KR101257107B1 - Apparatus and method for simultaneously transmitting data in heterogeneous network - Google Patents

Abstract

The present invention discloses a heterogeneous network-based data transmission service method. That is, the data transmission step of the transmission device to select the partial data divided from the transmission target data for each connection network on the basis of the preset data transmission rate for each connection network for simultaneous transmission to the receiving device through two or more networks; A transmission delay checking step of confirming, by the receiving apparatus, a data transmission delay for each access network by checking time information inserted into specific partial data simultaneously transmitted among the partial data received for each access network; A variable setting request step, wherein the receiving device requests a variable setting of a predetermined data transmission rate for each access network based on the identified data transmission delay of the access network; A variable setting step of the transmission apparatus variably setting the data transmission rate for each preset access network based on the data transmission delay delay for each access network; And a data retransmission step of the transmission apparatus selecting and transmitting partial data divided from the transmission target data for each network based on the variable data transmission rate for each access network, thereby considering the traffic conditions for each access network. Data traffic can be transferred to improve data service quality and network stability.

Description

Heterogeneous network-based data transmission service method and apparatus applied thereto {APPARATUS AND METHOD FOR SIMULTANEOUSLY TRANSMITTING DATA IN HETEROGENEOUS NETWORK}

The present invention relates to a data simultaneous transmission method, and more particularly, in the heterogeneous network environment, in the simultaneous transmission of the data to be transmitted according to the data transmission rate for each access network, the delay of data transmission for each access network The present invention relates to a heterogeneous network-based simultaneous data transmission service method for varying a predetermined data transmission rate for each access network, a method of operating a transmitter and a transmitter, and a method of operating a receiver and a receiver.

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 select a partial data divided from data to be transmitted for each access network based on a data transmission rate for each access network. When the simultaneous transmission to the receiving apparatus through two or more networks, the receiving apparatus confirms the data transmission delay delay for each access network by checking the time information inserted into the specific partial data simultaneously transmitted among the partial data received for each access network. The controller requests a variable setting of a data transmission rate of the preset access network based on the confirmed data transmission delay of each access network, and the transmitter transmits the preset access network based on the data transmission delay of the access network. This variable sets the data transfer rate for each The present invention provides a network-based simultaneous data transmission service method to variably set a data transmission rate for each access network based on a data transmission delay delay for each access network.

The present invention has been made in view of the above-described circumstances, and another object of the present invention is to select partial data divided from transmission data based on a preset data transmission rate for each access network for each access network. Time information is inserted into specific partial data among the selected partial data for each network, and the selected partial data including the specific partial data is simultaneously transmitted through two or more networks, and the time inserted into the specific partial data transmitted for each access network. Providing a transmission apparatus and a method of operating the same to determine the data transmission delay for each access network based on the information to variably set the data transmission rate for each of the access network based on the identified data transmission delay for each access network. Data per connection network The data transmission rate for each access network is variably set based on the transmission delay.

The present invention was created in view of the above circumstances, and another object of the present invention is to receive partial data divided from data to be transmitted through two or more networks based on a data transmission rate for each access network. And confirming the data transmission delay for each access network by checking the time information inserted into the specific partial data simultaneously transmitted among the partial data received for each access network, and based on the confirmed data transmission delay for each access network. The present invention provides a receiving apparatus and a method of operating the variable data transmission rate for each access network, and variably sets the data transmission rate for each access network based on the data transmission delay delay for each access network.

The transmitter according to the first aspect of the present invention for achieving the above object, by selecting the partial data divided from the transmission target data for each access network based on a preset data transmission rate for each access network, the selected part for each access network A controller for inserting and providing time information to specific partial data of the data; And a communication unit configured to simultaneously transmit selected partial data including the specific partial data through two or more networks, wherein the controller is configured to access the access network based on time information inserted into the specific partial data transmitted for each access network. The data transmission delay for each access network is checked, and the data transmission rate for each of the preset access networks is variably set based on the identified data transmission delay for each access network.

Preferably, the control unit, the arrival time inserted from the receiving device for receiving the first time information corresponding to the transmission time inserted into the specific partial data selected for each of the access network, and the specific partial data transmitted for each access network. The data transmission delay for each access network may be checked based on the second time information corresponding to time.

Preferably, the controller may include a first transmission delay value corresponding to a difference between the first time information and the second time information calculated in response to the first access network, and the second calculation network corresponding to the second access network. The second transmission delay value corresponding to the difference between the first time information and the second time information is checked, and between the first access network and the second access network corresponding to the difference between the first transmission delay value and the second transmission delay value. It is characterized by checking the data transmission delay.

Preferably, the control unit is characterized in that for receiving the data transmission delay difference for each of the access network from the receiving device for receiving the specific partial data for each access network.

Preferably, when the first network has a first transmission delay value, and the second network has a second transmission delay value, the controller compares the first transmission delay value and the second transmission delay value, When the first transmission delay value is smaller than the second transmission delay value, the data transmission rate for each preset access network is variably set such that the partial data transmission rate of the first network is larger than the second network. do.

According to a second aspect of the present invention, there is provided a receiving apparatus, including: a communication unit configured to receive, through at least two networks, partial data divided from data to be transmitted based on a preset data transmission rate for each access network; And a control unit for generating the transmission target data by combining the partial data received for each of the access networks, wherein the control unit checks the time information inserted into the specific partial data simultaneously transmitted among the partial data received for each access network. The data transmission delay for each access network may be checked and the data transmission rate for each preset access network may be variably set based on the identified data transmission delay for each access network.

Preferably, the control unit, the first time information corresponding to the transmission time is inserted to receive the specific partial data transmitted simultaneously for each of the access network, the arrival time in response to receiving the specific partial data for each access network And inserting second time information corresponding to the second time information, and identifying the delay of data transmission for each access network based on the first time information and the second time information corresponding to each access network.

Preferably, the controller may include a first transmission delay value corresponding to a difference between the first time information and the second time information calculated in response to the first access network, and the second calculation network corresponding to the second access network. The second transmission delay value corresponding to the difference between the first time information and the second time information is checked, and between the first access network and the second access network corresponding to the difference between the first transmission delay value and the second transmission delay value. It is characterized by checking the data transmission delay.

Preferably, the controller may be configured to vary the data transmission rate for each of the preset access networks based on the identified transmission delay for each access network to a transmitter for transmitting the partial data divided from the transmission target data. Characterized by request.

In the heterogeneous network-based simultaneous transmission service method according to the third aspect of the present invention for achieving the above object, the transmitter selects the partial data divided from the transmission target data for each access network based on a preset data transmission rate for each access network. A data transmission step of simultaneously transmitting to two or more receiving devices through two or more networks; A transmission delay checking step of confirming, by the receiving apparatus, a data transmission delay for each access network by checking time information inserted into specific partial data simultaneously transmitted among the partial data received for each access network; A variable setting request step, wherein the receiving device requests a variable setting of a predetermined data transmission rate for each access network based on the identified data transmission delay of the access network; A variable setting step of the transmission apparatus variably setting the data transmission rate for each preset access network based on the data transmission delay delay for each access network; And a data retransmission step of the transmission apparatus selecting and transmitting, for each network, the partial data divided from the transmission target data based on the variable data transmission rate for each access network.

A method of operating a transmitter according to a fourth aspect of the present invention for achieving the above object, the partial data selection step of selecting the partial data divided from the transmission target data for each access network based on the preset data transmission rate for each access network ; A time information insertion step of inserting time information into specific partial data among the partial data selected for each access network; A data transmission step of simultaneously transmitting the selected partial data including the specific partial data through two or more networks; A transmission delay checking step of confirming a data transmission delay for each access network based on time information inserted into the specific partial data transmitted for each access network; And a variable setting step of variably setting a data transmission rate for each preset access network based on the identified data transmission delay delay for each access network.

Preferably, the transmission delay confirmation step, the receiving device for receiving the first time information corresponding to the transmission time inserted in the specific partial data selected for each access network, and the specific partial data transmitted for each access network It is characterized in that for confirming the data transmission delay difference for each access network based on the second time information corresponding to the arrival time inserted from the.

Preferably, the step of confirming the transmission delay, in response to the first transmission delay value corresponding to the difference between the first time information and the second time information calculated in response to the first access network, and in response to the second access network A transmission delay value checking step of checking a second transmission delay value corresponding to a difference between the calculated first time information and the second time information; And a delay difference checking step of confirming a data transmission delay difference between the first access network and the second access network corresponding to the difference between the first transmission delay value and the second transmission delay value.

Preferably, the step of checking the transmission delay, characterized in that for receiving the data transmission delay for each of the access network confirmed from the receiving device for receiving the specific partial data for each access network.

Preferably, in the variable setting step, when the first network has a first transmission delay value and the second network has a second transmission delay value, the first transmission delay value and the second transmission delay value are compared. And when the first transmission delay value is smaller than the second transmission delay value, variably setting the data transmission rate for each of the preset access networks so that the partial data transmission rate of the first network is larger than the second network. It features.

A method of operating a receiver according to a fifth aspect of the present invention for achieving the above object, the partial data for receiving the partial data divided from the data to be transmitted through the two or more networks based on the data transmission rate for each preset access network Receiving step; A transmission delay checking step of confirming a data transmission delay for each access network by checking time information inserted into specific partial data simultaneously transmitted among the partial data received for each access network; And a variable setting step of varying a predetermined data transmission rate for each access network based on the identified data transmission delay of the access network.

Preferably, the time for inserting the second time information corresponding to the arrival time according to the transmission delay delay confirming step, the first time information corresponding to the transmission time is inserted and the specific partial data transmitted simultaneously for each access network is received. Information insertion step; And a delay difference checking step of confirming a data transmission delay delay for each access network based on the first time information and the second time information corresponding to each access network.

Preferably, the transmission delay checking step, the first transmission delay value corresponding to the difference between the first time information and the second time information calculated in response to the first access network, and calculated in response to the second access network A transmission delay value checking step of checking a second transmission delay value corresponding to a difference between the first time information and the second time information; And a delay difference checking step of confirming a data transmission delay difference between the first access network and the second access network corresponding to the difference between the first transmission delay value and the second transmission delay value.

Preferably, in the variable setting step, a variable of a data transmission rate for each preset access network is based on the identified transmission delay for each access network to a transmitting device for transmitting the partial data divided from the transmission target data. It is characterized by requesting the setting.

Therefore, according to the heterogeneous network-based simultaneous data transmission service method of the present invention, in the heterogeneous network environment, in the simultaneous transmission by dividing the transmission target data according to the data transmission rate for each access network, delayed data transmission for each access network By varying the data transmission rate for each access network, the data traffic of the entire network can be transferred in consideration of the traffic conditions for each access network to improve 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 is a schematic configuration diagram of a management device according to an embodiment of the present invention.
3 is a schematic structural diagram of a terminal device according to an embodiment of the present invention;
4 is a schematic flowchart illustrating a method of operating a heterogeneous network-based simultaneous data transmission service system according to an embodiment of the present invention.
5 is a schematic flowchart illustrating the operation of the management device according to an embodiment of the present invention.
6 is a schematic flowchart illustrating an operation of a terminal device according to an embodiment of the present invention.

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

1 is a schematic 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 heterogeneous network-based data transmission service system according to the present invention divides data into two or more pieces of partial data, and assigns a specific virtual network to first partial data corresponding to a portion of the two or more pieces of partial data. The management apparatus 100 as a transmitting apparatus including the transmission information and transmitting the virtual network connection information in the second partial data corresponding to another part of the at least two partial data and transmitting the same from the management apparatus 100. A first network device 200 receiving the first partial data, a second network device 300 receiving the second partial data from the management device 100, and the first network device 200 from the first network device 200; Receive partial data and receive the second partial data from the second network device 300, and includes the first partial data and the second partial data contained in And a terminal device 400 as a receiving device for generating the data by combining the first partial data and the second partial data according to the specific virtual network connection information based on the network access information. In addition, the heterogeneous network-based data transmission service system according to the present invention has a configuration that includes an external device 500 for transmitting the transmission target data to the management device 100 to request delivery to the terminal device 400.

The heterogeneous network-based data transmission service according to the present invention implements a configuration in which data is transmitted and received by using a plurality of heterogeneous networks for data transmission and reception between the terminal device 400 and the external device 500.

Therefore, in the present invention, session division is performed in the management apparatus 100 to implement simultaneous link transmission through a plurality of heterogeneous networks for one session. In this case, since the terminal device 400 is connected to each of a plurality of heterogeneous networks, the management device 100 recognizes that the terminal device 400 is a link of one terminal device 400 for each simultaneous link through the plurality of heterogeneous networks. The terminal device 400 must be managed as one subject. To this end, it is necessary to allocate and manage separate virtual network access information (for example, virtual IP) for the simultaneous transmission service in correspondence with the terminal device 400.

The external device 500 refers to a server device that performs data transmission and reception with the terminal device 400 through the management device 100, for example, to the terminal device 400 through data transmission and reception through the management device 100, Various services such as portal service and content providing service can be provided.

The heterogeneous network may correspond to various access networks including, for example, WCDMA, CDMA, WiBro, WLAN (WiFi), and Long Term Evolution (LTE). ) And a second network (hereinafter, referred to as a "3G network") and a second network (hereinafter referred to as a "WiFi network") which refer to a local area wireless network (WiFi).

Accordingly, the first network device 200 refers to a gateway GPRS support node (GGSN) device for operating a 3G network, that is, a wireless packet service network, and the second network device 300 is a WiFi network, It refers to an access point (AP) for operating a local area wireless network.

In addition, the management apparatus 100 and the terminal apparatus 400 may also be a transmitting apparatus according to the uplink process and the downlink process, that is, depending on the service flow, that is, the subject transmitting data using the data simultaneous transmission service. It can also be a receiver. In the present embodiment, for convenience of description, assuming a management apparatus 100 as a transmission apparatus for providing data simultaneous transmission service to a terminal apparatus 400 by being located in a heterogeneous network environment, and transmitting and receiving data with the management apparatus 100. Assuming a terminal device 400 as a receiving device to perform the following description.

The management apparatus 100 selects the partial data divided from the transmission target data for each access network based on a preset data transmission rate for each access network.

That is, the management device 100 receives the transmission target data from the external device 500, and the first transmission rate for data transmission to the first network device 200 and the first data transmission rate for the data to the second network device 300. 2 confirming the transmission rate, selecting first partial data to be transmitted to the first network device 200 among the partial data divided from the transmission target data based on the confirmed transmission rate, and also a second network device among the remaining partial data The second partial data to be transmitted to 300 is selected.

In addition, the management apparatus 100 inserts time information for confirming the transmission delay value into specific partial data among the partial data selected for each access network.

That is, the management apparatus 100 may select the partial data selected for each access network, that is, the first partial data having specific order information among the plurality of first partial data selected for the 3G network and the plurality of second selected for the WiFI network. Among the partial data, the second partial data having the same order information as the first partial data is selected, and the transmission delay value is checked in the reserved field included in the header of each of the selected first partial data and the second partial data. Insert time information for. In this case, the time information inserted into the reserved field corresponds to a transmission time to the terminal device 400 for each of the selected first partial data and the second partial data. In addition, the time information inserted in the reserved field may be prevented from unnecessary packet increase by inserting the packet into general traffic packets instead of a separate signal packet provided for transmission delay value checking.

In addition, the management apparatus 100 transmits the partial data selected for each access network by using the corresponding network.

That is, the management device 100 transmits a plurality of first partial data selected corresponding to the 3G network to the first network device 200 located in the 3G network, and transmits a plurality of second partial data selected corresponding to the WiFI network. By transmitting to the second network head 300 located in the WiFi network, the first network device 200 transmits the first partial data to the terminal device 400 as a receiving device, and the second network device 300 is the first network device 300. The two-part data is transmitted to the terminal device 400 as a receiving device.

Furthermore, the management apparatus 100 confirms the data transmission delay difference for each access network corresponding to the partial data transmission.

That is, the management apparatus 100 checks the transmission delay values for the 3G network and the WiFi network based on the time information inserted into the first partial data and the second partial data transmitted for each access network. Check the data transmission delay for each access network. In the case of the data transmission delay for each access network, the first time information corresponding to the transmission time inserted into each of the first partial data selected for the 3G network and the second partial data selected for the WiFi network, and access It can be confirmed based on the second time information corresponding to the arrival time inserted from the terminal device 400 receiving the first partial data and the second partial data transmitted for each network, such delay data transmission for each access network Confirmation is carried out through the terminal device 400 is delivered.

Based on this, the management apparatus 100 variably sets the data transmission rate for each preset access network based on the identified data transmission delay delay for each access network.

That is, the management apparatus 100 recognizes a transmission delay state for each of the 3G network and the WiFi network based on the confirmed data transmission delay for each access network, and identifies a specific network having a small transmission delay state among the 3G network or the WiFi network. By determining that the network has a high data transmission efficiency, the data transmission rate for each access network is set so that more partial data can be transmitted through the network, that is, the data transmission rate between the 3G network and the WiFi network is variably set. In addition, the management apparatus 100 may determine a transmission order for each access network based on the confirmed data transmission delay delay for each access network, and provide the selected partial data according to the determined transmission order.

The terminal device 400 receives data dividedly transmitted from the first network device 200 and the second network device 300 to restore the data.

That is, the terminal device 400 receives the first partial data from the first network device 200 and the second part from the second network device 300 according to the data transmission rate for each access network set in the management device 100. Receives the data, and based on the virtual network connection information included in the received first partial data and the second partial data to generate the data by combining the first partial data and the second partial data, to be transmitted from the management device 100 The data to be sent is restored. In other words, the terminal device 400 recognizes the first partial data and the second partial data having the same virtual network access information based on the virtual network access information included in the received partial data, and includes them in the corresponding partial data. By combining and combining according to the order information, the original transfer target data can be generated.

At this time, the terminal device 400 checks the delay of data transmission for each access network with respect to the partial data received for each network.

That is, the terminal device 400 checks the transmission delay value for each of the 3G network and the WiFi network based on the time information inserted into the first partial data and the second partial data transmitted for each access network. Check the data transmission delay for each access network. In other words, the terminal device 400 inserts second time information corresponding to the arrival time in response to receiving the first partial data and the second partial data transmitted from the management apparatus 100 for each access network. Based on the first time information corresponding to the transmission time inserted into the reserved field of the header of each of the partial data and the second partial data, and the second time information, the data transmission delay of each access network is checked.

For example, the management apparatus 100 transmits the first partial data at the 't1' time through the 3G network, and transmits the second partial data at the 't2' time through the WiFi network, and correspondingly, the terminal device 400. When the first partial data is received at the 'p1' time through the 3G network and at the 'p2' time through the WiFi network, the first transmission delay value corresponding to the 3G network (A = | t1-p2 |) And a second transmission delay value (B = | t2-p2 |) corresponding to the WiFi network, and based on this, the first access network corresponding to the difference between the first transmission delay value and the second transmission delay value; The data transmission delay (| AB |) between the second access networks is checked.

Further, the terminal device 400 allows the data transmission rate for each access network to be variably set based on the confirmed data transmission delay difference for each access network.

That is, the terminal device 400 may change the data transmission rate of each access network based on the confirmed data transmission delay for each access network, that is, the data transmission rate between the 3G network and the WiFi network. By requesting the setting, the partial data received from the management apparatus 100 may be transmitted according to a variable transmission rate.

Hereinafter, the management device 100 according to an embodiment of the present invention will be described in more detail with reference to FIG. 2.

That is, the management apparatus 100 selects and provides the control unit 110 which selects and provides the partial data divided from the transmission target data for each access network based on a preset data transmission rate for each access network, and provides the provided partial data with two or more networks. Has a configuration including a communication unit 120 for simultaneous transmission via. Here, the communication unit 120 refers to a communication module for interworking with the first network device 200 using a 3G network and interworking with the second network device 300 using a WiFi network.

The controller 110 selects the partial data divided from the transmission target data for each access network based on a preset data transmission rate for each access network.

That is, the controller 110 receives the transmission target data from the external device 500 and transmits the first transmission rate for data transmission to the first network device 200 and the second transmission data for the second network device 300. Check the transmission rate, select the first partial data to be transmitted to the first network device 200 of the divided partial data in the transmission target data based on the confirmed transmission rate, and the second network device ( The second partial data to be transmitted to 300 is selected.

In addition, the controller 110 inserts time information for confirming the transmission delay value into specific partial data among the partial data selected for each access network.

That is, the controller 110 selects the partial data selected for each access network, that is, the first partial data having specific order information among the plurality of first partial data selected for the 3G network and the plurality of second parts selected for the WiFI network. The second partial data having the same order information as the first partial data among the data is selected and the transmission delay value is checked in the reserved field included in the header of each of the selected first partial data and the second partial data. Insert time information for In this case, the time information inserted into the reserved field corresponds to a transmission time to the terminal device 400 for each of the selected first partial data and the second partial data. In addition, the time information inserted in the reserved field may be prevented from unnecessary packet increase by inserting the packet into general traffic packets instead of a separate signal packet provided for transmission delay value checking.

The communication unit 120 transmits the partial data selected for each access network by using the corresponding network.

That is, the communication unit 120 transmits a plurality of first partial data selected corresponding to the 3G network to the first network device 200 located in the 3G network, and transmits a plurality of second partial data selected corresponding to the WiFI network. By transmitting to the second network head 300 located in the network, the first network apparatus 200 transmits the first partial data to the terminal apparatus 400 as a receiving apparatus, and the second network apparatus 300 transmits the second network apparatus 300 to the second network apparatus 300. The partial data is transmitted to the terminal device 400 as a receiving device.

On the other hand, the controller 110 checks the data transmission delay for each access network corresponding to the partial data transmission.

That is, the controller 110 checks the transmission delay values for each of the 3G network and the WiFi network based on the time information inserted in the first partial data and the second partial data transmitted for each access network. Check the data transmission delay by network. In the case of the data transmission delay for each access network, the first time information corresponding to the transmission time inserted into each of the first partial data selected for the 3G network and the second partial data selected for the WiFi network, and access It can be confirmed based on the second time information corresponding to the arrival time inserted from the terminal device 400 receiving the first partial data and the second partial data transmitted for each network, such delay data transmission for each access network Confirmation is carried out through the terminal device 400 is delivered.

For example, the management apparatus 100 transmits the first partial data at the 't1' time through the 3G network, and transmits the second partial data at the 't2' time through the WiFi network, and correspondingly, the terminal device 400. When the first partial data is received at the 'p1' time through the 3G network and at the 'p2' time through the WiFi network, the first transmission delay value corresponding to the 3G network (A = | t1-p2 |) And a second transmission delay value (B = | t2-p2 |) corresponding to the WiFi network, and based on this, the first access network corresponding to the difference between the first transmission delay value and the second transmission delay value; The data transmission delay (| AB |) between the second access networks is checked.

Based on this, the controller 110 variably sets the data transmission rate for each preset access network based on the identified data transmission delay delay for each access network.

That is, the management apparatus 100 recognizes a transmission delay state for each of the 3G network and the WiFi network based on the confirmed data transmission delay for each access network, and identifies a specific network having a small transmission delay state among the 3G network or the WiFi network. By determining that the network has a high data transmission efficiency, the data transmission rate for each access network is set so that more partial data can be transmitted through the network, that is, the data transmission rate between the 3G network and the WiFi network is variably set. In addition, the management apparatus 100 may determine a transmission order for each access network based on the confirmed data transmission delay delay for each access network, and provide the selected partial data according to the determined transmission order.

Hereinafter, the terminal device 400 according to an embodiment of the present invention will be described in more detail with reference to FIG. 3.

That is, the terminal device 400 combines the communication unit 410 for receiving the partial data divided from the transmission target data through two or more networks based on the preset data transmission rate for each access network and the partial data received for each access network. And a control unit 420 for generating the transmission target data. Here, the communication unit 410 refers to a communication module for interworking with the first network device 200 using the 3G network and interworking with the second network device 300 using the WiFi network. In addition, the control unit 420 has a form mounted in the OS kernel mounted on the terminal device 400, and a series of data transfer service for the data transfer transmission service in response to a request of a specific application embedded or downloaded to the terminal device 400. Will perform the action.

The communication unit 410 receives data which is divided and transmitted from the first network device 200 and the second network device 300.

That is, the communication unit 410 receives the first partial data from the first network device 200 and the second partial data from the second network device 300 according to the data transmission rate for each access network set in the management device 100. Will be received.

The controller 420 restores data received through the first network device 200 and the second network device 300.

That is, the control unit 420 generates data by combining the first partial data and the second partial data based on the received virtual network access information included in the first partial data and the second partial data, and thus, in the management apparatus 100. The data to be transmitted is restored. In other words, the controller 420 recognizes the first partial data and the second partial data having the same virtual network access information based on the virtual network access information included in the received partial data, and includes them in the partial data. By combining and combining according to the information, the original transmission target data can be generated.

In addition, the controller 420 checks the data transmission delay for each access network with respect to the partial data received for each network.

That is, the control unit 420 checks the transmission delay value for each of the 3G network and the WiFi network based on the time information inserted in the first partial data and the second partial data transmitted for each access network. Check the data transmission delay by network. In other words, the control unit 420 inserts second time information corresponding to the arrival time in response to receiving the first partial data and the second partial data transmitted from the management apparatus 100 for each access network, and the first portion. Based on the first time information corresponding to the transmission time inserted into the reserved field of the header of each of the data and the second partial data and the second time information, the data transmission delay for each access network is checked.

For example, the management apparatus 100 transmits the first partial data at the 't1' time through the 3G network, and transmits the second partial data at the 't2' time through the WiFi network, and correspondingly, the terminal device 400. When the first partial data is received at the 'p1' time through the 3G network and at the 'p2' time through the WiFi network, the first transmission delay value corresponding to the 3G network (A = | t1-p2 |) And a second transmission delay value (B = | t2-p2 |) corresponding to the WiFi network, and based on this, the first access network corresponding to the difference between the first transmission delay value and the second transmission delay value; The data transmission delay (| AB |) between the second access networks is checked.

Further, the control unit 420 allows the preset data transmission rate for each access network to be variably set based on the confirmed data transmission delay delay for each access network.

That is, the controller 420 sets a data transmission rate for each access network based on the confirmed data transmission delay for each access network, that is, a variable setting for the data transmission rate between the 3G network and the WiFi network. By requesting, the partial data received from the management device 100 can be transmitted according to the variable transmission rate.

As described above, according to the heterogeneous network-based simultaneous data transmission service system according to the present invention, in a heterogeneous network environment, in the simultaneous transmission by dividing the transmission target data according to the data transmission rate for each access network, the access network By varying the data transmission rate for each access network based on the delay of data transmission for each access, it is possible to improve data service quality and secure network stability by transferring data traffic of the entire network in consideration of traffic conditions for each access network.

Hereinafter, a heterogeneous network-based data transmission service method according to an embodiment of the present invention will be described with reference to FIGS. 4 to 6. Here, the above-described configuration shown in Figures 1 to 3 will be described by referring to the reference numerals for convenience of description.

First, a method of operating a heterogeneous network-based simultaneous data transmission service system according to an embodiment of the present invention will be described with reference to FIG. 4.

First, the management apparatus 100 selects the partial data divided from the transmission target data for each access network based on a preset data transmission rate for each access network (S110-S130).

Preferably, the management device 100 receives the data to be transmitted from the external device 500 and transmits the first transmission rate for data transmission to the first network device 200 and the data transmission to the second network device 300. Confirming the second transmission rate for the second data; selecting first partial data to be transmitted to the first network apparatus 200 among the partial data divided from the transmission target data based on the confirmed transmission rate; The second partial data to be transmitted to the network device 300 is selected.

Then, the management apparatus 100 inserts time information for confirming the transmission delay value into specific partial data among the partial data selected for each access network (S140).

Preferably, the management apparatus 100 may select a plurality of partial data selected for each access network, that is, a plurality of first partial data having a specific order information among a plurality of first partial data selected for a 3G network and a plurality of selected partial data for a WiFI network. The second partial data having the same order information as the first partial data among the second partial data is selected, and the transmission delay is transmitted to the reserved field included in the header of each of the selected first partial data and the second partial data. Insert time information to check the value. In this case, the time information inserted into the reserved field corresponds to a transmission time to the terminal device 400 for each of the selected first partial data and the second partial data. In addition, the time information inserted in the reserved field may be prevented from unnecessary packet increase by inserting the packet into general traffic packets instead of a separate signal packet provided for transmission delay value checking.

Then, the management apparatus 100 transmits the selected partial data for each access network by using the corresponding network (S150).

Preferably, the management device 100 transmits a plurality of first partial data selected corresponding to the 3G network to the first network device 200 located in the 3G network, and the plurality of second parts selected corresponding to the WiFI network. By transmitting the data to the second network head 300 located in the WiFi network, the first network apparatus 200 transmits the first partial data to the terminal apparatus 400 as a receiving apparatus, and the second network apparatus 300. Transmits the second partial data to the terminal device 400 as a receiving device.

Next, the terminal device 400 checks the delay of data transmission for each access network with respect to the partial data received for each network (S160-S180).

Preferably, the terminal device 400 checks the transmission delay value for each of the 3G network and the WiFi network based on the time information inserted in the first partial data and the second partial data transmitted for each access network. On the basis of this, the data transmission delay of each access network is checked. In other words, the terminal device 400 inserts second time information corresponding to the arrival time in response to receiving the first partial data and the second partial data transmitted from the management apparatus 100 for each access network. Based on the first time information corresponding to the transmission time inserted into the reserved field of the header of each of the partial data and the second partial data, and the second time information, the data transmission delay of each access network is checked.

For example, the management apparatus 100 transmits the first partial data at the 't1' time through the 3G network, and transmits the second partial data at the 't2' time through the WiFi network, and correspondingly, the terminal device 400. When the first partial data is received at the 'p1' time through the 3G network and at the 'p2' time through the WiFi network, the first transmission delay value corresponding to the 3G network (A = | t1-p2 |) And a second transmission delay value (B = | t2-p2 |) corresponding to the WiFi network, and based on this, the first access network corresponding to the difference between the first transmission delay value and the second transmission delay value; The data transmission delay (| AB |) between the second access networks is checked.

Then, the terminal device 400 allows the preset data transmission rate for each access network to be variably set based on the confirmed data transmission delay difference for each access network (S190).

Preferably, the terminal device 400 is based on the data transmission delay for each access network, the data transmission rate for each access network preset in the management device 100, that is, the data transmission rate between the 3G network and WiFi network By requesting a variable setting for the, the partial data received from the management device 100 can be transmitted according to the variable transmission rate set.

Thereafter, the terminal device 400 restores data which is divided and transmitted from the first network device 200 and the second network device 300 (S200).

Preferably, the terminal device 400 generates the data by combining the first partial data and the second partial data based on the virtual network connection information included in the received first partial data and the second partial data, thereby managing data. In step 100), the transmission target data to be transmitted is restored. In other words, the terminal device 400 recognizes the first partial data and the second partial data having the same virtual network access information based on the virtual network access information included in the received partial data, and includes them in the corresponding partial data. By combining and combining according to the order information, the original transfer target data can be generated.

Thereafter, the management apparatus 100 variably sets the preset data transmission rate for each access network based on the identified data transmission delay delay for each access network (S210).

Preferably, the management apparatus 100 recognizes the transmission delay state for each of the 3G network and the WiFi network based on the confirmed data transmission delay for each access network, and the specific transmission delay state of the 3G network or the WiFi network is small. By judging the network as a network with good data transmission efficiency, the data transmission rate for each access network is set so that more partial data can be transmitted through the network. In other words, the data transmission rate between the 3G network and the WiFi network is variable. do. In addition, the management apparatus 100 may determine a transmission order for each access network based on the confirmed data transmission delay delay for each access network, and provide the selected partial data according to the determined transmission order.

Hereinafter, an operation method of the management apparatus 100 according to an embodiment of the present invention will be described with reference to FIG. 5.

First, the partial data divided from the data to be transmitted is selected for each access network based on a preset data transmission rate for each access network (S310 to S330).

Preferably, the controller 110 receives the data to be transmitted from the external device 500 and transmits the data to the second network device 300 and the first transmission rate for data transmission to the first network device 200. Confirming the second transmission rate, selecting first partial data to be transmitted to the first network apparatus 200 among the partial data divided from the transmission target data based on the confirmed transmission rate, and also selecting a second network among the remaining partial data; The second partial data to be transmitted to the device 300 is selected.

Then, time information for confirming the transmission delay value is inserted into the specific partial data among the partial data selected for each access network and transmitted to the communication unit 120 (S340).

Preferably, the controller 110 selects the partial data selected for each access network, that is, the first partial data having specific order information among the plurality of first partial data selected for the 3G network and the plurality of first selected data for the WiFI network. The second partial data having the same order information as the first partial data among the two partial data is selected, and the transmission delay value is stored in the reserved field included in the header of each of the selected first partial data and the second partial data. Insert time information for confirmation. In this case, the time information inserted into the reserved field corresponds to a transmission time to the terminal device 400 for each of the selected first partial data and the second partial data. In addition, the time information inserted in the reserved field may be prevented from unnecessary packet increase by inserting the packet into general traffic packets instead of a separate signal packet provided for transmission delay value checking.

Then, the selected partial data for each access network is transmitted using the corresponding network (S350).

Preferably, the communication unit 120 transmits the plurality of first partial data selected corresponding to the 3G network to the first network device 200 located in the 3G network, and the plurality of second partial data selected corresponding to the WiFI network. By transmitting to the second network head 300 located in the WiFi network, the first network device 200 transmits the first partial data to the terminal device 400 as a receiving device, the second network device 300 The second partial data is transmitted to the terminal device 400 as a receiving device.

Further, the delay of data transmission for each access network corresponding to partial data transmission is checked (S360).

Preferably, the controller 110 checks the transmission delay value for each of the 3G network and the WiFi network based on the time information inserted in the first partial data and the second partial data transmitted for each access network. As a result, the data transmission delay of each access network is checked. In the case of the data transmission delay for each access network, the first time information corresponding to the transmission time inserted into each of the first partial data selected for the 3G network and the second partial data selected for the WiFi network, and access It can be confirmed based on the second time information corresponding to the arrival time inserted from the terminal device 400 receiving the first partial data and the second partial data transmitted for each network, such delay data transmission for each access network Confirmation is carried out through the terminal device 400 is delivered.

For example, the management apparatus 100 transmits the first partial data at the 't1' time through the 3G network, and transmits the second partial data at the 't2' time through the WiFi network, and correspondingly, the terminal device 400. When the first partial data is received at the 'p1' time through the 3G network and at the 'p2' time through the WiFi network, the first transmission delay value corresponding to the 3G network (A = | t1-p2 |) And a second transmission delay value (B = | t2-p2 |) corresponding to the WiFi network, and based on this, the first access network corresponding to the difference between the first transmission delay value and the second transmission delay value; The data transmission delay (| AB |) between the second access networks is checked.

Thereafter, the data transmission rate for each preset access network is variably set based on the confirmed data transmission delay for each access network (S370).

Preferably, the management apparatus 100 recognizes the transmission delay state for each of the 3G network and the WiFi network based on the confirmed data transmission delay for each access network, and the specific transmission delay state of the 3G network or the WiFi network is small. By judging the network as a network with good data transmission efficiency, the data transmission rate for each access network is set so that more partial data can be transmitted through the network. In other words, the data transmission rate between the 3G network and the WiFi network is variable. do. In addition, the management apparatus 100 may determine a transmission order for each access network based on the confirmed data transmission delay delay for each access network, and provide the selected partial data according to the determined transmission order.

Hereinafter, a method of operating the terminal device 400 according to an embodiment of the present invention will be described with reference to FIG. 6.

First, the data dividedly transmitted from the management device 100 is received (S410).

Preferably, the communication unit 410 receives the first partial data from the first network device 200 and the second from the second network device 300 according to the data transmission rate for each access network preset in the management device 100. Partial data will be received.

Then, the delay of data transmission for each access network with respect to the partial data received for each network is checked (S420-S450).

Preferably, the control unit 420 checks the transmission delay value for each of the 3G network and the WiFi network based on the time information inserted in the first partial data and the second partial data transmitted for each access network. As a result, the data transmission delay of each access network is checked. In other words, the controller 420 receives the first partial data and the second partial data transmitted for each access network from the management apparatus 100 in response to receiving the second time corresponding to the arrival time in the header into which the first time information is inserted. Information is inserted, and data for each access network is based on first time information corresponding to a transmission time inserted in a reserved field of a header of each of the first partial data and the second partial data and the second time information. Check the transmission delay.

For example, the management apparatus 100 transmits the first partial data at the 't1' time through the 3G network, and transmits the second partial data at the 't2' time through the WiFi network, and correspondingly, the terminal device 400. When the first partial data is received at the 'p1' time through the 3G network and at the 'p2' time through the WiFi network, the first transmission delay value corresponding to the 3G network (A = | t1-p2 |) And a second transmission delay value (B = | t2-p2 |) corresponding to the WiFi network, and based on this, the first access network corresponding to the difference between the first transmission delay value and the second transmission delay value; The data transmission delay (| AB |) between the second access networks is checked.

Then, a variable setting of a data transmission rate for each preset access network is requested (S460).

Preferably, the control unit 420 is based on the data transmission delay delay for each access network, the data transmission rate for each access network preset in the management apparatus 100, that is, for the data transmission rate between the 3G network and WiFi network By requesting the variable setting, the partial data received from the management apparatus 100 can be transmitted according to the variable transmission rate.

Thereafter, the data received through the first network device 200 and the second network device 300 is restored (S470).

Preferably, the control unit 420 generates the data by combining the first partial data and the second partial data based on the received virtual network connection information included in the first partial data and the second partial data, the management apparatus 100 ) Will restore the data to be sent. That is, the terminal device 400 recognizes the first partial data and the second partial data having the same virtual network connection information based on the virtual network access information included in the received partial data, and includes them in the partial data. By combining and combining according to the information, the original transmission target data can be generated.

As described above, according to the heterogeneous network-based simultaneous data transmission service method according to the present invention, in a heterogeneous network environment, in the simultaneous transmission by dividing the transmission target data according to the data transmission rate for each access network, the access network By varying the data transmission rate for each access network based on the delay of data transmission for each access, it is possible to improve data service quality and secure network stability by transferring data traffic of the entire network in consideration of traffic conditions for each access network.

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. The software module may reside in RAM memory, flash memory, ROM memory, EPROM memory, EEPROM memory, registers, hard disk, removable disk, 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 terminal device. In the alternative, the processor and the storage medium may reside as discrete components in a 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 data simultaneous transmission service system and method thereof according to the present invention, in the heterogeneous network environment, in the simultaneous transmission by dividing the transmission target data according to the data transmission rate for each access network, the data transmission for each access network By varying the data transmission rate for each access network based on the delay difference, the possibility of marketing or sales of the applied device is not only sufficient for the use of the related technology, but also realistically obvious, because the limitation of the existing technology is exceeded. Since it can be implemented, it is an invention with industrial applicability.

100: management device
110: control unit 120: communication unit
200: first network device
300: second network device
400: terminal device
410: communication unit 420: control unit
500: External device

Claims (6)

A control unit which selects the partial data divided from the transmission target data for each access network and inserts time information into specific partial data among the selected partial data for each access network; And
And a communication unit for simultaneously transmitting the selected partial data including the specific partial data through two or more networks.
The control unit,
Confirm the data transmission delay for each access network based on the time information inserted into the specific partial data transmitted for each access network, and based on the identified data transmission delay for each access network, the data for each preset access network A heterogeneous network transmitter, characterized in that the transmission rate is variably set. The method of claim 1,
The control unit,
First time information corresponding to a transmission time inserted into the specific partial data selected for each of the access networks, and second time information corresponding to an arrival time inserted from a receiving device receiving the specific partial data transmitted for each access network; Heterogeneous network transmitter, characterized in that for confirming the data transmission delay difference for each access network based on. The method of claim 1,
The control unit,
If the first network has a first transmission delay value, and the second network has a second transmission delay value, the first transmission delay value and the second transmission delay value are compared, and the first transmission delay value is the value. And when the second transmission delay value is smaller than the second transmission delay value, variably setting the data transmission rate for each of the preset access networks so that the partial data transmission rate of the first network is larger than the second network. A communication unit configured to receive, through at least two networks, partial data divided from data to be transmitted based on a preset data transmission rate for each access network;
A control unit for generating the transmission target data by combining the partial data received for each access network;
The control unit,
The data transmission delay for each access network is confirmed by checking the time information inserted into the specific partial data simultaneously transmitted among the partial data received for each access network, and based on the confirmed data transmission delay for each access network, A receiving device, characterized in that for setting the data transmission rate for each access network is set variable. The method of claim 4, wherein
The control unit,
The first time information corresponding to the transmission time is inserted to receive the specific partial data simultaneously transmitted for each access network, and the second time information corresponding to the arrival time is received in response to receiving the specific partial data for each access network. And a data transmission delay for each of the access networks based on the first time information and the second time information corresponding to each access network. A data transmission step of the transmission apparatus selecting partial data divided from the transmission target data for each connection network based on a preset data transmission rate for each connection network and simultaneously transmitting the partial data to the reception apparatus through two or more networks;
A transmission delay checking step of confirming, by the receiving apparatus, a data transmission delay for each access network by checking time information inserted into specific partial data simultaneously transmitted among the partial data received for each access network;
A variable setting request step, wherein the receiving device requests a variable setting of a predetermined data transmission rate for each access network based on the identified data transmission delay of the access network;
A variable setting step of the transmission apparatus variably setting the data transmission rate for each preset access network based on the data transmission delay delay for each access network; And
And a data retransmission step of the transmission apparatus selecting and transmitting, by the network, the partial data divided from the transmission target data for each network based on the variable data transmission rate for each access network. .

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