WO2013122325A1

WO2013122325A1 - Device and method for supporting multi-network based simultaneous data transmission service

Info

Publication number: WO2013122325A1
Application number: PCT/KR2013/000150
Authority: WO
Inventors: 김지훈; 정인장; 전진수
Original assignee: 에스케이텔레콤 주식회사
Priority date: 2012-02-15
Filing date: 2013-01-09
Publication date: 2013-08-22
Also published as: KR20130093986A; KR101437371B1

Abstract

Disclosed is a transmission and reception device and a transmission and reception method for multi-network based simultaneous data transmission in an environment which provides a simultaneous transmission service for transmitting/receiving partial data produced by partitioning data using a plurality of multiple data networks, wherein non-received partial data are immediately determined as lost data if partial data having transmission sequence information are received after the non-received partial data according to each of the multiple networks on the basis of each piece of transmission sequence information of the received partial data, and the partial data are transferred to an upper layer without waiting for the transmission of the partial data having the transmission information, thereby reducing an unnecessary reordering waiting time in a receiving-side device and improving the transmission performance of the simultaneous transmission service.

Description

Apparatus and method for supporting multiple network-based data transmission services

The present invention relates to a multi-network-based simultaneous data transmission service, and more particularly, to a partial data received in a simultaneous transmission service for dividing data into several partial data and transmitting / receiving the divided partial data through a plurality of networks. An apparatus and method for quickly determining whether or not lost partial data is lost based on each transmission order information.

Recently, communication services based on a plurality of mobile communication networks such as WCDMA, CDMA, WiBro, and Long Term Evolution (LTE) have been provided. In addition, communication services based on WLAN (WiFi) networks, which are short-range wireless networks, are also being provided.

Despite the multi-network environment in which several networks are mixed, it was common to select only one network and transmit data.

However, such a general method has a limitation in providing a smooth data service due to a rapid increase in the load rate of a selected network when transmitting / receiving a large amount of data. In addition, various wireless devices such as smartphones and tablet PCs are increasing, and various large-capacity data services targeting these wireless devices are also not suitable for an increasing environment.

Accordingly, in order to provide a smooth data service in a multi-network environment, a simultaneous transmission service has been proposed in which a transmitter divides one piece of data into several pieces of data and simultaneously transmits the divided pieces of data to two or more networks.

On the other hand, in order to optimize the simultaneous transmission service as described above, it is possible to quickly determine whether unreceived partial data transmitted from the transmitting apparatus but not received at the receiving apparatus should be requested to retransmit or wait to receive the unreceived partial data. It is necessary to do

In the present invention, in the simultaneous transmission service, it is to quickly determine whether or not the unreceived partial data based on the transmission order information of each received partial data.

According to an embodiment of the present invention, a transceiver includes: a communication unit configured to receive partial data divided from transmission target data through two or more access networks; Corresponding to the partial data received through the two or more access networks, the partial data having the transmission order information after the transmission order information of the unreceived partial data is checked, and the identified partial data is determined from all of the two or more access networks. If the received partial data is included, the control unit for determining that the unreceived partial data is lost.

Specifically, when it is determined that the unreceived partial data is lost, the controller may request retransmission of the unreceived partial data.

Specifically, the controller checks the access network where the partial data having the transmission order information after the transmission order information of the unreceived partial data is received, and thereafter, the access network other than the checked access network among the two or more access networks. When partial data is received from all, it may be determined that the unreceived partial data is lost.

Specifically, when the controller determines that the unreceived partial data is lost, the controller may include a retransmission request for the unreceived partial data in a reception response for each of the checked partial data.

Specifically, when it is determined that the unreceived partial data is lost, the controller retransmits the unreceived partial data immediately after determining that the unreceived partial data is lost without waiting for reception of the unreceived partial data. You can request

A method of operating a transceiver according to an embodiment of the present invention includes a partial data receiving step of receiving partial data divided from transmission target data through two or more access networks; A partial data checking step of identifying partial data having transmission order information after transmission order information of unreceived partial data, corresponding to each partial data received through the two or more access networks; And a loss determination step of determining the unreceived partial data as lost when the identified partial data includes partial data received from all of the two or more access networks.

Specifically, if it is determined that the unreceived partial data is lost, the method may further include a retransmission request step of requesting retransmission of the unreceived partial data.

In detail, the loss determining step may identify a connection network in which the partial data having the transmission order information after the transmission order information of the unreceived partial data is received, and then, in the two or more access networks, other than the identified access network. When partial data is received from both access networks, the unreceived partial data may be determined as lost.

In detail, the retransmission request may include a retransmission request for the unreceived partial data in a response to each of the identified partial data.

Specifically, in the retransmission request step, if it is determined that the unreceived partial data is lost, immediately after the unreceived partial data is determined to be lost without waiting for reception of the unreceived partial data, You can request a retransmission.

According to the present invention, in the simultaneous transmission service, it is possible to quickly determine whether the unreceived partial data is lost based on the transmission order information of each received partial data, and to quickly request retransmission of the unreceived partial data, thus unnecessary waiting. The time can be reduced to improve the transmission performance of the simultaneous transmission service.

1 is a block diagram showing a multiple network-based simultaneous data transmission system according to an embodiment of the present invention.

2 is a block diagram illustrating a configuration of an apparatus for transmitting and receiving data simultaneously based on multiple networks according to an exemplary embodiment of the present invention.

3 is a flowchart illustrating an operation flow in a multiple network-based data transmission system according to a preferred embodiment of the present invention.

4 is a flowchart illustrating a flow of a method of simultaneously transmitting and receiving data based on multiple networks according to an embodiment of the present invention.

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

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

As shown in FIG. 1, the multiple network-based data transmission service system according to an embodiment of the present invention includes a terminal device 100, an Internet service, a video providing service, and an mVoIP service. External device 500 for providing a data service, connecting the terminal device 100 and the external device 500 and for supporting the first network device 200 and the second network to support the first network The first network device 200 and the second network device are located between the second network device 300 and the terminal device 100 and the external device 500 and provide data services provided by the external device 500. 300 includes a management device 400 for supporting a simultaneous transmission service for providing all using.

Here, the terminal device 100 refers to a user device for using the data service provided from the external device 500, for example, a mobile terminal, a personal computer (PC), a notebook, a tablet PC, a PDA, and the like. This may be applicable, and the present invention may include all devices capable of transmitting and receiving data through both the first network and the second network.

In addition, the first network and the second network may be, for example, a network such as WCDMA, CDMA, WiBro, WLAN (WiFi), and Long Term Evolution (LTE), but is not limited thereto. May be included.

In this regard, when the first network is a 3G network, the first network device 200 corresponds to a Gateway GPRS Support Node (GGSN) of the 3G network. In addition, when the second network is WiFi, which is one of the local area networks, the second network device 300 corresponds to an access point (AP).

In addition, the management device 400 refers to a server device for supporting the simultaneous transmission service to the terminal device 100, located on the first network or the second network, or the first network and the second network; May be located on a separate network to support simultaneous transmission services.

On the other hand, in the case of an uplink transmitting data from the terminal device 100 to the management device 400, the terminal device 100 is a transmitting device and the management device 400 is a receiving device, and conversely, the management device 400 In the case of the downlink transmitting data to the terminal device 100 in the terminal device 100 may be a receiving device and the management device 400 may be a transmitting device.

Since the simultaneous transmission service provided by the present invention simultaneously transmits partial data divided from one data using a plurality of multiple networks (for example, 3G and WiFi), a plurality of multiple networks ( Example: It is very important to restore all the partial data received through 3G and WiFi) without loss / loss and combine them according to the partitioning order.

In addition, since 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, there is a difference between the transmission latency of each network. Therefore, even though each piece of data is simultaneously transmitted using a plurality of multiple networks (eg, 3G and WiFi), the terminal device 100 may not actually transmit each network (eg, 3G and WiFi) due to differences in transmission latency between networks. There is a difference in the point of reception of the partial data received through.

On the other hand, according to the TCP retransmission rule, the data (partial data packet) is lost during transmission as a duplicate number (Dup Ack) is received from the receiving device receiving the data (partial data packet) a specific number of times (for example, three times). There is a redundant arc-based retransmission operation that determines that a message has been received and retransmits it.

Therefore, the terminal device 100 on the receiving side considers that a difference in the reception timing of the partial data received through each network due to the transmission delay of each network causes each partial data received through each network in the receiving buffer. If the partial data of the previous sequence is not received, it is determined that the unreceived partial data is lost. Therefore, the received partial data of the sequence is waited for a certain waiting time and then the waiting time has elapsed. If unreceived partial data is still not received, it is possible to prevent unnecessary Dup Ack of unreceived partial data which is delayed by transmitting the partial data in order after the first reception to the upper layer.

However, due to the partial data rearrangement and waiting for transmission in the terminal device 100 on the receiving side as described above, a specific retransmission time-out (RTO) is performed in a state in which a reception response is not returned in response to the data (partial data packet). Consideration should also be given to retransmission timeout based retransmission behavior, which retransmits the data (partial data packets) over time.

Accordingly, in the present invention, when the partial data having the transmission order information after the unreceived partial data based on the transmission order information of each partial data received in the environment for providing simultaneous transmission service, the unreceived part By immediately determining the data to be lost, and then transferring to the upper layer without waiting for the partial data of the transmission order information, a consequent configuration is proposed to effectively reduce unnecessary rearrangement waiting time at the receiving device.

Hereinafter, for convenience of description, the management apparatus 400 will be described based on the downlink in which the transmitting apparatus and the terminal apparatus 100 become the receiving apparatus. However, the same method may be applied to the uplink, so that the function of the terminal apparatus 100 in the downlink is performed by the management apparatus 400 in the uplink, and the function of the management apparatus 400 in the downlink is The terminal device 100 in the uplink may be performed.

When the management device 400 receives the transmission target data to be transmitted from the external device 500 to the terminal device 100, the management device 400 divides the data into partial data.

The management apparatus 400 selects each piece of divided data for each connection network based on a preset data transmission rate for each connection network.

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

At this time, the management device 400, it is preferable to assign / insert the partition order information to each piece of data so that the original data to be transferred can be restored by combining the partial data divided from the data to be transmitted.

In addition, the management apparatus 400 transmits each partial data selected for each access network (eg, WiFi and 3G) through each access network (eg, WiFi and 3G), and thus, the first network apparatus 200 is a management apparatus. The first partial data transmitted from the 400 is transmitted to the terminal device 100, and the second network device 300 transmits the second partial data transmitted from the management device 400 to the terminal device 100. .

At this time, the management device 400, by transmitting / inserting the transmission order information according to the transmission order to each of the partial data transmitted through each access network (for example, WiFi and 3G).

Thus, for example, the management device 400, the

transmission order information

1, 2 to the first and second partial data to be transmitted to the 3G network, the

transmission order information

1, 2 is added / inserted, and transmitted to the second network, WiFi network The transmission order information 3 is assigned / inserted and transmitted to the third partial data, and the transmission order information 4, 5 and 6 is assigned / inserted and transmitted to the fourth, fifth and sixth partial data transmitted to the 3G network, and then transferred to the WiFi network. Transmission order information 7 can be assigned / inserted to the seventh partial data to be transmitted and transmitted.

In this case, the above-described transmission order information and division order information to be added / inserted into the respective pieces of data may be the same as or different from each other.

Accordingly, the terminal device 100 may restore the transmission target data by combining the partial data received through the two or more networks based on the split order information.

In more detail, the terminal device 100 receives the first partial data from the first network device 200 through two or more access networks (eg, WiFi, 3G), and transmits the second partial data to the second network device. Received from 300.

Accordingly, the terminal device 100 recognizes partial data having the same identification information (eg, virtual IP) indicating that the data is divided from one data based on identification information (eg, virtual IP) included in the received partial data. And, they can be rearranged based on the transmission order information included in the corresponding partial data.

Accordingly, the terminal device 100 confirms the partial data having the transmission order information after the transmission order information of the unreceived partial data in response to each partial data received through two or more access networks (eg, 3G and WiFi). do.

The terminal device 100 includes the partial data received from all of two or more access networks (eg, 3G, WiFi) in the partial data confirmed to have the transmission sequence information after the transmission sequence information of the unreceived partial data. If it is determined that the unreceived partial data is lost immediately, and requests for retransmission of the unreceived partial data.

For example, the case where the partial data of the transmission sequence information 5 is lost among the partial data of the

transmission sequence information

1, 2, 3, 4, 5, 6, and 7 will be described.

The terminal device 100 receives the partial data of the

transmission order information

1 and 2 through the 3G network, receives the partial data of the transmission order information 3 through the WiFi network and receives the partial data of the transmission order information 4 through the 3G network. In this case, the partial data received through two or more access networks (eg, 3G and WiFi) may be rearranged in the order of

transmission order information

1,2,3 based on the transmission order information.

Then, the terminal apparatus 100 according to the result of rearranging the partial data, the upper layer, that is, for the partial data of the

transmission order information

1, 2, 3, 4 received normally without the partial data of the unreceived previous transmission order information. Transfer to a function unit (controller 130 of FIG. 2) to perform the reception response transmission and partial data combination according to TCP.

Accordingly, the terminal device 100 receives a response indicating that the partial data of the

transmission order information

1, 2, 3, and 4 is normally received in response to the partial data of the

transmission order information

1, 2, 3, and 4 as the upper layer is transmitted. This will be provided to the external device 500 through the transmission device, that is, the management device 400.

On the other hand, if the partial data of the transmission order information 5 is lost as in the above example, the partial data of the transmission order information 6 transmitted subsequently through the first network, that is, the 3G network, through which the partial data of the transmission order information 5 is transmitted is stored. Received by the terminal 100, the partial data of the transmission order information 7 transmitted through the second network, that is, the WiFi network, regardless of the state of the 3G network will be received by the terminal device (100).

Accordingly, the terminal device 100 may check the partial data having the

transmission order information

6, 7 after the partial data of the unreceived previous transmission order information 5 according to the result of rearranging the partial data.

In this case, the terminal apparatus 100 receives the partial data received from all of two or more access networks (eg, 3G, WiFi) in the partial data confirmed to have the transmission sequence information after the transmission sequence information 5 of the unreceived partial data. That is, the partial data of the transmission order information 6 received through the 3G network and the partial data of the transmission order information 7 received through the WiFi network are included for each of two or more access networks (eg, 3G and WiFi). The partial data of the is immediately judged as lost.

This means that if the partial data having the transmission sequence information after the partial data of the unreceived transmission sequence information 5 is received more than one by each of two or more access networks (eg, 3G, WiFi), the partial data of the unreceived transmission sequence information 5 Is partial data received through any of the two or more access networks (eg, 3G, WiFi), since partial data of subsequent transmission order information has already been received. It is due to the conviction that it is not.

In this case, the terminal apparatus 100 confirms the access network in which the partial data having the transmission order information after the transmission order information of the unreceived partial data is received from the confirmed partial data, and thereafter, the identification of the two or more access networks. When partial data is received from all of the access networks other than the established access network, it is preferable to determine that the unreceived partial data is lost and to request retransmission of the unreceived partial data.

That is, when the terminal apparatus 100 determines that the partial data of the unreceived transmission sequence information (eg, 5) is lost, it is confirmed that the terminal device 100 has the transmission sequence information after the transmission sequence information 5 of the unreceived partial data. In the partial data, the access network where the partial data having the subsequent transmission order information (e.g., 6) is received, that is, 3G is confirmed, and all access networks other than the confirmed 3G access network, that is, the subsequent transmission order information (from WiFi) Example: 7) If partial data is received, it may determine that the unreceived partial data is lost, and request retransmission of the unreceived partial data.

Accordingly, when the terminal apparatus 100 determines that the partial data of the unreceived transmission sequence information 5 is lost as described above, the terminal device 100 immediately requests retransmission of the partial data of the unreceived transmission sequence information 5.

More specifically, when the terminal apparatus 100 determines that the partial data of the unreceived transmission sequence information 5 is lost as described above, the terminal apparatus 100 may perform the partial data of the

transmission sequence information

6, 7 after the partial data of the determined transmission sequence information 5. It directly transfers to a function unit (controller 130 of FIG. 2) that performs a reception response transmission and partial data combining according to a higher layer.

Accordingly, the terminal apparatus 100 corresponds to each of the partial data of the

transmission order information

6 and 7 as the partial data of the

transmission order information

6 and 7 is transmitted to the upper layer while the partial data of the transmission order information 5 is not received. A reception response including a retransmission request for the partial data of the unreceived transmission sequence information 5, for example, will generate a Dup Ack and provide it to the external device 500 through the transmission device, that is, the management device 400.

Meanwhile, in the above description, the management apparatus 400 transmits partial data obtained by dividing the transmission target data to the terminal apparatus 100 based on the downlink.

In addition, in the simultaneous transmission service to which the present invention is applied, the terminal apparatus 100 transmits the partial data obtained by dividing the transmission target data to the management apparatus 400 during the uplink, and the management apparatus 400 rearranges the partial data. In this case, the terminal apparatus 100 as the transmitting apparatus in the uplink can perform the above-described partial data division, the transmission order information grant / insertion, and the partial data transmission performed by the management apparatus 400 as the transmitting apparatus in the downlink. After the downlink, the terminal apparatus 100 performs the transmission order information of the non-received partial data as the receiving device, and then checks the partial data having the transmission sequence information, determines the loss of the unreceived partial data, and requests for retransmission. The management device 400 as a receiving device at the link may be performed.

Hereinafter, a configuration of a multiple network-based simultaneous data transmission / reception apparatus, that is, a receiver side apparatus according to the present invention will be described in detail with reference to FIG. 2. For convenience of description, the reference number of the terminal device 100 is referred to based on the downlink, and the transmission device 400 is referred to using the reference number of the management device 400.

Multi-network-based simultaneous data transmission and reception apparatus according to an embodiment of the present invention, that is, the receiving device 100, the communication unit 110 for receiving the partial data divided from the transmission target data through two or more access networks, and Corresponding to the partial data received through the above-described access network, the partial data having the transmission order information after the transmission order information of the unreceived partial data is checked, and the received partial data is received from all of the two or more access networks. When the partial data is included, the control unit 130 determines that the unreceived partial data is lost and requests retransmission of the unreceived partial data.

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

Thus, the communication unit 110 may receive a plurality of pieces of partial data divided from the transmission target data from the management apparatus 400 described above through two or more access networks (eg, 3G, WiFi).

In a more specific embodiment, the multi-network-based simultaneous data transmission and reception apparatus, that is, the receiving device 100 according to the preferred embodiment of the present invention, the buffer unit 120 to rearrange each partial data received through the two or more access networks ) May be further included.

The buffer unit 120 identifies the partial data having the transmission order information after the transmission order information of the unreceived partial data, corresponding to each partial data received through the two or more access networks.

In more detail, the buffer unit 120 may include the same identification information indicating that the data is divided from one data based on identification information (eg, virtual IP) included in various pieces of data received through the communication unit 110. Recognize partial data having a virtual IP) and rearrange them based on transmission order information included in the corresponding partial data.

Accordingly, the buffer unit 120 identifies the partial data having the transmission sequence information after the transmission sequence information of the unreceived partial data, corresponding to each partial data received through two or more access networks (eg, 3G and WiFi). do.

transmission sequence information

1, 2, 3, 4, 5, 6, and 7 will be described.

The buffer unit 120 receives the partial data of the

transmission sequence information

1 and 2 through the 3G network, receives the partial data of the transmission sequence information 3 through the WiFi network, and receives the partial data of the transmission sequence information 4 through the 3G network. In this case, the partial data received through two or more access networks (eg, 3G and WiFi) may be rearranged in the order of

transmission order information

1,2,3 based on the transmission order information.

Then, the buffer unit 120 according to the result of rearranging the partial data, the upper layer, that is, for the partial data of the

transmission order information

1, 2, 3, 4 normally received without the partial data of the unreceived previous transmission order information. Transfer to the controller 130.

Accordingly, the control unit 130 corresponds to each of the partial data of the

transmission order information

1, 2, 3, 4 as the partial data of the

transmission order information

1, 2, 3, 4 is transmitted / received from the buffer unit 120. A reception response indicating that the reception is normally generated will be provided to the external device 500 through the transmission device, that is, the management device 400.

On the other hand, if the partial data of the transmission order information 5 is lost as in the above-described example, the partial data of the transmission order information 6 subsequently transmitted through the first network, that is, the 3G network, through which the partial data of the transmission order information 5 is transmitted is received. It will be received at 100, the partial data of the transmission sequence information 7 that is subsequently transmitted through the second network, that is, the WiFi network, regardless of the state of the 3G network will be received by the receiver 100.

Accordingly, the buffer unit 120 may check the partial data having the

transmission order information

For example, assuming that the receiver 100 receives the partial data of the transmission order information 6 first and then the partial data of the transmission order information 7 is received, the buffer unit 120 receives the partial data of the transmission order information 6. When the partial data of the unreceived previous transmission sequence information 5 is confirmed, the partial data of the transmission sequence information 6 is confirmed, and since the partial data of the unreceived previous transmission sequence information 5 is present, the partial data of the transmission sequence information 6 is not transmitted to the controller 130. When the partial data of the transmission sequence information 7 is received, the partial data of the transmission sequence information 7 is checked after the partial data of the unreceived previous transmission sequence information 5, and there is the partial data of the previous transmission sequence information 5 which has not been received. The partial data of the will not be delivered to the control unit 130 to wait.

Here, when the partial data checked by the buffer unit 120 includes one or more partial data received for each of the two or more access networks, the controller 130 determines that the unreceived partial data is lost, and the unreceived partial data is lost. Request retransmission of partial data.

In more detail, the controller 130 confirms the partial data having the

transmission sequence information

6, 7 after the partial data of the previous transmission sequence information 5 not received by the buffer unit as in the above-described example. One or more partial data received for each of two or more access networks (eg, 3G and WiFi), that is, partial data of transmission sequence information 6 received through the 3G network and partial data of transmission sequence information 7 received through the WiFi network. Is included, the partial data of the unreceived transmission sequence information 5 is immediately determined as lost.

In this case, the controller 130 confirms the access network in which the partial data having the transmission order information after the transmission order information of the unreceived partial data is received from the checked partial data, and then the checked of the two or more access networks. When partial data is received from all access networks other than the access network, it is preferable to determine that the unreceived partial data is lost and to request retransmission of the unreceived partial data.

That is, when the control unit 130 determines that the partial data of the unreceived transmission sequence information (eg, 5) is lost, the control unit 130 confirms that the transmission sequence information 5 after the transmission sequence information 5 of the unreceived partial data is lost. In the data, the access network where the partial data having subsequent transmission order information (e.g., 6) is received, that is, 3G is checked, and all access networks other than the confirmed 3G access network, that is, the subsequent transmission order information (e.g., WiFi) If the partial data is received, it may be determined that the unreceived partial data is lost and request retransmission of the unreceived partial data.

Accordingly, when the controller 130 determines that the partial data of the unreceived transmission order information 5 is lost as described above, the controller 130 may immediately request retransmission of the partial data of the unreceived transmission order information 5.

In more detail, when the controller 130 determines that the unreceived partial data is lost, the control unit 130 includes a request for retransmitting the unreceived partial data corresponding to each of the partial data included in the checked partial data. By sending the response, it is possible to request retransmission of the partial data of the unreceived transmission sequence information.

That is, when the controller 130 determines that the partial data of the unreceived transmission sequence information 5 is lost as in the above example, the transmission sequence information 6, after the partial data of the transmission sequence information 5 determined to be lost by the buffer unit 120. The partial data of 7 may be controlled to be transmitted to an upper layer, that is, the controller 130. Of course, the buffer unit 120 may perform this transfer operation independently or independently.

transmission order information

6 and 7 as the partial data of the

transmission order information

6 and 7 is transmitted / received while the partial data of the transmission order information 5 is not received. For example, a Dup Ack may be generated and provided to the external device 500 through the transmitting device, that is, the management device 400, including a retransmission request for the partial data of the transmitted transmission order information 5.

Accordingly, the transmitting device, that is, the transmitting device 400 or the external device 500, transmits the corresponding data (for example, three times) as a duplicate number of times (eg, three times) is received from the transmitting device 100. Partial data of sequence information 5) can be confirmed to be lost during transmission and retransmitted.

On the other hand, the controller 130, if only the partial data having the

transmission order information

6 or 7 after the partial data of the previous transmission order information 5 not received by the buffer unit 120, two or more access networks (eg 3G, WiFi Since one or more pieces of partial data received are not confirmed, the partial data having the

transmission sequence information

6 or 7 is subsequently determined in the buffer unit 120 without determining that the partial data of the unreceived transmission sequence information 5 is lost. 130) to wait without passing.

In this case, the buffer unit 120 may include two or more access networks (eg, partial data having transmission sequence information 6 or 7) after the partial data of unreceived previous transmission sequence information 5. If a specific waiting time elapses without receiving at least one for each of 3G and WiFi), the partial data having the

transmission order information

6 or 7 will be transmitted to the upper layer, that is, the controller 130.

Accordingly, the control unit 130 is not received in response to the partial data of the

transmission order information

6, 7 as the partial data of the

transmission order information

6 or 7 is transmitted / received while the partial data of the transmission order information 5 is not received. A reception response including a retransmission request for the partial data of the transmission order information 5 may be generated, for example, a Dup Ack, and provided to the external device 500 through the transmission device, that is, the management device 400.

The controller 130 may restore the original transmission target data by combining the partial data transmitted / received from the buffer unit 120 according to the partition order information.

As described above, according to the multi-network-based simultaneous data transmission and reception apparatus according to the present invention, in an environment for providing a simultaneous transmission service for transmitting / receiving partial data obtained by splitting data using a plurality of multiple networks, Based on the transmission sequence information of each partial data, if the partial data having the transmission sequence information is received for each of the multiple networks after the non-received partial data, the unreceived partial data is immediately determined to be lost, and then the partial data of the transmission sequence information is By transmitting to a higher layer without waiting for delivery, the resultant device can reduce unnecessary rearrangement waiting time and can quickly request retransmission of unreceived partial data, thereby improving transmission performance of simultaneous transmission service.

First, with reference to Figure 3 will be described the operation flow in a multi-network-based simultaneous data transmission system according to an embodiment of the present invention.

For convenience of description, referring to the downlink, the management device 400 divides the data into partial data when receiving the transmission target data to be transmitted from the external device 500 to the terminal device 100. Each partial data is selected for each access network (S10).

In addition, the management apparatus 400 transmits each partial data selected for each access network (eg, WiFi and 3G) through each access network (eg, WiFi and 3G), and thus, the first network apparatus 200 is a management apparatus. The first partial data transmitted from the 400 is transmitted to the terminal device 100 (S20), and the second network device 300 transmits the second partial data transmitted from the management device 400 to the terminal device 100. It is to be transmitted (S25).

At this time, the management device 400, in step S10 to give / insert the transmission order information according to the transmission order to each of the partial data transmitted through each access network (for example, WiFi and 3G) and transmits.

Accordingly, the terminal device 100 recognizes partial data having the same identification information (eg, virtual IP) indicating that the data is divided from one data based on identification information (eg, virtual IP) included in the received partial data. And, these may be rearranged based on the transmission order information included in the corresponding partial data (S30).

Accordingly, the terminal device 100 confirms the partial data having the transmission order information after the transmission order information of the unreceived partial data in response to each partial data received through two or more access networks (eg, 3G and WiFi). (S50).

In addition, the terminal device 100 includes one or more pieces of partial data received for each of two or more access networks (eg, 3G, WiFi) in the partial data confirmed to have transmission order information after the transmission order information of the unreceived partial data. If included, the non-received partial data is immediately determined to be lost, and the request for retransmission of the unreceived partial data is requested.

transmission sequence information

1, 2, 3, 4, 5, 6, and 7 will be described.

The terminal device 100 receives the partial data of the

transmission order information

1,2 through the 3G network, receives the partial data of the transmission order information 3 through the WiFi network and receives the partial data of the transmission order information 4 via the 3G network. Then, each partial data received through two or more access networks (eg, 3G, WiFi) may be rearranged in the order of

transmission order information

1,2,3 based on the transmission order information (S30).

transmission order information

1, 2, 3, 4 received normally without the partial data of the unreceived previous transmission order information. It transmits to the upper layer which performs the reception response transmission and partial data combining according to TCP.

transmission order information

1, 2, 3, and 4 is normally received in response to the partial data of the

transmission order information

1, 2, 3, and 4 as the upper layer is transmitted. This will be provided to the external device 500 through the transmission device, that is, the management device 400 (S40).

Accordingly, the terminal device 100 may check the partial data having the

transmission order information

6, 7 after the partial data of the unreceived previous transmission order information 5 according to the result of rearranging the partial data (S50).

In this case, the terminal device 100, at least one portion received for each of two or more access networks (eg, 3G, WiFi) to the partial data confirmed to have the transmission sequence information after the transmission sequence information 5 of the unreceived partial data. Since data, that is, partial data of the transmission order information 6 received through the 3G network and partial data of the transmission order information 7 received through the WiFi network is included (S60), the partial data of the unreceived transmission order information 5 is immediately determined as lost. Done.

transmission sequence information

6, 7 after the partial data of the determined transmission sequence information 5. It directly transfers to the upper layer which performs the reception response transmission and partial data combining according to the upper layer.

transmission order information

6 and 7 as the partial data of the

transmission order information

6 and 7 is transmitted to the upper layer while the partial data of the transmission order information 5 is not received. A reception response including a retransmission request for the partial data of the unreceived transmission sequence information 5, for example, a Dup Ack, is generated and provided to the external device 500 through the transmission device, that is, the management device 400 (S70).

Hereinafter, a method of simultaneously transmitting and receiving multiple network-based data transmission and reception, that is, an operation method of a receiver side, according to the present invention will be described with reference to FIG. 4.

A plurality of partial data divided from the transmission target data may be received through two or more access networks (eg, 3G, WiFi) (S100).

Corresponding to the partial data received through the two or more access networks, the partial data having the transmission order information after the transmission order information of the unreceived partial data is identified.

In more detail, based on the identification information (eg, virtual IP) included in the received partial data, the partial data having the same identification information (eg, virtual IP) indicating splitting from one data is recognized, and these are recognized. It may be rearranged based on the transmission order information included in the corresponding partial data (S110).

transmission sequence information

1, 2, 3, 4, 5, 6, and 7 will be described.

When the partial data of the

transmission sequence information

1 and 2 are received through the 3G network and the partial data of the transmission sequence information 3 are received through the WiFi network and the partial data of the transmission sequence information 4 are received through the 3G network, two or more access networks ( For example, each piece of data received through 3G, WiFi) may be rearranged in the order of

transmission order information

1,2,3 based on the transmission order information.

Then, according to the result of rearranging the partial data, the partial data of the

transmission order information

1, 2, 3, and 4 normally received without the partial data of the unreceived previous transmission order information is transmitted to the upper layer (S120).

Accordingly, as the partial data of the

transmission order information

1, 2, 3, and 4 is transmitted / received to a higher layer, a reception response indicating that the partial data of the

transmission order information

1, 2, 3, and 4 is normally received is generated. It will be provided to the external device 500 through the transmitter, that is, the management device 400 (S130).

On the other hand, if the partial data of the transmission order information 5 is lost as in the above example, the partial data of the transmission order information 6 transmitted subsequently through the first network, that is, the 3G network, through which the partial data of the transmission order information 5 is transmitted is received. The partial data of the transmission sequence information 7 which is subsequently transmitted through the second network, that is, the WiFi network, will be received by the receiving device 100 regardless of the state of the 3G network.

Accordingly, according to the result of rearranging the partial data, it is possible to check the partial data having the

transmission sequence information

6, 7 after the partial data of the unreceived previous transmission sequence information 5.

For example, assuming that the receiver 100 receives the partial data of the transmission order information 6 first and then receives the partial data of the transmission order information 7, the multi-network-based simultaneous data transmission / reception method according to the present invention transmits the data. When the partial data of the sequence information 6 is received, the partial data of the transfer sequence information 6 is checked after the partial data of the unreceived previous transfer sequence information 5, and the partial data of the transfer sequence information 6 is checked because there is the partial data of the previous transfer sequence information 5 that has not been received. When the partial data of the transmission order information 7 is received without waiting to the upper layer, the partial data of the transmission order information 7 is confirmed after the partial data of the previous transmission order information 5 that has not been received, and the partial data of the previous transmission order information 5 that has not been received. Therefore, the partial data of the transmission order information 7 will be waited without being delivered to the upper layer (S140).

Here, when the at least one partial data received for each of the at least two access networks is included in the checked partial data (S150), it is determined that the unreceived partial data is lost, and requests retransmission of the unreceived partial data ( S160, S170).

More specifically, as shown in the above example, when the partial data having the

transmission sequence information

6, 7 after the partial data of the unreceived previous transmission sequence information 5 is checked, two or more access networks (eg, 3G) , WiFi) includes one or more pieces of partial data received, that is, partial data of transmission sequence information 6 received through the 3G network and partial data of transmission sequence information 7 received through the WiFi network (S150). The partial data of 5 is immediately judged as lost.

At this time, when it is determined that the partial data of the unreceived transmission sequence information (eg, 5) is lost, the subsequent transmission is performed on the partial data confirmed to have the transmission sequence information after the transmission sequence information 5 of the unreceived partial data. Confirm the access network where the partial data with the sequence information (e.g. 6) has been received, that is, 3G, and all the access networks other than the identified 3G access network, i.e., the subsequent transmission sequence information (e.g., 7) from the WiFi. If is received, it may determine that the unreceived partial data is lost, and may request retransmission of the unreceived partial data.

Thus, when it is determined that the partial data of the unreceived transmission order information 5 as described above is lost, it is possible to immediately request retransmission of the partial data of the unreceived transmission order information 5.

More specifically, if it is determined that the unreceived partial data is lost, the received response is transmitted by including a retransmission request for the unreceived partial data corresponding to each of the partial data included in the checked partial data. The retransmission may be requested for the partial data of the transmitted transmission order information.

That is, when it is determined that the partial data of the unreceived transmission sequence information 5 is lost as in the above example, the partial data of the

transmission sequence information

6, 7 after the partial data of the determined transmission sequence information 5 may be transferred to the higher layer ( S160).

Accordingly, as the partial data of the

transmission order information

6 and 7 is transmitted / received while the partial data of the transmission order information 5 is not received, corresponding to the partial data of the

transmission order information

6 and 7, respectively, A reception response including a retransmission request for the partial data may be generated, for example, a Dup Ack, and provided to the external device 500 through the transmission device, that is, the management device 400 (S170).

On the other hand, if only the partial data having the

transmission order information

6 or 7 after the partial data of the previous transmission order information 5 not received in step S150, one or more partial data received for each of two or more access networks (eg, 3G, WiFi) is Since it is not confirmed, the partial data of the unreceived transmission sequence information 5 is not judged to be lost, and then the partial data having the

transmission sequence information

6 or 7 is waited without being delivered to the upper layer.

In this case, the partial data having the transmission sequence information (for example, partial data having the transmission sequence information 6 or 7) after the partial data of the unreceived previous transmission sequence information 5 is 1 or more per two or more access networks (eg, 3G, WiFi). If a specific waiting time elapses without being received at step S180, the partial data having the

transmission order information

6 or 7 will be delivered to the upper layer.

Accordingly, the partial data of the

transmission order information

6 and 7 is transmitted / received while the partial data of the transmission order information 5 corresponding to the above steps S160 and S170 are not received, thereby corresponding to the partial data of the

transmission order information

6 or 7. Therefore, a reception response including a retransmission request for the partial data of the unreceived transmission sequence information 5, for example, a Dup Ack, is generated and provided to the external device 500 through the transmission device, that is, the management device 400.

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

Although the present invention has been described in detail with reference to preferred embodiments, the present invention is not limited to the above-described embodiments, and the present invention belongs to the present invention without departing from the gist of the present invention as claimed in the following claims. Anyone skilled in the art will have the technical idea of the present invention to the extent that various modifications or changes are possible.

Claims

A communication unit which receives the partial data divided from the transmission target data through two or more access networks;

Corresponding to the partial data received through the two or more access networks, the partial data having the transmission order information after the transmission order information of the unreceived partial data is checked, and the identified partial data is determined from all of the two or more access networks. And a controller which determines that the unreceived partial data is lost when the received partial data is included.
The method of claim 1,

The control unit,

And determining that the unreceived partial data is lost, requesting retransmission of the unreceived partial data.
The method of claim 1,

The control unit,

Confirm the access network where the partial data having the transmission order information after the transmission order information of the unreceived partial data is received, and then the partial data is received from all of the access networks other than the checked access network among the two or more access networks. If it is determined that the unreceived partial data is lost.
The method of claim 2,

The control unit,

And determining that the unreceived partial data is lost, and transmitting and including a retransmission request for the unreceived partial data in a response to each of the identified partial data.
The method of claim 2,

The control unit,

If it is determined that the unreceived partial data is lost, the transmission and reception characterized in that the request for retransmission for the unreceived partial data immediately after the unreceived partial data is determined to be lost without waiting for reception of the unreceived partial data. Device.
A partial data receiving step of receiving the partial data divided from the transmission target data through two or more access networks;

A partial data checking step of identifying partial data having transmission order information after transmission order information of unreceived partial data, corresponding to each partial data received through the two or more access networks; And

And a loss determination step of determining the unreceived partial data as lost when the identified partial data includes the partial data received from all of the two or more access networks.
The method of claim 6,

And retransmitting request for requesting retransmission of the unreceived partial data when determining that the unreceived partial data is lost.
The method of claim 6,

The loss determination step,

Confirm the access network where the partial data having the transmission order information after the transmission order information of the unreceived partial data is received, and then the partial data is received from all of the access networks other than the checked access network among the two or more access networks. If it is determined that the unreceived partial data is lost.
The method of claim 7, wherein

The retransmission request step,

And transmitting a retransmission request for the unreceived partial data in a reception response for each of the checked partial data.
The method of claim 7, wherein

The retransmission request step,

If it is determined that the unreceived partial data is lost, the transmission and reception characterized in that the request for retransmission for the unreceived partial data immediately after the unreceived partial data is determined to be lost without waiting for reception of the unreceived partial data. How the device works.