KR101857565B1 - Apparatus for simultaneously transmitting data in heterogeneous network - Google Patents

Abstract

The present invention relates to a method and apparatus for providing a simultaneous transmission service for transmitting / receiving partial data obtained by dividing data by using a plurality of multiple networks, in which, by using a transmission time interval and a reception time interval for partial data, A multi-network based simultaneous transmission receiving apparatus and receiving method capable of minimizing unnecessary partial data retransmission requests based on measured transmission delays between networks and improving the transmission performance and quality of the simultaneous transmission service, A network-based simultaneous transmission apparatus and a transmission method are disclosed.

Description

[0001] APPARATUS FOR SIMULTANEOUSLY TRANSMITTING DATA IN HETEROGENEOUS NETWORK [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a simultaneous transmission service method, and more particularly, to a simultaneous transmission service method, in which, in an environment for providing a simultaneous transmission service for transmitting / receiving partial data obtained by dividing data using a plurality of multiple networks, The transmission delay between each network is measured effectively using the reception time interval, thereby minimizing the unnecessary partial data retransmission request based on the measured transmission delay between each network and improving the transmission performance and quality of the simultaneous transmission service. Network-based simultaneous transmission receiving apparatus and receiving method, and multiple network-based simultaneous transmission transmitting apparatus and transmission method.

Recently, operators often provide services based on multiple wireless technologies at the same time. In Korea, major operators are building and servicing networks by introducing WCDMA, CDMA, WiBro and WLAN (WiFi) technology, which is the nearest wireless network. In addition, LTE (Long Term Evolution) network is actively being introduced recently.

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

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

Accordingly, there is a need for a new service method for efficient data transmission using a selected network by selecting a network of a terminal device actively according to the state of the network in a multi-network environment in which multiple networks are mixed.

The object of the present invention is to provide a simultaneous transmission service for transmitting / receiving partial data obtained by dividing data by using a plurality of multiple networks, It is possible to minimize the unnecessary partial data retransmission requests based on the measured transmission delays between the respective networks and to minimize the transmission performance and quality of the simultaneous transmission service .

According to a first aspect of the present invention, there is provided a multiple network-based simultaneous transmission receiving apparatus including: a communication unit for receiving partial data segmented from data to be transmitted through two or more access networks; An information verifying unit for verifying a pair of partial data having continuous transmission order information received through different access networks among the two or more access networks; And a controller for checking a network transmission delay value between the different access networks using at least one of a reception time interval and a transmission time interval associated with the pair of partial data.

Preferably, the control unit may obtain a reception time interval associated with the pair of partial data based on the reception time of each of the pair of partial data.

Preferably, the partial data includes transmission time interval information with the partial data having the immediately preceding transmission sequence information, and the control unit transmits the partial transmission time information of the partial data having the later transmission order information among the pair of partial data The transmission time interval may be obtained based on the interval information.

Preferably, the network transmission delay value may be a network transmission delay value based on the access network on which the partial data having the preceding transmission sequence information of the pair of partial data is received.

The control unit may variably set a waiting time set to wait for a request for retransmission of unreceived partial data based on the network transmission delay value.

The control unit may determine an average value of network transmission delay values based on each of the two or more connection networks and set a maximum value among the average values determined for each of the two or more connection networks as the standby time.

In order to achieve the above object, according to a second aspect of the present invention, there is provided a multi-network-based simultaneous transmission transmission apparatus including a plurality of network- A data selector; An information inserter for inserting transmission time interval information related to partial data having transmission sequence information and previous transmission sequence information related to a transmission sequence transmitted to two or more access networks into each partial data selected for each of the two or more access networks; And a communication unit for transmitting the partial data selected for each of the two or more access networks through the respective access networks.

Preferably, the different access network identified using at least one of a reception time interval and a transmission time interval associated with a pair of partial data having continuous transmission order information received through each of the two or more different access networks, And a control unit for changing the data transmission rate of each of the two or more networks based on the obtained network transmission delay value.

According to a third aspect of the present invention, there is provided a multi-network-based simultaneous transmission receiving method comprising: a partial data receiving step of receiving partial data segmented from data to be transmitted through two or more access networks; A partial data checking step of checking a pair of partial data having continuous transmission order information received through each of different connection networks of the two or more access networks; And checking a network transmission delay value between the different access networks using at least one of a reception time interval and a transmission time interval associated with the pair of partial data.

According to a fourth aspect of the present invention, there is provided a multiple network-based simultaneous transmission transmission method comprising: a partial data selection step of selecting partial data divided from transmission target data for two or more access networks; An information inserting step of inserting transmission time interval information related to partial data having transmission sequence information and previous transmission sequence information related to a transmission sequence transmitted to two or more access networks into each partial data selected for each of the two or more access networks; And a partial data transmission step of transmitting partial data selected for each of the two or more access networks through each access network.

According to another aspect of the present invention, there is provided a multi-network simultaneous transmission receiving apparatus, a receiving method, and a multi network-based simultaneous transmission transmitting apparatus and a transmitting method, the object of which is to transmit / receive partial data obtained by dividing data using a plurality of multiple networks In an environment providing a simultaneous transmission service, a transmission delay between each network is effectively measured by using a transmission time interval and a reception time interval with respect to partial data. Thus, based on the measured transmission delay between each network, It is possible to minimize unnecessary retransmission requests related to data and to optimize the partial data transmission rate per network at the transmitting side, thereby improving the transmission performance and quality of the simultaneous transmission service.

1 is a block diagram illustrating a multi-network based simultaneous transmission service system according to a preferred embodiment of the present invention.
2 is a block diagram illustrating a configuration of a multiple network-based simultaneous transmission receiving apparatus according to a preferred embodiment of the present invention.
3 is a block diagram illustrating a configuration of a multi-network-based simultaneous transmission transmission apparatus according to a preferred embodiment of the present invention.
4 is a flowchart illustrating an operation flow in a multiple network-based simultaneous transmission service system according to a preferred embodiment of the present invention.
FIG. 5 is a flowchart illustrating a flow of a multi-network-based simultaneous transmission receiving method according to a preferred embodiment of the present invention.
FIG. 6 is a flowchart illustrating a flow of a multi-network-based simultaneous transmission transmission method according to a preferred embodiment of the present invention.
7 is a diagram illustrating an example of transmitting partial data in the simultaneous transmission of multiple network-based data according to a preferred embodiment of the present invention.

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

1 is a diagram illustrating a multi-network based simultaneous transmission service system according to a preferred embodiment of the present invention.

As shown in FIG. 1, the multiple network-based simultaneous transmission service system according to the present invention includes a management apparatus 400 for supporting a simultaneous transmission service for dividing data to be transmitted into a pair of partial data and transmitting the data through two or more networks And at least one terminal device 100 connected to the management apparatus 400 and using a simultaneous transmission service.

Here, two or more networks, i.e., heterogeneous networks, may include WCDMA, CDMA, WiBro, WLAN (WiFi) and Long Term Evolution (LTE).

In the present invention, for convenience of explanation, a first network (hereinafter referred to as a "3G network"), which refers to a wireless packet service network (WCDMA) among two or more networks, and a second network 2 network (hereinafter referred to as "WiFi network"). Accordingly, the first network device 200 refers to a 3G network, that is, a Gateway GPRS Support Node (GGSN) for operating a wireless packet service network. In addition, the second network device 300 includes a WiFi network, And an access point (AP) for operating a short-range wireless network.

In addition, the multiple network-based simultaneous transmission service system according to the present invention includes an external device 500 that receives data combined / restored according to a simultaneous transmission service from the management device 400, and a policy management device (Not shown).

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

Accordingly, the multi-network-based simultaneous transmission service according to the present invention divides one piece of data between the terminal device 100 and the management device 400 for data reception between the terminal device 100 and the external device 500, And transmits the partial data using a plurality of multiple networks (e.g., 3G and WiFi) and combines the received partial data to restore the original data.

At this time, the terminal device 100 and the management device 400 may be devices on the transmission side according to the uplink process and the downlink process, depending on the subject of data transmission using the service flow, that is, the data transmission service And may be a device on the receiving side. For convenience of description, the present exemplary embodiment assumes a management apparatus 400 as a transmitting apparatus that provides a simultaneous transmission service to the terminal apparatus 100 in a multi-network environment based on a downlink process, 400 and a terminal device 100 as a receiving device for receiving data will be described below.

Accordingly, since the simultaneous transmission service provided by the present invention simultaneously transmits partial data divided from one data using a plurality of multiple networks (e.g., 3G and WiFi), a plurality of multiplexing It is very important to restore partial data to be transmitted by receiving partial data received through a network (e.g., 3G and WiFi) without loss or loss and combining the partial data according to the dividing order.

However, there is a difference between the latency of each network because the network quality (throughput, delay, loss, etc.) between each network is different from each other and the network state of each network is variable in real time. Therefore, even if each piece of partial data is simultaneously transmitted using a plurality of multiple networks (e.g., 3G and WiFi), the actual network (e.g., 3G and WiFi) can be transmitted from the terminal device 100 due to a difference in latency between networks There is a difference in the reception time point of the partial data received via the communication network.

On the other hand, according to the TCP retransmission rule, when a retransmission request, for example, a duplicate acknowledgment (Dup Ack) is received from a receiving-side apparatus that receives data (partial data packet) There is a duplicate ACK based retransmission operation that determines that a data packet (e.g., a data packet) has been lost in transit and retransmits it.

Therefore, in consideration of the difference in the reception time points of the partial data received through the respective networks due to the difference in transmission delays of the respective networks, the reception-side apparatus sequentially transmits each partial data received through each network to the reception buffer If the partial data of the previous sequence is not received, the partial data of the sequence after the not-received partial data is queued without delivering it to the upper layer (for example, the application using the simultaneous transmission service) during the predetermined waiting time, If the partial data still unreceived yet to be received is not received, the partial data of the order received after the first reception is transmitted to the upper layer so that a retransmission request related to the unreceived partial data, for example, a duplicate acknowledgment (Dup Ack) , Unnecessary retransmission of unreceived part data to be delayed It is possible to prevent the occurrence of a blue color, for example, a duplicate Ack.

Therefore, the waiting time, which is a time reference on which the retransmission request related to the partially received partial data occurs, should be set optimally based on the transmission delay of each network. In other words, if the waiting time is too long, unnecessary parts of data are waited for in a network with good quality, and the time for determining the loss is also long and the transmission performance is deteriorated. If the waiting time is too short, unnecessary retransmission requests frequently occur, As a result, transmission performance may deteriorate.

Therefore, according to the present invention, in an environment providing a simultaneous transmission service, as transmission delay between networks in a receiving-side device is different, transmission delay between each network is effectively measured by using a transmission time interval and a reception time interval for partial data , And a method for minimizing unnecessary partial data retransmission requests at the transmitting and / or receiving apparatuses based on the measured transmission delays between networks is proposed.

The management apparatus 400 as a transmitting apparatus, i.e., a multiple network-based simultaneous transmission transmitting apparatus, transmits data to be transmitted to the terminal apparatus 100 from the external apparatus 500 to the terminal apparatus 100, It is divided into partial data, and each divided partial data is selected for each access network based on two or more network-specific data transmission ratios.

That is, when the management apparatus 400 receives the transmission target data to be transmitted from the external apparatus 500 to the terminal apparatus 100, the management apparatus 400 divides the transmission target data into partial data and transmits the data transmission rate (for example, WiFi and 3G) That is, a first transmission rate for data transmission to the first network device 200 and a second transmission rate for data transmission to the second network device 300, The partial data to be transmitted to the first network device 200 is selected and the partial data to be transmitted to the second network device 300 among the remaining partial data is selected.

At this time, it is preferable that the management apparatus 400 combines the partial data divided from the transmission target data and adds / inserts the division order information to each partial data so that the original transmission target data can be restored.

Then, the management apparatus 400 transmits each partial data selected for each access network (e.g., WiFi and 3G) through each access network (e.g., WiFi and 3G) The second network device 300 transmits the partial data transmitted from the management apparatus 400 to the terminal device 100. The second network device 300 transmits the partial data transmitted from the management device 400 to the terminal device 100. [

At this time, the management apparatus 400 inserts transmission time interval information related to partial data having transmission sequence information and successive preceding transmission sequence information related to the transmission sequence to be transmitted to two or more access networks in each partial data.

That is, the management apparatus 400 can assign / insert the transmission order information for the entire sequence of transmission to each partial data transmitted through the access network (e.g., WiFi and 3G) without distinction of the network type.

For example, as shown in FIG. 7, the management apparatus 400 may assign / insert the transmission order information 1, 2 to the first and second partial data to be transmitted to the first network, that is, the 3G network, The transmission order information 3 is given / inserted to the third partial data to be transmitted to the network, the transmission order information 4 is given / inserted to the fourth partial data to be transmitted to the 3G network, and the fifth and sixth partial data are transmitted to the WiFi network And / or insert / insert the transmission order information 7 into the seventh partial data to be transmitted to the 3G network.

At this time, the transmission order information and the division order information described above to be given / inserted to each partial data may be the same or different from each other.

Then, the management apparatus 400 inserts the preceding partial data, that is, the transmission time interval information related to the partial data having the preceding transmission sequence information successive to the partial data.

For example, as shown in FIG. 7, the management apparatus 400 has 0 ms since there is no partial data having the preceding transmission sequence information continuous to the partial data of the transmission sequence information 1, The partial data of the transmission order information 3 has transmission time interval information 10 ms with the partial data having the successive preceding transmission order information 2, the transmission time interval information of the transmission order information 3 It is possible to insert the transmission time interval information up to the partial data of the transmission sequence information 7 by inserting the transmission time interval information 10 ms with the partial data having the preceding transmission sequence information 2 successive to the partial data.

At this time, the management apparatus 400 can maintain the transmission time interval (for example, 10 ms) between each partial data having continuous transmission order information constantly and transmit each partial data accordingly. In this case, The transmission time interval information will be the same with a constant transmission time interval (e.g., 10 ms).

On the other hand, the management apparatus 400 can measure the transmission time interval associated with the partial data having continuous preceding transmission sequence information every time each partial data is transmitted, and insert the measured transmission time interval as the transmission time interval information. In this case, The transmission time interval information to be inserted may be different.

Referring to FIG. 7, if partial data of the transmission order information 1 to be transmitted through 3G is referred to as an example, information as transmission order information according to the order transmitted from the management apparatus 400 without distinguishing 3G and WiFi networks 1, and the area (b) may include information 0 ms as transmission time interval information with partial data having continuous preceding transmission sequence information.

Accordingly, the terminal device 100 can restore the transmission object data by combining the partial data received through two or more networks based on the division order information.

More specifically, the terminal device 100 receives partial data from the first network device 200 via two or more access networks (e.g., WiFi, 3G) and transmits the partial data from the second network device 300 .

Accordingly, the terminal device 100 recognizes the partial data having the same identification information (e.g., virtual IP) indicating division from one piece of data based on the identification information (e.g., virtual IP) included in the received partial data And rearrange them in the reception buffer based on the transmission sequence information included in the partial data.

At this time, in response to each piece of partial data received via two or more access networks (e.g., 3G, WiFi), the terminal device 100 applies a preset waiting time to wait for a retransmission request related to the partial data that has not been received It will perform redundant ACK-based retransmission operations as described above.

That is, the terminal device 100 rearranges the partial data received via two or more access networks (e.g., 3G, WiFi) in the reception buffer (the storage unit 120 in FIG. 2) based on the transmission order information, If the unreceived partial data is confirmed, the partial data of the transmission sequence information after the unreceived partial data is waited for not passing the partial data to the upper layer (for example, the application using the simultaneous transmission service) during the predetermined waiting time, If the unreceived partial data is still not received, the partial data of the transmission order information is transmitted to the upper layer after the reception of the previously received partial data, so that a retransmission request related to unreceived partial data, for example, a duplicate acknowledgment , And may provide a retransmission request, such as a duplicate acknowledgment (Dup Ack), to the management device 400 at the transmission side, for the lost data part that has been lost.

The terminal device 100 identifies a pair of partial data having continuous transmission order information received through each of the different access networks among the two or more access networks.

For example, the terminal apparatus 100 may transmit a pair of pieces of partial data having continuous transmission order information received through each of different connection networks among the partial data received via two or more access networks (e.g., 3G, WiFi) Check the partial data.

Referring to FIG. 7, the terminal device 100 can confirm the partial data of the transmission order information 2 and 3 as a pair of partial data having continuous transmission order information received through each of the different access networks Partial data of transmission sequence information 3 and 4 can be confirmed, partial data of transmission sequence information 4 and 5 can be confirmed, and partial data of transmission sequence information 6 and 7 can be confirmed.

After that, the terminal device 100 transmits at least one of the received time interval and the transmission time interval related to the pair of partial data having the confirmed pair of partial data, that is, the continuous transmission sequence information received through each of the different access networks To determine the network transmission delay value between the different access networks.

The terminal device 100 determines whether the partial data of the transmission order information 2 is received at the received time (for example, 07/00/00 / 00 (h / m / s / ms)), and partial data of transmission sequence information 3 is received (for example, 07/00/00/40 The reception time interval associated with the partial data of the order information 2 and 3 can be confirmed.

At this time, preferably, the terminal device 100 receives the second partial data having the transmission order information, that is, the partial data reception time of the transmission order information 3, which is received later, among the partial data of the transmission order information 2 and 3 The reception time interval (for example, 40 ms) related to the partial data of the transmission sequence information 2 and 3 can be confirmed by subtracting the partial data reception time of the first partial data of the previous transmission sequence information, i.e., the transmission sequence information 2.

Then, from the partial data of the second partial data having the latter transmission order information among the partial data of the transmission order information 2 and 3, that is, the partial order data of the transmission order information 3, the terminal apparatus 100 transmits the first part The transmission time interval information related to the partial data of the transmission order information 2 and the transmission time interval associated with the partial data of the transmission order information 2 and 3 can be obtained. 7, the terminal device 100 can acquire the transmission time interval information (for example, 10 ms) included in the partial data of the transmission order information 3.

The terminal device 100 then uses at least one of the reception time interval (for example, 40 ms) and the transmission time interval (for example, 10 ms) related to the partial data of the transmission order information 2 and 3, It is possible to calculate the network transmission delay value of the WiFi receiving the partial data, i.e., the second partial data having the transmission order information after 3G, in which the partial data of the transmission order information 2 is received, that is, the partial data of the transmission order information 3 is received.

In this case, the network transmission delay value may be a network transmission delay value based on the access network on which the partial data having the preceding transmission sequence information of the pair of partial data is received.

That is, the terminal apparatus 100 transmits the network transmission delay value calculated in association with the partial data of the transmission order information 2 and 3 to the access network 100 based on the received 3G, which is the partial data of the previous transmission order information 2, As shown in FIG.

Can preferably be calculated by the following equations (1) and (2).

Network transmission delay value between 3G standard access networks = {(reception time through WiFi) - (reception time through 3G)} - (transmission time interval) Equation 1

Network transmission delay value between WiFi-based access networks = {(reception time through 3G) - (reception time through WiFi)} - (transmission time interval) Equation 2

In other words, with respect to the partial data of the transmission order information 2 and 3, the terminal device 100 transmits the first partial data having the previous transmission order information received earlier, that is, the partial data of the transmission order information 2, , It is possible to calculate / check the network transmission delay value between the access network (3G and WiFi) based on 3G according to Equation 1 using the reception time interval and the transmission time interval related to the partial data of the transmission order information 2 and 3 have.

As described above, with respect to the partial data of the transmission order information 3 and 4, the terminal device 100 transmits the first partial data having the previous transmission order information received earlier, that is, the partial data of the transmission order information 3, , The network transmission delay value between the access networks (WiFi and 3G) based on WiFi according to Equation 2 can be calculated / confirmed using the reception time interval and the transmission time interval related to the partial data of the transmission sequence information 3 and 4 have.

In addition, the terminal apparatus 100 is connected to an access network (3G and WiFi) based on 3G according to Equation 1, in the same way as the partial data of the transmission order information 2 and 3 described above with respect to the partial data of the transmission order information 4 and 5 ), And in accordance with the partial data of the transmission order information 6 and 7, in the same manner as the partial data of the transmission order information 3 and 4 described above, (WiFi and 3G). ≪ / RTI >

As described above, each time a pair of partial data having continuous transmission order information received through each of different access networks is confirmed, the terminal device 100 receives the first partial data having the previous transmission order information received first The network transmission delay value between access networks based on the access network will be calculated. At this time, the terminal device 100 desirably discards the calculated network transmission delay value if the calculated network transmission delay value is negative (-).

Accordingly, the terminal apparatus 100 determines, based on the network transmission delay value between the access networks on the basis of each access network calculated as described above, the reception buffer (the storage unit 120) can be variably set.

For example, the terminal apparatus 100 can calculate an average value of network transmission delay values between access networks calculated on the basis of each access network as described above.

When the predetermined setting time has elapsed, the terminal device 100 uses the largest average value among the average values of the network transmission delay values on the basis of each connection network to calculate the waiting time Can be set.

Accordingly, the terminal apparatus 100 sets the waiting time of the receiving buffer (the storage unit 120 in Fig. 2) to be variable, and then sets the waiting time in the receiving buffer (the storing unit 120 in Fig. 2) A redundant ACK-based retransmission operation as described above will be performed by applying a variable settling time to the data.

On the other hand, in the foregoing description, the case where the management apparatus 400 transmits partial data obtained by dividing the transmission object data to the terminal apparatus 100 on the basis of the downlink is described.

In addition, the simultaneous transmission service to which the present invention is applied is configured such that the terminal device 100 transmits the partial data obtained by dividing the transmission object data to the management apparatus 400 on the uplink, and the management apparatus 400 rearranges the partial data, The terminal device 100 serving as the transmitting apparatus on the uplink can perform the above-described partial data division and transmission procedure information, transmission time interval information insertion, and partial data transmission performed by the management apparatus 400 as a transmission apparatus in the downlink The above-described partial data re-ordering and redundant ACK-based retransmission operations performed by the terminal apparatus 100 as the receiving apparatus in the downlink, the network transmission delay value calculation between each access network reference access network, And may be performed by the management apparatus 400 as a receiving apparatus upon uplink.

Hereinafter, the configuration of a multiple network-based simultaneous transmission receiving apparatus, that is, a receiving apparatus according to the present invention will be described in more detail with reference to FIG. The reference numeral of the terminal apparatus 100 is referred to on the basis of the downlink for the convenience of description and the reference number of the management apparatus 400 is used to refer to the transmission apparatus 400. [

The multi-network-based simultaneous transmission receiving apparatus, that is, the receiving-side apparatus 100 according to the preferred embodiment of the present invention includes a communication unit 110 that receives partial data divided from transmission target data through two or more access networks, An information checking unit (130) for checking a pair of partial data having continuous transmission order information received through each of different access networks of the access network, and a reception time interval and a transmission time interval associated with the pair of partial data And a control unit (140) for checking a network transmission delay value between the different access networks using at least one.

In addition, the multi-network-based simultaneous transmission receiving apparatus, that is, the receiving-side apparatus 100 according to the preferred embodiment of the present invention further includes a storage unit 130 for rearranging the received partial data according to the transmission order information to temporarily store the partial data .

The communication unit 110 refers to a communication module for interfacing with the first network device 200 using the 3G network and interworking with the second network device 300 using the WiFi network.

Accordingly, the communication unit 110 can receive a plurality of pieces of partial data segmented from the transmission object data from the above-described transmitting apparatus 400 via two or more access networks (e.g., 3G, WiFi).

Accordingly, the multiple network-based simultaneous transmission receiving apparatus according to the preferred embodiment of the present invention, that is, the receiving-side apparatus 100, divides the data into one data based on identification information (e.g., virtual IP) (E.g., virtual IP) indicating that the partial data has been received, and rearranges the partial data on the storage unit 120 based on the transmission order information included in the partial data.

The storage unit 120 may perform a redundant ACK-based retransmission operation by applying a predetermined waiting time to wait for a retransmission request related to unreceived partial data corresponding to each partial data to be rearranged and stored.

That is, when the unreceived partial data is confirmed, the storage unit 120 transmits the partial data of the transmission sequence information after the unreceived partial data to an upper layer (for example, an application that uses the simultaneous transmission service) during a predetermined waiting time If the unreceived partial data is not received yet so that the waiting time elapses, the partial data of the transmission order information is transmitted to the upper layer after the reception of the previously received partial data, and a retransmission request related to the unreceived partial data, Dup Ack) can be generated, thereby providing a retransmission request, such as a duplicate acknowledgment (Dup Ack), to the transmitting apparatus 400 for missing lost data.

The information verification unit 130 identifies a pair of partial data having continuous transmission order information received through each of the different access networks among the two or more access networks.

That is, the information verifying unit 130 may include a pair of parts having continuous transmission order information received through each of the different connection networks among the partial data received through two or more access networks (e.g., 3G, WiFi) Check the data.

7, for example, the information confirmation unit 130 re-arranges information based on transmission order information corresponding to each piece of partial data received via two or more access networks (e.g., 3G, WiFi) , The partial data of the transmission order information 2 and 3 can be confirmed as a pair of partial data having the continuous transmission order information received through each of the different access networks and the partial data of the transmission order information 3 and 4 can be confirmed The partial data of the transmission order information 4 and 5 can be confirmed, and the partial data of the transmission order information 6 and 7 can be confirmed.

The control unit 140 may use at least one of a reception time interval and a transmission time interval associated with the pair of partial data having the confirmed pair of partial data, that is, the continuous transmission sequence information received through each of the different access networks Thereby confirming a network transmission delay value between the different access networks.

More specifically, the control unit 140 checks the partial data of the pair of partial data, for example, the transmission order information 2 and 3, and transmits the partial data of the transmission order information 2 and 3 And acquires the reception time interval associated with the partial data of the sequence information 2 and 3.

That is, the control unit 140 determines whether the partial data of the transmission order information 2 is received (for example, 07/00/00/00 (h / m / s / ms) The reception time interval associated with the partial data of the transmission sequence information 2 and 3 can be confirmed based on the received time (for example, 07/00/00/40 (h / m / s / ms)

At this time, preferably, the control unit 140 determines that the second partial data having the transmission order information after the reception of the later part of the partial data of the transmission order information 2 and 3, that is, The reception time interval (for example, 40 ms) related to the partial data of the transmission sequence information 2 and 3 can be confirmed by subtracting the partial data reception time of the first partial data of the previous transmission sequence information, that is, the transmission sequence information 2.

Then, the control unit 140 selects the second partial data having the later transmission order information among the partial data of the transmission order information 2 and 3, that is, the first partial data having the preceding transmission order information successive from the partial data of the transmission order information 3 The transmission time interval information related to the partial data of the transmission order information 2 is checked to obtain the transmission time interval related to the partial data of the transmission order information 2 and 3. [

That is, the control unit 140 can acquire the transmission time interval information (e.g., 10 ms) included in the partial data of the transmission order information 3, as shown in FIG. 7 described above.

The control unit 140 then uses at least one of the reception time interval (for example, 40 ms) and the transmission time interval (for example, 10 ms) related to the partial data of the transmission order information 2 and 3, It is possible to calculate the network transmission delay value of the WiFi in which the partial data, that is, the second partial data having the transmission order information after 3G, on which the partial data of the transmission order information 2 is received, that is, the partial data of the transmission order information 3 is received.

The control unit 140 stores the network transmission delay value calculated in association with the partial data of the transmission order information 2 and 3 as described above as the transmission data of the access network on which the partial data having the preceding transmission order information of the pair of partial data is received Can be confirmed by the network transmission delay value between the access network (3G and WiFi) based on 3G.

As described above, with respect to the partial data of the transmission order information 2 and 3, the control unit 140 determines whether or not the partial data of the first partial data having the previous transmission order information received earlier, that is, the transmission order information 2, , The network transmission delay value between the access network (3G and WiFi) based on 3G according to Equation 1 described above using the reception time interval and the transmission time interval related to the partial data of the transmission order information 2 and 3 have.

In this manner, with respect to the partial data of the transmission order information 3 and 4, the control unit 140 determines that the first partial data having the previous transmission order information received earlier, that is, the partial data of the transmission order information 3 is transmitted on the basis of the received WiFi Calculates and confirms the network transmission delay value between the access networks (WiFi and 3G) based on the WiFi in accordance with the above-described Equation 2 using the reception time interval and the transmission time interval associated with the partial data of the transmission order information 3 and 4 .

In addition, the control unit 140 determines whether or not the access networks (3G and WiFi) based on the 3G according to the equation (1) are the same as the partial data of the transmission order information 2 and 3 described above with respect to the partial data of the transmission order information 4 and 5, And can calculate / check the network transmission delay value between the access network (s) based on the WiFi in accordance with Equation (2) in the same manner as the partial data of the transmission order information 3 and 4 described above with respect to the partial data of the transmission order information 6 and 7 WiFi, and 3G). ≪ / RTI >

When a pair of partial data having continuous transmission order information received through each of different access networks is identified, the controller 140 transmits the first partial data having the previous transmission order information received first to the received connection The network transmission delay value between the access networks based on the network will be calculated. At this time, the controller 140 preferably discards the calculated network transmission delay value if the calculated network transmission delay value is negative (-).

The control unit 140 sets the waiting time of the storage unit 120, which is applied to perform the redundant ACK-based retransmission operation described above, on the basis of the network transmission delay value between the access networks based on each connection network calculated as described above, .

For example, the control unit 140 can calculate an average value of network transmission delay values between access networks calculated on the basis of each access network as described above.

The control unit 140 can set the waiting time of the storage unit 120 using the largest average value among the average values of the network transmission delay values on the basis of each connection network when a predetermined set time has elapsed.

Accordingly, the storage unit 120 may perform a redundant ACK-based retransmission operation as described above by applying variable waiting time to the partial data received and re-stored.

Furthermore, the control unit 140 can report to the transmission apparatus 400 the average value of the network transmission delay values calculated on the basis of each connection network and the variably set waiting time.

Hereinafter, the configuration of a multiple network-based simultaneous transmission transmission apparatus, that is, a transmission-side apparatus according to a preferred embodiment of the present invention will be described in more detail with reference to FIG. The reference numeral of the management apparatus 400 is referred to on the basis of the downlink for convenience of explanation and the reference number of the terminal apparatus 100 is used to refer to the reception apparatus 100. [

The multiple network-based simultaneous transmission transmitting apparatus, that is, the transmitting-side apparatus 400 according to the preferred embodiment of the present invention selects each partial data segmented from transmission destination data on a network-by-network basis based on a data transmission ratio of two or more networks A partial data selecting unit (410) for selecting one or more partial data to be transmitted to each of the plurality of access networks, transmission time information related to partial data having transmission sequence information related to a transmission sequence to be transmitted to two or more access networks, An information inserting unit 420 for inserting the interval information, and a communication unit 430 for transmitting partial data selected for each of the two or more access networks through each access network.

In addition, the multi-network-based simultaneous transmission transmission apparatus, that is, the transmission-side apparatus 400 according to the preferred embodiment of the present invention may further include a control unit 440.

The partial data selection unit 410 selects partial data segmented from the transmission object data for each connection network on the basis of a data transmission ratio (for example, 3G: WiFi = 2: 5)

That is, the partial data selector 410 receives the transmission target data to be transmitted to the receiving apparatus 100 and divides the data into partial data. At this time, it is preferable that the partial data selector 410 combines the partial data divided from the data to be transferred and adds / inserts the partition order information to each partial data so that the original data to be transferred can be restored.

The partial data selection unit 410 selects the data transmission rate for each of the access networks (e.g., 3G and WiFi), i.e., the first transmission rate for data transmission to the first network device 200, Selects the partial data to be transmitted to the first network device (200) among the partial data divided from the transmission target data based on the confirmed transmission rate, and selects the partial data to be transmitted to the first network device 2 partial data to be transmitted to the network device 300 is selected.

The information inserting unit 420 inserts transmission time information related to a transmission sequence transmitted to two or more access networks and transmission time interval information related to partial data having consecutive preceding transmission sequence information into each partial data selected for two or more access networks .

That is, the information inserting unit 420 can insert / insert the transmission order information for the entire sequence of transmitting the partial data transmitted through the access network (e.g., WiFi and 3G) without distinction of the network type.

For example, as shown in FIG. 7, the information inserting unit 420 inserts / inserts the transmission order information 1 and 2 into the first and second partial data to be transmitted to the first network, that is, the 3G network, Inserts / inserts the transmission order information 3 into the third partial data to be transmitted to the WiFi network, gives / inserts the transmission order information 4 to the fourth partial data to be transmitted to the 3G network, and transmits the fifth and sixth partial data And the transmission order information 7 can be given / inserted to the seventh partial data to be transmitted to the 3G network.

Then, the information inserting unit 420 inserts the transmission time interval information related to the partial data having the preceding transmission sequence information and the corresponding partial data in each partial data.

For example, as shown in Fig. 7, the information inserting section 420 inserts 0 ms, because there is no partial data having the preceding transmission sequence information successive to the partial data of the transmission sequence information 1, Transmission time interval information 10 ms with partial data having continuous preceding transmission sequence information 1, partial data of transmission sequence information 3 includes transmission time interval information 10 ms with partial data having continuous preceding transmission sequence information 2, transmission sequence information 3 It is possible to insert the transmission time interval information up to the partial data of the transmission sequence information 7 by inserting the transmission time interval information 10 ms with the partial data having the preceding transmission sequence information 2 continuous to the partial data of the transmission sequence information 7.

At this time, the multiple network-based simultaneous transmission transmitting apparatus 400 can keep the transmission time interval (e.g., 10 ms) between each partial data having continuous transmission order information constant and transmit each partial data accordingly. In this case The transmission time interval information inserted into each partial data in the information inserting unit 420 will be the same at a constant transmission time interval (e.g., 10 ms).

On the other hand, the information inserting unit 420 can measure the transmission time interval associated with the partial data having the preceding transmission sequence information successive each time each partial data is transmitted, and insert it as the transmission time interval information. In this case, Lt; / RTI > may be different.

Referring to FIG. 7, if partial data of the transmission order information 1 to be transmitted through 3G is referred to as an example, information as transmission order information according to the order transmitted from the management apparatus 400 without distinguishing 3G and WiFi networks 1, and the area (b) may include information 0 ms as transmission time interval information with partial data having continuous preceding transmission sequence information.

The communication unit 430 is a communication module for interfacing with the first network device 200 using the 3G network and interworking with the second network device 300 using the WiFi network.

The communication unit 430 transmits partial data selected for each of two or more access networks, that is, partial data including partial data including transmission order information and transmission time interval information, as described above, through the corresponding access network.

That is, the communication unit 430 transmits a plurality of partial data selected corresponding to the 3G network to the first network device 200 located in the 3G network, and transmits a plurality of partial data selected corresponding to the WiFi network to the WiFi network The first network device 200 transmits the partial data to the receiving device 100 and the second network device 300 transmits the partial data to the receiving device 100 by transmitting the partial data to the second network device 300 .

The control unit 440 controls the receiving apparatus 100 that has received the partial data through two or more access networks to transmit a pair of parts having continuous transmission order information received through each of the two or more access networks among the two or more access networks Acquiring a network transmission delay value between the different access networks identified using at least one of a reception time interval and a transmission time interval associated with the data, Change the transmission rate.

More specifically, the receiving apparatus 100 according to the embodiment of the present invention described with reference to FIG. 2 is configured to transmit a continuous transmission sequence (for example, a transmission sequence) received through each of two or more different access networks (I. E., 3G, WiFi) using at least one of a reception time interval and a transmission time interval associated with the identified pair of partial data, and a network transmission delay value between each of the different access networks And further calculate the average value of the network transmission delay value between each of the access networks based on each access network (e.g., 3G, WiFi).

Accordingly, the control unit 440 can receive the average value of the network transmission delay value calculated on the basis of each connection network from the reception apparatus 100 and the waiting time variably set by the reception apparatus 100, respectively.

The control unit 440 uses the average network transmission delay value among the access networks based on the access networks received from the receiving apparatus 100 to calculate a data transmission rate for each network set in the partial data selecting unit 410 as Can be changed.

As described above, according to the multiple network-based simultaneous transmission receiving apparatus and the multiple network-based simultaneous transmission transmitting apparatus according to the present invention, a simultaneous transmission service for transmitting / receiving partial data obtained by dividing data using a plurality of multiple networks The receiving-side apparatus confirms the reception time interval and the transmission time interval from the pair of partial data having the continuous transmission sequence information received through the different access networks, and by using this, The waiting time can be variably set on the receiving side based on the measured transmission delay between each network so that unnecessary retransmission requests related to unreceived partial data can be minimized and the transmitting side can optimize the partial data transmission rate per network As a result, It has the effect of improving the transmission efficiency and quality of service.

Hereinafter, a multi-network-based simultaneous transmission transmission method according to a preferred embodiment of the present invention will be described with reference to FIG. 4 to FIG. Here, for convenience of description, the components shown in FIGS. 1 to 3 will be described with reference to corresponding reference numerals.

First, referring to FIG. 3, a description will be made of an operation flow in a multiple network-based simultaneous transmission service system according to a preferred embodiment of the present invention.

The management apparatus 400 receives the transfer target data to be transferred from the external apparatus 500 to the terminal apparatus 100 and divides the transfer target data into partial data, Each piece of partial data is selected for each access network (S10).

At this time, it is preferable that the management apparatus 400 combines the partial data divided from the transmission target data and adds / inserts the division order information to each partial data so that the original transmission target data can be restored.

Then, the management apparatus 400 adds / inserts the transmission order information for the entire sequence to be transmitted to each partial data transmitted through the access network (e.g., WiFi and 3G) without distinction of the network type, Transmission time interval information related to partial data having transmission sequence information is inserted (S20).

Then, the management apparatus 400 transmits each partial data selected for each access network (e.g., WiFi and 3G) through each access network (e.g., WiFi and 3G) The second network device 300 transmits the partial data transmitted from the management device 400 to the terminal device 100 (S30), and the second network device 300 transmits the partial data transmitted from the management device 400 to the terminal device 100 S35).

The terminal device 100 receives partial data from the first network device 200 and receives partial data from the second network device 300 via two or more access networks (e.g., WiFi, 3G).

Accordingly, the terminal device 100 recognizes the partial data having the same identification information (e.g., virtual IP) indicating division from one piece of data based on the identification information (e.g., virtual IP) included in the received partial data And rearranges them in the reception buffer based on the transmission sequence information included in the partial data (S40).

At this time, in response to each piece of partial data received via two or more access networks (e.g., 3G, WiFi), the terminal device 100 applies a preset waiting time to wait for a retransmission request related to the partial data that has not been received It will perform redundant ACK-based retransmission operations as described above.

The terminal device 100 confirms a pair of partial data having continuous transmission order information received through each of the two or more different access networks (S50).

For example, the terminal apparatus 100 may transmit a pair of pieces of partial data having continuous transmission order information received through each of different connection networks among the partial data received via two or more access networks (e.g., 3G, WiFi) Check the partial data.

Referring to FIG. 7, the terminal device 100 can confirm the partial data of the transmission order information 2 and 3 as a pair of partial data having continuous transmission order information received through each of the different access networks Partial data of transmission sequence information 3 and 4 can be confirmed, partial data of transmission sequence information 4 and 5 can be confirmed, and partial data of transmission sequence information 6 and 7 can be confirmed.

After that, the terminal device 100 transmits at least one of the received time interval and the transmission time interval related to the pair of partial data having the confirmed pair of partial data, that is, the continuous transmission sequence information received through each of the different access networks The network transmission delay value between the different access networks is checked (S60).

The terminal device 100 determines whether the partial data of the transmission order information 2 is received at the received time (for example, 07/00/00 / 00 (h / m / s / ms)), and partial data of transmission sequence information 3 is received (for example, 07/00/00/40 The reception time interval associated with the partial data of the order information 2 and 3 can be confirmed.

At this time, preferably, the terminal device 100 receives the second partial data having the transmission order information, that is, the partial data reception time of the transmission order information 3, which is received later, among the partial data of the transmission order information 2 and 3 The reception time interval (for example, 40 ms) related to the partial data of the transmission sequence information 2 and 3 can be confirmed by subtracting the partial data reception time of the first partial data of the previous transmission sequence information, i.e., the transmission sequence information 2.

Then, from the partial data of the second partial data having the latter transmission order information among the partial data of the transmission order information 2 and 3, that is, the partial order data of the transmission order information 3, the terminal apparatus 100 transmits the first part The transmission time interval information related to the partial data of the transmission order information 2 and the transmission time interval associated with the partial data of the transmission order information 2 and 3 can be obtained. 7, the terminal device 100 can acquire the transmission time interval information (for example, 10 ms) included in the partial data of the transmission order information 3.

The terminal device 100 then uses at least one of the reception time interval (for example, 40 ms) and the transmission time interval (for example, 10 ms) related to the partial data of the transmission order information 2 and 3, It is possible to calculate the network transmission delay value of the WiFi receiving the partial data, i.e., the second partial data having the transmission order information after 3G, in which the partial data of the transmission order information 2 is received, that is, the partial data of the transmission order information 3 is received.

The terminal apparatus 100 transmits the network transmission delay value calculated with respect to the partial data of the transmission order information 2 and 3 to the access network based on the 3G in which the partial data of the previous transmission order information 2 is received 3G < / RTI > and WiFi).

In other words, with respect to the partial data of the transmission order information 2 and 3, the terminal device 100 transmits the first partial data having the previous transmission order information received earlier, that is, the partial data of the transmission order information 2, , It is possible to calculate / check the network transmission delay value between the access network (3G and WiFi) based on 3G according to Equation 1 using the reception time interval and the transmission time interval related to the partial data of the transmission order information 2 and 3 have.

As described above, with respect to the partial data of the transmission order information 3 and 4, the terminal device 100 transmits the first partial data having the previous transmission order information received earlier, that is, the partial data of the transmission order information 3, , The network transmission delay value between the access networks (WiFi and 3G) based on WiFi according to Equation 2 can be calculated / confirmed using the reception time interval and the transmission time interval related to the partial data of the transmission sequence information 3 and 4 have.

In addition, the terminal apparatus 100 is connected to an access network (3G and WiFi) based on 3G according to Equation 1, in the same way as the partial data of the transmission order information 2 and 3 described above with respect to the partial data of the transmission order information 4 and 5 ), And in accordance with the partial data of the transmission order information 6 and 7, in the same manner as the partial data of the transmission order information 3 and 4 described above, (WiFi and 3G). ≪ / RTI >

As described above, each time a pair of partial data having continuous transmission order information received through each of different access networks is confirmed, the terminal device 100 receives the first partial data having the previous transmission order information received first The network transmission delay value between access networks based on the access network will be calculated.

Accordingly, the terminal apparatus 100 determines, based on the network transmission delay value between the access networks on the basis of each access network calculated as described above, the reception buffer (the storage unit 120) may be variable (S70).

For example, the terminal apparatus 100 can calculate an average value of network transmission delay values between access networks calculated on the basis of each access network as described above.

When the predetermined setting time has elapsed, the terminal device 100 uses the largest average value among the average values of the network transmission delay values on the basis of each connection network to calculate the waiting time Can be set.

Accordingly, the terminal apparatus 100 sets the waiting time of the receiving buffer (the storage unit 120 in Fig. 2) to be variable, and then sets the waiting time in the receiving buffer (the storing unit 120 in Fig. 2) A redundant ACK-based retransmission operation as described above will be performed by applying a variable settling time to the data.

Hereinafter, a method for receiving multiple network-based simultaneous transmission according to a preferred embodiment of the present invention, that is, a method of operating a receiving device will be described in detail with reference to FIG.

The multi-network-based simultaneous transmission receiving method of the present invention receives partial data segmented from transmission target data through two or more access networks (e.g., 3G, WiFi) (S100).

Accordingly, the multiple network-based simultaneous transmission receiving method of the present invention has the same identification information (e.g., virtual IP) indicating division from one piece of data based on identification information (e.g., virtual IP) included in various received partial data Recognizes the partial data, and rearranges them on the storage unit 120 based on the transmission order information included in the partial data (S110).

At this time, in the multiple network-based simultaneous transmission receiving method of the present invention, a redundant ACK-based retransmission operation is performed by applying a preset waiting time to wait for a retransmission request related to unreceived partial data corresponding to each partial data to be reordered will be.

The multiple network-based simultaneous transmission receiving method of the present invention checks a pair of partial data having continuous transmission order information received through each of different connection networks of two or more access networks (S120).

That is, the multi-network-based simultaneous transmission receiving method of the present invention is a method of receiving simultaneous transmission of multiple pieces of partial data received through two or more access networks (e.g., 3G, WiFi) Confirm a pair of partial data.

More specifically, referring to FIG. 7, for example, the multi-network-based simultaneous transmission receiving method of the present invention is characterized in that transmission sequence information is generated based on each partial data received through two or more access networks (for example, 3G, WiFi) It is possible to confirm the partial data of the transmission order information 2 and 3 as a pair of partial data having the continuous transmission order information received through each of the different access networks as a result of rearranging the transmission order information 3 and 4, Partial data can be confirmed, partial data of transmission sequence information 4 and 5 can be confirmed, and partial data of transmission sequence information 6 and 7 can be confirmed.

The multiple network-based simultaneous transmission receiving method according to the present invention is a method for simultaneously receiving a pair of partial data, i.e., a reception time interval and a transmission time related to a pair of partial data having continuous transmission sequence information received through each of different connection networks, (Step S130). In step S130, the network transmission delay value between the different access networks is checked.

More specifically, the multiple network-based simultaneous transmission receiving method of the present invention checks a partial data of a pair of partial data, for example, transmission order information 2 and 3, and transmits the partial data of transmission order information 2 and 3, And acquires the reception time interval associated with the partial data of the transmission order information 2 and 3 based on the reception time.

That is, in the multi-network based simultaneous transmission receiving method of the present invention, the partial data of the transmission order information 2 is received (for example, 07/00/00/00 (h / m / s / ms) (H / m / s / ms) at which the partial data of the transmission order information 2 and 3 are received (for example, 07/00/00/40 have.

In this case, preferably, the multiple network-based simultaneous transmission receiving method of the present invention is characterized in that, among the partial data of the transmission order information 2 and 3, the second partial data having the transmission order information, The reception time interval (for example, 40 ms) related to the partial data of the transmission sequence information 2 and 3 is calculated by subtracting the partial data reception time of the first partial data of the previous transmission sequence information received earlier in the reception time Can be confirmed.

The multi-network-based simultaneous transmission receiving method of the present invention is characterized in that, among the partial data of the transmission order information 2 and 3, the second partial data having the latter transmission order information, that is, the partial data of the transmission order information 3 immediately before, The transmission time interval information related to the partial data of the transmission order information 2 is obtained and the transmission time interval associated with the partial data of the transmission order information 2 and 3 is obtained.

That is, the multiple network-based simultaneous transmission receiving method of the present invention can obtain the transmission time interval information (e.g., 10 ms) included in the partial data of the transmission order information 3, as shown in FIG.

Therefore, the multi-network-based simultaneous transmission receiving method of the present invention uses at least one of a reception time interval (for example, 40 ms) and a transmission time interval (for example, 10 ms) related to partial data of transmission sequence information 2 and 3, Calculating a network transmission delay value of the WiFi in which the first partial data having the order information, that is, the second partial data having the transmission sequence information after the 3G transmission in which the partial data of the transmission sequence information 2 is received, that is, the partial data of the transmission sequence information 3 is received .

Accordingly, in the multi-network based simultaneous transmission receiving method of the present invention, the network transmission delay value calculated with respect to the partial data of the transmission order information 2 and 3 as described above is compared with the transmission data of the partial data of the previous transmission order information 2 As the network transmission delay value between the access network (3G and WiFi).

As described above, in the multi-network-based simultaneous transmission receiving method of the present invention, with respect to the partial data of the transmission order information 2 and 3, the first partial data having the previous transmission order information received earlier, that is, the partial data of the transmission order information 2, (3G and WiFi) based on 3G in accordance with Equation 1 above using the reception time interval and the transmission time interval associated with the partial data of the transmission order information 2 and 3, You can calculate / verify the value.

As described above, in the multi-network-based simultaneous transmission receiving method of the present invention, with respect to the partial data of the transmission order information 3 and 4, the first partial data having the received previous transmission order information, that is, the partial data of the transmission order information 3 (WiFi and 3G) based on WiFi according to Equation 2 above using the reception time interval and the transmission time interval associated with the partial data of the transmission order information 3 and 4 on the basis of the received WiFi, The delay value can be calculated / confirmed.

In addition, the multiple network-based simultaneous transmission receiving method of the present invention is characterized in that, in accordance with the partial data of the transmission order information 4 and 5, It is possible to calculate / check the network transmission delay value between the network (3G and WiFi) and to calculate WiFi according to Equation 2 in the same manner as the partial data of transmission order information 3 and 4 described above with respect to the partial data of transmission order information 6 and 7 It is possible to calculate / check the network transmission delay value between the access network (WiFi and 3G) as a reference.

As described above, in the multi-network-based simultaneous transmission receiving method of the present invention, whenever a pair of partial data having continuous transmission sequence information received through each of different access networks is identified, The network transmission delay value between the access networks based on the access network on which the partial data is received.

The multi-network-based simultaneous transmission receiving method of the present invention further includes a storage unit 120, which is applied to perform the redundant ACK-based retransmission operation described above, based on the network transmission delay value between the access networks based on each access network calculated as described above, It is possible to set a variable waiting time of the display device.

For example, the multiple network-based simultaneous transmission receiving method of the present invention can calculate an average value of network transmission delay values between access networks calculated on the basis of each access network as described above (S140).

Accordingly, in the multi-network simultaneous transmission receiving method of the present invention, when a predetermined set time has elapsed, the waiting time of the storage unit 120 is set using the largest average value of the average values of the network transmission delay values based on each access network (S150).

Accordingly, the multi-network based simultaneous transmission receiving method of the present invention performs a redundant ACK based retransmission operation in step S110 as described above by applying a variable set waiting time to partial data that is received and reordered .

In addition, the multi-network based simultaneous transmission receiving method of the present invention can report the average value of the network transmission delay values calculated on the basis of each access network and the variable waiting time to the transmitting apparatus 400 (S170).

Hereinafter, a method for transmitting multiple network-based simultaneous transmission according to a preferred embodiment of the present invention, that is, a method of operating a transmitting device will be described in detail with reference to FIG.

In the multi-network-based simultaneous transmission transmission method of the present invention, when data to be transmitted to the receiving apparatus 100 is received, the data is divided into partial data (S200). At this time, it is preferable that the multi-network-based simultaneous transmission transmission method of the present invention combines the partial data divided from the transmission target data and adds / inserts the division order information to each partial data so that the original transmission target data can be restored Do.

In addition, the multi-network-based simultaneous transmission method of the present invention can be applied to a data transmission rate per access network (e.g., 3G and WiFi), i.e., a first transmission rate for data transmission to the first network device 200, 300), selects partial data to be transmitted to the first network device (200) from the partial data divided from the transmission target data based on the confirmed transmission ratio, and selects the partial data to be transmitted to the first network device The partial data to be transmitted to the second network device 300 is selected (S210).

The multiple network-based simultaneous transmission transmission method according to the present invention is a method for simultaneously transmitting partial data selected for two or more access networks to partial data having transmission sequence information related to a transmission sequence to be transmitted to two or more access networks and successive preceding transmission sequence information Transmission time interval information is inserted (S220).

That is, in the multi-network-based simultaneous transmission transmission method of the present invention, the transmission order information for the entire sequence of transmitting the partial data transmitted through the access networks (for example, WiFi and 3G) .

For example, as shown in FIG. 7, the multi-network-based simultaneous transmission transmission method of the present invention adds / inserts transmission order information 1 and 2 to first and second partial data to be transmitted to a first network, i.e., 3G network, Inserts / inserts the transmission order information 3 into the third partial data to be transmitted to the second network, i.e., the WiFi network, adds / inserts the transmission order information 4 to the fourth partial data to be transmitted to the 3G network, The transmission order information 5,6 can be given / inserted to the sixth partial data, and the transmission order information 7 can be given / inserted to the seventh partial data transmitted to the 3G network.

In the multi-network simultaneous transmission transmission method of the present invention, transmission time interval information related to partial data having corresponding partial data and successive preceding transmission sequence information is inserted into each partial data.

For example, in the multi-network-based simultaneous transmission transmission method of the present invention, as shown in FIG. 7, since there is no partial data having the preceding transmission sequence information successive to the partial data of the transmission sequence information 1, The partial data of the transmission order information 3 has transmission time interval information 10ms with the partial data having the succeeding preceding transmission order information 2, It is possible to insert the transmission time interval information up to the partial data of the transmission sequence information 7 by inserting the transmission time interval information 10 ms with the partial data having the preceding transmission sequence information 2 successive to the partial data of the transmission sequence information 3.

Referring to FIG. 7, if partial data of the transmission order information 1 to be transmitted through 3G is referred to as an example, information as transmission order information according to the order transmitted from the management apparatus 400 without distinguishing 3G and WiFi networks 1, and the area (b) may include information 0 ms as transmission time interval information with partial data having continuous preceding transmission sequence information.

The multiple network-based simultaneous transmission transmission method of the present invention is a method for transmitting a partial data including partial data inserted for at least two access networks, i.e., transmission order information and transmission time interval information as described above, (S230).

The multi-network-based simultaneous transmission transmission method of the present invention is a method for simultaneously transmitting transmission data in a receiving apparatus (100) having received the partial data through two or more access networks, Obtaining a network transmission delay value between the different access networks identified using at least one of a reception time interval and a transmission time interval associated with a pair of partial data having a pair of partial data having the same And changes the data transmission ratio for each of the two or more networks.

More specifically, the receiving apparatus 100 according to the embodiment of the present invention described with reference to FIG. 2 is configured to transmit a continuous transmission sequence (for example, a transmission sequence) received through each of two or more different access networks (I. E., 3G, WiFi) using at least one of a reception time interval and a transmission time interval associated with the identified pair of partial data, and a network transmission delay value between each of the different access networks And further calculate the average value of the network transmission delay value between each of the access networks based on each access network (e.g., 3G, WiFi).

Accordingly, in the multi-network-based simultaneous transmission transmission method of the present invention, the average value of the network transmission delay values calculated on the basis of each access network from the reception apparatus 100 and the waiting time variably set in the reception apparatus 100 can be received (S240).

Accordingly, the multiple network-based simultaneous transmission transmission method of the present invention uses the average network transmission delay value between connection networks based on each connection network obtained from the reception apparatus 100 and is set in the partial data selection unit 410 The data transmission rate for each network can be changed (S250).

As described above, according to the multiple network-based simultaneous transmission receiving method and the multiple network-based simultaneous transmission transmitting method according to the present invention, a simultaneous transmission service for transmitting / receiving partial data divided data using a plurality of multiple networks The receiving-side apparatus confirms the reception time interval and the transmission time interval from the pair of partial data having the continuous transmission sequence information received through the different access networks, and by using this, The waiting time can be variably set on the receiving side based on the measured transmission delay between each network so that unnecessary retransmission requests related to unreceived partial data can be minimized and the transmitting side can optimize the partial data transmission rate per network As a result, It has the effect of improving the transmission efficiency and quality of service.

Meanwhile, the steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of both. A software module may reside in a RAM memory, a flash memory, a ROM memory, an EPROM memory, an EEPROM memory, registers, a hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art. An exemplary storage medium is coupled to the processor such that the processor can read information from, and write information to, the storage medium. Alternatively, the storage medium may be integrated into the processor. The processor and the storage medium may be included within an ASIC. The ASIC may be included in the user terminal device. In the alternative, the processor and the storage medium may be included as separate components within the user terminal device.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

According to the multiple network-based simultaneous transmission receiving apparatus and method, the multiple network-based simultaneous transmission transmitting apparatus, and the transmitting method according to the present invention, in an environment for providing a simultaneous transmission service, A reception time interval and a transmission time interval are confirmed from a pair of partial data having transmission sequence information and the transmission delay between each access network is effectively measured using the transmission time interval, It is possible to minimize the unnecessary retransmission requests related to the partially received partial data and to optimize the transmission rate of partial data per network at the transmitting side and consequently to improve the transmission performance and quality of the simultaneous transmission service, Beyond the limits of It is not only the use of the related technology but also the possibility of commercialization or operation of the applied device, but it is an industrially applicable invention since it is practically possible to carry out clearly.

100: terminal device
110: communication unit 120: storage unit
130: Information Verification Unit 140:

Claims (10)

A communication unit that receives partial data segmented from transmission target data through two or more access networks;
An information verifying unit for verifying a pair of partial data received through different access networks among the two or more access networks and having transmission sequence information successive to each other; And
And a controller for measuring a network transmission delay value between the different access networks using at least one of a reception time interval and a transmission time interval associated with the pair of partial data. The method according to claim 1,
Wherein,
And obtains a reception time interval associated with the pair of partial data based on the reception time of each of the pair of partial data. The method according to claim 1,
The partial data includes:
And transmission time interval information with the partial data having the immediately preceding transmission sequence information,
Wherein,
And the transmission time interval is acquired based on the transmission time interval information of the partial data having the later transmission order information among the pair of partial data. The method according to claim 1,
Wherein the network transmission delay value is calculated by:
Wherein the partial data having the preceding transmission sequence information among the pair of partial data is a network transmission delay value based on the received access network. The method according to claim 1,
Wherein,
And sets a waiting time set to wait for a retransmission request of unreceived partial data based on the network transmission delay value. 6. The method of claim 5,
Wherein,
Wherein the average value of the network transmission delay values based on each of the two or more access networks is determined and the maximum value among the average values determined for each of the two or more access networks is set as the standby time. . A partial data selection unit for selecting, for each network, each partial data segmented from transmission target data on the basis of two or more network-specific data transmission rates;
An information inserter for inserting transmission time interval information related to partial data having transmission sequence information and previous transmission sequence information related to a transmission sequence transmitted to two or more access networks into each partial data selected for each of the two or more access networks; And
And a communication unit for transmitting the partial data selected for each of the at least two access networks through the respective access networks. 8. The method of claim 7,
A network transmission delay between the different access networks determined using at least one of a reception time interval and a transmission time interval associated with a pair of partial data having continuous transmission sequence information received through each of different access networks among the two or more access networks And a control unit for changing the data transmission rate of each of the two or more networks based on the obtained network transmission delay value. A partial data receiving step of receiving partial data segmented from transmission target data through two or more access networks;
A partial data checking step of checking a pair of partial data received through different access networks among the two or more access networks and having transmission sequence information successive to each other;
And a network transmission delay value measurement step of measuring a network transmission delay value between the different access networks using at least one of a reception time interval and a transmission time interval associated with the pair of partial data, Simultaneous transmission receiving method. A partial data selection step of selecting partial data segmented from transmission target data for each of two or more access networks;
An information inserting step of inserting transmission time interval information related to partial data having transmission sequence information and previous transmission sequence information related to a transmission sequence transmitted to two or more access networks into each partial data selected for each of the two or more access networks; And
And transmitting partial data selected for each of the two or more access networks through each access network.

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