KR101293303B1 - System and method for simultaneously transmitting data in heterogeneous network - Google Patents

Abstract

The present invention discloses a heterogeneous network-based simultaneous data transmission service system and method thereof. That is, a transmission apparatus for dividing data into two or more partial data, selecting first partial data corresponding to a part of the two or more partial data, and selecting second partial data corresponding to another part of the two or more partial data. ; A first network device for receiving the first partial data from the transmitting device; A second network device for receiving the second partial data from the transmitting device; And receiving the first partial data from the first network device, receiving the second partial data from the second network device, and combining the first partial data and the second partial data to generate the data. By including a receiver, the data transmission speed can be increased by dividing and transmitting the data to be transmitted, and the data traffic of the entire network can be effectively transferred to improve data quality of service and secure network stability.

Description

Heterogeneous network-based data transmission service system and method thereof {SYSTEM AND METHOD FOR SIMULTANEOUSLY TRANSMITTING DATA IN HETEROGENEOUS NETWORK}

The present invention relates to a data simultaneous transmission method, and more particularly, to determine the data transmission rate for each access network according to a network selection policy determined based on various network parameters in a heterogeneous network environment, the determined data transmission rate Heterogeneous network-based data simultaneous transmission service system that divides the data to be transmitted and transmits the divided data simultaneously through different networks, and at the receiving end, the received data is combined to restore the data to be transmitted by combining the received divided data. And a method, a transmitter, and an operation method thereof, and a receiver and an operation method thereof.

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, data rates are getting cheaper, and various large data services are increasing at the same time, as network load rate of operators is rapidly increasing, network investment is excessively expended and service stability. The situation is being threatened.

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 an object of the present invention is to provide a transmission apparatus for dividing data into two or more pieces of partial data, so that the first partial data corresponding to a portion of the two or more pieces of partial data is stored. Providing to the first network device a second partial data corresponding to another part of the at least two partial data to a second network device, wherein the first network device provides the first partial data to a receiving device, When the second network device provides the first partial data to the receiving device, the receiving device combines the first partial data and the second partial data to generate the data. And a method of dividing the data to be transmitted based on the data transmission rate for each access network. By the simultaneous transmission to the receiving end via the respective network different from the data, the receiving end is to combine divided data to be received is divided to restore the transmission subject data.

The present invention was created in view of the above circumstances, and another object of the present invention is to divide data into two or more pieces of partial data, and transmit first partial data corresponding to a portion of the two or more pieces of partial data. The present invention provides a transmitting apparatus for transmitting second partial data corresponding to another part of the at least two partial data and a method of operating the same. By simultaneously transmitting the data to the receiving end via a different network, the receiving end combines the divided data received and divided to restore the transmission target data.

The present invention was created in view of the above circumstances, and another object of the present invention is to receive first partial data corresponding to a part of two or more partial data divided from data, and to receive the two or more partial data. Receiving a second partial data corresponding to another part of the data, and providing a receiving apparatus and a method of operating the same by combining the first partial data and the second partial data, thereby increasing the data transmission rate for each access network. By dividing the transmission target data on the basis and simultaneously transmitting each divided data to the receiving end through a different network, the receiving end combines the divided data received and divided to restore the transmission target data.

The heterogeneous network-based data transmission service system according to the first aspect of the present invention for achieving the above object divides data into two or more partial data, and selects first partial data corresponding to a portion of the two or more partial data. A transmission device for selecting second partial data corresponding to another part of the at least two partial data; A first network device for receiving the first partial data from the transmitting device; A second network device for receiving the second partial data from the transmitting device; And receiving the first partial data from the first network device, receiving the second partial data from the second network device, and combining the first partial data and the second partial data to generate the data. It characterized in that it comprises a receiver.

A transmission apparatus according to a second aspect of the present invention for achieving the above object, the control unit for dividing the data into two or more partial data; A first communication unit configured to transmit first partial data corresponding to a part of the at least two partial data; And a second communication unit configured to transmit second partial data corresponding to another part of the at least two partial data.

Preferably, the controller selects the first partial data from the at least two partial data according to a first transmission rate for data transmission to a first network device, and selects the first partial data and transmits the data to a second network device. And selecting the second partial data from the two or more partial data according to the transmission rate.

Preferably, the controller determines whether at least one of the first transmission rate and the second transmission rate is changed, and when the determination result is changed, the control unit determines whether the at least one of the two or more partial data items is changed according to the changed first transmission rate. Select one piece of data, or select the second piece of data from the two or more pieces of data according to the changed second transmission rate, or select the first piece of data of the two or more pieces of data according to the changed first transmission rate, and The second partial data is selected from the two or more partial data according to the changed second transmission rate.

Preferably, the first partial data and the second partial data, characterized in that it comprises an identifier for identifying that the partial data provided from a specific transmission device.

Preferably, the first partial data includes first order information for confirming the order of one or more partial data included in the first partial data, and the second partial data is included in the second partial data. And second order information for confirming an order of at least one partial data, wherein the first order information and the second order information are included in at least one partial data and the second partial data included in the first partial data. It is characterized in that it is used to generate the data through the combination of one or more partial data included.

Preferably, the first partial data includes at least one of connection information of the first network device and connection information of a specific receiving device for receiving first partial data transmitted via the first network device. And the first connection information, wherein the second partial data is connected to the specific reception device for receiving the connection information of the second network device and the second partial data transmitted via the second network device. And second access information including at least one of the information.

Preferably, the first connection information and the second connection information, characterized in that further comprises the connection information of the external device for receiving the data transmitted from the receiving device.

According to a third aspect of the present invention, there is provided a receiving apparatus including: a first communication unit configured to receive first partial data corresponding to a part of two or more partial data divided from data; A second communication unit configured to receive second partial data corresponding to another part of the at least two partial data; And a controller configured to generate the data by combining the first partial data and the second partial data.

Preferably, the first communication unit receives the first partial data selected from the at least two partial data according to a first transmission rate for data transmission to the first network device, and the second communication unit is configured to: And receiving the second partial data selected from the two or more partial data according to a second transmission ratio for data transmission to the two network apparatuses.

Preferably, the control unit is further configured to identify that the first partial data and the second partial data are partial data provided from a specific transmitter by using an identifier included in the first partial data and the second partial data. It features.

Preferably, the control unit uses the first order information of one or more pieces of partial data included in the first partial data and the second order information of one or more pieces of partial data included in the second partial data. Confirm an order of at least one partial data included in the partial data and at least one partial data included in the second partial data, and at least one partial data and the second included in the first partial data according to the identified order; The data may be generated by combining one or more partial data included in the partial data.

Preferably, the first communication unit, the first portion transmitted through the first network device using the connection information of the first network device included in the first connection information, and the connection information of a specific receiving device Receiving data, the second communication unit, the second communication unit is transmitted through the second network device using the connection information of the second network device included in the second connection information, and the connection information of a specific receiving device And receiving partial data.

Preferably, the control unit transmits the data to the external device using the connection information of the external device included in the first connection information and the second connection information.

The heterogeneous network-based simultaneous data transmission service method according to the fourth aspect of the present invention for achieving the above object comprises: a data partitioning step of a transmitting device dividing data into two or more partial data; The transmitting device provides the first network device with the first partial data corresponding to a part of the at least two partial data, and provides the second network device with the second partial data corresponding to another part of the at least two partial data. Data providing step; A data transfer step of the first network device providing the first partial data to a receiving device and the second network device providing the first partial data to the receiving device; And a data generation step of generating, by the reception apparatus, the data by combining the first partial data and the second partial data.

According to a fifth aspect of the present invention, there is provided a method of operating a heterogeneous network-based data transmission apparatus, comprising: a data partitioning step of dividing data into two or more partial data; A first partial data transmission step of transmitting first partial data corresponding to a part of the at least two partial data; And a second partial data transmission step of transmitting second partial data corresponding to another part of the at least two partial data.

Method of operating a heterogeneous network-based data simultaneous receiving apparatus according to a sixth aspect of the present invention for achieving the above object, Receiving first partial data corresponding to a portion of two or more partial data divided from the data receiving first partial data step; A second partial data receiving step of receiving second partial data corresponding to another part of the at least two partial data; And a data generation step of generating the data by combining the first partial data and the second partial data.

According to a seventh aspect of the present invention for achieving the above object, a computer-readable recording medium includes: a dividing step of dividing data into two or more pieces of partial data; A partial data selection step of selecting first partial data corresponding to a part of the at least two partial data and selecting second partial data corresponding to another part of the at least two partial data; And a command for executing a data providing step of providing the first partial data and the second partial data.

Preferably, the partial data selection step selects the first partial data from the two or more partial data according to the first transmission rate for data transmission to the first network device, and transmits the data to the second network device. The second partial data is selected from the two or more partial data according to the second transmission rate for the.

Preferably, in the partial data selection step, it is determined whether at least one of the first transmission rate and the second transmission rate is changed, and when the determination result is changed, the two or more partial data according to the changed first transmission rate. The first partial data of the at least two partial data is selected or the second partial data is selected according to a changed second transmission rate. And select the second partial data from the two or more partial data according to the changed second transmission rate.

Preferably, the first partial data and the second partial data, characterized in that it comprises an identifier for identifying that the partial data provided from a specific transmission device.

Preferably, the first partial data includes first order information for confirming the order of one or more partial data included in the first partial data, and the second partial data is included in the second partial data. And second order information for confirming an order of at least one partial data, wherein the first order information and the second order information are included in at least one partial data and the second partial data included in the first partial data. It is characterized in that it is used to generate the data through the combination of one or more partial data included.

Preferably, the first partial data includes at least one of connection information of the first network device and connection information of a specific receiving device for receiving first partial data transmitted via the first network device. And the first connection information, wherein the second partial data is connected to the specific reception device for receiving the connection information of the second network device and the second partial data transmitted via the second network device. And second access information including at least one of the information.

Preferably, the first connection information and the second connection information, characterized in that further comprises the connection information of the external device for receiving the data transmitted from the receiving device.

According to an eighth aspect of the present invention for achieving the above object, a computer-readable recording medium includes: first partial data corresponding to a portion of two or more partial data divided from data, and another portion of the two or more partial data. A partial data checking step of confirming corresponding second partial data; And a command for executing a data generation step of generating the data by combining the first partial data and the second partial data.

Preferably, the partial data checking step includes the at least two partial data selected according to the first transmission rate for data transmission to the first network device, and a second transmission rate for data transmission to the second network device. Accordingly, the second partial data selected from the two or more partial data is identified.

Preferably, the partial data checking step is that the first partial data and the second partial data are partial data provided from a specific transmitter by using an identifier included in the first partial data and the second partial data. It is characterized by identifying.

Preferably, the data generation step includes the first order information of one or more pieces of partial data included in the first partial data and the second order information of one or more pieces of partial data included in the second partial data. Confirm an order of one or more partial data included in the first partial data and one or more partial data included in the second partial data, and according to the identified order, one or more partial data included in the first partial data and the The data may be generated by combining at least one partial data included in the second partial data.

Preferably, in the partial data checking step, the first data transmitted through the first network device using the connection information of the first network device included in the first connection information and the connection information of a specific receiving device. Confirming the partial data and confirming the second partial data transmitted through the second network apparatus using the access information of the second network apparatus included in the second access information and the access information of a specific receiving apparatus; It is characterized by.

Preferably, the recording medium further includes instructions for executing an additional transmission step of transmitting the data to the external device using the connection information of the external device included in the first connection information and the second connection information. It is characterized by that.

Therefore, according to the heterogeneous network-based simultaneous data transmission service system and method thereof according to the present invention, a data transmission rate for each access network is determined in a heterogeneous network environment, and the data to be transmitted is divided and divided according to the determined data transmission rate. By simultaneously transmitting the data through heterogeneous networks and receiving the received data, the receiving end combines the divided data received and restores the data to be transmitted, thereby increasing the data transmission speed by dividing the data to be transmitted. By effectively transferring the data traffic of the network, it is possible to improve the data service quality and ensure network stability.

1 is a schematic configuration diagram of a heterogeneous network-based data transmission service system according to an embodiment of the present invention.
2 and 3 are diagrams for explaining subscriber-specific table information according to an embodiment of the present invention.
4 is a schematic structural diagram of another terminal device according to an embodiment of the present invention;
5 is a schematic configuration diagram of a management device according to an embodiment of the present invention.
6 is a schematic flowchart illustrating an uplink operation method of a heterogeneous network-based simultaneous data transmission service system according to an embodiment of the present invention.
7 and 8 are schematic flowcharts illustrating a procedure for obtaining access information according to an embodiment of the present invention.
9 is a schematic flowchart illustrating a service registration procedure according to an embodiment of the present invention.
10 is a schematic flowchart illustrating a procedure of changing access information according to an embodiment of the present invention.
11 is a schematic flowchart illustrating a downlink operation method of a heterogeneous network-based simultaneous data transmission service system according to an embodiment of the present invention.
12 and 13 are schematic flowcharts for explaining operations of a transmitting device (terminal device) and a receiving device (management device) according to an embodiment of the present invention.

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

1 is a schematic block diagram of a heterogeneous network-based simultaneous data transmission service system according to an embodiment of the present invention.

As shown in FIG. 1, the system receives a partial data from a terminal device 100 and a terminal device 100 for splitting data into partial data and simultaneously transmitting the data into partial data in a heterogeneous network environment. Split data transferred from the first network device 200, the second network device 300 to receive the remaining partial data divided from the terminal device 100, the first network device 200 and the second network device 300 And a management device 400 for generating data by combining the external device 500 for receiving the combined data from the management device 400 and a policy management device 600 for providing a network selection policy.

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 is connected to the terminal device 100 through data transmission / For example, various services such as a portal service and a content providing service can be provided.

In addition, the policy management apparatus 600 may include, for example, the terminal apparatus 100 and the management apparatus according to various network parameters and network state changes on heterogeneous networks including subscriber preferences, subscriber types, subscription plans, types of service target applications, and the like. The network selection policy is determined based on the network state information received from 400 and provided to the terminal device 100 and the management device 400.

Meanwhile, the heterogeneous network may correspond to various access networks including, for example, WCDMA, CDMA, WiBro, WLAN (WiFi), and Long Term Evolution (LTE). However, in this embodiment, for convenience of description, a wireless packet service network A description will be given of the first network (hereinafter referred to as "3G network") and the second network (hereinafter referred to as "Wi-Fi network"), which refer to WCDMA.

Accordingly, the first network device 200 refers to a GGSN (Gateway GPRS Support Node) equipment for operating a 3G network, that is, a wireless packet service network, and the second network device 300 is a Wi-Fi network, It refers to an access point (AP) for operating a local area wireless network.

In addition, the terminal apparatus 100 and the management apparatus 400 may also be a transmitting apparatus or a receiving apparatus, depending on a service flow, that is, a subject transmitting data using a data simultaneous transmission service. For convenience of description, the present embodiment assumes that the terminal device 100 is located in a heterogeneous network environment and performs data transmission and reception, and assumes a management device 400 that provides a simultaneous data transmission service to the terminal device 100 .

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

In this regard, the terminal device 100 performs location registration for the 3G network and requests access information by accessing the first network device 200 to obtain access information of the management device 400 for accessing the 3G network. Done.

Accordingly, the first network device 200 according to the access information request transmitted from the terminal device 100, the access information of the address allocation device 700, for example, the 3G network access management device 400 from the DNS server, that is, private (Private) IP is assigned and delivered to the terminal device (100).

In addition, the terminal device 100 further requests the first network device 200 for access information of the management device 400 for accessing the Wi-Fi network, and the first network device 200 that receives the address information device ( 700, for example, the terminal device receives a virtual IP mapped to the access information of the management device 400 for accessing the Wi-Fi network from the DNS server, that is, the connection information of the management device 400 for accessing the 3G network, which is a private IP. 100).

At this time, the management device 400 manages the 3G network connection access information and the Wi-Fi network access information allocated to the terminal device 100 with the same subscriber identification information (eg, IMSI), thereby providing access information for the 3G network connection. It is recognized that the access information for accessing the Wi-Fi network is access information given to the same subscriber.

In another embodiment, in connection with obtaining access information of the management apparatus 400 for accessing a Wi-Fi network, the terminal apparatus 100 requests a service registration through the first network apparatus 100, from the management apparatus 400 to the Wi-Fi network. It is possible to obtain access information of the access management device 300.

Meanwhile, as the second network device 300 located in the Wi-Fi network area performs a network address translation (NAT) function, the second network device 300 of the terminal device 100 transferred to the management device 400 through the second network device 300. In the case of the access information, the access address of the second network device 300 is transmitted instead of the access information of the first terminal device 100. Accordingly, the management device 400 is connected to the terminal device 100 through a Wi-Fi network. In order to transmit and receive data, access information for the second network device 300 on the Wi-Fi network area where the terminal device 100 is located should be recognized in advance.

To this end, the management device 400 obtains the access information of the second network device 300 included in the service registration request received from the terminal device 100 during the service registration process of the first terminal device 100 through the Wi-Fi network. By doing so, the access information is stored and managed.

In other words, after the terminal device 100 obtains the access information of the management apparatus 400 for accessing the Wi-Fi network through the 3G network, the management apparatus 400 through the second network apparatus 300 based on the initially obtained access information. In this process, the management device 400 obtains the information via the Wi-Fi network included in the service registration request, that is, the access address of the second network device 300, and the corresponding service. The access information of the terminal apparatus 100 included in the registration request and the access address of the second network apparatus 300 are mapped to each other and managed as one access information.

Next, when the above-described access information acquisition procedure for the management device 400 is completed, a service registration procedure between the terminal device 100 and the management device 400 should be performed.

In this regard, the terminal device 100 requests service registration by accessing the management device 400 through each network based on the obtained access information for 3G network access and access information for accessing a Wi-Fi network.

Accordingly, the management device 400 is additional information included in each service registration request received from the terminal device 100 via the 3G network and the Wi-Fi network, for example, subscriber identification information (eg, IMSI), access information, and service classification. By checking the information (Initial, Update, Remove), the service registration for the terminal device 100 is performed.

In this case, as shown in FIG. 2, the management device 400 may include additional information included in the service registration request of the terminal device 100 received through the 3G network and the Wi-Fi network, for example, subscriber identification information (eg, IMSI), Access information and service classification information (Initial, Update, Remove) are managed in the form of table information for each subscriber, and a key value that is mapped 1: 1 to the terminal device 100 is generated separately and the corresponding key value is added to the service registration result. It will be provided to the terminal device 100, including.

On the other hand, the management device 400 may determine the new service registration, the access address update, the service registration termination for the terminal device 100, based on the service classification information (Initial, Update, Remove) included in the additional information.

In this case, in the case of updating the access address, the service registration for the 3G network and the Wi-Fi network for the terminal device 100 is completed, for example, the first network device 200 currently connected according to the position movement of the terminal device 100. ) Or when the second network device 300 is changed.

That is, the management apparatus 400 changes the terminal apparatus 100 when the first network apparatus 200 or the second network apparatus 300 to which the terminal apparatus 100 is currently connected according to the positional movement of the terminal apparatus 100 changes. Receive request for release of access information received from 100).

Accordingly, the management device 400 checks the subscriber identification information or the key value included in the request to determine that the request is valid. If the determination result is a valid request, the management device 400 deletes the previously stored access information and notifies the corresponding result. By receiving a new access information registration request from the device 100, the new access information is registered after determining the validity of the request.

Meanwhile, as shown in FIG. 3, the management device 400 includes a network selection policy for distributing traffic in a heterogeneous network environment, for example, source IP, source port, destination IP, destination port, protocol (UDP, TCP, etc.) for traffic classification. ) Information, traffic distribution rate by 3G network and Wi-Fi network can be additionally managed in the table information for each subscriber.

Here, the management device 400 may register and manage a network selection policy provided from the policy management device 600 when registering a service for the terminal device 100, and additionally, network state for efficiently providing data simultaneous transmission service. The network selection policy through detection can be applied in real time.

That is, the management apparatus 400 receives a network selection policy provided from the policy management apparatus 600 from the terminal apparatus 100 when registering a service for the terminal apparatus 100, registers and manages the subscriber information in table information for each subscriber, or manages the policy. The network selection policy delivered directly from the device 600 and the network selection policy delivered through the terminal device 100 may be registered and managed when the service is registered for the terminal device 100.

In addition, in the case of changing the network selection policy by detecting the network state, for example, when using the data service simultaneously between the terminal device 100 and the management device 400, the number of bits per second of the data transmitted for a predetermined time (Throughput) check and the network The management device 400 that recognizes the status report according to the link state detection and the detection of the network disconnection by receiving the status signal having a certain period of time performs the change of the traffic distribution rate for each 3G network and the Wi-Fi network, and further If necessary, it is transmitted to the policy management apparatus 600 so as to be utilized in a new network selection policy.

Here, in the case of checking the number of bits per second of the data transmitted for a predetermined time, based on the response message received from the receiving end corresponding to the order information inserted at a predetermined interval when transmitting data between the terminal device 100 and the management device 400 By checking the number of bits transmitted per second, or by checking the order information first inserted when receiving data, and by checking the number of bits received for a predetermined time, it is possible to check the current state of each network currently in use.

In addition, the network link state detection may be performed in a Wi-Fi network that is fluctuated in terms of network mobility and stability. Accordingly, the second network device 300 located in the Wi-Fi network may be configured based on a predetermined state and performance factor. The Wi-Fi network detects the link state in real time, and transmits the detected result to the management device 400.

In addition, in the case of receiving the status signal, it is preferable to be performed in the Wi-Fi network with high fluctuations in terms of network mobility and stability in the same way as the network link state detection described above, so that the terminal device 100 receives a status signal having a certain period. It continuously transmits to the management device 400 through the Wi-Fi network, the management device 400 receiving this can check whether the Wi-Fi network is disconnected by checking whether the corresponding signal is received.

Next, after the service registration procedure between the terminal device 100 and the management device 400 is completed, a data simultaneous transmission procedure between the terminal device 100 and the management device 400 is performed, and the terminal device 100 will be described below. ) Will be described based on an uplink procedure of transmitting data to the management device 400.

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 transmission target data to correspond to the number of networks for simultaneous transmission of data using a heterogeneous network environment, that is, a 3G network and a Wi-Fi network, and the division process is transmitted from the policy management device 600. According to the network selection policy or the real-time network state detection is performed may be performed according to the traffic distribution rate for each network received from the management device 400.

In other words, the terminal device 100 checks the first transmission rate for data transmission to the first network device 200 and the second transmission rate for data transmission to the second network device 300 included in the network selection policy. And selecting first partial data to be transmitted to the first network apparatus 200 among the divided partial data based on the confirmed transmission rate, and second partial data to be transmitted to the second network apparatus 300 among the remaining partial data. Will be selected.

By doing so, the terminal device 100 performs the above-described data partitioning process based on the network selection policy and the traffic distribution rate for each network, which is changed in real time, so that the relative utilization ratio of the 3G network and the Wi-Fi network is 10% and 3G network, for example. It can be applied such as Wifi Network 90%, Wifi Network 90% and Wifi Network 10%, Wifi Network 50%, Wifi Network 50%, Wifi Network 100%, Wifi Network 100%, and Wifi Network 100%. have.

In addition, the terminal device 100 inserts additional information into the selected first partial data and the second partial data.

That is, the terminal device 100 inserts an identifier into the divided first partial data and the second partial data, thereby receiving the divided first partial data and the second partial data through the 3G network and the Wi-Fi network, respectively. 400 to identify that it is the partial data provided from the terminal device (100).

In addition, the terminal device 100 inserts first order information for confirming the order of the plurality of pieces of partial data included in the first piece of data into the first piece of data, and inserts first order information into the first piece of data. By additionally inserting second order information for confirming the order into the second partial data, the management apparatus 400 having received the first partial data and the second partial data causes the first order information and the second order information to be input. On the basis of this, the data can be restored by combining the partial data included in the first partial data and the partial data included in the second partial data.

Here, in the case of the first order information and the second order information inserted into the first partial data and the second partial data, as described above, the number of bits per second of the data transmitted for a predetermined time by the management apparatus 400 receiving the same It can be used to check the current status of each network by checking.

In addition, the terminal device 100 inserts access information for transmitting the divided first partial data and the second partial data.

That is, the terminal device 100 accesses 3G network access information allocated during the service registration process, that is, access information of the first network device 200, access information of the management device 400, and access of the external device 500. By inserting information into a header of the first partial data, the first partial data is transmitted to the management device 400 via the first network device 200, and further, the data restored through the management device 400. To be additionally transmitted to the external device 500.

In addition, the terminal device 100 is the Wi-Fi connection access information assigned during the service registration process, that is, the connection information of the second network device 300, the connection information of the management device 400, and the connection information of the external device 500. Inserting the second partial data to form a header, so that the second partial data is transmitted to the management device 400 via the second network device 300, and further, the data restored through the management device 400 It can be finally delivered to the external device (500).

Further, the terminal device 100 transmits the first partial data and the second partial data to the management device 400 through the 3G network and the Wi-Fi network, respectively, based on the access information inserted in the header.

That is, the terminal device 100 inserts additional information and access information for the divided first partial data and the second partial data, and then drives a communication module mounted for 3G network access based on the corresponding access information. The first partial data is transmitted to the first network device 200, and at the same time, the second partial data is transmitted to the second network device 300 by driving a separate communication module mounted for the Wi-Fi network connection.

The management device 400 receives the first partial data and the second partial data transmitted from the terminal device 100.

That is, the management device 400 is a first part delivered via the first network device 200 located in the 3G network through a communication route formed according to the access information inserted in the first part data and the second part data. At the same time as receiving the data, the second partial data transmitted via the second network device 300 located in the Wi-Fi network is received.

In addition, the management device 400 restores the data by combining the received first partial data and the second partial data.

That is, the management device 400 identifies that the first partial data and the second partial data are partial data provided from the terminal device 100 by using the identifier included in the first partial data and the second partial data. At the same time, by confirming the order of each partial data using the first order information included in the first partial data and the second order information included in the second partial data, the first partial data is determined based on the confirmed order. And combine the respective partial data included in the second partial data, and combine the combined first partial data and the second partial data to restore the transmission target data transmitted from the terminal apparatus 100.

Furthermore, the management device 400 transmits the restored data to the external device 500.

That is, the management device 400 confirms the connection information of the external device 500 inserted into the first partial data and the second partial data, thereby transferring the restored transmission target data to the external device 500. In the case of the external device 500, as the external device 500 is located in the external network, the management device 400 performs a network address translation (NAT) function to access information of the external device 500 inserted into the first partial data and the second partial data. It is connected to the external device 500 by switching its own address information.

Next, with respect to the simultaneous data transmission procedure between the terminal device 100 and the management device 400 will be described based on the downlink procedure for the management device 400 to transmit data to the terminal device 100. do.

The management device 400 divides the transmission target data into partial data in order to use the simultaneous transmission service.

That is, the management device 400 divides the transmission target data to correspond to the number of networks for the simultaneous transmission of data using a heterogeneous network environment, that is, a 3G network and a Wi-Fi network, and the division process is transmitted from the policy management device 600. It may be performed according to the traffic distribution rate for each network that is changed according to the network selection policy or real-time network state detection.

In other words, the management device 400 checks the first transmission rate for data transmission to the first network device 200 and the second transmission rate for data transmission to the second network device 300 included in the network selection policy. And selecting first partial data to be transmitted to the first network apparatus 200 among the divided partial data based on the confirmed transmission rate, and second partial data to be transmitted to the second network apparatus 300 among the remaining partial data. Will be selected.

Through this, the management device 400 performs the above-described data segmentation process based on the network selection policy and the traffic distribution rate for each network, which is changed in real time, so that the relative utilization ratio of the 3G network and the Wi-Fi network is 10% and 3G network, for example. It can be applied such as Wifi Network 90%, Wifi Network 90% and Wifi Network 10%, Wifi Network 50%, Wifi Network 50%, Wifi Network 100%, Wifi Network 100%, and Wifi Network 100%. have.

In addition, the management apparatus 400 inserts additional information into the selected first partial data and the second partial data.

That is, the management apparatus 400 inserts an identifier into the divided first partial data and the second partial data, thereby receiving the divided first partial data and the second partial data through the 3G network and the Wi-Fi network, respectively. 100 to identify that it is the partial data provided from the management device (400).

In addition, the management device 400 inserts first order information for confirming the order of the plurality of pieces of partial data included in the first partial data into the first partial data, By additionally inserting second order information for confirming the order into the second partial data, the terminal apparatus 100 having received the first partial data and the second partial data receives the first order information and the second order information. On the basis of this, the data can be restored by combining the partial data included in the first partial data and the partial data included in the second partial data.

Here, in the case of the first order information and the second order information inserted into the first partial data and the second partial data, as described above, the number of bits per second of data transmitted for a predetermined time by the terminal device 100 receiving the same It can be used to check the current status of each network by checking.

Furthermore, the management device 400 inserts the access information for the transmission of the divided first partial data and the second partial data.

That is, the management device 400 inserts the 3G network connection access information, that is, the connection information of the first network device 200, and the connection information of the terminal device 400, assigned during the service registration process. By configuring the header, the first partial data is transmitted to the terminal device 100 via the first network device 200.

In addition, the management device 400 inserts the connection information for the Wi-Fi connection, that is, the connection information of the second network device 300, and the connection information of the terminal device 100, which are allocated during the service registration process. By configuring the second data is transmitted to the management device 400 via the second network device 300.

Furthermore, the management device 400 transmits the first partial data and the second partial data to the terminal device 100 through the 3G network and the Wi-Fi network, respectively, based on the access information inserted in the header.

That is, the management device 400 inserts additional information and access information for the divided first partial data and the second partial data, and then drives a communication module mounted for 3G network access based on the corresponding access information. The first partial data is transmitted to the first network device 200, and at the same time, the second partial data is transmitted to the second network device 300 by driving a separate communication module mounted for the Wi-Fi network connection.

The terminal device 100 receives the first partial data and the second partial data transmitted from the management device 400.

That is, the terminal device 100 is a first part transmitted via the first network device 200 located in the 3G network through a communication route formed according to the access information inserted in the first partial data and the second partial data. At the same time as receiving the data, the second partial data transmitted via the second network device 300 located in the Wi-Fi network is received.

In addition, the terminal device 100 restores the data by combining the received first partial data and the second partial data.

That is, the terminal device 100 identifies that the first partial data and the second partial data are partial data provided from the management device 400 by using the identifier included in the first partial data and the second partial data. At the same time, by confirming the order of each partial data using the first order information included in the first partial data and the second order information included in the second partial data, the first partial data is determined based on the confirmed order. And combine the respective partial data included in the second partial data, and combine the combined first partial data and the second partial data to restore the transmission target data transmitted from the management apparatus 400.

Hereinafter, with reference to FIG. 4, a more detailed configuration of the terminal device 100 performing the uplink operation according to an embodiment of the present invention will be described.

That is, the terminal device 100 performing the uplink procedure may include a control unit 110 for dividing data into partial data, a first communication unit 120 for transmitting first partial data corresponding to a part of the partial data, and a partial data. It has a configuration that includes a second communication unit 130 for transmitting the second partial data corresponding to the other part.

Here, the control unit 110 has a form mounted in the OS kernel mounted on the terminal device 100, a series of operations for data transmission and transmission in response to a request of a specific application embedded or downloaded to the terminal device 100 Will be performed.

In addition, the first communication unit 120 refers to a communication module for interworking with the first network device 200 using a 3G network, and the second communication unit 130 uses a Wi-Fi network to connect the second network device 300. It refers to a communication module for interworking with.

The controller 110 divides the transmission target data into partial data in order to use the simultaneous transmission service.

That is, after the service registration by obtaining access information for accessing the 3G network and the Wi-Fi network, the control unit 110 divides the transmission target data to correspond to the number of networks for simultaneous data transmission using the 3G network and the Wi-Fi network. The partitioning process may be performed according to the changed network distribution rate received from the management device 400 according to the network selection policy or the real-time network state detection transmitted from the policy management device 600.

In other words, the controller 110 checks the first transmission rate for data transmission to the first network device 200 and the second transmission rate for data transmission to the second network device 300 included in the network selection policy. The first partial data to be transmitted to the first network device 200 is selected from among the divided partial data based on the confirmed transmission rate, and the second partial data to be transmitted to the second network device 300 among the remaining partial data. Will be chosen.

By doing so, the controller 110 performs the above-described data partitioning process based on the network selection policy and the traffic distribution rate for each network, which is changed in real time, thereby determining the relative utilization ratio of the 3G network and the Wi-Fi network, for example, 10% of the 3G network and the Wi-Fi network. Applicable such as network 90%, 3G network 90% and Wi-Fi network 10%, 3G network 50% and Wi-Fi network 50%, 3G network 0% and Wi-Fi network 100%, and 3G network 100% and Wi-Fi network 0% etc. .

In addition, the controller 110 inserts additional information into the selected first partial data and the second partial data.

That is, the controller 110 inserts identifiers into the divided first partial data and the second partial data, thereby receiving the divided first partial data and the second partial data through the 3G network and the Wi-Fi network, respectively. ) To identify the partial data provided from the terminal device (100).

In addition, the control unit 110 inserts first order information for confirming the order of the plurality of pieces of partial data included in the first partial data into the first partial data, and the order of the partial data included on the second partial data. By additionally inserting second order information for confirmation into the second partial data, the management apparatus 400 receiving the first partial data and the second partial data is based on the first order information and the second order information. The data may be restored by combining the partial data included in the first partial data and the partial data included in the second partial data.

Here, in the case of the first order information and the second order information inserted into the first partial data and the second partial data, as described above, the number of bits per second of the data transmitted for a predetermined time by the management apparatus 400 receiving the same It can be used to check the current status of each network by checking.

Further, the controller 110 inserts the access information for the transmission of the divided first partial data and the second partial data.

That is, the controller 110 accesses 3G network access information allocated during the service registration process, that is, access information of the first network device 200, access information of the management device 400, and access information of the external device 500. Inserting the first partial data to form a header, so that the first partial data is transmitted to the management device 400 via the first network device 200, and further, the data restored through the management device 400 In addition, to be delivered to the external device 500.

In addition, the controller 110 may provide the access information for the Wi-Fi connection allocated in the service registration process, that is, the connection information of the second network device 300, the connection information of the management device 400, and the connection information of the external device 500. By inserting the header of the second partial data, the second partial data is transmitted to the management device 400 via the second network device 300, and further, the data restored through the management device 400 is external. To be finally delivered to the device 500.

Further, the controller 110 provides the first partial data and the second partial data to the first communication unit 120 and the second communication unit 130, respectively, based on the access information inserted in the header of each data, respectively, 3G. Transmission to the management device 400 through the network and the Wi-Fi network.

That is, the controller 110 inserts the additional information and the access information for the divided first partial data and the second partial data, and then provides the corresponding connection information to the first communication unit 120 and the second communication unit 130. By transmitting the first partial data to the first network device 200 by driving the first communication unit 120 mounted for 3G network connection, and simultaneously driving the second communication unit 130 mounted for the Wi-Fi network connection The second partial data is transmitted to the second network device 300.

Hereinafter, with reference to FIG. 4, a more detailed configuration of the terminal device 100 performing the downlink operation according to an embodiment of the present invention will be described.

That is, the terminal device 100 performing the downlink procedure combines the partial data to restore the data, and the first communication unit to receive the first partial data corresponding to a part of the partial data divided from the data. 120 and a second communication unit 130 for receiving second partial data corresponding to another part of the divided partial data.

Here, the control unit 110 has a form mounted in the OS kernel mounted on the terminal device 100, restores the divided data transmitted from the management device 400, and embeds the restored data in the terminal device 100 or It is provided to a specific application downloaded and mounted.

In addition, the first communication unit 120 refers to a communication module for interworking with the first network device 200 using a 3G network, and the second communication unit 130 uses a Wi-Fi network to connect the second network device 300. It refers to a communication module for interworking with.

The controller 110 receives the first partial data and the second partial data transmitted from the management apparatus 400.

That is, the controller 110 transmits the first partial data transmitted through the first network device 200 located in the 3G network through a communication route formed according to the access information inserted into the first partial data and the second partial data. At the same time as receiving through the first communication unit 120, and receives the second partial data transmitted via the second network device 300 located in the Wi-Fi network through the second communication unit 130.

In addition, the controller 110 restores the data by combining the received first partial data and the second partial data.

That is, the controller 110 identifies that the first partial data and the second partial data are partial data provided from the management device 400 by using an identifier included in the first partial data and the second partial data. At the same time, by confirming the order of each partial data using the first order information included in the first partial data and the second order information included in the second partial data, the first partial data and Each partial data included in the second partial data is combined, and the combined first partial data and the second partial data are combined to restore the transmission target data transmitted from the management device 400.

Hereinafter, with reference to FIG. 5, a more detailed configuration of the management device 400 for performing the uplink operation according to an embodiment of the present invention will be described.

That is, the management device 400 performing the uplink procedure may include a first communication unit 410 that receives first partial data corresponding to a part of the partial data divided from the data, and a first corresponding to another part of the divided partial data. The second communication unit 420 receiving the two-part data and the control unit 430 to restore the data by combining the partial data has a configuration.

The controller 430 receives the first partial data and the second partial data transmitted from the terminal device 100.

That is, the control unit 430 is the first partial data transmitted via the first network device 200 located in the 3G network through a communication route formed according to the access information inserted in the first partial data and the second partial data. At the same time as receiving through the first communication unit 410, and receives the second partial data transmitted through the second network device 300 located in the Wi-Fi network through the second communication unit 420.

In addition, the controller 430 restores the data by combining the received first partial data and the second partial data.

That is, the controller 430 identifies that the first partial data and the second partial data are partial data provided from the management device 400 by using an identifier included in the first partial data and the second partial data. At the same time, the order of each partial data is checked using the first order information included in the first partial data and the second order information included in the second partial data.

In addition, the controller 430 combines the respective partial data included in the first partial data and the second partial data based on the identified order, and combines the combined first partial data and the second partial data to manage the apparatus ( The transmission target data transmitted from 400 is restored.

In addition, the controller 430 transmits the restored data to the external device 500.

That is, the controller 430 confirms the connection information of the external device 500 inserted into the first partial data and the second partial data, and transmits the restored transmission target data to the external device 500, and at this time, the external In the case of the device 500, the management device 400 performs a network address translation (NAT) function to locate the connection information of the external device 500 inserted into the first and second partial data. It converts its own address information and accesses the external device 500.

Hereinafter, with reference to FIG. 5, a more specific configuration of the management device 400 for performing the downlink operation according to an embodiment of the present invention will be described.

That is, the management device 400 performing the downlink procedure transmits the first communication unit 410 for transmitting the first partial data corresponding to a part of the partial data and the second partial data corresponding to another part of the partial data. The second communication unit 420 and a control unit 430 for dividing the data into partial data has a configuration.

The controller 430 divides the transmission target data into partial data to use the simultaneous transmission service.

That is, the controller 430 divides the transmission target data to correspond to the number of networks for simultaneous transmission of data using the 3G network and the Wi-Fi network after registering a service through obtaining access information for accessing the 3G network and the Wi-Fi network. The partitioning process may be performed according to a network distribution policy changed according to a network selection policy or a real-time network state detection transmitted from the policy management apparatus 600.

In other words, the controller 430 checks the first transmission rate for data transmission to the first network device 200 and the second transmission rate for data transmission to the second network device 300 included in the network selection policy. The first partial data to be transmitted to the first network device 200 is selected from among the divided partial data based on the confirmed transmission rate, and the second partial data to be transmitted to the second network device 300 among the remaining partial data. Will be chosen.

In this way, the controller 430 performs the above-described data partitioning process based on the network selection policy and the traffic distribution rate for each network, which is changed in real time, thereby determining the relative utilization rates of the 3G network and the Wi-Fi network, for example, 10% of the 3G network and the Wi-Fi network. Applicable such as network 90%, 3G network 90% and Wi-Fi network 10%, 3G network 50% and Wi-Fi network 50%, 3G network 0% and Wi-Fi network 100%, and 3G network 100% and Wi-Fi network 0% etc. .

In addition, the controller 430 inserts additional information into the selected first partial data and the second partial data.

That is, the controller 430 inserts identifiers into the divided first partial data and the second partial data, thereby receiving the divided first partial data and the second partial data through the 3G network and the Wi-Fi network, respectively. ) To identify the partial data provided from the management device (400).

In addition, the control unit 430 inserts first order information for confirming the order of the plurality of pieces of partial data included in the first partial data into the first partial data, and the order of the partial data included on the second partial data. By additionally inserting second order information for confirmation into the second partial data, the terminal apparatus 100 having received the first partial data and the second partial data is based on the first order information and the second order information. The data may be restored by combining the partial data included in the first partial data and the partial data included in the second partial data.

Here, in the case of the first order information and the second order information inserted into the first partial data and the second partial data, as described above, the number of bits per second of data transmitted for a predetermined time by the terminal device 100 receiving the same It can be used to check the current status of each network by checking.

Further, the control unit 430 inserts the access information for the transmission of the divided first partial data and the second partial data.

That is, the controller 430 inserts the 3G network access information allocated during the service registration process, that is, the access information of the first network device 200 and the access information of the terminal device 100, and inserts the header of the first partial data. By configuring the first data, the first partial data is transmitted to the terminal device 100 via the first network device 200.

In addition, the controller 430 inserts the second partial data by inserting the access information for the Wi-Fi connection allocated in the service registration process, that is, the connection information of the second network device 300 and the connection information of the terminal device 100. By configuring the header, the second partial data is transmitted to the terminal device 100 via the second network device 300.

Furthermore, the control unit 430 provides the first partial data and the second partial data to the first communication unit 410 and the second communication unit 420, respectively, based on the access information inserted in the header of each data. Transmission to the terminal device 100 via a network and a Wi-Fi network.

That is, the controller 430 inserts the additional information and the access information for the divided first partial data and the second partial data, and then provides the connection information to the first communication unit 410 and the second communication unit 420. By transmitting the first partial data to the first network device 200 by driving the first communication unit 410 mounted for the 3G network connection, and simultaneously driving the second communication unit 420 mounted for the Wi-Fi network connection The second partial data is transmitted to the second network device 300.

As described above, according to the heterogeneous network-based data transmission service system according to the present invention, in the heterogeneous network environment, the data transmission rate is determined for each access network, and the data to be transmitted is divided according to the determined data transmission rate. By simultaneously transmitting the divided data through heterogeneous networks, and receiving the received data, the receiving end combines the divided data received to restore the transmission target data, thereby increasing the data transmission speed by dividing the transmission target data. In addition, data traffic of the entire network can be effectively transferred to improve data service quality and secure network stability.

Hereinafter, a heterogeneous network-based data transmission service method according to an embodiment of the present invention will be described with reference to FIGS. 6 to 13. Here, the configurations shown in FIGS. 1 to 5 will be described with reference to corresponding reference numerals for convenience of explanation.

First, an uplink operation method of a heterogeneous network-based data transmission service system according to an embodiment of the present invention will be described with reference to FIG. 6.

First, in order to use the simultaneous data transmission service in a heterogeneous network environment, a procedure of obtaining access information between the terminal device 100 and the management device 400 is performed (S110).

Preferably, as shown in FIG. 7, the terminal device 100 performs location registration with respect to the 3G network and acquires the access information of the management device 400 for accessing the 3G network. In step S111, access information is requested.

Accordingly, the first network device 200 according to the access information request transmitted from the terminal device 100, the access information of the address allocation device 700, for example, the 3G network access management device 400 from the DNS server, that is, private (Private) IP is allocated and transmitted to the terminal device 100 (S112-S114).

In addition, the terminal device 100 further requests the first network device 200 for access information of the management device 400 for accessing the Wi-Fi network, and the first network device 200 that receives the address information device ( 700, for example, the terminal device receives a virtual IP mapped to the access information of the management device 400 for accessing the Wi-Fi network from the DNS server, that is, the connection information of the management device 400 for accessing the 3G network, which is a private IP. 100) (S115-S118).

At this time, the management device 400 manages the 3G network connection access information and the Wi-Fi network access information allocated to the terminal device 100 with the same subscriber identification information (eg, IMSI), thereby providing access information for the 3G network connection. It is recognized that the access information for accessing the Wi-Fi network is access information given to the same subscriber.

In another embodiment, in connection with obtaining access information of the management apparatus 400 for accessing the Wi-Fi network, as illustrated in FIG. 8, when the service registration request is performed through the first network apparatus 100, The access information of the management apparatus 300 for accessing the Wi-Fi network may be obtained from the management apparatus 400 (S119-S122).

Meanwhile, as the second network device 300 located in the Wi-Fi network area performs a network address translation (NAT) function, the second network device 300 of the terminal device 100 transferred to the management device 400 through the second network device 300. In the case of the access information, the access address of the second network device 300 is transmitted instead of the access information of the first terminal device 100. Accordingly, the management device 400 is connected to the terminal device 100 through a Wi-Fi network. In order to transmit and receive data, access information for the second network device 300 on the Wi-Fi network area where the terminal device 100 is located should be recognized in advance.

To this end, the management device 400 obtains the access information of the second network device 300 included in the service registration request received from the terminal device 100 during the service registration process of the first terminal device 100 through the Wi-Fi network. By doing so, the access information is stored and managed.

In other words, after the terminal device 100 obtains the access information of the management apparatus 400 for accessing the Wi-Fi network through the 3G network, the management apparatus 400 through the second network apparatus 300 based on the initially obtained access information. In this process, the management device 400 obtains the information via the Wi-Fi network included in the service registration request, that is, the access address of the second network device 300, and the corresponding service. The access information of the terminal apparatus 100 included in the registration request and the access address of the second network apparatus 300 are mapped to each other and managed as one access information.

Next, when the above-described access information acquisition procedure for the management device 400 is completed, a service registration procedure between the terminal device 100 and the management device 400 is performed (S130).

In this regard, as shown in FIG. 9, the terminal device 100 accesses the management device 400 through each network based on the obtained 3G network connection access information and the Wi-Fi network connection access information. Registration is requested (S131, S133).

Accordingly, the management device 400 is additional information included in each service registration request received from the terminal device 100 via the 3G network and the Wi-Fi network, for example, subscriber identification information (eg, IMSI), access information, and service classification. By checking the information (Initial, Update, Remove), the service registration for the terminal device 100 is performed (S132, S134).

In this case, as shown in FIG. 2, the management device 400 may include additional information included in the service registration request of the terminal device 100 received through the 3G network and the Wi-Fi network, for example, subscriber identification information (eg, IMSI), Access information and service classification information (Initial, Update, Remove) are managed in the form of table information for each subscriber, and a key value that is mapped 1: 1 to the terminal device 100 is generated separately and the corresponding key value is added to the service registration result. It will be provided to the terminal device 100, including.

On the other hand, the management device 400 may determine the new service registration, the access address update, the service registration termination for the terminal device 100, based on the service classification information (Initial, Update, Remove) included in the additional information.

In this case, in the case of updating the access address, the service registration for the 3G network and the Wi-Fi network for the terminal device 100 is completed, for example, the first network device 200 currently connected according to the position movement of the terminal device 100. ) Or when the second network device 300 is changed.

That is, as shown in FIG. 10, the management device 400 may include the first network device 200 or the second network device 300 to which the terminal device 100 is currently connected as the terminal device 100 moves. If is changed, and receives the release request for the access information received from the terminal device (100) (S135, S139).

Accordingly, the management device 400 checks the subscriber identification information or the key value included in the request to determine that the request is valid. If the determination result is a valid request, the management device 400 deletes the previously stored access information and notifies the corresponding result. By receiving a new access information registration request from the device 100, the new access information is registered after determining the validity of the request (S136-S138, S140-S142).

Meanwhile, as shown in FIG. 3, the management device 400 includes a network selection policy for distributing traffic in a heterogeneous network environment, for example, source IP, source port, destination IP, destination port, protocol (UDP, TCP, etc.) for traffic classification. ) Information, traffic distribution rate by 3G network and Wi-Fi network can be additionally managed in the table information for each subscriber.

Here, the management device 400 may register and manage a network selection policy provided from the policy management device 600 when registering a service for the terminal device 100, and additionally, network state for efficiently providing data simultaneous transmission service. The network selection policy through detection can be applied in real time.

That is, the management apparatus 400 receives a network selection policy provided from the policy management apparatus 600 from the terminal apparatus 100 when registering a service for the terminal apparatus 100, registers and manages the subscriber information in table information for each subscriber, or manages the policy. The network selection policy delivered directly from the device 600 and the network selection policy delivered through the terminal device 100 may be registered and managed when the service is registered for the terminal device 100.

In addition, in the case of changing the network selection policy by detecting the network state, for example, when using the data service simultaneously between the terminal device 100 and the management device 400, the number of bits per second of the data transmitted for a predetermined time (Throughput) check and the network The management device 400 that recognizes the status report according to the link state detection and the detection of the network disconnection by receiving the status signal having a certain period of time performs the change of the traffic distribution rate for each 3G network and the Wi-Fi network, and further If necessary, it is transmitted to the policy management apparatus 600 so as to be utilized in a new network selection policy.

Here, in the case of checking the number of bits per second of the data transmitted for a predetermined time, based on the response message received from the receiving end corresponding to the order information inserted at a predetermined interval when transmitting data between the terminal device 100 and the management device 400 By checking the number of bits transmitted per second, or by checking the order information first inserted when receiving data, and by checking the number of bits received for a predetermined time, it is possible to check the current state of each network currently in use.

In addition, the network link state detection may be performed in a Wi-Fi network that is fluctuated in terms of network mobility and stability. Accordingly, the second network device 300 located in the Wi-Fi network may be configured based on a predetermined state and performance factor. The Wi-Fi network detects the link state in real time, and transmits the detected result to the management device 400.

In addition, in the case of receiving the status signal, it is preferable to be performed in the Wi-Fi network with high fluctuations in terms of network mobility and stability in the same way as the network link state detection described above, so that the terminal device 100 receives a status signal having a certain period. It continuously transmits to the management device 400 through the Wi-Fi network, the management device 400 receiving this can check whether the Wi-Fi network is disconnected by checking whether the corresponding signal is received.

Next, the terminal device 100 divides the transmission target data into partial data in order to use the simultaneous transmission service (S150).

Preferably, the terminal device 100 divides the transmission target data to correspond to the number of networks for simultaneous transmission of data using a heterogeneous network environment, that is, a 3G network and a Wi-Fi network, and this division process is performed by the policy management device 600. According to the network selection policy delivered from the real-time network state detection or may be performed according to the changed network distribution rate for each network received from the management device 400.

In other words, the terminal device 100 checks the first transmission rate for data transmission to the first network device 200 and the second transmission rate for data transmission to the second network device 300 included in the network selection policy. And selecting first partial data to be transmitted to the first network apparatus 200 among the divided partial data based on the confirmed transmission rate, and second partial data to be transmitted to the second network apparatus 300 among the remaining partial data. Will be selected.

By doing so, the terminal device 100 performs the above-described data partitioning process based on the network selection policy and the traffic distribution rate for each network, which is changed in real time, so that the relative utilization ratio of the 3G network and the Wi-Fi network is 10% and 3G network, for example. It can be applied such as Wifi Network 90%, Wifi Network 90% and Wifi Network 10%, Wifi Network 50%, Wifi Network 50%, Wifi Network 100%, Wifi Network 100%, and Wifi Network 100%. have.

Thereafter, the terminal apparatus 100 inserts additional information into the selected first partial data and the second partial data (S170).

Preferably, the terminal device 100 manages the received first partial data and the second partial data through the 3G network and the Wi-Fi network by inserting identifiers into the divided first partial data and the second partial data, respectively. Allows the device 400 to identify the partial data provided from the terminal device 100.

In addition, the terminal device 100 inserts first order information for confirming the order of the plurality of pieces of partial data included in the first piece of data into the first piece of data, and inserts first order information into the first piece of data. By additionally inserting second order information for confirming the order into the second partial data, the management apparatus 400 having received the first partial data and the second partial data causes the first order information and the second order information to be input. On the basis of this, the data can be restored by combining the partial data included in the first partial data and the partial data included in the second partial data.

Here, in the case of the first order information and the second order information inserted into the first partial data and the second partial data, as described above, the number of bits per second of the data transmitted for a predetermined time by the management apparatus 400 receiving the same It can be used to check the current status of each network by checking.

Further, the terminal device 100 inserts the access information for the transmission of the divided first partial data and the second partial data (S190).

Preferably, the terminal device 100 is 3G network access information assigned during the service registration process, that is, access information of the first network device 200, access information of the management device 400, and the external device 500 By inserting the connection information of the first partial data by configuring the header, the first partial data is transmitted to the management device 400 via the first network device 200, and further restored through the management device 400 The data may be further transmitted to the external device 500.

In addition, the terminal device 100 is the Wi-Fi connection access information assigned during the service registration process, that is, the connection information of the second network device 300, the connection information of the management device 400, and the connection information of the external device 500. Inserting the second partial data to form a header, so that the second partial data is transmitted to the management device 400 via the second network device 300, and further, the data restored through the management device 400 It can be finally delivered to the external device (500).

Then, the terminal device 100 transmits the first partial data and the second partial data to the management device 400 through the 3G network and the Wi-Fi network, respectively, based on the access information inserted in the header (S210).

That is, the terminal device 100 inserts additional information and access information for the divided first partial data and the second partial data, and then drives a communication module mounted for 3G network access based on the corresponding access information. The first partial data is transmitted to the first network device 200, and at the same time, the second partial data is transmitted to the second network device 300 by driving a separate communication module mounted for the Wi-Fi network connection.

Then, the management device 400 restores the data by combining the received first partial data and the second partial data (S230).

Preferably, the management device 400 is a partial data provided from the terminal device 100 by using the first partial data and the identifier included in the second partial data. Identifying the order of each partial data by using the first order information included in the first partial data and the second order information included in the second partial data at the same time, thereby confirming the first order based on the confirmed order. Each of the partial data included in the partial data and the second partial data is combined, and the combined first partial data and the second partial data are combined to restore the transmission target data transmitted from the terminal device 100.

Thereafter, the management device 400 transmits the restored data to the external device 500 (S250).

Preferably, the management device 400 confirms the connection information of the external device 500 inserted into the first partial data and the second partial data, thereby transferring the restored transmission target data to the external device 500, In this case, in the case of the external device 500, the management device 400 performs a network address translation (NAT) function as the external device 500 is inserted into the first partial data and the second partial data. The access information is converted to its own address information to access the external device 500.

Next, a downlink operation method of a heterogeneous network-based data transmission service system according to an embodiment of the present invention will be described with reference to FIG. 11. In the meantime, the procedure for obtaining access information and registering a service between the terminal device 100 and the management device 400 is the same as the uplink operation with reference to FIG. 6 and will not be described in the following description.

First, the management device 400 divides the transmission target data into partial data in order to use the simultaneous transmission service (S270).

Preferably, the management device 400 divides the transmission target data to correspond to the number of networks for simultaneous transmission of data using a heterogeneous network environment, that is, a 3G network and a Wi-Fi network, and this division process is performed by the policy management device 600. It may be performed according to the traffic distribution rate for each network that is changed according to the network selection policy delivered from the network or the real-time network state detection.

In other words, the management device 400 checks the first transmission rate for data transmission to the first network device 200 and the second transmission rate for data transmission to the second network device 300 included in the network selection policy. And selecting first partial data to be transmitted to the first network apparatus 200 among the divided partial data based on the confirmed transmission rate, and second partial data to be transmitted to the second network apparatus 300 among the remaining partial data. Will be selected.

Through this, the management device 400 performs the above-described data segmentation process based on the network selection policy and the traffic distribution rate for each network, which is changed in real time, so that the relative utilization ratio of the 3G network and the Wi-Fi network is 10% and 3G network, for example. It can be applied such as Wifi Network 90%, Wifi Network 90% and Wifi Network 10%, Wifi Network 50%, Wifi Network 50%, Wifi Network 100%, Wifi Network 100%, and Wifi Network 100%. have.

Then, the management device 400 inserts additional information into the selected first partial data and the second partial data (S290).

Preferably, the management device 400 inserts an identifier into the divided first partial data and the second partial data, thereby receiving the divided first partial data and the second partial data through the 3G network and the Wi-Fi network, respectively. Allows the device 100 to identify that it is partial data provided from the management device 400.

In addition, the management device 400 inserts first order information for confirming the order of the plurality of pieces of partial data included in the first partial data into the first partial data, By additionally inserting second order information for confirming the order into the second partial data, the terminal apparatus 100 having received the first partial data and the second partial data receives the first order information and the second order information. On the basis of this, the data can be restored by combining the partial data included in the first partial data and the partial data included in the second partial data.

Here, in the case of the first order information and the second order information inserted into the first partial data and the second partial data, as described above, the number of bits per second of data transmitted for a predetermined time by the terminal device 100 receiving the same It can be used to check the current status of each network by checking.

Next, the management device 400 inserts the access information for the transmission of the divided first partial data and the second partial data (S310).

Preferably, the management device 400 inserts the 3G network connection access information assigned during the service registration process, that is, the access information of the first network device 200 and the access information of the terminal device 400 to insert the first portion. By configuring the header of the data, the first partial data is transmitted to the terminal device 100 via the first network device 200.

In addition, the management device 400 inserts the connection information for the Wi-Fi connection, that is, the connection information of the second network device 300, and the connection information of the terminal device 100, which are allocated during the service registration process. By configuring the second data is transmitted to the management device 400 via the second network device 300.

Then, the management device 400 transmits the first partial data and the second partial data to the terminal device 100 through the 3G network and the Wi-Fi network, respectively, based on the access information inserted in the header (S330).

Preferably, the management device 400 after inserting the additional information and the access information for the divided first partial data and the second partial data, the communication module mounted for the 3G network connection based on the connection information By driving, the first partial data is transmitted to the first network device 200, and at the same time, the second partial data is transmitted to the second network device 300 by driving a separate communication module mounted for the Wi-Fi network connection.

Thereafter, the terminal device 100 restores the data by combining the received first partial data and the second partial data (S350).

Preferably, the terminal device 100 indicates that the first partial data and the second partial data are partial data provided from the management device 400 by using an identifier included in the first partial data and the second partial data. Identifying the order of each partial data by using the first order information included in the first partial data and the second order information included in the second partial data at the same time, thereby confirming the first order based on the confirmed order. Each of the partial data included in the partial data and the second partial data is combined, and the combined first partial data and the second partial data are combined to restore the transmission target data transmitted from the management device 400.

Hereinafter, an uplink operation of the terminal device 100 according to an embodiment of the present invention will be described with reference to FIG. 12.

First, in order to use the simultaneous transmission service according to a request of a specific application embedded in or downloaded from the terminal apparatus 100, the transmission target data is divided into partial data (S370-S390).

Preferably, the control unit 110 after the service registration by obtaining the access information for accessing the 3G network and the Wi-Fi network, and divides the transmission target data to correspond to the number of networks for simultaneous data transmission using the 3G network and the Wi-Fi network. In this case, the partitioning process may be performed according to the changed network distribution rate received from the management apparatus 400 according to the network selection policy or the real-time network state detection transmitted from the policy management apparatus 600.

In other words, the controller 110 checks the first transmission rate for data transmission to the first network device 200 and the second transmission rate for data transmission to the second network device 300 included in the network selection policy. The first partial data to be transmitted to the first network device 200 is selected from among the divided partial data based on the confirmed transmission rate, and the second partial data to be transmitted to the second network device 300 among the remaining partial data. Will be chosen.

By doing so, the controller 110 performs the above-described data partitioning process based on the network selection policy and the traffic distribution rate for each network, which is changed in real time, thereby determining the relative utilization ratio of the 3G network and the Wi-Fi network, for example, 10% of the 3G network and the Wi-Fi network. Applicable such as network 90%, 3G network 90% and Wi-Fi network 10%, 3G network 50% and Wi-Fi network 50%, 3G network 0% and Wi-Fi network 100%, and 3G network 100% and Wi-Fi network 0% etc. .

Then, additional information is inserted into the selected first partial data and the second partial data (S410-S430).

That is, the controller 110 inserts identifiers into the divided first partial data and the second partial data, thereby receiving the divided first partial data and the second partial data through the 3G network and the Wi-Fi network, respectively. ) To identify the partial data provided from the terminal device (100).

In addition, the control unit 110 inserts first order information for confirming the order of the plurality of pieces of partial data included in the first partial data into the first partial data, and the order of the partial data included on the second partial data. By additionally inserting second order information for confirmation into the second partial data, the management apparatus 400 receiving the first partial data and the second partial data is based on the first order information and the second order information. The data may be restored by combining the partial data included in the first partial data and the partial data included in the second partial data.

Here, in the case of the first order information and the second order information inserted into the first partial data and the second partial data, as described above, the number of bits per second of the data transmitted for a predetermined time by the management apparatus 400 receiving the same It can be used to check the current status of each network by checking.

Then, the access information for transmitting the divided first partial data and the second partial data is inserted (S450).

Preferably, the controller 110 is connected to the 3G network access information assigned during the service registration process, that is, the connection information of the first network device 200, the connection information of the management device 400, and the external device 500 By inserting the access information to form a header of the first partial data, the first partial data is transmitted to the management device 400 via the first network device 200, and further restored through the management device 400 Allows data to be further delivered to external device 500.

In addition, the controller 110 may provide the access information for the Wi-Fi connection allocated in the service registration process, that is, the connection information of the second network device 300, the connection information of the management device 400, and the connection information of the external device 500. By inserting the header of the second partial data, the second partial data is transmitted to the management device 400 via the second network device 300, and further, the data restored through the management device 400 is external. To be finally delivered to the device 500.

Subsequently, the controller 110 provides the first partial data and the second partial data to the first communication unit 120 and the second communication unit 130, respectively, based on the access information inserted in the header of each data. It transmits to the management device 400 through the network and the Wi-Fi network (S470).

That is, the controller 110 inserts the additional information and the access information for the divided first partial data and the second partial data, and then provides the corresponding connection information to the first communication unit 120 and the second communication unit 130. By transmitting the first partial data to the first network device 200 by driving the first communication unit 120 mounted for 3G network connection, and simultaneously driving the second communication unit 130 mounted for the Wi-Fi network connection The second partial data is transmitted to the second network device 300.

Hereinafter, a downlink operation of the terminal device 100 according to an embodiment of the present invention will be described with reference to FIG. 13.

First, the first partial data and the second partial data transmitted from the management device 400 is received (S490).

Preferably, the control unit 110 is transmitted through the first network device 200 located in the 3G network through a communication route formed according to the access information inserted in the first partial data and the second partial data. At the same time as receiving the partial data through the first communication unit 120, and receives the second partial data transmitted via the second network device 300 located in the Wi-Fi network through the second communication unit 130.

Then, the controller 110 restores the data by combining the received first partial data and the second partial data (S510-S550).

Preferably, the controller 110 identifies that the first partial data and the second partial data are partial data provided from the management device 400 by using the identifier included in the first partial data and the second partial data. At the same time, the order of each partial data is checked using the first order information included in the first partial data and the second order information included in the second partial data.

In addition, the controller 110 combines the respective partial data included in the first partial data and the second partial data based on the identified order, and combines the combined first partial data and the second partial data to manage the apparatus ( The transmission target data transmitted from 400 is restored.

Thereafter, the restored data is transmitted (S570).

Preferably, the controller 100 transmits the restored data to a specific application running in the terminal device.

Hereinafter, the downlink operation of the management apparatus 400 according to an embodiment of the present invention will be described with reference to FIG. 12.

First, in order to use the simultaneous transmission service according to the request of the external device 500, the transmission target data is divided into partial data (S370-S390).

Preferably, the control unit 430 divides the transmission target data to correspond to the number of networks for simultaneous data transmission using the 3G network and the Wi-Fi network after registering the service through obtaining access information for accessing the 3G network and the Wi-Fi network. In this case, the partitioning process may be performed according to a network distribution policy changed according to a network selection policy or a real-time network state detection transmitted from the policy management apparatus 600.

In other words, the controller 430 checks the first transmission rate for data transmission to the first network device 200 and the second transmission rate for data transmission to the second network device 300 included in the network selection policy. The first partial data to be transmitted to the first network device 200 is selected from among the divided partial data based on the confirmed transmission rate, and the second partial data to be transmitted to the second network device 300 among the remaining partial data. Will be chosen.

In this way, the controller 430 performs the above-described data partitioning process based on the network selection policy and the traffic distribution rate for each network, which is changed in real time, thereby determining the relative utilization rates of the 3G network and the Wi-Fi network, for example, 10% of the 3G network and the Wi-Fi network. Applicable such as network 90%, 3G network 90% and Wi-Fi network 10%, 3G network 50% and Wi-Fi network 50%, 3G network 0% and Wi-Fi network 100%, and 3G network 100% and Wi-Fi network 0% etc. .

Then, additional information is inserted into the selected first partial data and the second partial data (S410-S430).

That is, the controller 430 inserts identifiers into the divided first partial data and the second partial data, thereby receiving the divided first partial data and the second partial data through the 3G network and the Wi-Fi network, respectively. ) To identify the partial data provided from the management device (400).

In addition, the control unit 430 inserts first order information for confirming the order of the plurality of pieces of partial data included in the first partial data into the first partial data, and the order of the partial data included on the second partial data. By additionally inserting second order information for confirmation into the second partial data, the terminal apparatus 100 having received the first partial data and the second partial data is based on the first order information and the second order information. The data may be restored by combining the partial data included in the first partial data and the partial data included in the second partial data.

Here, in the case of the first order information and the second order information inserted into the first partial data and the second partial data, as described above, the number of bits per second of data transmitted for a predetermined time by the terminal device 100 receiving the same It can be used to check the current status of each network by checking.

Then, the access information for transmitting the divided first partial data and the second partial data is inserted (S450).

Preferably, the control unit 430 inserts the first partial data by inserting the 3G network access information allocated during the service registration process, that is, the access information of the first network apparatus 200 and the access information of the terminal apparatus 100. By configuring the header, the first partial data is transmitted to the terminal device 100 via the first network device 200.

In addition, the controller 430 inserts the second partial data by inserting the access information for the Wi-Fi connection allocated in the service registration process, that is, the connection information of the second network device 300 and the connection information of the terminal device 100. By configuring the header, the second partial data is transmitted to the terminal device 100 via the second network device 300.

Thereafter, the controller 430 provides the first partial data and the second partial data to the first communication unit 410 and the second communication unit 420, respectively, based on the access information inserted in the header of each data. The terminal 100 transmits the data to the terminal 100 through the network and the Wi-Fi network (S470).

That is, the controller 430 inserts the additional information and the access information for the divided first partial data and the second partial data, and then provides the connection information to the first communication unit 410 and the second communication unit 420. By transmitting the first partial data to the first network device 200 by driving the first communication unit 410 mounted for the 3G network connection, and simultaneously driving the second communication unit 420 mounted for the Wi-Fi network connection The second partial data is transmitted to the second network device 300.

Hereinafter, an uplink operation of the management apparatus 400 according to an exemplary embodiment of the present invention will be described with reference to FIG. 13.

First, the first partial data and the second partial data transmitted from the terminal device 100 is received (S490).

Preferably, the control unit 430 is the first delivered via the first network device 200 located in the 3G network through a communication route formed according to the access information inserted in the first partial data and the second partial data. At the same time as receiving the partial data through the first communication unit 410, and receives the second partial data transmitted via the second network device 300 located in the Wi-Fi network through the second communication unit 420.

Then, the control unit 430 restores the data by combining the received first partial data and the second partial data (S510-S550).

Preferably, the controller 430 identifies that the first partial data and the second partial data are partial data provided from the management device 400 by using an identifier included in the first partial data and the second partial data. At the same time, the order of each partial data is checked using the first order information included in the first partial data and the second order information included in the second partial data.

In addition, the controller 430 combines the respective partial data included in the first partial data and the second partial data based on the identified order, and combines the combined first partial data and the second partial data to manage the apparatus ( The transmission target data transmitted from 400 is restored.

Thereafter, the restored data is transmitted to the external device 500 (S570).

Preferably, the control unit 430 confirms the connection information of the external device 500 inserted into the first partial data and the second partial data, thereby transferring the restored transmission target data to the external device 500. In the case of the external device 500, as the external device 500 is located in the external network, the management device 400 performs a network address translation (NAT) function to connect the external device 500 inserted into the first partial data and the second partial data. The information is converted to its own address information to access the external device 500.

As described above, according to the heterogeneous network-based data transmission service method according to the present invention, in the heterogeneous network environment, the data transmission rate is determined for each access network, and the data to be transmitted is divided according to the determined data transmission rate. By simultaneously transmitting the divided data through heterogeneous networks, and receiving the received data, the receiving end combines the divided data received to restore the transmission target data, thereby increasing the data transmission speed by dividing the transmission target data. In addition, data traffic of the entire network can be effectively transferred to improve data service quality and secure network stability.

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 the heterogeneous network-based simultaneous data transmission service system and method thereof according to the present invention, a data transmission rate for each access network is determined in a heterogeneous network environment, and the data to be transmitted is divided according to the determined data transmission rate. Simultaneous transmission of data through heterogeneous networks, and the receiving end combines the divided data received and restores the data to be transmitted, thereby exceeding the limitations of the existing technology. It is an invention with industrial applicability because the device is commercially available or commercially available, and it is practically and clearly implementable.

100: terminal device
110: control unit 120: first communication unit
130: second communication unit
200: first network device
300: second network device
400: management device
410: first communication unit 420: second communication unit
430:
500: External device
600: policy management device
700: address assignment device

Claims (30)

A transmitter for dividing data into two or more partial data, selecting first partial data corresponding to a part of the two or more partial data, and selecting second partial data corresponding to another part of the two or more partial data;
A first network device for receiving the first partial data from the transmitting device;
A second network device for receiving the second partial data from the transmitting device; And
A reception for receiving the first partial data from the first network device, receiving the second partial data from the second network device, and combining the first partial data and the second partial data to generate the data Device,
The first partial data,
And access information of the receiving device for causing the first partial data to be delivered to the receiving device via the first network device.
The second partial data is,
And access information of the receiving device for causing the second partial data to be transmitted to the receiving device via the second network device.
The first partial data and the second partial data,
And heterogeneous network-based data transmission service system further comprising an identifier for identifying that the first partial data and the second partial data are partial data provided from the transmitting apparatus. A control unit for dividing data into two or more partial data;
A first communication unit which transmits first partial data corresponding to a part of the at least two partial data to a receiving device; And
A second communication unit which transmits second partial data corresponding to another part of the at least two partial data to the receiving device,
The first partial data,
A connection information of the receiving device for causing the first partial data to be delivered to the receiving device via the first network device;
The second partial data is,
A connection information of the receiving device for causing the second partial data to be delivered to the receiving device via a second network device;
The first partial data and the second partial data,
And an identifier for identifying that the first partial data and the second partial data are partial data provided from a specific transmission apparatus. 3. The method of claim 2,
The control unit,
Selecting the first partial data from the at least two partial data according to a first transmission rate for data transmission to the first network device,
Selecting the second partial data from the two or more partial data according to a second transmission rate for data transmission to the second network device,
The first transmission rate and the second transmission rate are determined based on a network selection policy provided from a policy management device.
The network selection policy is characterized in that it comprises information for identifying the traffic of the data. The method of claim 3, wherein
The control unit,
Determine whether at least one of the first transmission rate and the second transmission rate is changed,
If the determination result is changed, the first partial data is selected from the two or more partial data according to the changed first transmission rate, or the second partial data is selected from the two or more partial data according to the changed second transmission rate; And selecting the first partial data among the two or more partial data according to the changed first transmission rate and selecting the second partial data among the two or more partial data according to the changed second transmission rate. delete 3. The method of claim 2,
The first partial data,
Includes first order information for confirming the order of at least one partial data included in the first partial data,
The second partial data is,
Includes second order information for confirming the order of one or more pieces of partial data included in the second partial data,
The first order information and the second order information,
And at least one partial data included in the first partial data and one or more partial data included in the second partial data are used to generate the data. delete 3. The method of claim 2,
The first partial data and the second partial data,
And a connection information of an external device for receiving the data transmitted from the receiving device. A receiving apparatus for receiving two or more partial data divided from data,
A first communication unit configured to receive first partial data corresponding to a part of the at least two partial data;
A second communication unit configured to receive second partial data corresponding to another part of the two or more partial data; And
A control unit for generating the data by combining the first partial data and the second partial data,
The first partial data,
A connection information of the receiving device for causing the first partial data to be received by the receiving device via the first network device;
The second partial data is,
And access information of the receiving device for causing the second partial data to be received by the receiving device via the second network device.
The control unit,
And an identifier included in the first partial data and the second partial data to identify that the first partial data and the second partial data are partial data provided from a specific transmission apparatus. The method of claim 9,
The first communication unit,
Receiving the first partial data selected from the at least two partial data according to a first transmission rate for data transmission to the first network device,
The second communication unit,
Receiving the second partial data selected from the two or more partial data according to a second transmission rate for data transmission to the second network device,
The first transmission rate and the second transmission rate are determined based on a network selection policy provided from a policy management device.
And the network selection policy includes information for traffic classification of the data. delete The method of claim 9,
The control unit,
One or more parts included in the first partial data by using first order information of one or more partial data included in the first partial data and second order information of one or more partial data included in the second partial data Confirm an order of data and one or more partial data included in the second partial data, and according to the identified order, one or more partial data included in the first partial data and one or more partial included in the second partial data And receiving data to generate the data. delete The method of claim 9,
The control unit,
And transmitting the data to the external device using the access information of the external device included in the first partial data and the second partial data. A data dividing step, wherein the transmitting device divides the data into two or more partial data;
The transmitting device provides the first network device with the first partial data corresponding to a part of the at least two partial data, and provides the second network device with the second partial data corresponding to another part of the at least two partial data. Data providing step;
A data transfer step of providing the first partial data to the receiving device by the first network device, and providing the second partial data to the receiving device by the second network device; And
And a data generation step of the reception apparatus combining the first partial data and the second partial data to generate the data.
The first partial data,
And access information of the receiving device for causing the first partial data to be delivered to the receiving device via the first network device.
The second partial data is,
And access information of the receiving device for causing the second partial data to be transmitted to the receiving device via the second network device.
The data generation step,
Heterogeneous network-based data simultaneously by using the identifier included in the first partial data and the second partial data to identify that the first partial data and the second partial data is the partial data provided from the transmitting device Transport service method. A data division step of dividing the data into two or more partial data;
A first partial data transmission step of transmitting first partial data corresponding to a part of the at least two partial data to a receiving device through a first network device; And
A second partial data transmission step of transmitting second partial data corresponding to another part of the at least two partial data to the receiving device through a second network device;
The first partial data,
And access information of the receiving device for causing the first partial data to be delivered to the receiving device via the first network device.
The second partial data is,
And access information of the receiving device for causing the second partial data to be transmitted to the receiving device via the second network device.
The first partial data and the second partial data,
And an identifier for identifying that the data is partial data provided from a specific transmitter. An operating method of a receiving apparatus for receiving two or more partial data divided from data,
A first partial data receiving step of receiving first partial data corresponding to a portion of the two or more partial data via a first network device;
A second partial data receiving step of receiving, via a second network device, second partial data corresponding to another portion of the two or more partial data; And
A data generation step of generating the data by combining the first partial data and the second partial data;
The first partial data,
A connection information of the receiving device for causing the first partial data to be received by the receiving device via the first network device;
The second partial data is,
And access information of the receiving device for causing the second partial data to be received by the receiving device via the second network device.
The data generation step,
Heterogeneous network-based data simultaneously by using the identifier included in the first partial data and the second partial data to identify that the first partial data and the second partial data is partial data provided from a specific transmission device Method of operation of the receiving device. A division step of dividing the data into two or more partial data;
A partial data selection step of selecting first partial data corresponding to a part of the at least two partial data and selecting second partial data corresponding to another part of the at least two partial data; And
And providing a data providing step of providing the first partial data to the receiving device via the first network device and providing the second partial data to the receiving device via the first network device.
The first partial data,
And access information of the receiving device for causing the first partial data to be delivered to the receiving device via the first network device.
The second partial data is,
And access information of the receiving device for causing the second partial data to be transmitted to the receiving device via the second network device.
The first partial data and the second partial data,
And an identifier for identifying that the data is partial data provided from a specific transmission device. The method of claim 18,
The partial data selection step,
Selecting the first partial data from the at least two partial data according to a first transmission rate for data transmission to a first network device,
Selecting the second partial data from the at least two partial data according to a second transmission rate for data transmission to a second network device,
The first transmission rate and the second transmission rate are determined based on a network selection policy provided from a policy management device.
And said network selection policy includes information for traffic classification of said data. The method of claim 19,
The partial data selection step,
Determine whether at least one of the first transmission rate and the second transmission rate is changed,
If the determination result is changed, the first partial data is selected from the two or more partial data according to the changed first transmission rate, or the second partial data is selected from the two or more partial data according to the changed second transmission rate; And selecting the first partial data of the two or more partial data according to the changed first transmission rate and the second partial data of the two or more partial data according to the changed second transmission rate. media. delete The method of claim 18,
The first partial data,
Includes first order information for confirming the order of at least one partial data included in the first partial data,
The second partial data is,
Includes second order information for confirming the order of one or more pieces of partial data included in the second partial data,
The first order information and the second order information,
And at least one partial data included in the first partial data and one or more partial data included in the second partial data are used for generating the data. delete The method of claim 18,
The first partial data and the second partial data,
And access information of an external device for receiving the data transmitted from the receiving device. A computer-readable recording medium mounted on a receiving apparatus for receiving two or more partial data divided from data,
The first partial data corresponding to a part of the two or more partial data divided from the data and transmitted to the receiving apparatus through a first network device, and the other partial one of the two or more partial data, and receiving the received data through a second network device. A partial data confirmation step of confirming the second partial data transmitted to the device; And
And a command for executing a data generation step of generating the data by combining the first partial data and the second partial data,
The first partial data,
A connection information of the receiving device for causing the first partial data to be received by the receiving device via the first network device;
The second partial data is,
And access information of the receiving device for causing the second partial data to be received by the receiving device via the second network device.
The partial data checking step,
And using the identifiers included in the first partial data and the second partial data, identify the first partial data and the second partial data as partial data provided from a specific transmission device. . The method of claim 25,
The partial data checking step,
The second or more partial data selected according to the first transmission rate for data transmission to the first network device and the second or more partial data selected according to the second transmission rate for data transmission to the second network device; Check the two-part data,
The first transmission rate and the second transmission rate are determined based on a network selection policy provided from a policy management device.
And said network selection policy includes information for traffic classification of said data. delete The method of claim 25,
The data generation step,
One or more parts included in the first partial data by using first order information of one or more partial data included in the first partial data and second order information of one or more partial data included in the second partial data Confirm an order of data and one or more partial data included in the second partial data, and according to the identified order, one or more partial data included in the first partial data and one or more partial included in the second partial data And combine the data to produce the data. delete The method of claim 25,
The recording medium,
And performing an additional transfer step of transmitting the data to the external device using the access information of the external device included in the first partial data and the second partial data. media.

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