KR101092478B1 - Method and System for transferring packets on heterogeneous links - Google Patents

Abstract

The present invention relates to a method and a system for transmitting a packet on a heterogeneous link. More particularly, the present invention relates to a method and a system for transmitting a packet on a heterogeneous link capable of maximizing the bandwidth of each of a plurality of wireless communication networks. In the packet transmission method according to the present invention, the packet order information and the link order information are allocated to the sequentially input data packets according to a preset method, and the data packet to which the packet order information and the link order information are allocated are n pieces. And transmitting to a packet receiving device through a corresponding wireless communication network among the wireless communication networks, wherein the packet receiving device detects the presence of the lost data packet using the link order information. According to the present invention, data can be transmitted from a content providing server to a user terminal more efficiently by maximizing bandwidth of each of a plurality of connected wireless communication networks.

Heterogeneous link, bandwidth, 4G mobile network, packet

Description

Method and System for Transferring Packets on Heterogeneous Links

The present invention relates to a method and a system for transmitting a packet on a heterogeneous link. More particularly, the present invention relates to a method and a system for transmitting a packet on a heterogeneous link capable of maximizing the bandwidth of each of a plurality of wireless communication networks.

The mobile communication service has evolved from a service for exchanging voice between a terminal and a terminal to a packet service for exchanging not only voice but also data such as video and images. As the packet service is commercialized, a user using a mobile communication service can make a video call with the other party using a mobile communication terminal, and can download and enjoy a video in real time while moving.

Furthermore, the 4th generation mobile communication service has been introduced to enable all wireless communication networks such as satellite communication network, internet network and mobile communication network through one mobile communication terminal. You can use all services such as multimedia, internet, voicemail, instant messaging (e.g., message function). That is, the fourth generation mobile communication terminal can receive and utilize all data through each of a plurality of mobile communication networks such as the Internet network, satellite communication network, and mobile communication network.

However, in the mobile communication network, the data transmission environment (bandwidth, data loss rate, data transmission delay rate, data transmission time, etc.) varies greatly according to the location of the mobile terminal moving at a high speed. You need to take advantage of it. That is, since each of the plurality of wireless communication networks uses different bandwidths, when arbitrary data is transmitted to the user's mobile terminal, only one wireless communication network is used instead of a plurality of wireless communication networks. This is because data can be transmitted more efficiently.

An object of the present invention is to provide a method and system for transmitting a packet on a heterogeneous link that can efficiently transmit data to a mobile communication terminal by utilizing bandwidth of each of a plurality of connected wireless communication networks.

Another object of the present invention is to provide a method and a system for transmitting a packet on a heterogeneous link, which can more quickly detect a lost packet among packets transmitted to a mobile communication terminal through a plurality of wireless communication networks.

Another object of the present invention is to provide a method and system for transmitting a packet on a heterogeneous link capable of transmitting data to a mobile communication terminal mainly using a wireless communication network having excellent data transmission efficiency among a plurality of connected wireless communication networks.

According to an aspect of the present invention, in a method for transmitting a data packet from a traffic distribution device to a packet receiver connected through n wireless communication networks, the packet order information and the link order according to a method previously set to the sequentially input data packets Allocating information; And transmitting each of the data packets to which the packet order information and the link order information are allocated to the packet receiving apparatus through a corresponding wireless communication network among the n wireless communication networks, wherein n is a natural number. The packet receiving apparatus is provided with a packet transmission method for detecting the presence of a lost data packet using the link order information.

here. The link order information is information on a sequence of the plurality of data packets transmitted through an mth wireless communication network among the n wireless communication networks, and m may be a natural number less than or equal to n.

The packet receiving apparatus may detect that the lost data packet exists when the continuity of the link order information of the data packets received through the m-th wireless communication network is broken.

The packet transmission method may further include receiving lost packet information; And transmitting a data packet corresponding to the lost packet information to the packet receiving apparatus through a corresponding wireless communication network among the n wireless communication networks, wherein the packet receiving apparatus loses data when the loss of the data packet is detected. The lost packet information corresponding to the packet order information allocated to the detected data packet may be generated and transmitted to the traffic distribution apparatus.

The receiving of the lost packet information may include receiving n pieces of lost packet information one by one through the n wireless communication networks, and transmitting a data packet corresponding to the lost packet information. Transmitting a data packet corresponding to the lost packet information to the packet receiving apparatus by using the lost packet information first arrived among the n lost packet information; And deleting the remaining n-1 lost packet information received thereafter, wherein the packet receiving apparatus can transmit the lost packet information to the traffic distribution apparatus one by one through the n wireless communication networks. have.

The transmitting of a data packet corresponding to the lost packet information may include: receiving a packet of a data packet corresponding to the lost packet information through a wireless communication network in which the first lost packet information of the n wireless communication networks is transmitted. The method may further include transmitting to the device.

The transmitting of the data packet corresponding to the lost packet information may include: when the lost packet information includes communication network blocking information, at least one wireless communication network other than the p wireless communication network corresponding to the communication network blocking information. And transmitting a data packet corresponding to the lost packet information through p, wherein p is a natural number less than or equal to n, and the packet receiving device transmits a packet to the pth wireless communication network in which packet reception sensitivity information is greater than or equal to a preset threshold. The loss packet information including corresponding network blocking information may be generated.

In addition, the threshold value is information on the number of data packets lost, and the packet receiving apparatus may detect, as the p-th wireless communication network, a wireless communication network in which more than a predetermined number of losses of the data packets are detected.

The packet transmission method may further include retransmitting a data packet which is determined not to be received according to the received reception state information to the packet receiving device, wherein the packet reception device arrives at a predetermined reception state information transmission time. Then, the reception status information corresponding to the data packets received by the reception status information transmission time may be generated and transmitted to the traffic distribution apparatus.

The packet transmission method may further include deleting a data packet determined to be normally received according to the reception state information from a storage space provided.

The reception state information transmission time may arrive when a predetermined time elapses after the loss packet information or the reception state information is transmitted.

The packet transmission method may further include deleting the data packet stored in the storage space provided when the reception completion information is received. The packet reception device may receive the reception completion information when the transmission of the data packet is normally completed. May be transmitted to the traffic distribution device.

According to another aspect of the present invention, the packet order information and the link order information is assigned to sequentially input data packets, respectively, of the n wireless communication networks connected to each of the data packets to which the packet order information and the link order information are allocated. A traffic distribution device transmitting through a corresponding wireless communication network; And a packet receiver configured to detect that a lost data packet exists when the continuity of the link order information of the data packets received through the m-th wireless communication network is lost, wherein the traffic distribution apparatus and the packet receiver apparatus are n. Are connected through a plurality of wireless communication networks, and the link order information is information on a sequence of the plurality of data packets transmitted through an m-th wireless communication network among the n wireless communication networks, n is a natural number, and m is the A packet transmission system is provided that is a natural number of n or less.

Here, when the packet receiving apparatus detects a loss of the data packet, the packet receiving apparatus generates the lost packet information including the packet order information allocated to the detected data packet and transmits the lost packet information to the traffic distribution apparatus. The data packet corresponding to the received lost packet information may be transmitted to the packet receiving apparatus through a corresponding wireless communication network among the n wireless communication networks.

According to the present invention, data can be transmitted from a content providing server to a user terminal more efficiently by maximizing bandwidth of each of a plurality of connected wireless communication networks.

In addition, according to the present invention, it is possible to more quickly detect a lost packet among packets transmitted to the mobile communication terminal through a plurality of connected wireless communication networks.

In addition, according to the present invention, data can be transmitted to a mobile communication terminal using a wireless communication network having excellent data transmission efficiency among a plurality of connected wireless communication networks.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention. In the following description of the present invention, if it is determined that the detailed description of the related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof. Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a packet transmission system on a heterogeneous link according to an embodiment of the present invention.

Referring to FIG. 1, a packet transmission system 100 on a heterogeneous link according to an embodiment of the present invention is connected to a traffic distribution apparatus 110, a packet receiving apparatus 130, and a packet receiving apparatus 130 by wire or wirelessly. One or more user terminals 140-1, 140-2, ... (collectively 140-a). In addition, the traffic distribution apparatus 110 and the packet receiving apparatus 130 are respectively provided through n different wireless communication networks 120-1, 120-2, ..., 120-n (where n is a natural number of two or more). It is connected. For example, the first wireless communication network 120-1 may be a wireless Internet network, the second wireless communication network 120-2 may be a WCDMA network, and the n-th wireless communication network 120-n may be a satellite communication network.

In addition, although FIG. 1 illustrates that the user terminal 140-a and the packet receiving apparatus 130 are separated from each other, this is only an example and the packet receiving apparatus 130 is the user terminal 140-a. ) May be included. In addition, the traffic distribution device 110 may be wired or wirelessly connected to a server (eg, CP, Contents Provider) (not shown) in which content to be transmitted to the user terminal 140-a is stored. It may be designed to be included in a server. Hereinafter, the operation of each component of the packet transmission system 100 will be described.

When the data packet to be transmitted to the user terminal 140-a is input from the content storage server, the traffic distribution apparatus 110 transmits it to the packet receiving apparatus 130 through the n wireless communication networks 120-n connected thereto. That is, when a data packet to be transmitted to the traffic distribution apparatus 110 is input to the user terminal 140-a, the traffic distribution apparatus 110 transmits the data packet to the packet receiving apparatus 130 through the n wireless communication networks 120-n. can be sent to a).

In this case, the traffic distribution apparatus 110 allocates packet order information to each of the input data packets. In addition, when there are a plurality of wireless communication networks through which data packets are transmitted, the traffic distribution apparatus 110 allocates wireless network information and / or link order information to each of the input data packets according to a preset method. Hereinafter, an operation of allocating packet order information, wireless network information, and / or link order information to the input data packet by the traffic distribution apparatus 110 will be described with reference to FIGS. 2A and 2B.

2A is a diagram for transmission data according to an embodiment of the present invention, and FIG. 2B is a diagram for a data packet to which packet order information, link order information, and wireless network information are allocated according to an embodiment of the present invention.

Referring to FIG. 2A, transmission data 210 to be transmitted to the user terminal 140-a is illustrated. Here, the transmission data 210 is data consisting of b packets (where b is a natural number). The transmission data 210 may be divided into b packets from a content providing server (not shown) and input to the traffic distribution apparatus 110, or may be input to the traffic distribution apparatus 110 without being divided into packets. The traffic distribution apparatus 110 may divide the transmission data 210 into packet units if the transmission data 210 is input without being divided into packet units.

Referring to FIG. 2B, a data packet to which packet order information 220-3, link order information 220-2, and wireless network information 220-1 are allocated is illustrated. That is, the traffic distribution apparatus 110 allocates the packet order information 220-3 corresponding to 1 to the first packet 210-1 positioned first in the order of the packets constituting the transmission data 210. do. In addition, the traffic distribution apparatus 110 allocates the packet order information 220-3 corresponding to the 2 to the second packet 210-2 located after the first packet 210-1. In this way, the traffic distribution apparatus 110 may allocate the packet order information 220-3 to each of the b packets (that is, the b packet may be assigned the packet order information 220-3 corresponding to b). Can be assigned).

In addition, the traffic distribution apparatus 110 may allocate radio network information to the data packet. Here, the wireless network information may be information on a wireless communication network to which the data packet of the n wireless communication networks 120-n is to be transmitted to the packet receiving apparatus 130. That is, when the first data packet 220 is transmitted to the packet receiving apparatus 130 through the first wireless communication network 120-1, the traffic distribution apparatus 110 corresponds to 1 in the first data packet 220. Wireless network information can be allocated. Likewise, the traffic distribution apparatus 110 may allocate wireless network information corresponding to 2 to the second data packet 230 to be transmitted to the second wireless communication network 120-2. Thus, that is, each of the b data packets will be transmitted to the packet receiving apparatus 130 through the allocated wireless communication network among the n wireless communication networks 120-n.

The traffic distribution apparatus 110 also assigns link order information to the data packet. Here, the link order information may be information about a transmission order of a plurality of data packets transmitted through one of the n wireless communication networks 120-n. For example, referring to FIG. 2B, a data packet to be transmitted through the first wireless communication network 120-1 may include a first data packet 220, a fourth data packet 250, and a seventh data packet (not shown). Etc. In this case, the link order information is the first data packet 220 corresponds to 1, the fourth data packet 250 corresponds to 2, and the seventh data packet (not shown) corresponds to 3, so that the traffic distribution apparatus 110 includes the first wireless communication network. After transmitting the first data packet 220 through 120-1, the fourth data packet 250, the seventh data packet, and the like may be sequentially transmitted to the packet receiver 130.

In this case, the traffic distribution apparatus 110 may allocate radio network information and / or link order information to each data packet by a preset method.

For example, suppose that the traffic distribution apparatus 110 and the packet receiving apparatus 130 are connected through three wireless communication networks. In this case, the traffic distribution apparatus 110 may allocate radio network information to each data packet in correspondence with the allocated packet order information. That is, wireless network information corresponding to 1 in the first data packet 220, 2 in the second data packet 230, 3 in the third data packet 240 is allocated, and 1 in the fourth data packet 250. In addition, wireless network information corresponding to 2 in the fifth data packet (not shown) and 3 in the sixth data packet (not shown) may be allocated. This means that if any data is first transmitted from the traffic distribution unit 110 to the packet receiving unit 130, the traffic distribution unit 110 is the data transmission environment (bandwidth, data loss rate, data transmission of the packet receiving unit 130) Delay rate, data transmission time, etc.). That is, among the three wireless communication networks connected to the traffic distribution apparatus 110 and the packet receiving apparatus 130, it is not possible to know which data transmission efficiency of the wireless communication network is good or which data communication efficiency of the wireless communication network is bad. The radio network information is allocated to each data packet corresponding to the packet order information.

In addition, the traffic distribution apparatus 110 may allocate radio network information to each data packet in correspondence with the allocated packet order information. That is, the traffic distribution apparatus 110 has less packet order information among data packets to be transmitted to the packet receiving apparatus 130 through the m-th wireless communication network 120-m (where m is a natural number of n or less). Link order information can be allocated in order.

Referring back to FIG. 1, the traffic distribution apparatus 110 transmits each data packet to the packet receiving apparatus 130 corresponding to the allocated packet order information, wireless network information, and / or link order information. That is, the traffic distribution apparatus 110 transmits data packets to which the wireless network information corresponding to 1 is allocated to the packet receiving apparatus 130 through the first wireless communication network 120-1, but with less link order information. Can be transmitted sequentially.

The packet receiving apparatus 130 combines the data packets received from the traffic distribution apparatus 110 through the n wireless communication networks 120-n according to the packet order information allocated to each, and then is connected to the user terminal 140-a. To send.

In this case, the packet receiving apparatus 130 may quickly determine the presence or absence of the data packet lost in the wireless communication network 120-n using the link order information allocated to the data packets. That is, the packet receiving apparatus 130 may detect that the lost data packet exists when the continuity of the link order information of the data packets received through the arbitrary m-th wireless communication network 120-m among the n wireless communication networks is lost. Can be.

For example, when the packet receiving apparatus 130 receives a data packet corresponding to link order information 5 through the m-th wireless communication network 120-m, and receives a data packet corresponding to link link information 7 Among the data packets transmitted through the m-th wireless communication network 120-m, it is possible to quickly determine that a data packet whose link order information corresponds to 6 is lost in the m-th wireless communication network 120-m. This is because data packets received through the m-th wireless communication network 120-m will be received by the packet receiving apparatus 130 in the order of transmission.

In this case, when the lost data packet is detected, the packet receiver 130 generates lost packet information corresponding to the packet order information allocated to the lost data packet according to a preset method, and transmits the lost packet information to the traffic distribution apparatus 110. Here, the lost packet information is information for recognizing that there is a lost packet among the data packets transmitted to the traffic distribution apparatus 110, and packet order information 220-3 and link order information (assigned to the lost data packet). 220-2) and / or wireless network information 220-1.

When the packet receiving apparatus 130 detects the p-th wireless communication network 120-p whose packet reception sensitivity information is greater than or equal to a preset threshold, the packet receiving apparatus 130 transmits communication packet blocking information corresponding to the p-th wireless communication network 120-p to the lost packet information. It can be included (where p is a natural number of n or less). Here, the packet reception sensitivity information may be information on data transmission / reception sensitivity of each of the n wireless communication networks 120-n, and the preset threshold may be information on the number of lost data packets. That is, the packet receiving apparatus 130 provides the radio network blocking information for the p-th wireless communication network 120-p in order to stop the data transmission to the p-th wireless communication network 120-p in which the data packet above the threshold value is lost. It may be included in the lost packet information and transmitted to the traffic distribution apparatus 110. Hereinafter, the lost packet information will be described with reference to FIG. 3A.

3A is a diagram for lost packet information according to an embodiment of the present invention.

Referring to FIG. 3A, lost packet information 310 according to an embodiment of the present invention is illustrated. Here, the lost packet information 310 is the wireless network information 320 assigned to the lost data packet, the link order information 330, the packet order information 340, and finally the packet order information assigned to the received data packet ( 350), the blocking wireless network information 360 for the p-th wireless communication network 120-p, and the blocking information 370 for whether the p-th wireless communication network 120-p is blocked.

That is, when the lost packet information illustrated in FIG. 3A is received, the traffic distribution apparatus 110 may detect that the data packet whose packet order information is second transmitted through the second wireless communication network 120-2 is 5 is lost. have. In addition, it is possible to recognize that the packet order information is normally transmitted to the packet receiving apparatus 130 until the data packet having the packet order information of 8 except for the data packet having the packet order information of 5. In addition, the traffic distribution apparatus 110 may recognize that the second wireless communication network 120-2 is the target of blocking or unblocking because the blocking wireless network information 360 corresponds to 2. The blocking information 370 Corresponds to 0, the packet data may no longer be transmitted to the second wireless communication network 120-2.

On the other hand, when the traffic distribution apparatus 110 receives the lost packet information corresponding to the blocking wireless network information 360 corresponds to 2 and the blocking status information 370 corresponds to 1, the second wireless communication data block is blocked. Packet data may also be transmitted to the communication network 120-2. That is, the packet receiving apparatus 130 may monitor the data transmission sensitivity of the second wireless communication network 120-2 by using transmission power (Tx Power), etc., which is exchanged with the repeater of the second wireless communication network 120-2. As a result, when the data packet can be transmitted through the second wireless communication network 120-2, the lossy packet information corresponding to the blocked wireless network information 360 corresponds to 2 and the blocking status information 370 corresponds to 1. May be transmitted to the traffic distribution apparatus 110. Therefore, after receiving the lost packet information, the traffic distribution apparatus 110 may also transmit the data packet through the second wireless communication network 120-2 where data transmission is blocked.

Meanwhile, the packet receiver 130 may transmit the generated lost packet information to the traffic distribution apparatus 110 one by one through the n wireless communication networks 120-n. That is, the packet receiving apparatus 130 may transmit one lost packet information to the traffic distribution apparatus 110 for each of the n wireless communication networks 120-n, and the traffic distribution apparatus 110 may transmit n lost packets. Information can be received. In this case, the n lost packet information may include the same information except for the wireless network information. That is, in this case, the lost packet information may further include information (not shown) on the wireless communication network through which the lost packet information is transmitted. Accordingly, the traffic distribution apparatus 110 may determine through which wireless communication network each of the n lost packet information is received.

Referring back to FIG. 1, the traffic distribution apparatus 110 transmits a data packet corresponding to the received lost packet information to the packet receiving apparatus 130 through a wireless communication network connected among the n wireless communication networks 120-n. That is, when the loss packet information illustrated in FIG. 3A is received, the traffic distribution apparatus 110 may transmit a data packet having packet order information of 5 to the packet receiving apparatus 130 through a connected wireless communication network.

In addition, the traffic distribution apparatus 110 uses only the first lost packet information when the packet receiver 130 transmits n lost packet information through each of the n wireless communication networks 120-n, The remaining n-1 lost packet information is deleted without being stored in the provided storage space.

In addition, the traffic distribution apparatus 110 may transmit the packet data corresponding to the lost packet information to the packet receiving apparatus 130 through a preset wireless communication network. For example, when the packet receiver 130 transmits n lost packet information through each of the n wireless communication networks 120-n, the traffic distribution apparatus 110 firstly receives the lost packet information. Corresponding packet data may be transmitted to the packet receiving apparatus 130 through the packet receiving apparatus 130. This is because the data transmission efficiency of the wireless communication network in which the lost packet information is first received will be better than that of other wireless communication networks.

For another example, if the loss packet information includes communication network blocking information, the traffic distribution apparatus 110 may correspond to at least one of the remaining wireless communication networks except for the p-th wireless communication network 120-p corresponding to the communication network blocking information. The data packet may be transmitted to the packet receiver 130. That is, in FIG. 3A, the traffic distribution apparatus 110 may transmit the fifth data packet to the packet receiving apparatus 130 through at least one of the remaining wireless communication networks except for the second wireless communication network 120-2.

Meanwhile, when the preset reception state information transmission time arrives, the packet reception device 130 may generate reception state information on data packets received until the reception state information transmission time, and transmit the received reception state information to the traffic distribution apparatus 110. . Hereinafter, an operation of generating the reception state information by the packet receiving apparatus 130 will be described in detail with reference to FIG. 3B.

3B is a diagram for reception state information according to an embodiment of the present invention.

Referring to FIG. 3B, the reception state information 380 includes information 380-1 on the wireless communication network to which the reception state information 380 is to be transmitted, information 380-2 on the lost data packet, and finally received information. Information about the data packet (380-3), the blocking wireless network information (380-4) and whether blocking information (380-5) is included. That is, the packet receiving apparatus 130, when the preset reception state information transmission time arrives, the information 380-1 about the wireless communication network to which the reception state information 380 is to be transmitted, and the information about the lost data packet 380-2. ), The reception status information by generating the reception status information 380 including the information 380-3, the blocking wireless network information 380-4, and the blocking information 380-5 about the last received data packet. 380 transmits to the traffic distribution apparatus 110 through the wireless communication network corresponding to the information (380-1) for the wireless communication network to be transmitted.

According to the reception status information 380 illustrated in FIG. 3B, up to the reception status information transmission time, up to a data packet having packet order information of 12 was transmitted, among which data packets having packet order information of 5 and 6 were lost, and the reception was performed. The status information 380 may be transmitted through the second wireless communication network 120-2. In addition, it can be seen that the transmission block of the second wireless communication network 120-2 from which the transmission of the data packet is blocked is released. As described above, since the blocked wireless network information 380-4 corresponds to 2 and the blocked information 380-5 corresponds to 1. Since the packet receiving apparatus 130 monitors the data transmission / reception sensitivity of the second wireless communication network 120-2 as described above, a detailed description thereof may be omitted.

Meanwhile, the reception state information transmission time may arrive when a predetermined time elapses after the loss packet information or the reception state information is transmitted. For example, 5 minutes after the packet receiving apparatus 130 transmits the lost packet information, the reception state information transmission time may be preset. For another example, 5 minutes after the packet reception apparatus 130 transmits the reception status information, the reception status information transmission time may be preset.

Referring back to FIG. 1, the traffic distribution apparatus 110 may transmit a data packet determined not to be received according to the received reception state information to the packet receiver 130. In the case of the reception state information of FIG. 3B, the traffic distribution apparatus 110 may transmit data packets having packet order information of 5 and 6 to the packet reception apparatus 130. In this case, the packet receiving apparatus 130 may transmit the generated reception state information to the traffic distribution apparatus 110 one by one through the n wireless communication networks 120-n, and thus the traffic distribution apparatus 110 The data packet determined to have not been received through the wireless communication network first received may be transmitted to the packet receiver 130.

In addition, the traffic distribution apparatus 110 may delete the data packet determined to be normally received according to the reception state information from the storage space provided. This is because they were transmitted normally. In the case of the reception state information of FIG. 3B, the traffic distribution apparatus 110 may delete all data packets having up to 12 data packets having packet order information except for data packets having packet order information 5 and 6.

In addition, the packet receiving apparatus 130 transmits reception completion information (for example, an ACK signal) to the traffic distribution apparatus when all data packets are normally transmitted, and the traffic distribution apparatus 110 has received the reception completion information. Delete all data packets stored in the provided storage space.

As described above, according to the packet transmission system 100 according to the present invention, by using all of the n different wireless communication networks 120-n connecting the traffic distribution apparatus 110 and the packet reception apparatus 130 to each other. Since data packets are transmitted, it is obvious that the bandwidth of each of the n wireless communication networks 120-n can be maximized. In addition, since the data packet is transmitted with the link order information included, the packet receiving apparatus 130 can quickly detect whether the packet data is lost. In addition, the packet receiving apparatus 130 may immediately inform the traffic distribution apparatus 110 of whether the data packet is lost and the data transmission / reception sensitivity, and also transmits lost packet information and / or reception status information to all wireless communication networks 120-n. The traffic distribution apparatus 110 may transmit the data packet to the packet receiver 130 using a wireless communication network having excellent data transmission efficiency among n wireless communication networks.

4 is a flowchart illustrating a packet transmission method on a heterogeneous link according to an embodiment of the present invention.

Hereinafter, a method of transmitting a packet on a heterogeneous link according to an embodiment of the present invention will be described with reference to FIG. 4. Each of the steps to be described below are steps performed by the traffic distribution apparatus 110 and the packet receiving apparatus 130 described with reference to FIGS. 1 to 3b. In addition, the terms to be described below are the same as or similar to the terms described with reference to FIGS. 1 to 3B and thus may not be separately defined.

In step S405, when the data packet to be transmitted to the user terminal 140-a is input from the content storage server, the traffic distribution apparatus 110 allocates packet order information to each of the input data packets (step S410). For example, the traffic distribution apparatus 110 allocates packet order information corresponding to 1 to the first packet located first in accordance with the order of the packets constituting the data to be transmitted, and places the first packet located after the first packet. Packet order information 220-3 corresponding to two is allocated to two packets. In this way, the traffic distribution apparatus 110 may allocate packet order information to each packet constituting the data to be transmitted.

In step S415, if there are a plurality of wireless communication networks through which data packets are transmitted, the traffic distribution apparatus 110 allocates wireless network information and / or link order information to each of the input data packets according to a preset method (step S420). ).

For example, when the first data packet is transmitted to the packet receiving device 130 through the first wireless communication network 120-1, the traffic distribution apparatus 110 corresponds to a wireless network corresponding to 1 in the first data packet. You can assign information. Similarly, the traffic distribution apparatus 110 may allocate wireless network information corresponding to 2 to the second data packet to be transmitted to the second wireless communication network 120-2. In addition, the traffic distribution device 110 is 1 in the first data packet, 2 in the fourth data packet, 3 in the 7th data packet to be transmitted to the packet receiving device 130 through the second wireless communication network 120-2. Corresponding link order information can be assigned. The link order information is the information on the order in which data packets transmitted through any wireless communication network are transmitted.

In step S425, the traffic distribution device 110 transmits the data packet to the packet receiving device 130 through the corresponding wireless communication network. That is, the traffic distribution apparatus 110 transmits each data packet to the packet receiving apparatus 130 through the wireless communication network corresponding to the allocated wireless network information, so that the allocated link order information is sequentially transmitted from the data packet with less link order information. Can be.

In step S430, the packet receiving apparatus 130 quickly determines the presence or absence of data packets lost in the wireless communication network 120-n based on the link order information allocated to the received data packets. That is, the packet receiving apparatus 130 may detect that the lost data packet exists when the continuity of the link order information of the data packets received through the arbitrary m-th wireless communication network 120-m among the n wireless communication networks is lost. Can be.

In step S435, if there is a lost data packet, the packet receiving apparatus 130 generates lost packet information corresponding to the packet order information allocated to the lost data packet according to a preset method, and transmits it to the traffic distribution apparatus 110. Transmit (step S440). Here, the lost packet information is information for recognizing that there is a lost packet among the data packets transmitted to the traffic distribution apparatus 110, and packet order information 220-3 and link order information (assigned to the lost data packet). 220-2) and / or wireless network information 220-1. In addition, when the packet receiving apparatus 130 detects the p-th wireless communication network 120-p whose packet reception sensitivity information is greater than or equal to a preset threshold, the packet receiving apparatus 130 blocks the communication network corresponding to the p-th wireless communication network 120-p in the lost packet information. Since the information may be included as described above, a detailed description thereof may be omitted.

In step S445, the traffic distribution apparatus 110 blocks the wireless communication network corresponding to the communication network blocking information, if the received packet loss information includes communication network blocking information (step S450), and drops the data packet corresponding to the lost packet information. It transmits to the packet receiving apparatus 130 through the corresponding wireless communication network (step S455).

In this case, n pieces of lost packet information may be received one by one through n wireless communication networks 120-n, and in this case, the traffic distribution apparatus 110 may receive the first lost packet information among the n lost packet information. As described above, the data packet corresponding to the lost packet information may be transmitted to the packet receiving apparatus 130 by using the packet receiving apparatus 130. In addition, the traffic distribution apparatus 110 may further perform the step of deleting the remaining n-1 lost packet information received thereafter.

In addition, the traffic distribution apparatus 110 may transmit a data packet corresponding to the lost packet information to the packet receiving apparatus 130 through the wireless communication network in which the loss packet information first arrived among the n wireless communication networks is transmitted. This is because the data transmission efficiency of the wireless communication network where the lost packet information arrives first is the best.

In step S460, when the transmission of all data packets is normally completed, the packet receiving device 130 transmits reception completion information (for example, an ACK signal) to the traffic distribution device (step S465), and the reception completion information is received. The traffic distribution apparatus 110 may delete all data packets stored in the provided storage space (step S470).

In step S475, the packet receiving apparatus 130 arranges the received data packets according to the packet order information and transmits them to the user terminal 140-a. As a result, the user terminal 140-a may receive the transmission data and use it.

5 is a flowchart illustrating a packet transmission method on a heterogeneous link according to another embodiment of the present invention.

Hereinafter, a method of transmitting a packet on a heterogeneous link according to another embodiment of the present invention will be described with reference to FIG. 5. Each step to be described below may be steps performed after steps S405 to S455 described with reference to FIG. 4 are performed. Therefore, description of steps S405 to S455 is omitted.

In operation S510, when the preset reception state information transmission time arrives, the packet reception device 130 generates reception state information on the data packets received until the reception state information transmission time arrives, thereby generating the traffic distribution device 110. (Step S520). Here, the preset reception state information transmission time may arrive after the preset time elapses after the packet receiving apparatus 130 transmits the lost packet information and / or the reception state information. In addition, since the method for generating the reception state information by the packet receiving apparatus 130 is the same as or similar to the above-described method, a detailed description thereof will be omitted here.

In operation S530, the traffic distribution apparatus 110 retransmits the data packet, which is determined not to be received, to the packet receiving apparatus 130 according to the received reception state information. That is, since the reception status information includes information on data packets detected as not received, the traffic distribution apparatus 110 analyzes the reception status information and determines that the data packet is determined not to be received. Can be resent.

In operation S540, the traffic distribution apparatus 110 deletes the data packet determined to be received according to the received reception state information from the storage space provided. This is because they were transmitted normally.

As described above, according to the packet transmission method according to the present invention, data packets are obtained by using all of n different wireless communication networks 120-n connecting the traffic distribution apparatus 110 and the packet reception apparatus 130. It is apparent that the transmission can make the most of the bandwidth of each of the n wireless communication networks 120-n. In addition, since the data packet is transmitted with the link order information included, the packet receiving apparatus 130 can quickly detect whether the packet data is lost. In addition, the packet receiving apparatus 130 may immediately inform the traffic distribution apparatus 110 of whether the data packet is lost and the data transmission / reception sensitivity, and the lost packet information and / or the reception status information are all wireless communication networks 120-n. The traffic distribution apparatus 110 may transmit the data packet to the packet receiver 130 using mainly a wireless communication network having excellent data transmission efficiency among n wireless communication networks.

The packet transmission method on the heterogeneous link according to the present invention described above can be embodied as computer readable codes on a computer readable recording medium. Computer-readable recording media include all kinds of recording media having data stored thereon that can be decrypted by a computer system. For example, there may be a read only memory (ROM), a random access memory (RAM), a magnetic tape, a magnetic disk, a flash memory, an optical data storage device, and the like. In addition, the computer-readable recording medium may be distributed and executed in a computer system connected to a computer network, and may be stored and executed as a code readable in a distributed manner.

In addition, while the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art to which the present invention pertains without departing from the spirit and scope of the present invention as set forth in the claims below. It will be understood that various modifications and changes can be made.

1 is a block diagram of a packet transmission system on a heterogeneous link according to an embodiment of the present invention.

2A is a diagram of transmission data according to an embodiment of the present invention.

2B is a diagram for a data packet to which packet order information, link order information, and wireless network information are allocated according to an embodiment of the present invention.

3A is a diagram for lost packet information according to an embodiment of the present invention.

3b is a diagram of reception status information according to an embodiment of the present invention;

4 is a flowchart illustrating a packet transmission method on a heterogeneous link according to an embodiment of the present invention.

5 is a flowchart of a packet transmission method on a heterogeneous link according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

100: packet transmission system

110: traffic distribution device

120-1: first wireless communication network

120-2: second wireless communication network

120-n: n-th wireless communication network

130: packet receiving device

140-1: first user terminal

140-2: second user terminal

Claims (14)

A method for transmitting a data packet from a traffic distribution device to a packet receiver connected through n wireless communication networks, Allocating packet order information, link order information, and wireless network information for a wireless communication network to which the data packet is to be transmitted, according to a method previously set in the data packet; And And transmitting each of the data packets to which the packet order information, link order information, and wireless network information are allocated to the packet receiving apparatus through a wireless communication network corresponding to wireless network information among the n wireless communication networks. N is a natural number of 2 or more, The link order information is information on a transmission order of a plurality of data packets transmitted through an mth wireless communication network among the n wireless communication networks, and m is a natural number less than or equal to n, The packet receiving apparatus detects the presence of a lost data packet using the link order information. delete The method of claim 1, And the packet receiving apparatus detects that a lost data packet exists when the continuity of the link order information of the data packets received through the mth wireless communication network is lost. The method of claim 1, Receiving lost packet information; And The traffic distribution apparatus further comprises the step of transmitting a data packet corresponding to the lost packet information to the packet receiving apparatus through at least one wireless communication network of the n wireless communication network, When the packet receiving apparatus detects a loss of the data packet, the packet receiving apparatus generates the lost packet information corresponding to the packet order information allocated to the detected data packet and transmits the lost packet information to the traffic distribution apparatus. . 5. The method of claim 4, Receiving the lost packet information, Receiving n pieces of lost packet information, one for each of the n wireless communication networks, The step of transmitting a data packet corresponding to the lost packet information, Transmitting a data packet corresponding to the lost packet information to the packet receiving apparatus by using the lost packet information received first among the n lost packet information; And And deleting the remaining n-1 lost packet information received thereafter, And the packet receiving apparatus transmits the lost packet information to the traffic distribution apparatus one by one through the n wireless communication networks. The method of claim 5, The step of transmitting a data packet corresponding to the lost packet information, And transmitting a data packet corresponding to the lost packet information to the packet receiving apparatus through a wireless communication network in which the first lost packet information of the n wireless communication networks has been transmitted. 5. The method of claim 4, The step of transmitting a data packet corresponding to the lost packet information, If the loss packet information includes communication network blocking information, transmitting a data packet corresponding to the loss packet information through at least one wireless communication network other than the p-th wireless communication network corresponding to the communication network blocking information. But Wherein p is a natural number less than or equal to n, and the packet receiving apparatus generates the lost packet information including communication network blocking information corresponding to the p-th wireless communication network, in which packet reception sensitivity information is greater than or equal to a preset threshold. Packet transmission method. The method of claim 7, wherein The threshold is information on the number of lost data packets, The packet receiving apparatus is a packet transmission method, characterized in that for detecting the loss of the data packet more than a predetermined number of wireless communication network detected by the p-th wireless communication network. 5. The method of claim 4, Re-transmitting the data packet is determined not received according to the received reception status information to the packet receiving apparatus, The packet receiver generates a reception state information corresponding to the data packets received until the reception state information transmission time and transmits the received state information to the traffic distribution device when a preset reception state information transmission time arrives. Way. 10. The method of claim 9, And deleting, by the traffic distribution apparatus, from the storage space provided with the data packet determined to be normally received according to the reception state information. 10. The method of claim 9, And the reception state information transmission time arrives when a predetermined time elapses after the loss packet information or the reception state information is transmitted. The method of claim 1, When the reception completion information is received further comprises the step of deleting the data packet stored in the provided storage space, The packet receiving apparatus transmits the received completion information to the traffic distribution apparatus when all transmissions of the data packet are normally completed. Assign packet order information, link order information, and wireless network information on the wireless communication network to which the data packet is transmitted to the sequentially input data packets, A traffic distribution device for transmitting each of the packet packets allocated with the packet order information, the link order information, and the wireless network information through a wireless communication network corresponding to the wireless network information among the n wireless communication networks connected thereto; And If the continuity of the link order information of the data packets received through the m-th wireless communication network includes a packet receiving device for detecting that there is a lost data packet, The traffic distribution apparatus and the packet receiving apparatus are connected through n wireless communication networks, and the link order information is information about a sequence of the plurality of data packets transmitted through an m-th wireless communication network among the n wireless communication networks. N is a natural number and m is a natural number less than or equal to n. The method of claim 13, When the packet receiving apparatus detects a loss of the data packet, the packet receiver generates loss packet information including the packet order information allocated to the detected data packet and transmits the loss packet information to the traffic distribution apparatus. And the traffic distribution apparatus transmits a data packet corresponding to the received lost packet information to the packet receiving apparatus through a corresponding wireless communication network among the n wireless communication networks.

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