KR101623933B1 - Apparatus and method for simultaneously transmitting data in heterogeneous network - Google Patents

Abstract

The present invention discloses a method for simultaneously transmitting heterogeneous network-based data. That is, a data transmission step of transmitting partial data segmented from data to be transmitted to a receiving apparatus through two or more access networks; A response message reception step of receiving a response message corresponding to the transmitted partial data through each of the two or more access networks; Acquiring uplink information corresponding to a reception state of the response message in each of the two or more access networks; Transmitting the uplink information to the receiving apparatus; And a response for receiving a response message corresponding to the partial data via only one specific access network selected based on at least one of the uplink information and the downlink information corresponding to a state in which the partial data is transmitted to the receiving apparatus By including the message reception step, the transmission performance of the concurrent transmission service can be guaranteed and improved.

Description

TECHNICAL FIELD [0001] The present invention relates to a heterogeneous network-based data transmission method and a device applied thereto. [0002]

The present invention relates to a method of simultaneously transmitting data using a heterogeneous network, and more particularly, to a method and apparatus for simultaneously transmitting data by dividing data to be transmitted using a plurality of heterogeneous networks, A downlink and an uplink state for each access network based on a reception state of partial data transmitted through a connection network of the access network and a reception state of a response message transmitted corresponding to the partial data, Based on this, a specific access network having superior transmission performance is selected, and a response message to partial data transmitted through each access network is transmitted only through the selected access network. Thus, a heterogeneous network-based data concurrent transmission method, ≪ / RTI >

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.

In the heterogeneous network environment in which a plurality of networks are mixed, a current method of using a data service through a terminal device is a network selection method by directly changing a terminal device user, and a method in which controllability of a provider is excluded This is a passive approach when considering the position of the business operator.

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

Accordingly, in a heterogeneous network environment where a plurality of networks are mixed, a new service scheme for efficiently selecting a network of a terminal device according to the state of the network and efficiently using the selected network is desired.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a method and apparatus for receiving partial data transmitted over respective access networks and a receiving state of a response message transmitted corresponding to the partial data, A downlink and an uplink state for each access network is checked. Based on this, a specific access network having excellent transmission performance is selected, and only a response to partial data transmitted through each access network Message to be delivered.

According to a first aspect of the present invention, there is provided an apparatus for simultaneously transmitting a heterogeneous network-based data, the apparatus comprising: a transmission unit configured to transmit partial data divided from transmission target data to a reception apparatus via two or more access networks, A communication unit for receiving a response message corresponding to each of the at least two access networks; And a transmission control unit for confirming uplink information corresponding to a reception state of the response message for each of the two or more access networks and for transmitting the uplink information to the reception apparatus, And receiving the response message for the partial data through only one specific access network selected based on at least one of downlink information corresponding to a transmission state in which the partial data is transmitted to the receiving apparatus.

Preferably, the transmission control section causes the uplink information included in the partial data to be transmitted to the receiving apparatus.

Advantageously, the uplink information is identified based on the number of response messages received during the time required to receive the response message on each of the two or more access networks, And is confirmed based on the number of the partial data received during the time required to receive the partial data through each of the access networks.

Preferably, the control unit adjusts a transmission rate at which the partial data is transmitted to the at least two access networks when a response message to the partial data is continuously received through only one specific access network for a predetermined time .

According to a second aspect of the present invention, there is provided a heterogeneous network-based data concurrent transmission / reception apparatus for receiving partial data segmented from data to be transmitted through two or more networks from a transmission apparatus, A communication unit for transmitting a response message to partial data received through the at least two access networks to the transmitting apparatus; Based on at least one of downlink information corresponding to a state in which the partial data is received from the transmitting apparatus and uplink information corresponding to a state in which the response message is transmitted to the transmitting apparatus, And to transmit a response message to the partial data only through one specific access network.

Advantageously, the partial data includes the uplink information.

Preferably, the reception control unit is configured to transmit the downlink information to the one specific access network based on a result obtained by assigning a first weight to the downlink information and a result value obtained by adding a second weight greater than the first weight to the uplink information. .

According to a third aspect of the present invention, there is provided a simultaneous heterogeneous network-based data transmission method comprising: a data transmission step of transmitting partial data segmented from data to be transmitted to a receiving apparatus via two or more access networks; A response message reception step of receiving a response message corresponding to the transmitted partial data through each of the two or more access networks; Acquiring uplink information corresponding to a reception state of the response message in each of the two or more access networks; Transmitting the uplink information to the receiving apparatus; And a response for receiving a response message corresponding to the partial data via only one specific access network selected based on at least one of the uplink information and the downlink information corresponding to a state in which the partial data is transmitted to the receiving apparatus And a message receiving step.

Advantageously, the method further comprises the step of adjusting the transmission rate to transmit said partial data to said at least two access networks when a response message for said partial data is received via said one specific access network for a predetermined time And further comprising:

According to a fourth aspect of the present invention, there is provided a simultaneous heterogeneous network-based data transmission method comprising the steps of: receiving partial data segmented from data to be transmitted through two or more networks from a transmission apparatus; A response message transmission step of transmitting a response message to partial data received through each of the two or more networks to the transmission device through each of the two or more access networks; Based on at least one of downlink information corresponding to a state in which the partial data is received from the transmitting apparatus and uplink information corresponding to a state in which the response message is transmitted to the transmitting apparatus, Selecting a particular access network; And a response message transmission step of transmitting a response message to the partial data only through the selected one specific access network.

According to the method of simultaneously transmitting heterogeneous network-based data and the apparatus applied thereto, based on the reception state of the partial data transmitted through each access network and the reception state of the response message transmitted corresponding to the partial data, And selects a specific access network having excellent transmission performance based on the selected downlink and uplink state, and transmits a response message to the partial data transmitted through each access network only through the selected access network Thus, it is possible to guarantee and improve the transmission performance of the simultaneous transmission service by increasing the packet transmission speed through the quick delivery of the response message.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a system for simultaneously transmitting data based on heterogeneous networks according to an embodiment of the present invention; FIG.
2 is a schematic configuration diagram of a terminal device according to an embodiment of the present invention;
3 is a schematic configuration diagram of a management apparatus according to an embodiment of the present invention;
4 is a block diagram of a packet according to an embodiment of the present invention;
5 is a schematic flowchart illustrating an operation method of a heterogeneous network-based data concurrent transmission system according to an embodiment of the present invention.
6 is a schematic flowchart for explaining an operation of a terminal device according to an embodiment of the present invention;
FIG. 7 is a schematic flowchart for explaining the operation of the management apparatus according to the embodiment of the present invention; FIG.

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

FIG. 1 shows a schematic diagram of a heterogeneous network-based data concurrent transmission system according to an embodiment of the present invention.

As shown in FIG. 1, the heterogeneous network-based data concurrent transmission system according to the present invention divides data into two or more pieces of partial data, adds a specific virtual network connection to the first partial data corresponding to a part of the two or more partial data, A management apparatus (400) of a transmitting apparatus in which the virtual network access information is included in second partial data corresponding to another part of the at least two partial data, A first network device 200 receiving first partial data, a second network device 300 receiving the second partial data from the management device 400, and a second network device 300 receiving the first partial data from the first network device 200, And receives the second partial data from the second network device (300), and for receiving the first partial data and the virtual network included in the second partial data And a terminal device (100) serving as a receiving device for combining the first partial data and the second partial data according to the specific virtual network connection information based on the access information and generating the data. In addition, the heterogeneous network-based data concurrent transmission system according to the present invention has a configuration including an external device 500 for transferring data to be transmitted to the management apparatus 400 and requesting transmission to the terminal apparatus 100.

The heterogeneous network-based data concurrent transfer service according to the present invention implements a configuration in which data is transmitted and received between the terminal device 100 and the external device 500 and transmitted and received using a plurality of heterogeneous networks. Accordingly, in the present invention, the session is divided in the management apparatus 400 in order to realize simultaneous link transmission through a plurality of heterogeneous networks for one session. At this time, since the terminal device 100 is connected to each of the plurality of heterogeneous networks, it is recognized that the management device 400 recognizes that each of the simultaneous links through the plurality of heterogeneous networks is a link of one terminal device 100, It must be managed by the terminal device 100, that is, a single entity. For this purpose, it is inevitably required to allocate and manage additional virtual network connection information (e.g., virtual IP) for the coexistent transmission service corresponding to the terminal device 100. [

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

The heterogeneous network may be a variety of networks including, for example, WCDMA, CDMA, WiBro, WLAN (WiFi) and Long Term Evolution (LTE) (Hereinafter referred to as a " WiFi network ") that refers to a first network (hereinafter referred to as a 3G network) and a second wireless network (WiFi)

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

Also, the terminal device 100 and the management device 400 may be a transmission device according to a service flow, i.e., a subject that transmits data using a simultaneous data transmission service, that is, according to an uplink process and a downlink process , Or a receiving device. In this embodiment, for convenience of description, a management apparatus 400 as a transmitting apparatus for providing a data concurrent transmission service to the terminal apparatus 100 in a heterogeneous network environment is assumed, and the management apparatus 400 and the data transmission / Will be described below with reference to a terminal apparatus 100 as a receiving apparatus that performs a receiving operation.

The terminal device 100 receives the partial data segmentarily transmitted from the first network device 200 and the second network device 300.

More specifically, the terminal device 100 receives the first partial data from the management device 400 via the first network device 200 and receives the second partial data through the second network device 300 do. In addition, the terminal device 100 combines the first partial data and the second partial data based on the received first partial data and the virtual network connection information included in the second partial data to generate data, The transmission target data to be transmitted is restored. At this time, the terminal device 100 recognizes the first partial data and the second partial data having the same virtual network connection information based on the virtual network connection information included in the received partial data, The data to be transmitted can be restored by rearranging the data in the order of division based on the information and combining the normally re-arranged partial data.

At this time, the terminal device 100 transmits a response message to the management device 400 in response to partial data reception for each access network.

More specifically, the terminal device 100 receives the first partial data from the management device 400 through the first network device 200, and receives the second partial data via the second network device 300 A response message corresponding to each piece of partial data received is transmitted to the management apparatus 400 via each access network, thereby requesting a partial data packet to be transmitted next. For example, when the management apparatus 400 transmits the partial data packets of the order information 1, 2, 5, 7, and 8 over the 3G network and transmits the partial data packets of the order information 3, 4, 6 through the WiFi network The terminal device 100 manages the response messages (ACK 1, 2, 5, 7, 8) corresponding to the partial data packets of the order information 1, 2, 5, 7, 8 via the 3G network (ACK 3, 4, 6) corresponding to the partial data packets of the order information 3, 4, 6 to the management apparatus 400 via the WiFi network, To request a partial data packet to be transmitted via the data packet. On the other hand, if the response message for the received partial data packet is not generated due to the TCP sliding window scheme, the terminal device 100 generates and transmits a dummy response message at random.

In addition, the terminal device 100 confirms downlink information for each access network.

More specifically, the terminal device 100 confirms the reception status of the first partial data received through the first network device 200 and the second partial data received through the second network device 300 in units of set time Thereby confirming the downlink information of each of the 3G network and the WiFi network. At this time, when the partial data packet of the order information 1, 2, 5, 7, 8 is received through the 3G network and the partial data packet of the order information 3, 4, 6 is received through the WiFi network, (T) of the reception time of the partial data corresponding to the 3G network, that is, the reception time of the partial data packet of the sequence information 1 and the reception time difference (T) of the partial data packet of the sequence information 8, By checking the number N of packets, 3G network downlink information (Throughput = T / N) is confirmed. In addition, the terminal device 100 determines whether the reception time of the partial data corresponding to the WiFi network, that is, the reception time of the partial data packet of the order information 3 and the reception time difference T of the partial data packet of the order information 6, By checking the number N of partial data packets received during the required time, WiFi network downlink information (Throughput = T / N) is confirmed.

Furthermore, the terminal device 100 confirms uplink information for each connection network.

More specifically, the terminal apparatus 100 receives the uplink information (Throughput) for each access network, which is confirmed by the management apparatus 400 based on the response message according to partial data reception for each access network, Information is recognized. In this regard, the management apparatus 400 receives a response message (ACK 1, 2, 5, 7, 8) corresponding to the partial data packet of the order information 1, 2, 5, 7, 8 via the 3G network, When a response message (ACK 3, 4, 6) corresponding to the partial data packet of the order information 3, 4, 6 is received via the WiFi network, the time required to receive the response message corresponding to the 3G network, By checking the response message reception time of the corresponding response message, the response message reception time difference T corresponding to the sequence information 8, and the number N of partial data packets received during the required reception time, the 3G network uplink information (Throughput = T / N). In addition, the management apparatus 400 determines the reception time of the partial data corresponding to the WiFi network, that is, the reception time of the response message corresponding to the partial data packet of the sequence information 3 and the reception time of the response message corresponding to the partial data packet of the sequence information 6 (Throughput = T / N) of the WiFi network by checking the reception time difference T and the number N of the response messages received during the required reception time. In this case, as shown in FIG. 4, the uplink information received from the management apparatus 400 is transmitted in a form inserted into the partial data packet. In the header of the partial data packet, the uplink reception state is measured The type (1) of the access network and the uplink information (2) are transmitted to the terminal device 100 in a state of being inserted.

Based on this, the terminal device 100 selects an uplink access network for transmitting a response message based on the network status of each access network.

More specifically, the terminal device 100 transmits the downlink information of the 3G network and the WiFi network confirmed on the basis of partial data reception and the uplink information of the 3G network and the WiFi network confirmed through the management device 400 according to the transmission of the response message Selects an access network having excellent transmission performance based on the link information, and transmits a response message to partial data transmitted through each access network only through the selected access network. At this time, the terminal apparatus 100 selects an uplink access network by weighting uplink information rather than downlink information.

Accordingly, when partial data is received for each access network, the terminal apparatus 100 transmits a response message to the management apparatus 400 through the selected uplink access network.

More specifically, the terminal apparatus 100 receives the first partial data from the management apparatus 400 via the first network apparatus 200 and selects the first partial data from the management apparatus 400 via the second network apparatus 300 Upon receipt of the second partial data, a response message corresponding to the received partial data is transmitted only on the selected uplink access network, for example, a 3G network or a WiFi network, thereby promptly requesting a partial data packet to be transmitted next . For example, when the management apparatus 400 transmits the partial data packets of the order information 1, 2, 5, 7, and 8 over the 3G network and transmits the partial data packets of the order information 3, 4, 6 through the WiFi network (ACK 1, 2, 5, 7, 8) corresponding to the partial data packets of the order information 1, 2, 5, 7, 8 and the order information 3, 4 , All of the response messages (ACK 3, 4, 6) corresponding to the partial data packet of 6 are transmitted only through the selected uplink access network, for example, the 3G network with excellent transmission performance.

The management apparatus 400 selects partial data segmented from transmission target data for each network according to a predetermined data transmission rate for each network.

More specifically, the management apparatus 400 confirms a predetermined data transmission rate for each network, that is, a first transmission rate and a second transmission rate for data transmission to the second network device 300 in accordance with the simultaneous transmission mode activation. Further, the management apparatus 400 selects the first partial data to be transmitted to the first network device 200 among the partial data divided from the transmission object data received from the external apparatus 500 based on the confirmed transmission ratio, And selects the second partial data to be transmitted to the second network device 300 among the remaining partial data. In this regard, the management apparatus 400 dynamically sets the data transfer rate between networks based on various factors such as the characteristics of the access network, the current load state, and the type of the data to be transmitted, The partial data is transmitted.

In addition, the management apparatus 400 transmits the selected partial data using the access network.

More specifically, the management device 400 transmits the selected partial data corresponding to the transmission network, that is, the first partial data to the first network device 200 located in the 3G network, to the first network device 200 Transmits the first partial data to the terminal device 100 as the receiving device and at the same time transmits the second partial data to the second network device 300 located in the WiFi network, 2 partial data to the terminal apparatus 100 as a receiving apparatus.

Accordingly, the management apparatus 400 receives a response message corresponding to the partial data transmitted for each connection network from the terminal apparatus 100.

More specifically, when the management device 400 transmits the first partial data through the first network device 200 and transmits the second partial data through the second network device 300, A response message corresponding to the partial data of the partial data is received from the terminal device 100 through each connection network and a partial data packet to be transmitted next is received. For example, when the management apparatus 400 transmits the partial data packets of the order information 1, 2, 5, 7, 8 through the 3G network and transmits the partial data packets of the order information 3, 4, 6 through the WiFi network (ACK 1, 2, 5, 7, 8) corresponding to the partial data packets of the order information 1, 2, 5, 7 and 8 from the terminal device 100 via the 3G network, (ACKs 3, 4, 6) corresponding to the partial data packets of 4, 6, 4 and 6 from the terminal device 100 via the WiFi network.

Based on this, the management apparatus 400 confirms uplink information for each access network.

More specifically, the management apparatus 400 receives a response message (ACK 1, 2, 5, 7, 8) corresponding to the partial data packet of the order information 1, 2, 5, 7, 8 via the 3G network, When a response message (ACK 3, 4, 6) corresponding to the partial data packet of the order information 3, 4, 6 is received via the WiFi network, the time required to receive the response message corresponding to the 3G network, By checking the response message reception time of the corresponding response message, the response message reception time difference T corresponding to the sequence information 8, and the number N of partial data packets received during the required reception time, the 3G network uplink information (Throughput = T / N). In addition, the management apparatus 400 determines the reception time of the partial data corresponding to the WiFi network, that is, the reception time of the response message corresponding to the partial data packet of the sequence information 3 and the reception time of the response message corresponding to the partial data packet of the sequence information 6 (Throughput = T / N) of the WiFi network by checking the reception time difference T and the number N of the response messages received during the required reception time.

The management apparatus 400 also transmits uplink information for each access network to the terminal apparatus 100. [

More specifically, the management apparatus 400 transmits the uplink information of the 3G network and the WiFi network confirmed on the basis of the response message to the terminal apparatus 100, thereby causing the terminal apparatus 100 to transmit the uplink information of the 3G network and the WiFi network Based on the partial data reception based on the downlink information of the 3G network and the WiFi network confirmed in the terminal device 100, and selects the access network having excellent transmission performance only through the selected access network And transmits a response message to partial data transmitted through each access network. In the case of the uplink information, as shown in FIG. 4, the partial data packet is transmitted in a form inserted into the partial data packet. The header of the partial data packet includes the type (1) of the access network And is transmitted to the terminal device 100 in a state where the uplink information (2) is inserted.

Thereafter, the management apparatus 400 receives the response message through the selected uplink access network in the terminal device 100 according to the partial data transmission for each access network.

More specifically, the management apparatus 400 transmits the first partial data through the first network device 200 after the uplink access network selection of the terminal device 100, and transmits the first partial data via the second network device 300 The mobile station receives the response message corresponding to the transmitted partial data only through the selected uplink access network, for example, the 3G network or the WiFi network. For example, assuming that a partial data packet of the order information 1, 2, 5, 7, 8 is transmitted through the 3G network and a partial data packet of the order information 3, 4, 6 is transmitted through the WiFi network, The management apparatus 400 transmits the response message (ACK 1, 2, 5, 7, 8) corresponding to the partial data packet of the order information 1, 2, 5, 7, 8 and the partial data packet (ACKs 3, 4, 6) corresponding to the uplink access network, for example, only on the 3G network with excellent transmission performance. Meanwhile, when all the response messages are received only through a single access network for a predetermined time, the management apparatus 400 regards the terminal apparatus 100 as reflecting the network state, that is, the network quality measurement, So that the partial data can be selected and transmitted according to the distribution ratio reflecting the current state of the access network.

Hereinafter, a more specific configuration of the terminal device 100 according to the embodiment of the present invention will be described with reference to FIG.

That is, the terminal apparatus 100 includes a communication unit 110 for receiving partial data segmentarily transmitted from the first network device 200 and the second network device 300, and a reception control unit 120 for selecting an uplink access network, .

The communication unit 110 receives the partial data segmentarily transmitted from the first network device 200 and the second network device 300.

More specifically, the communication unit 110 receives the first partial data from the management device 400 through the first network device 200 and receives the second partial data through the second network device 300 . In this regard, the reception control unit 120 generates the data by combining the first partial data and the second partial data based on the received first partial data and the virtual network connection information included in the second partial data, 400 to recover the transmission target data to be transmitted. At this time, the reception control unit 120 recognizes the first partial data and the second partial data having the same virtual network connection information based on the virtual network connection information included in the received partial data, The data to be transmitted can be restored by rearranging the data in the order of division based on the information and combining the normally re-arranged partial data.

The communication unit 110 transmits a response message to the management apparatus 400 according to the reception of partial data for each connection network.

More specifically, the communication unit 110 receives the first partial data from the management device 400 through the first network device 200 and receives the second partial data through the second network device 300 , And transmits a response message corresponding to the received partial data to the management apparatus 400 via each access network, thereby requesting a partial data packet to be transmitted next. For example, when the management apparatus 400 transmits the partial data packets of the order information 1, 2, 5, 7, and 8 over the 3G network and transmits the partial data packets of the order information 3, 4, 6 through the WiFi network The communication unit 110 transmits response messages (ACK 1, 2, 5, 7, 8) corresponding to the partial data packets of the order information 1, 2, 5, 7, (ACK 3, 4, 6) corresponding to the partial data packets of the order information 3, 4, 6 to the management apparatus 400 via the WiFi network, To request a partial data packet to be transmitted.

At the same time, the reception control unit 120 confirms the downlink information for each access network.

More specifically, the reception control unit 120 confirms the reception status of the first partial data received through the first network device 200 and the second partial data received through the second network device 300, Thereby confirming the downlink information of each of the 3G network and the WiFi network. At this time, when the partial data packet of the order information 1, 2, 5, 7, 8 is received through the 3G network and the partial data packet of the order information 3, 4, 6 is received through the WiFi network, (T) of the reception time of the partial data corresponding to the 3G network, that is, the reception time of the partial data packet of the sequence information 1 and the reception time difference (T) of the partial data packet of the sequence information 8, By checking the number N of packets, 3G network downlink information (Throughput = T / N) is confirmed. In addition, the reception control unit 120 determines whether the reception time of the partial data corresponding to the WiFi network, that is, the reception time of the partial data packet of the order information 3 and the reception time difference (T) of the partial data packet of the order information 6, By checking the number N of partial data packets received during the required time, WiFi network downlink information (Throughput = T / N) is confirmed.

Further, the reception control unit 120 confirms the uplink information for each access network.

More specifically, the reception control unit 120 receives the uplink information (Throughput) for each access network, which is confirmed by the management apparatus 400 based on the response message according to the partial data reception for each access network, Information is recognized. In this regard, the management apparatus 400 receives a response message (ACK 1, 2, 5, 7, 8) corresponding to the partial data packet of the order information 1, 2, 5, 7, 8 via the 3G network, When a response message (ACK 3, 4, 6) corresponding to the partial data packet of the order information 3, 4, 6 is received via the WiFi network, the time required to receive the response message corresponding to the 3G network, By checking the response message reception time of the corresponding response message, the response message reception time difference T corresponding to the sequence information 8, and the number N of partial data packets received during the required reception time, the 3G network uplink information (Throughput = T / N). In addition, the management apparatus 400 determines the reception time of the partial data corresponding to the WiFi network, that is, the reception time of the response message corresponding to the partial data packet of the sequence information 3 and the reception time of the response message corresponding to the partial data packet of the sequence information 6 (Throughput = T / N) of the WiFi network by checking the reception time difference T and the number N of the response messages received during the required reception time. In this case, as shown in FIG. 4, the uplink information received from the management apparatus 400 is transmitted in a form inserted into the partial data packet. In the header of the partial data packet, the uplink reception state is measured The type (1) of the access network and the uplink information (2) are transmitted to the terminal device 100 in a state of being inserted.

Based on this, the reception controller 120 selects an uplink access network for transmitting a response message based on the network status of each access network.

More specifically, the reception control unit 120 receives the downlink information of the 3G network and the WiFi network confirmed on the basis of partial data reception and the uplink information of the 3G network and the WiFi network confirmed through the management apparatus 400 according to the transmission of the response message Selects an access network having excellent transmission performance based on the link information, and transmits a response message to partial data transmitted through each access network only through the selected access network. At this time, the reception controller 120 weights the uplink information rather than the downlink information to select the uplink access network.

Then, when partial data is received for each access network, the communication unit 110 transmits a response message to the management apparatus 400 through the selected uplink access network.

More specifically, the communication unit 110 receives the first partial data from the management apparatus 400 through the first network device 200, and transmits the first partial data via the second network apparatus 300 Upon receipt of the two-part data, a response message corresponding to the received partial data is transmitted only through the selected uplink access network, for example, a 3G network or a WiFi network, thereby promptly requesting a partial data packet to be transmitted next. For example, when the management apparatus 400 transmits the partial data packets of the order information 1, 2, 5, 7, and 8 over the 3G network and transmits the partial data packets of the order information 3, 4, 6 through the WiFi network (ACK 1, 2, 5, 7, 8) corresponding to the partial data packets of the order information 1, 2, 5, 7, 8 and the order information 3, 4, (ACKs 3, 4, 6) corresponding to the 6 partial data packets are transmitted only through the selected uplink access network, for example, the 3G network with excellent transmission performance.

Hereinafter, a more specific configuration of the management apparatus 400 according to the embodiment of the present invention will be described with reference to FIG.

That is, the management apparatus 400 includes a communication unit 410 that transmits partial data that is divided and transmitted from the first network device 200 and the second network device 300, and a transmission control unit that confirms uplink information of the access network 420).

The transmission control unit 420 selects partial data segmented from transmission target data for each network according to a predetermined data transmission rate for each network.

More specifically, the transmission control unit 420 confirms a predetermined data transmission rate for each network according to the simultaneous transmission mode activation, that is, the first transmission rate and the second transmission rate for data transmission to the second network device 300. Further, the transmission control unit 420 selects the first partial data to be transmitted to the first network device 200 among the partial data divided from the transmission target data received from the external device 500 based on the confirmed transmission ratio, And selects the second partial data to be transmitted to the second network device 300 among the remaining partial data. In this regard, the transmission control section 420 dynamically sets a data transmission rate between networks based on various factors such as the characteristics of the access network, the current load state, and the type of data to be transmitted, The partial data is transmitted.

The communication unit 410 transmits the selected partial data using the corresponding access network.

More specifically, the communication unit 410 transmits the selected partial data corresponding to the transmission network, that is, the first partial data to the first network device 200 located in the 3G network, Transmits the first partial data to the terminal device 100 as the receiving device and at the same time transmits the second partial data to the second network device 300 located in the WiFi network so as to cause the second network device 300 to transmit the second partial data to the second And transfers the partial data to the terminal apparatus 100 as a receiving apparatus.

The communication unit 410 receives a response message corresponding to the partial data transmitted for each access network from the terminal device 100. [

More specifically, when the communication unit 410 transmits the first partial data through the first network device 200 and transmits the second partial data through the second network device 300, A response message corresponding to the partial data is received from the terminal device 100 via each access network and a partial data packet to be transmitted next is received. For example, when the communication unit 410 transmits the partial data packets of the order information 1, 2, 5, 7 and 8 through the 3G network and transmits the partial data packets of the order information 3, 4 and 6 through the WiFi network, (ACK 1, 2, 5, 7, 8) corresponding to the partial data packets of the order information 1, 2, 5, 7 and 8 from the terminal device 100 via the 3G network, (ACKs 3, 4, 6) corresponding to the partial data packets of 4, 6, and 4 from the terminal device 100 via the WiFi network.

Based on this, the transmission control unit 420 confirms uplink information for each access network.

More specifically, the transmission control unit 420 receives response messages (ACK 1, 2, 5, 7, 8) corresponding to the partial data packets of the order information 1, 2, 5, 7, 8 through the 3G network, When a response message (ACK 3, 4, 6) corresponding to the partial data packet of the order information 3, 4, 6 is received via the WiFi network, the time required to receive the response message corresponding to the 3G network, By checking the response message reception time of the corresponding response message, the response message reception time difference T corresponding to the sequence information 8, and the number N of partial data packets received during the required reception time, the 3G network uplink information (Throughput = T / N). In addition, the transmission control unit 420 determines the time required to receive the partial data corresponding to the WiFi network, that is, the reception time of the response message corresponding to the partial data packet of the sequence information 3 and the reception time of the response message corresponding to the partial data packet of the sequence information 6 (Throughput = T / N) of the WiFi network by checking the reception time difference T and the number N of the response messages received during the required reception time.

Then, the communication unit 410 transmits the uplink information for each access network to the terminal device 100.

More specifically, the communication unit 410 transmits the uplink information of the 3G network and the WiFi network confirmed on the basis of the response message to the terminal apparatus 100, thereby allowing the terminal apparatus 100 to transmit the uplink information of the 3G network and the WiFi network Selects an access network having superior transmission performance based on the downlink information of the 3G network and the WiFi network confirmed in the terminal device 100 based on the partial data reception, So that a response message to the partial data transmitted through the access network of the mobile communication terminal is transmitted. In the case of the uplink information, as shown in FIG. 4, the partial data packet is transmitted in a form inserted into the partial data packet. The header of the partial data packet includes the type (1) of the access network And is transmitted to the terminal device 100 in a state where the uplink information (2) is inserted.

Then, the communication unit 410 receives the response message through the selected uplink access network in the terminal device 100 according to partial data transmission for each access network.

More specifically, the communication unit 410 transmits the first partial data through the first network device 200 after the selection of the uplink access network of the terminal device 100, and transmits the first partial data via the second network device 300 When transmitting the second partial data, the response message corresponding to the transmitted partial data is received only through the selected uplink access network, for example, the 3G network or the WiFi network. For example, assuming that a partial data packet of the order information 1, 2, 5, 7, 8 is transmitted through the 3G network and a partial data packet of the order information 3, 4, 6 is transmitted through the WiFi network, The communication unit 410 receives response messages (ACK 1, 2, 5, 7, 8) corresponding to the partial data packets of the order information 1, 2, 5, 7 and 8 and partial data packets of the order information 3, 4, All of the corresponding response messages (ACK 3, 4, 6) are received only through the selected uplink access network, for example, the 3G network with excellent transmission performance. If all the response messages are received only through a single access network for a predetermined period of time, the transmission control unit 420 regards the terminal apparatus 100 as reflecting the network state, that is, the network quality measurement, So that the partial data can be selected and transmitted according to the distribution ratio reflecting the current state of the access network.

As described above, according to the heterogeneous network-based data concurrent transmission system according to the present invention, in an environment providing simultaneous transmission service for transmitting / receiving partial data obtained by dividing transmission target data using a plurality of heterogeneous networks, A downlink state of each access network is checked based on a reception state of partial data transmitted through an access network and an uplink state of each access network is checked based on a reception state of a response message corresponding to the partial data, And a response message is transmitted only through the selected access network by selecting a specific access network having excellent transmission performance based on the status of the uplink, thereby increasing the packet transmission rate by promptly transmitting the response message, The transmission performance of the transmission service can be guaranteed and improved .

Hereinafter, a method for simultaneously transmitting data based on heterogeneous networks according to an embodiment of the present invention will be described with reference to FIG. 5 to FIG. Here, the configurations shown in FIGS. 1 to 4 will be described with reference to corresponding reference numerals for convenience of explanation.

5, an operation method of a simultaneous network-based data concurrent transmission system according to an embodiment of the present invention will be described.

First, the management apparatus 400 selects partial data segmented from transmission target data for each network according to a predetermined data transmission rate for each network (S10).

Preferably, the management device 400 confirms a preset data transmission rate, i.e., a first transmission rate, and a second transmission rate for data transmission to the second network device 300, according to the simultaneous transmission mode activation. Further, the management apparatus 400 selects the first partial data to be transmitted to the first network device 200 among the partial data divided from the transmission object data received from the external apparatus 500 based on the confirmed transmission ratio, And selects the second partial data to be transmitted to the second network device 300 among the remaining partial data. In this regard, the management apparatus 400 dynamically sets the data transfer rate between networks based on various factors such as the characteristics of the access network, the current load state, and the type of the data to be transmitted, The partial data is transmitted.

Then, the management apparatus 400 transmits the selected partial data using the access network (S20).

Preferably, the management device 400 transmits the selected partial data corresponding to the transmission network, i.e., the first partial data to the first network device 200 located in the 3G network, to the first network device 200 Transmits the first partial data to the terminal device 100 as the receiving device and at the same time transmits the second partial data to the second network device 300 located in the WiFi network, 2 partial data to the terminal apparatus 100 as a receiving apparatus.

Then, the terminal device 100 transmits a response message according to partial data reception for each connection network to the management apparatus 400 (S30).

More specifically, the terminal device 100 receives the first partial data from the management device 400 through the first network device 200, and receives the second partial data via the second network device 300 A response message corresponding to each piece of partial data received is transmitted to the management apparatus 400 via each access network, thereby requesting a partial data packet to be transmitted next. For example, when the management apparatus 400 transmits the partial data packets of the order information 1, 2, 5, 7, and 8 over the 3G network and transmits the partial data packets of the order information 3, 4, 6 through the WiFi network The terminal device 100 manages the response messages (ACK 1, 2, 5, 7, 8) corresponding to the partial data packets of the order information 1, 2, 5, 7, 8 via the 3G network (ACK 3, 4, 6) corresponding to the partial data packets of the order information 3, 4, 6 to the management apparatus 400 via the WiFi network, To request a partial data packet to be transmitted via the data packet. On the other hand, if the response message for the received partial data packet is not generated due to the TCP sliding window scheme, the terminal device 100 generates and transmits a dummy response message at random.

At the same time, the terminal device 100 confirms downlink information for each access network (S40).

Preferably, the terminal device 100 confirms the reception status of the first partial data received through the first network device 200 and the second partial data received through the second network device 300, Thereby confirming the downlink information of each of the 3G network and the WiFi network. At this time, when the partial data packet of the order information 1, 2, 5, 7, 8 is received through the 3G network and the partial data packet of the order information 3, 4, 6 is received through the WiFi network, (T) of the reception time of the partial data corresponding to the 3G network, that is, the reception time of the partial data packet of the sequence information 1 and the reception time difference (T) of the partial data packet of the sequence information 8, By checking the number N of packets, 3G network downlink information (Throughput = T / N) is confirmed. In addition, the terminal device 100 determines whether the reception time of the partial data corresponding to the WiFi network, that is, the reception time of the partial data packet of the order information 3 and the reception time difference T of the partial data packet of the order information 6, By checking the number N of partial data packets received during the required time, WiFi network downlink information (Throughput = T / N) is confirmed.

In addition, the management apparatus 400 confirms uplink information for each access network (S50).

Preferably, the management device 400 receives a response message (ACK 1, 2, 5, 7, 8) corresponding to the partial data packet of the order information 1, 2, 5, 7, 8 via the 3G network, When a response message (ACK 3, 4, 6) corresponding to the partial data packet of the order information 3, 4, 6 is received via the WiFi network, the time required to receive the response message corresponding to the 3G network, By checking the response message reception time of the corresponding response message, the response message reception time difference T corresponding to the sequence information 8, and the number N of partial data packets received during the required reception time, the 3G network uplink information (Throughput = T / N). In addition, the management apparatus 400 determines the reception time of the partial data corresponding to the WiFi network, that is, the reception time of the response message corresponding to the partial data packet of the sequence information 3 and the reception time of the response message corresponding to the partial data packet of the sequence information 6 (Throughput = T / N) of the WiFi network by checking the reception time difference T and the number N of the response messages received during the required reception time.

Then, the management apparatus 400 transmits the uplink information for each access network to the terminal apparatus 100 (S60).

Preferably, the management apparatus 400 transmits the uplink information of the 3G network and the WiFi network confirmed on the basis of the response message to the terminal apparatus 100, so that the terminal apparatus 100 transmits the uplink information of the 3G network and the WiFi network Based on the partial data reception based on the downlink information of the 3G network and the WiFi network confirmed in the terminal device 100, and selects the access network having excellent transmission performance only through the selected access network And transmits a response message to partial data transmitted through each access network. In the case of the uplink information, as shown in FIG. 4, the partial data packet is transmitted in a form inserted into the partial data packet. The header of the partial data packet includes the type (1) of the access network And is transmitted to the terminal device 100 in a state where the uplink information (2) is inserted.

Accordingly, the terminal device 100 recognizes uplink information for each access network (S70).

Preferably, the terminal apparatus 100 receives the uplink information (Throughput) for each access network, which is confirmed by the management apparatus 400 based on the response message according to partial data reception for each access network, Information is recognized.

Based on this, the terminal device 100 selects an uplink access network for transmitting a response message based on the network status of each access network (S80).

Preferably, the terminal device 100 transmits the downlink information of the 3G network and the WiFi network confirmed on the basis of partial data reception and the uplink information of the 3G network and the WiFi network confirmed through the management device 400 according to the response message transmission Selects an access network having excellent transmission performance based on the link information, and transmits a response message to partial data transmitted through each access network only through the selected access network. At this time, the terminal apparatus 100 selects an uplink access network by weighting uplink information rather than downlink information.

Thereafter, the management apparatus 400 receives the response message through the selected uplink access network in the terminal device 100 according to partial data transmission for each access network (S90-S110).

The management device 400 may transmit the first partial data through the first network device 200 and may transmit the first partial data to the second network device 300 after the uplink access network selection of the terminal device 100. [ The mobile station receives the response message corresponding to the transmitted partial data only through the selected uplink access network, for example, the 3G network or the WiFi network. For example, assuming that a partial data packet of the order information 1, 2, 5, 7, 8 is transmitted through the 3G network and a partial data packet of the order information 3, 4, 6 is transmitted through the WiFi network, The management apparatus 400 transmits the response message (ACK 1, 2, 5, 7, 8) corresponding to the partial data packet of the order information 1, 2, 5, 7, 8 and the partial data packet (ACKs 3, 4, 6) corresponding to the uplink access network, for example, only on the 3G network with excellent transmission performance. Meanwhile, when all the response messages are received only through a single access network for a predetermined time, the management apparatus 400 regards the terminal apparatus 100 as reflecting the network state, that is, the network quality measurement, So that the partial data can be selected and transmitted according to the distribution ratio reflecting the current state of the access network.

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

First, the partial data transmitted from the first network device 200 and the second network device 300 is received (S210).

Preferably, the communication unit 110 receives the first partial data from the management device 400 through the first network device 200 and receives the second partial data through the second network device 300 . In this regard, the reception control unit 120 generates the data by combining the first partial data and the second partial data based on the received first partial data and the virtual network connection information included in the second partial data, 400 to recover the transmission target data to be transmitted. At this time, the reception control unit 120 recognizes the first partial data and the second partial data having the same virtual network connection information based on the virtual network connection information included in the received partial data, The data to be transmitted can be restored by rearranging the data in the order of division based on the information and combining the normally re-arranged partial data.

Then, a response message according to partial data reception for each access network is transmitted to the management apparatus 400 (S220).

Preferably, the communication unit 110 receives the first partial data from the management device 400 through the first network device 200, and when the second partial data is received through the second network device 300 , And transmits a response message corresponding to the received partial data to the management apparatus 400 via each access network, thereby requesting a partial data packet to be transmitted next. For example, when the management apparatus 400 transmits the partial data packets of the order information 1, 2, 5, 7, and 8 over the 3G network and transmits the partial data packets of the order information 3, 4, 6 through the WiFi network The communication unit 110 transmits response messages (ACK 1, 2, 5, 7, 8) corresponding to the partial data packets of the order information 1, 2, 5, 7, (ACK 3, 4, 6) corresponding to the partial data packets of the order information 3, 4, 6 to the management apparatus 400 via the WiFi network, To request a partial data packet to be transmitted.

At the same time, downlink information for each access network is checked (S230).

Preferably, the reception controller 120 checks the reception status of the first partial data received through the first network device 200 and the second partial data received through the second network device 300, Thereby confirming the downlink information of each of the 3G network and the WiFi network. At this time, when the partial data packet of the order information 1, 2, 5, 7, 8 is received through the 3G network and the partial data packet of the order information 3, 4, 6 is received through the WiFi network, (T) of the reception time of the partial data corresponding to the 3G network, that is, the reception time of the partial data packet of the sequence information 1 and the reception time difference (T) of the partial data packet of the sequence information 8, By checking the number N of packets, 3G network downlink information (Throughput = T / N) is confirmed. In addition, the reception control unit 120 determines whether the reception time of the partial data corresponding to the WiFi network, that is, the reception time of the partial data packet of the order information 3 and the reception time difference (T) of the partial data packet of the order information 6, By checking the number N of partial data packets received during the required time, WiFi network downlink information (Throughput = T / N) is confirmed.

Further, uplink information for each access network is checked (S240 - S250).

Preferably, the reception control unit 120 receives the uplink information (Throughput) for each access network, which is confirmed by the management apparatus 400 based on the response message according to partial data reception for each access network, Information is recognized. In this regard, the management apparatus 400 receives a response message (ACK 1, 2, 5, 7, 8) corresponding to the partial data packet of the order information 1, 2, 5, 7, 8 via the 3G network, When a response message (ACK 3, 4, 6) corresponding to the partial data packet of the order information 3, 4, 6 is received via the WiFi network, the time required to receive the response message corresponding to the 3G network, By checking the response message reception time of the corresponding response message, the response message reception time difference T corresponding to the sequence information 8, and the number N of partial data packets received during the required reception time, the 3G network uplink information (Throughput = T / N). In addition, the management apparatus 400 determines the reception time of the partial data corresponding to the WiFi network, that is, the reception time of the response message corresponding to the partial data packet of the sequence information 3 and the reception time of the response message corresponding to the partial data packet of the sequence information 6 (Throughput = T / N) of the WiFi network by checking the reception time difference T and the number N of the response messages received during the required reception time. In this case, as shown in FIG. 4, the uplink information received from the management apparatus 400 is transmitted in a form inserted into the partial data packet. In the header of the partial data packet, the uplink reception state is measured The type (1) of the access network and the uplink information (2) are transmitted to the terminal device 100 in a state of being inserted.

Based on this, an uplink access network for transmitting a response message is selected according to the network status of each access network (S260).

Preferably, the reception control unit 120 receives the downlink information of the 3G network and the WiFi network confirmed on the basis of partial data reception and the uplink information of the 3G network and the WiFi network confirmed through the management apparatus 400 according to the transmission of the response message Selects an access network having excellent transmission performance based on the link information, and transmits a response message to partial data transmitted through each access network only through the selected access network. At this time, the reception controller 120 weights the uplink information rather than the downlink information to select the uplink access network.

Thereafter, when partial data is received for each access network, the response message is transmitted to the management apparatus 400 through the selected uplink access network (S270 - S280).

Preferably, the communication unit 110 receives the first partial data from the management apparatus 400 via the first network device 200 after the selection of the uplink access network, and transmits the first partial data via the second network apparatus 300 Upon receipt of the two-part data, a response message corresponding to the received partial data is transmitted only through the selected uplink access network, for example, a 3G network or a WiFi network, thereby promptly requesting a partial data packet to be transmitted next. For example, when the management apparatus 400 transmits the partial data packets of the order information 1, 2, 5, 7, and 8 over the 3G network and transmits the partial data packets of the order information 3, 4, 6 through the WiFi network (ACK 1, 2, 5, 7, 8) corresponding to the partial data packets of the order information 1, 2, 5, 7, 8 and the order information 3, 4, (ACKs 3, 4, 6) corresponding to the 6 partial data packets are transmitted only through the selected uplink access network, for example, the 3G network with excellent transmission performance.

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

First, in step S310, segmented partial data is selected from transmission target data for each network according to a predetermined data transmission rate for each network.

Preferably, the transmission control unit 420 confirms a predetermined data transmission rate for each network, that is, a first transmission rate and a second transmission rate for data transmission to the second network device 300 according to the simultaneous transmission mode activation. Further, the transmission control unit 420 selects the first partial data to be transmitted to the first network device 200 among the partial data divided from the transmission target data received from the external device 500 based on the confirmed transmission ratio, And selects the second partial data to be transmitted to the second network device 300 among the remaining partial data. In this regard, the transmission control section 420 dynamically sets a data transmission rate between networks based on various factors such as the characteristics of the access network, the current load state, and the type of data to be transmitted, The partial data is transmitted.

Then, the selected partial data is transmitted using the corresponding access network (S320).

Preferably, the communication unit 410 transmits the selected partial data corresponding to the transmission network, that is, the first partial data, to the first network device 200 located in the 3G network so that the first network device 200 Transmits the first partial data to the terminal device 100 as the receiving device and at the same time transmits the second partial data to the second network device 300 located in the WiFi network so as to cause the second network device 300 to transmit the second partial data to the second And transfers the partial data to the terminal apparatus 100 as a receiving apparatus.

Accordingly, a response message corresponding to the partial data transmitted for each connection network is received from the terminal device 100 (S330).

Preferably, when the communication unit 410 transmits the first partial data through the first network device 200 and transmits the second partial data through the second network device 300, A response message corresponding to the partial data is received from the terminal device 100 via each access network and a partial data packet to be transmitted next is received. For example, when the communication unit 410 transmits the partial data packets of the order information 1, 2, 5, 7 and 8 through the 3G network and transmits the partial data packets of the order information 3, 4 and 6 through the WiFi network, (ACK 1, 2, 5, 7, 8) corresponding to the partial data packets of the order information 1, 2, 5, 7 and 8 from the terminal device 100 via the 3G network, (ACKs 3, 4, 6) corresponding to the partial data packets of 4, 6, and 4 from the terminal device 100 via the WiFi network.

Based on this, uplink information for each access network is checked (S340).

Preferably, the transmission control unit 420 receives response messages (ACK 1, 2, 5, 7, 8) corresponding to the partial data packets of the order information 1, 2, 5, 7, 8 via the 3G network, When a response message (ACK 3, 4, 6) corresponding to the partial data packet of the order information 3, 4, 6 is received via the WiFi network, the time required to receive the response message corresponding to the 3G network, By checking the response message reception time of the corresponding response message, the response message reception time difference T corresponding to the sequence information 8, and the number N of partial data packets received during the required reception time, the 3G network uplink information (Throughput = T / N). In addition, the transmission control unit 420 determines the time required to receive the partial data corresponding to the WiFi network, that is, the reception time of the response message corresponding to the partial data packet of the sequence information 3 and the reception time of the response message corresponding to the partial data packet of the sequence information 6 (Throughput = T / N) of the WiFi network by checking the reception time difference T and the number N of the response messages received during the required reception time.

Then, uplink information for each access network is transmitted to the terminal device 100 (S350).

Preferably, the communication unit 410 transmits the uplink information of the 3G network and the WiFi network confirmed on the basis of the response message to the terminal apparatus 100 so that the terminal apparatus 100 transmits the uplink information of the 3G network and the WiFi network Selects an access network having superior transmission performance based on the downlink information of the 3G network and the WiFi network confirmed in the terminal device 100 based on the partial data reception, So that a response message to the partial data transmitted through the access network of the mobile communication terminal is transmitted. In the case of the uplink information, as shown in FIG. 4, the partial data packet is transmitted in a form inserted into the partial data packet. The header of the partial data packet includes the type (1) of the access network And is transmitted to the terminal device 100 in a state where the uplink information (2) is inserted.

Thereafter, the communication unit 410 receives the response message through the selected uplink access network in the terminal device 100 according to partial data transmission for each access network (S310 - S330).

More specifically, the communication unit 410 transmits the first partial data through the first network device 200 after the selection of the uplink access network of the terminal device 100, and transmits the first partial data via the second network device 300 When transmitting the second partial data, the response message corresponding to the transmitted partial data is received only through the selected uplink access network, for example, the 3G network or the WiFi network. For example, assuming that a partial data packet of the order information 1, 2, 5, 7, 8 is transmitted through the 3G network and a partial data packet of the order information 3, 4, 6 is transmitted through the WiFi network, The communication unit 410 receives response messages (ACK 1, 2, 5, 7, 8) corresponding to the partial data packets of the order information 1, 2, 5, 7 and 8 and partial data packets of the order information 3, 4, All of the corresponding response messages (ACK 3, 4, 6) are received only through the selected uplink access network, for example, the 3G network with excellent transmission performance. If all the response messages are received only through a single access network for a predetermined period of time, the transmission control unit 420 regards the terminal apparatus 100 as reflecting the network state, that is, the network quality measurement, So that the partial data can be selected and transmitted according to the distribution ratio reflecting the current state of the access network.

As described above, according to the heterogeneous network-based data concurrent transmission method of the present invention, in an environment providing simultaneous transmission service for transmitting / receiving partial data obtained by dividing transmission target data using a plurality of heterogeneous networks, A downlink state of each access network is checked based on a reception state of partial data transmitted through an access network and an uplink state of each access network is checked based on a reception state of a response message corresponding to the partial data, And a response message is transmitted only through the selected access network by selecting a specific access network having excellent transmission performance based on the status of the uplink, thereby increasing the packet transmission rate by promptly transmitting the response message, The transmission performance of the transmission service can be guaranteed and improved.

Meanwhile, the simultaneous network-based data concurrent transfer method according to an embodiment of the present invention may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

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 simultaneous network-based data concurrent transmission method and the apparatus applied thereto according to the present invention, based on the reception state of partial data transmitted through each access network and the reception state of a response message transmitted corresponding to the partial data, It checks the downlink and uplink states of the access network and selects a specific access network having excellent transmission performance based on the checked state. Therefore, It is not only the possibility of commercialization or operation of a device to be applied, but also a possibility that can be practically and practically carried out, so it is an invention that is industrially applicable.

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

Claims (10)

A communication unit that transmits partial data segmented from transmission target data to a receiving apparatus through two or more access networks and receives a response message corresponding to the transmitted partial data; And
And a transmission control unit for transmitting uplink information corresponding to a reception state of the response message to each of the at least two access networks to the reception apparatus,
The communication unit
A response to the partial data through only one specific access network selected based on at least one of uplink information and downlink information corresponding to a transmission state in which the partial data is transmitted to the receiving apparatus among the two or more access networks Wherein the first and second network-based data are transmitted to the second network. The method according to claim 1,
The transmission control unit,
And the uplink information is included in the partial data and is transmitted to the receiving apparatus. The method according to claim 1,
The uplink information includes uplink information,
Based on the number of the response messages received during the time required to receive the response message through each of the two or more access networks,
The downlink information includes:
Based on the number of partial data received during the time required to receive the partial data through each of the two or more access networks. The method according to claim 1,
The transmission control unit,
Wherein the control unit adjusts a transmission rate for transmitting the partial data to the at least two access networks when a response message to the partial data is continuously received through only one specific access network for a predetermined time period. Simultaneous transmission transmitter. A communication unit that receives partial data segmented from the transmission object data through the two or more networks from the transmission apparatus and transmits a response message to the partial data to the transmission apparatus; And
A downlink information corresponding to a state in which the partial data is received from the transmission apparatus among the two or more networks, and uplink information corresponding to a state in which the response message is transmitted to the transmission apparatus, And a controller for transmitting a response message to the partial data only through a specific access network. 6. The method of claim 5,
And the partial data includes the uplink information. 6. The method of claim 5,
Wherein,
And selects the one specific access network based on a result value obtained by assigning a first weight to the downlink information and a result value obtained by adding a second weight greater than the first weight to the uplink information. Data transmission and reception apparatus. A data transfer step of transferring partial data segmented from transfer target data to a receiving device via two or more access networks;
A response message receiving step of receiving a response message corresponding to the transmitted partial data;
Acquiring uplink information corresponding to a reception state of the response message in each of the two or more access networks;
Transmitting the uplink information to the receiving apparatus; And
A response corresponding to the partial data via only one specific access network selected based on at least one of the uplink information and the downlink information corresponding to a state in which the partial data is transmitted to the receiving apparatus among the two or more access networks And a response message receiving step of receiving a response message for receiving the response message. 9. The method of claim 8,
Further comprising the step of adjusting a transmission rate of transmitting the partial data to the at least two access networks when a response message to the partial data is received through only one specific access network for a predetermined time period A method for simultaneous transmission of network-based data. A data receiving step of receiving partial data segmented from data to be transmitted through two or more networks from a transmitting apparatus;
A response message transmission step of transmitting a response message to partial data received through each of the two or more networks to the transmitting apparatus;
Based on at least one of downlink information corresponding to a state in which the partial data is received from the transmitting apparatus from among the two or more networks and uplink information corresponding to a state in which the response message is transmitted to the transmitting apparatus, Selecting a network; And
And transmitting a response message to the partial data only through the selected one specific access network.

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