KR20150022385A - Method and Apparatus for Controlling Traffic for Reducing Completion Time of Transmitting Data - Google Patents

Abstract

Disclosed are a traffic control method and apparatus for reducing the time to complete data transmission. When there are at least two activated networks among a plurality of networks, the traffic control method and apparatus enables data partitioned at a preset ratio to be respectively downloaded through the activated networks, and the remaining data to be additionally allocated to the network, the data transmission through which is completed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a traffic control apparatus and method for shortening a data transmission completion time,

The present embodiment relates to a traffic control apparatus and method for shortening a data transmission completion time.

The contents described in this section merely provide background information on the present embodiment and do not constitute the prior art.

In the current traffic control scheme of mobile communication systems, in order to transmit traffic requested at a user level in real time, a Best Effort type in the network layer, which is the L3 layer of the terminal and the server, The data transmission method of FIG. However, such a technique has a problem in that it can not detect whether or not the server or the terminal of the core network is congested by the load base station or the base station.

That is, the load or congestion occurring at the base station decreases the data transmission efficiency of the terminal, and the terminal that fails to transmit due to packet loss or the like continuously retries at the network layer at the L3 layer, There is a problem to sustain. There is a need for a technique for increasing the efficiency of data transmission using a plurality of networks in a load or congestion state.

In the present embodiment, when at least two activated networks among a plurality of networks are used, data divided into a predetermined ratio is downloaded using two or more networks, and the remaining data is further distributed to the network There is provided a traffic control apparatus and method for shortening a data transmission completion time.

According to an aspect of the present invention, there is provided a method of downloading traffic using a route network, the method comprising: generating a traffic request signal; A traffic transmission / reception unit for downloading a traffic response signal corresponding to the traffic request signal from the content providing apparatus via two or more networks of the path networks; And a traffic controller for controlling the traffic response signal to be simultaneously downloaded through the two or more networks at a predetermined ratio based on a download status of the traffic response signal.

According to another aspect of the present invention, there is provided a method of controlling download of traffic of a terminal, the method comprising: generating a traffic request signal; A traffic transmission / reception process of downloading a traffic response signal corresponding to the traffic request signal from a content providing apparatus via two or more networks of the path networks; And a traffic control step of controlling the traffic response signal to be simultaneously downloaded through the two or more networks at a predetermined ratio based on the download state of the traffic response signal .

As described above, according to the present embodiment, data that is divided at predetermined ratios are downloaded by using two or more networks, and the remaining data is distributed to the network in which the transmission is completed, The number of networks in the idle state can be reduced and the efficiency of data transmission can be increased to shorten the completion time of data transmission.

1 is a block diagram schematically showing a traffic control system using a plurality of networks according to the present embodiment.
2 is a block diagram schematically showing a traffic control apparatus according to the present embodiment.
3 is a block diagram schematically showing a policy providing apparatus according to the present embodiment.
4 is a flowchart for explaining a traffic control method using a plurality of networks according to the present embodiment.
5 is an exemplary diagram for explaining operations of a traffic control system using a plurality of networks according to the present embodiment.
6 is an exemplary diagram for explaining an operation of controlling traffic using a plurality of networks according to the present embodiment.
7 is an exemplary diagram illustrating non-real-time traffic according to the present embodiment.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings.

1 is a block diagram schematically showing a traffic control system using a plurality of networks according to the present embodiment.

The traffic control system according to the present embodiment includes a terminal 110, a traffic control application 112, a network 120, a policy providing apparatus 130 and a content providing apparatus 140. [ The traffic control system includes only the terminal 110, the traffic control application 112, the network 120, the policy providing apparatus 130, and the content providing apparatus 140. However, no. Here, traffic refers to the amount of data that flows within a certain period of time on the transmission path of the network 120.

The terminal 110 is a terminal capable of transmitting and receiving various data via the network 120 according to a key operation or a command of the user. The terminal 110 may be a tablet PC, a laptop, a personal computer Computer, a smart phone, a personal digital assistant (PDA), and a mobile communication terminal. In addition, the terminal 110 may be a cloud computing terminal that supports cloud computing that can use services such as data reading, writing, storing, network, and content usage through the network 120.

That is, the terminal 110 is a terminal that performs voice or data communication using the network 120 and includes a memory for storing a program or a protocol for communicating with the content providing apparatus 140 via the network 120, And a microprocessor for executing and controlling the program. That is, the terminal 110 may be any terminal as long as it is capable of server-client communication with the content providing apparatus 140. The terminal 110 includes a plurality of communication modules and performs voice or data communication through the path networks 122, 124, 126, and 128, which are used as paths of non-real-time traffic in the network 120 And may communicate with the content providing device 140 via the route network 122, 124, 126 and 128. [ The terminal 110 manages data to store contents in the terminal 110 or to send traffic of the terminal 110 to the contents providing apparatus 140 for traffic processing. Although the terminal 110 is described as being implemented as a separate apparatus from the policy providing apparatus 130 in the present embodiment, the terminal 110 includes all of the policy providing apparatus 130 (Stand Alone) device.

The terminal 110 according to the present embodiment can implement the adaptive non-real time traffic control by loading the traffic control application 112. [ That is, the terminal 110 drives the traffic control application 112 by a user's manipulation or command, and through the traffic control application 112, two or more of the condensation networks 122, 124, 126, and 128 Real-time traffic using the network. The traffic control application 112 refers to an application installed after downloading through the application store if the terminal 110 is a smart phone. If the terminal 110 is a feature phone, (Virtual Machine).

Hereinafter, the operation of the terminal 110 according to the present embodiment for controlling traffic using a plurality of networks will be described. The terminal 110 generates a non-real-time traffic request signal by a user's operation or command, transmits a policy request signal to the policy providing apparatus 130, receives a policy response corresponding to the policy request signal from the policy providing apparatus 130 And recognizes the network status of the route network (122, 124, 126, and 128) based on the policy response signal, and receives the non-real-time traffic request signal from the content providing apparatus 140 via the route network Downloading the corresponding non-real-time traffic response signal, controlling download based on the perceived network condition, and downloading simultaneously through at least two of the path networks 122, 124, 126, and 128 .

The terminal 110 may communicate with the at least two or more active networks for the non-real-time traffic response signal if there are at least two of the plurality of networks included in the path network 122, 124, 126, and 128, So that the downloading can be performed simultaneously. For example, the terminal 110 may communicate with a cellular network (3G network 122, 4G network 124, N network 128) while communicating with a cellular network (3G network 122, 4G network 124, 4G network 124, or the Nth network 128) of the wireless LAN network 126. The wireless LAN network 126 may be connected to the wireless LAN network 126 via a network. That is, the terminal 110 is connected to the cellular network (any one of the 3G network 122, 4G network 124 and Nth network 128) included in the path network 122, 124, 126 and 128 When the wireless LAN network 126 is activated, the mobile terminal 100 performs downloading using the cellular network (any one of the 3G network 122, the 4G network 124, and the Nth network 128) and the wireless LAN network 126 simultaneously can do.

The terminal 110 periodically measures each throughput for at least two or more networks and if downloading via at least two or more networks is performed when the average value of the measured throughputs exceeds a predetermined threshold value . Here, the throughput is the throughput that each network included in the path network 122, 124, 126, and 128 can process per a predetermined time or unit time, and generally, the higher the throughput, the better the system processing capability It says. At this time, the throughput can be judged as the download speed. That is, the terminal 110 is connected to the cellular network (any one of the 3G network 122, 4G network 124 and Nth network 128) included in the path network 122, 124, 126 and 128 The processing rate of the wireless LAN network 126 is measured periodically and the average value of the processing rate is compared with a preset threshold value. Then, the terminal 110 determines that there is no problem in at least two or more networks interlocked when the average value exceeds the threshold value, and controls the download to be maintained. For example, if the throughput of the cellular network (any one of the 3G network 122, the 4G network 124, and the Nth network 128) is about 10 Mbps and the throughput of the WLAN network 126 is about 10 Mbps, And the predetermined threshold value is about 5 Mbps, the terminal 110 meets the conditions of '10 Mbps> 5 Mbps' and '20 Mbps> 5 Mbps', so that at least two It is determined that there is no problem in the cellular network (any one of the 3G network 122, the 4G network 124, and the Nth network 128) and the wireless LAN network 126, and the download using two or more networks is maintained Respectively.

The terminal 110 performs downloading through the remaining network when any one of the activated at least two networks is inactivated. That is, when the terminal 110 is switched from the cellular network (any one of the 3G network 122, the 4G network 124 and the N-th network 128) and the WLAN network 126 to the inactive state , The download is performed using only the remaining network. For example, the terminal 110 may use one of the cellular networks (3G network 122, 4G network 124 and Nth network 128) and the wireless LAN network 126 simultaneously to store one content (file) The user is disconnected from the wireless LAN network 126 and the wireless LAN network 126 is switched to the inactive state because the user is disconnected from the wireless LAN network 126. [ At this time, since the terminal 110 maintains communication with the cellular network (any one of the 3G network 122, the 4G network 124 and the Nth network 128), the cellular network (the 3G network 122, (Either the N-th network 124 or the N-th network 128). When the terminal 110 enters the coverage of the wireless LAN network 126 again, the terminal 110 returns to the cellular network (3G network 122, 4G network 124, or Nth network 128) ) And the wireless LAN network 126 at the same time to download one content (file).

The terminal 110 according to the present exemplary embodiment may include content distribution information for distributing content to a content providing device 140 at a predetermined ratio and transmitting the content response information to a plurality of networks for transmitting a traffic response signal including the distributed content And transmits the traffic response signal corresponding to the traffic request signal from the content providing apparatus 140. [0050] FIG.

The terminal 110 distributes the traffic response signal including the content from the content providing apparatus 140 to two or more activated networks in the path network and downloads the traffic response signal. For example, the terminal 110 can download the divided data divided into 1/2 by using the 4G network 124 and the wireless LAN network 126, respectively.

When downloading of one of the two or more networks is completed, the terminal 110 stops downloading the traffic response signal and checks the download status of the traffic response signal to generate download status information. Here, the download status information means an amount of data of an uncommitted traffic response signal of a network in which downloading is not completed among two or more networks. For example, the terminal 110 may simultaneously download the distributed traffic response signal using the cellular network (3G network 122, 4G network 124, N network 128) and the wireless LAN network 126 The downloading of all the networks is stopped and the download incomplete data of any of the cellular networks (3G network 122, 4G network 124, Nth network 128) Can be confirmed.

The terminal 110 generates a new traffic request signal based on the download status information and transmits the new traffic request signal to the content providing apparatus 140 and downloads the redistributed traffic response signal redistributed to the two or more networks from the content providing apparatus 140.

The terminal 110 repeats the operation of redistributing and downloading the unfinished data among the traffic response signals due to the completion of the download of one network. When the download of the two or more networks is completed at the same time, the download of the traffic response signal is completed And ends the download.

On the other hand, when the download status information for the uncompleted download, that is, the uncompleted data amount is less than or equal to the predetermined residual data amount, the terminal 110 downloads the data using one network without dividing the uncompleted data You can also complete it.

The network 120 may include an Nth network (Synchronous Network, Internet network, intranet network, satellite communication network, etc.) 128 (including a 3G network 122, a 4G network 124, ), Which can transmit and receive data through a communication protocol using various wired / wireless communication technologies. The network 120 may include a cloud computing network that can be coupled to the content providing apparatus 140 to store computing resources such as hardware and software and to provide the computing resources required by the client to the terminal 110 can do. Here, cloud computing refers to a computer environment in which information is permanently stored on a server on the Internet and temporarily stored in a client terminal such as a desktop, a tablet computer, a notebook, a netbook, or a smart phone. Cloud computing, Refers to a computer environment access network that stores information on a server on the Internet and makes the information available anytime and anywhere through various IT devices.

The policy providing device 130 recognizes the network status of each terminal assigned to the path networks 122, 124, 126, and 128, and determines and manages policies related to data traffic based on the detected network status Function. That is, when the policy providing apparatus 130 receives the policy request signal from the terminal 110 in cooperation with the terminal 110 via the network 120, the policy providing apparatus 130 transmits the policy request signal to the path networks 122 and 124 , 126, and 128), and generates a policy response signal including a policy determined based on the network status. At this time, the policy providing apparatus 130 transmits a policy response signal to the terminal 110. The policy providing apparatus 130 may generate a policy response signal using a 3G PCRF (Policy Charging and Rules Function) (not shown) or a 4G PCRF (not shown) included in the network 120.

Hereinafter, a process of generating the policy response signal corresponding to the policy request signal received from the terminal 110 will be described. The policy providing device 130 checks the network status to generate a policy response signal, and generates a policy response signal including at least one of policy request period information, a threshold value, and priority information according to the network status. At this time, the threshold value is information including respective threshold values for a plurality of parameters related to traffic control. That is, the threshold value may be adaptively set according to at least one of the number of terminals allocated to the transmitter in the path network (122, 124, 126, and 128), the traffic transmission state of each terminal, . In addition, the threshold value has a value that limits the number of terminals allocated for each transmitter in the path network (any one of 122, 124, 126, and 128) to within a predetermined range. On the other hand, the priority information has a priority value based on the type of the route network (any one of 122, 124, 126, and 128) or a value set to transmit traffic at a minimum at a minimum. The policy providing apparatus 130 periodically transmits the policy response signal to the terminal 110.

The content providing device 140 is a kind of server that performs storage and management of contents to transmit or receive data traffic to the terminal 110. [

The content providing apparatus 140 according to the present embodiment transmits a traffic response signal including the content to the terminal 110 using two or more networks based on the traffic request signal received from the terminal 110. [ Here, the traffic request signal includes content distribution information, transmission network information, and the like.

The content providing apparatus 140 generates a traffic response signal in which the content is divided according to a predetermined ratio based on the content distribution information included in the traffic request signal, and generates a traffic response signal based on the transmission network information included in the traffic request signal, 122, 124, 126, and 128) to the terminal 110 by using the at least two networks. Here, the content may include at least one of text data, image data, and image data.

For example, the content providing apparatus 140 may receive the traffic request signal including the content distribution information for the 50:50 ratio and the transmission network information for the 4G network 124 and the wireless LAN network 126 from the terminal 110 The content having a data amount of 100 MB may be divided by 50 MB and the divided data may be distributed to the 4G network 124 and the wireless LAN network 126 and transmitted to the terminal 110.

Meanwhile, when the content providing apparatus 140 receives the transmission stop request signal from the terminal 110 because the transmission of the divided data (50 MB) is completed in one network (the wireless LAN network 126) It stops the transmission of the traffic response signal and divides the residual data (30 MB) of the 4G network 124 by 15 MB on the basis of the newly received new traffic request signal and transmits the divided data to the 4G network 124 and the wireless LAN network (126), and transmit the redistributed information to the terminal (110).

The content providing apparatus 140 has the same hardware configuration as that of a typical Web server or a network server. In addition, software modules include program modules implemented in any language such as C, C ++, Java, Visual Basic, and Visual C. The content providing apparatus 140 may be implemented as a web server or a network server. The web server is generally connected to an unspecified number of clients and / or other servers through an open computer network such as the Internet, Means a computer system that accepts a request to perform an operation of a server and derives a result of the operation, and computer software (a web server program) installed for the computer system.

2 is a block diagram schematically showing a traffic control apparatus according to the present embodiment.

2 shows an internal view of the terminal 110 having the traffic control application 112 installed therein. However, the terminal 110 having the traffic control application 112 installed therein is a separate device, that is, the traffic control device 200, . ≪ / RTI > That is, the traffic control apparatus 200 shown in FIG. 2 is an embodiment in which the traffic control application 112 is implemented as a separate apparatus. The traffic control apparatus 200 according to the present embodiment includes a signal generating unit 210, The transmission order determining unit 220, the policy managing unit 230, the traffic requesting unit 240, the traffic transmitting and receiving unit 250, the traffic control unit 260, the terminal network recognition unit 270, and the retry execution unit 280 . The traffic control device 200 of the present embodiment is not necessarily limited to the described components.

The signal generator 210 generates a non-real-time traffic request signal based on an input operation or command of the user. Here, the non-real-time traffic request signal is a kind of traffic request signal. When the user inputs a command for requesting specific contents by operating the terminal 110, the terminal 110 transmits the contents to the contents providing apparatus 140 And transmits the traffic request signal. Here, the traffic request signal includes content distribution information for distributing and transmitting content at a predetermined rate in the content providing apparatus 140, and transmission network information for a plurality of networks for transmitting a traffic response signal including the distributed content And the like.

The transmission order determining unit 220 may determine the order of the generated traffic request signals when the generated traffic request signals are transmitted to the content providing apparatus 140. That is, the transmission order determining unit 220 determines the transmission order of the non-real-time traffic request signal transmitted to the content providing apparatus 140 according to the inputted user's operation, the order of the commands or the priority information based on the content type .

In the meantime, although it is described in FIG. 2 that the traffic request signal is transmitted to the content providing apparatus 140 according to the priority information, the transmission order determining unit 220 may, for example, It may decide to transmit the traffic request signal to the content providing apparatus 140. [

The policy management unit 230 transmits a policy request signal to the policy providing apparatus 130 and receives a policy response signal corresponding to the policy request signal. The policy response signal is a signal including at least one of policy request period information, a threshold value, and priority information according to a network status. At this time, the threshold value is information including respective threshold values for a plurality of parameters related to traffic control. In addition, the threshold value may be adaptive to at least one of the number of terminals assigned to the transmitter in the path network (122, 124, 126, and 128), the traffic transmission state of each terminal, . In addition, the threshold value has a value that limits the number of terminals allocated for each transmitter in the path network (any one of 122, 124, 126, and 128) to within a predetermined range. On the other hand, the priority information has a priority value based on the type of the route network (any one of 122, 124, 126, and 128) or a value set to transmit traffic at a minimum at a minimum.

The traffic requesting unit 240 transmits a non-real-time traffic request signal to the contents providing apparatus 140 based on the transmission order determined by the transmission order determining unit 220. [ Here, the traffic request signal includes content distribution information for distributing and transmitting content at a predetermined rate in the content providing apparatus 140, and transmission network information for a plurality of networks for transmitting a traffic response signal including the distributed content And the like.

The traffic transceiver 250 distributes the non-real-time traffic response signal corresponding to the non-real-time traffic request signal from the content providing device 140 to two or more networks among the route networks 122, 124, 126, and 128 Download. At this time, when downloading the non-real-time traffic response signal from the content providing device 140, the traffic transceiver 250 downloads the non-real-time traffic response signal to the preset storage area according to the data type of the non-real-

The traffic control unit 260 controls downloading of a traffic response signal using two or more of the route networks 122, 124, 126, and 128. [

The traffic control unit 260 according to the present embodiment stops the download of the traffic response signal when there is a network that has been downloaded from among the two or more networks being downloaded from the traffic transmission and reception unit 250, And generates download status information. Here, the download status information means an amount of data of an uncommitted traffic response signal of a network in which downloading is not completed among two or more networks. For example, the traffic control unit 260 may transmit the distributed traffic response signals using the cellular network (any one of the 3G network 122, the 4G network 124, and the Nth network 128) and the wireless LAN network 126 simultaneously When the downloading of the wireless LAN network 126 is completed during the downloading, downloading of all the networks is stopped and downloading of the cellular network (any one of the 3G network 122, the 4G network 124, and the Nth network 128) The amount of data can be confirmed.

The traffic control unit 260 causes the signal generation unit 210 to generate a new traffic request signal based on the download status information and transmits the generated new traffic request signal to the content providing apparatus 140, To download the redistributed traffic response signal to the two or more networks. Here, the new traffic request signal may include content distribution information for redistributing the non-compliant traffic response signal at a predetermined ratio and transmitting the new traffic request signal, and transmission network information for transmitting an uncomplete traffic response signal.

The traffic control unit 260 repeats the operation of distributing the uncompleted data among the traffic response signals due to the completion of the download of one network, and when the download of two or more networks is concurrently completed, the traffic control unit 260 recognizes that the complete downloading of the traffic response signal is completed, . That is, the traffic control unit 260 may repeat the operation of bouncing the incomplete traffic response signal until the two or more networks simultaneously complete the downloading.

On the other hand, the traffic control unit 260 describes that the downloading is terminated only when the download of two or more networks is concurrently completed. However, the present invention is not limited thereto, and the download control unit 260 may download the download status information , It may be possible to complete the downloading using one network without dividing the incomplete data when the incomplete data is equal to or smaller than the predetermined residual data amount.

The terminal network recognition unit 270 recognizes the network status of the path networks 122, 124, 126 and 128 with which the terminal 110 communicates.

The terminal network recognition unit 270 according to the present embodiment recognizes the state of the path network based on the policy response signal and determines the two or more networks capable of transmitting and receiving the traffic response signal based on the state of the path network do.

The terminal network acknowledgment unit 270 compares the network environment state signal received from the path network 122, 124, 126, or 128 with the threshold value included in the policy response signal to determine the network state as a congested state, a normal state And a smooth state. At this time, the terminal network recognition unit 270 compares at least one parameter among the parameters included in the propagation environment signal Rx, Tx, Ec / Io, RSSI, transmission rate, do. In addition, the terminal network recognition unit 270 compares the parameter with the threshold value, and recognizes the network state as a congestion state when the parameter exceeds (or is less than) the network state threshold value. Also, the terminal network recognition unit 270 compares the parameter and the threshold value, and recognizes the network state as smooth when the parameter is less than the threshold value. Also, the terminal network recognition unit 270 compares the parameter with the threshold value, and recognizes the network state as a normal state when the parameter is included in the error tolerance range of the threshold value.

The retransmission performing unit 280 performs an operation to retry the download if the download of the traffic response signal is interrupted by the traffic control unit 360. [ More specifically, the retry execution unit 280 stops downloading the traffic response signal due to one of the two or more networks whose download is completed, and transmits the remaining traffic response signal to the signal generation unit 310 And if the new traffic request signal is generated, retries the download of the traffic response signal.

On the other hand, the retry execution unit 280 describes that the download retry is performed only when the download of the traffic response signal is interrupted. However, the present invention is not limited to this, and the download or upload retry may be performed according to the policy response signal It is possible.

3 is a block diagram schematically showing a policy providing apparatus according to the present embodiment.

The policy providing apparatus 130 according to the present embodiment includes a communication unit 310, a network recognition unit 320, a policy determination unit 330, and a policy transmission unit 340. Although the policy providing apparatus 130 includes only the communication unit 310, the network recognition unit 320, the policy determination unit 330, and the policy transmission unit 340, the present invention is not limited thereto .

The communication unit 310 interlocks with the terminal 110 via the network 120 and receives a policy request signal from the terminal 110. That is, the communication unit 310 receives the policy request signal including the data usage amount information from the terminal 110. Here, the data usage information is information including at least one of the number of data packets and the data packet usage amount information for each number of data packets.

The network awareness unit 320 recognizes the network status of each terminal assigned to the path network 122, 124, 126, and 128. [

Hereinafter, a process of recognizing the network status of the path network 122, 124, 126, and 128 will be described. The network recognition unit 320 recognizes the network state as one of a congestion state, a normal state, and a smooth state based on the propagation environment signals received from the path networks 122, 124, 126, and 128. [ At this time, the network recognition unit 320 compares at least one parameter among the parameters Rx, Tx, Ec / Io, RSSI, transmission rate, and number of allocated terminals included in the propagation environment signal with a preset network state threshold value, I know.

In addition, the network acknowledgment unit 320 compares the parameter with the network state threshold and recognizes the network state as a congestion state when the parameter exceeds (or falls below) the network state threshold. In addition, the network recognition unit 320 compares the parameter with a threshold value of the network state, and recognizes the network state as a smooth state when the parameter is less than the network state threshold value. In addition, the network recognition unit 320 compares the parameter and the network state threshold value, and recognizes the network state as a normal state when the parameter is included in the tolerance range of the network state threshold value.

The policy determination unit 330 performs a function of determining and managing a policy related to data traffic based on the recognized network state through the network recognition unit 320. [ The policy determination unit 330 generates a policy response signal including a policy determined based on the network status. Hereinafter, a process of generating the policy response signal corresponding to the policy request signal received from the terminal 110 will be described. The policy determination unit 330 checks the network status to generate a policy response signal, and generates a policy response signal including at least one of policy request period information, a threshold value, and priority information according to the network status. At this time, the threshold value is information including respective threshold values for a plurality of parameters related to traffic control. That is, the threshold value may be set to be equal to or greater than at least one of the number of terminals assigned to the transmitter 210, 220 in the path network 122, 124, 126 and 128, the traffic transmission state of each terminal, It is a value that is set adaptively according to information. In addition, the threshold value has a value that limits the number of terminals allocated for each transmitter in the path network (any one of 122, 124, 126, and 128) to within a predetermined range. On the other hand, the priority information has a priority value based on the type of the route network (any one of 122, 124, 126, and 128) or a value set to transmit traffic at a minimum at a minimum. The policy transmission unit 340 transmits the policy response signal generated from the policy determination unit 330 to the terminal 110 and transmits the policy response signal including the content distribution information and the transmission network information based on the policy response signal A traffic request signal can be generated.

4 is a flowchart for explaining a traffic control method using a plurality of networks according to the present embodiment.

The terminal 110 generates a traffic request signal and transmits the generated traffic request signal to the content providing apparatus 140 (S410). The terminal 110 receives each traffic response signal distributed based on the traffic request signal from the content providing apparatus 140 using a plurality of networks (S420). For example, the terminal 110 can download the divided data, which is divided into half, from the content providing apparatus 140 by using the 4G network 124 and the wireless LAN network 126, respectively.

The terminal 110 determines whether downloading of one of the plurality of networks is completed (S430).

As a result of checking the step S430, if downloading of one network is completed, the terminal 110 stops downloading the traffic response signal (S440), checks the download status of the traffic response signal, (S442). For example, the terminal 110 may simultaneously download the distributed traffic response signal using the cellular network (3G network 122, 4G network 124, N network 128) and the wireless LAN network 126 The downloading of all the networks is stopped and the download incomplete data of any of the cellular networks (3G network 122, 4G network 124, Nth network 128) Can be confirmed.

The terminal 110 transmits a new traffic request signal to the content providing apparatus 140 based on the download status information (S450). Here, the new traffic request signal may include content distribution information for redistributing the non-compliant traffic response signal at a predetermined ratio and transmitting the new traffic request signal, and transmission network information for transmitting an uncomplete traffic response signal.

The terminal 110 receives the redistributed traffic response signal based on the new traffic request signal from the content providing apparatus 140 using a plurality of networks (S460).

The terminal 110 determines whether the download operation of the plurality of networks is concurrently completed (S470). When the download operation of the plurality of networks is concurrently completed, the terminal 110 recognizes that the reception of the traffic response signal is completed.

On the other hand, if it is determined in step S470 that the download operation of a plurality of networks is not completed simultaneously, the terminal 110 repeats the operations of steps S440 to S470.

5 is an exemplary diagram for explaining operations of a traffic control system using a plurality of networks according to the present embodiment.

5, the terminal 110 is connected to the cellular network (the 3G network 122, the 4G network 124, the Nth network 128) based on the policy response signal acquired from the policy providing apparatus 130 And generates a traffic request signal including content distribution information on the transmission network information for the cellular network and the wireless LAN network and content distribution information on the predetermined division ratio, To the content providing apparatus 140 for downloading.

The content providing apparatus 140 divides the data file 500 based on the traffic request signal received from the terminal 110 and transmits the divided first data 510, the second data 520, and the third data 530 To the terminal 110 using the cellular network (3G network 122, 4G network 124, or Nth network 128). The content providing apparatus 140 transmits the divided fourth data 540, the fifth data 550 and the sixth data 560 based on the traffic request signal to the terminal 110 ).

The terminal 110 transmits the first data 510, the second data 520, and the third data using the cellular network (3G network 122, 4G network 124, or Nth network 128) 530) is completed, the download of the data file 500 is stopped and the download status is confirmed. For example, when the download using the cellular network (3G network 122, 4G network 124, N network 128) is completed, the terminal 110 stops downloading the data file 500, As a result, it can be confirmed that the fifth data 550 and the sixth data 560 remain in the wireless LAN network 126. The terminal 110 transmits a new traffic request signal for distributing and downloading the fifth data 550 and the sixth data 560 to the content providing apparatus 140.

The content providing apparatus 140 transmits the fifth data 550 to the terminal 100 using the cellular network (any one of the 3G network 122, the 4G network 124 and the Nth network 128) And transmits the sixth data 560 using the wireless LAN network 126. [ That is, the terminal 110 adds the residual data to the network in which data transmission is completed among the cellular network (3G network 122, 4G network 124, Nth network 128) and the wireless LAN network 126 So that the downloading time can be shortened.

6 is an exemplary diagram for explaining an operation of controlling traffic using a plurality of networks according to the present embodiment.

6, the terminal 110 downloads the first data 610 using a first network (hereinafter, 4G network 124) and a second network (hereinafter, a wireless LAN network 126) do. Hereinafter, an operation for shortening the time for the terminal 110 to download the entire data 610 from the content providing apparatus 140 will be described.

The terminal 110 downloads the first divided data (50 MB, 612) obtained by dividing the first data (100 MB, 610) into 1/2 by using the 4G network 124 from the content providing apparatus 140 (50 MB, 614) can be downloaded by using the wireless LAN network 126. [0154] FIG.

The terminal 110 stops downloading the 4G network 124 and downloads the 4G network 124 when the download of the first and second divided data 50 MB and 614 is completed using the wireless LAN network 126. [ Check the status. That is, the terminal 110 can check the download status of the 4G network 124 and confirm the second data (30 MB, 620) as the residual data.

The terminal 110 downloads the 2-1 split data (15 MB, 622) obtained by re-dividing the second data (30 MB, 620) by 1/2 from the content providing apparatus 140 using the 4G network 124 , And the remaining second 2-divided data (15 MB, 624) can be downloaded using the wireless LAN network 126. [

The terminal 110 stops downloading the 4G network 124 and downloads the 4G network 124 when the download of the second 2-split data 15 MB, 624 is completed using the wireless LAN network 126. [ The third data (10 MB, 630), which is the residual data, can be confirmed.

The terminal 110 downloads the 3-1 split data (5 MB, 632) obtained by re-dividing the third data (10 MB, 630) by 1/2 from the content providing apparatus 140 by using the 4G network 124 And the remaining third 3-2 partition data (5 MB, 634) can be downloaded using the wireless LAN network 126. [

The terminal 110 recognizes that the entire download of the first data 100 MB and 610 is completed when the download of the 4G network 124 and the wireless LAN network 126 is completed at the same time and ends the download operation.

Meanwhile, although the terminal 110 describes that the download operation is terminated only when the download of the 4G network 124 and the wireless LAN network 126 is concurrently completed, the terminal 110 is not necessarily limited to this, When the remaining data determined based on the download status after the stop is less than or equal to the preset data amount, the downloading may be completed using one network without dividing the residual data.

7 is an exemplary diagram illustrating non-real-time traffic according to the present embodiment.

The non-real-time traffic according to the present embodiment refers to a technique capable of temporarily delaying transmission of data according to the congestion state of the network 120 in order to make full use of the spare capacity due to the instantaneous load variation of the network 120. [ For this, referring to FIG. 7, as shown in FIG. 7 (a), the capacity of the network 120 is secured through facility investment and introduction of various solutions in order to cope with the explosive data traffic, The time required for the most frequent calls during the day), the investment burden for securing the capacity and the utilization efficiency of the network 120 are lowered. Accordingly, a data transfer service utilizing the surplus capacity of the network 120 shown in FIG. 7A is provided, so that connection and operation schemes of the terminals are performed according to the instantaneous load variation of the network 120, So as to maintain the load variation of the network 120 as shown in FIG. 7 (b). That is, the terminal 110 recognizes the congestion state of the network 120 in connection with the policy providing apparatus 130, and can provide data download or upload at the most optimized time.

The foregoing description is merely illustrative of the technical idea of the present embodiment, and various modifications and changes may be made to those skilled in the art without departing from the essential characteristics of the embodiments. Therefore, the present embodiments are to be construed as illustrative rather than restrictive, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

As described above, the present embodiment is applied to a traffic control field using a plurality of networks, thereby reducing the number of idle networks that do not use resources, increasing the efficiency of data transmission, Which is an advantageous invention that produces an effect of shortening the completion time of the process.

110: terminal 112: traffic control application
120: Network 122: 3G network
124: 4G network 126: wireless LAN network
128: Nth network 130: Policy providing apparatus
140: Contents providing apparatus 200: Traffic control apparatus
210: Signal Generation Unit 220: Transmission Order Determination Unit
230: Policy management unit 240: Traffic request unit
250 traffic transmitting / receiving unit 260 traffic control unit
270: Terminal network recognition unit 280: Retry execution unit

Claims (10)

In performing the download using the route network,
A signal generator for generating a traffic request signal;
A traffic transmission / reception unit for downloading a traffic response signal corresponding to the traffic request signal from the content providing apparatus via two or more networks of the path networks; And
And a traffic control section for controlling the traffic response signal to be simultaneously downloaded through the two or more networks at a predetermined ratio based on a download state of the traffic response signal,
And a second terminal. The method according to claim 1,
The traffic control unit includes:
Wherein the downloading of the traffic response signal is stopped and the download uncompleted data among the traffic response signals is redistributed and downloaded when there is a network in which downloading is completed among the two or more networks based on the download status terminal. 3. The method of claim 2,
The traffic control unit includes:
And recognizes, as the download incomplete data, the remaining data amount excluding the download data amount of the network from which the download has been completed among the entire data amount of the traffic response signal. The method of claim 3,
The traffic control unit includes:
And controls to download the uncompleted data at the same time through each of two or more networks based on the preset predetermined ratio. 3. The method of claim 2,
The traffic control unit includes:
And controls to redistribute the download incomplete data until the download of the two or more networks is concurrently completed and the download incomplete data does not exist. 3. The method of claim 2,
The traffic control unit includes:
Wherein the terminal waits for the download to be completed using the two or more networks without redistribution if the amount of data for the download incomplete data is less than or equal to a predetermined threshold amount of data. The method according to claim 1,
The traffic control unit includes:
Periodically measures the throughput of each network included in the path network and adjusts the predetermined ratio to distribute the two or more networks based on the respective measured throughputs. . A method for a terminal to control downloading of traffic,
A signal generating step of generating a traffic request signal;
A traffic transmission / reception process of downloading a traffic response signal corresponding to the traffic request signal from a content providing apparatus via two or more networks of the path networks; And
And a traffic control step of controlling the traffic response signal to be simultaneously downloaded through the two or more networks at a predetermined ratio based on a download state of the traffic response signal
And transmitting the traffic control message to the base station. 9. The method of claim 8,
The traffic control process includes:
If there is a downloaded network among the two or more networks based on the download status, downloading of the traffic response signal is stopped, and the download incomplete data of the traffic response signal is redistributed according to the preset predetermined ratio And downloading the traffic information. 10. The method of claim 9,
The traffic control process includes:
And to redistribute the download incomplete data to the two or more networks until the download incomplete data does not exist.

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