific transmission device; And
From a network device corresponding to a specific network interface among the two or more network interfaces, in accordance with a specific rerouting policy including at least one of specific return address information and data return information when the data transmission state is abnormal, And routing the corresponding partial data according to the rerouting request to the transmitting device through another network interface of the two or more network interfaces when a rerouting request is provided corresponding to the lost partial data,
The rerouting policy,
And a specific policy management apparatus for determining a network selection policy based on the network state information on the management apparatus, the specific apparatus corresponding to the return address information, and the two or more networks. Operating method of the management apparatus. delete delete 18. The method of claim 17,
The rerouting step includes:
Recognizing an abnormal state of the connection state of the transmission apparatus based on the abnormal state information included in the rerouting request and then transmitting at least one partial data to be transmitted to the transmission apparatus via the network interface And transmits the message to the transmitting apparatus through another network interface. 21. The method of claim 20,
When the normal state information indicating that the connection state of the transmission apparatus is normally switched from the network apparatus is received, recognizes the normal state of the connection state of the transmission apparatus and thereafter notifies the transmission apparatus through the network interface And transmitting the partial data in a normal manner.

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