KR101645415B1 - Terminal device and recording media for data transmission based on multipath - Google Patents

Abstract

The present invention provides a multi-path data transmission environment through a plurality of transmission paths including a D2D transmission path, and more particularly, to a terminal device and a multi-path data transmission method for providing a method of efficiently satisfying transmission path selection and data transmission reliability aspects, Discloses a recording medium that supports data transmission.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a terminal device and a recording medium supporting multi-

The present invention relates to a multi-path data transmission technique, and more particularly, to a multi-path data transmission technique through a plurality of transmission paths including a D2D transmission path, And a recording medium supporting multi-path data transmission.

D2D (Device to Device) communication is a technology for performing direct communication between terminals, unlike cellular communication (hereinafter referred to as mobile communication) in which an existing terminal transmits data through a base station.

Therefore, a terminal supporting a mobile network based cellular link and a D2D communication based D2D transmission path (D2D link) can select and use a mobile network transmission path and a D2D transmission path.

Currently, the multi-path (mobile network transmission path and D2D transmission path) data transmission technology selects one of the mobile network transmission path and the D2D transmission path and uses a vertical handover method every time the transmission path used is changed. Had to change.

Recently, researches have been made to adjust transmission path setting using multipath transmission protocol.

This is because, by using the multipath transmission protocol, the transmission path can be selected in the transmission protocol without the conventional vertical handover, and the advantage of using the mobile transmission path and the D2D transmission path at the same time can be obtained.

However, it is somewhat problematic to use (employ) existing multipath transmission protocols for multipath (mobile network transmission path and D2D transmission path) data transmission technology.

For example, if a conventional multi-path transmission protocol is employed as it is, an application that is a transmitting entity transmits data in a single stream as before, and a multi-path transmission protocol that receives data transmits its own transmission protocol There is a problem in that an application which is actually a transfer subject unit can not select a transmission path.

In addition, if the conventional multipath transmission protocol is employed as it is, since the transmission method of the existing multipath transmission protocol is a data transmission method focused on efficiency, in the case of transmitting data of communication service in which reliability of data transmission is more important than efficiency There is an unacceptable problem.

Accordingly, in the present invention, in consideration of a problem that is expected due to the adoption of the existing multipath transmission protocol as described above in the provision of the multipath (mobile network transmission path and D2D transmission path) data transmission environment, And to satisfy the reliability of data transmission efficiently.

The object of the present invention is to provide a multi-path data transmission environment through a plurality of transmission paths including a D2D transmission path, and it is an object of the present invention to provide a multi- And a recording medium for supporting multi-path data transmission. The present invention also provides a recording medium for supporting multi-path data transmission.

According to a first aspect of the present invention, there is provided a terminal device supporting a plurality of transmission paths including a D2D transmission path, the terminal device comprising: An application unit that encapsulates and transmits the encapsulated data; A scheduling unit for decapsulating the transmitted data to confirm the transmission path information and for scheduling the decapsulated data in a transmission path corresponding to the transmission path information among the plurality of transmission paths; And a communication unit for transmitting the data through the scheduled transmission path.

Advantageously, the plurality of transmission paths may include a D2D transmission path based on direct device-to-terminal communication and a mobile network transmission path based on mobile communication.

Preferably, the application unit may select a transmission path among the plurality of transmission paths according to a communication service related to data to be transmitted, and may encapsulate transmission path information according to the selected transmission path.

Preferably, the transmission path information may specify any one of a first identifier for specifying the D2D transmission path, a second identifier for specifying the mobile network transmission path, a D2D transmission path, and a mobile network transmission path. And a fourth identifier for duplicating the D2D transmission path and the mobile network transmission path.

Preferably, the application unit encapsulates the fourth identifier as transmission path information in the data to be transmitted, when the data to be transmitted is data associated with a designated specific communication service requiring high reliability assurance, Or may encapsulate the first identifier or the second identifier differently as transmission path information in each of the data copied and copied as the transmission target.

Preferably, when the fourth identifier is confirmed as the transmission path information, the scheduler may schedule each of the D2D transmission path and the mobile network transmission path by copying and copying the decapsulated data, respectively have.

According to a second aspect of the present invention, there is provided a terminal device comprising: a communication unit for supporting data reception through a plurality of transmission paths including a D2D transmission path; A duplicate acknowledgment unit for confirming whether duplicate data is received through the plurality of transmission paths; And an application unit which uses the data received first among the duplicated received identical data and discards other data if it is confirmed that the same data is received redundantly.

According to a third aspect of the present invention, there is provided a computer-readable recording medium supporting a plurality of transmission path-based data transmission including a D2D transmission path, An encapsulation step of encapsulating the signal; Decrypting the transferred data to check the transmission path information; A scheduling step of scheduling the decapsulated data in a transmission path corresponding to the transmission path information among the plurality of transmission paths; And a data transmission step of transmitting the data through the scheduled transmission path.

Advantageously, the plurality of transmission paths may include a D2D transmission path based on direct device-to-terminal communication and a mobile network transmission path based on mobile communication.

Preferably, the transmission path information may specify any one of a first identifier for specifying the D2D transmission path, a second identifier for specifying the mobile network transmission path, a D2D transmission path, and a mobile network transmission path. And a fourth identifier for duplicating the D2D transmission path and the mobile network transmission path.

Preferably, when the data to be transmitted is data associated with a designated specific service that requires high reliability assurance, the encapsulating step inserts the fourth identifier as transmission path information into the data to be transmitted Encapsulation, or encapsulation of the first identifier or the second identifier differently as transmission path information in each of the data copied and copied as the transmission target.

Preferably, in the case where the fourth identifier is confirmed as the transmission path information, the scheduling step may schedule each of the data copied and copied to the D2D transmission path and the mobile network transmission path respectively by decoding the decapsulated data .

According to an embodiment of the present invention, there is provided a terminal apparatus and a recording medium for supporting multi-path data transmission, the multi-path data transmission environment including a plurality of transmission paths including a D2D transmission path, It is possible to obtain an effect of efficiently satisfying the side surface.

1 is an exemplary diagram illustrating a multi-path data transmission environment to which the present invention is applied.
FIG. 2 is an exemplary diagram showing an example in which an existing multipath transmission protocol is directly used (employed) in a multipath data transmission environment to which the present invention is applied.
3 and 4 are block diagrams showing a configuration of a terminal device according to a preferred embodiment of the present invention.
5 is a flowchart illustrating an operational flow of a terminal apparatus 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.

First, FIG. 1 shows a multi-path data transmission environment to which the present invention is applied.

As shown in FIG. 1, the present invention can be applied to D2D (D2D), which transmits data directly between terminals 10 and 20, in addition to cellular communication (hereinafter referred to as mobile communication) in which terminals 10 and 20 transmit data through a base station Path data (D2D link, a) supporting a D2D communication-based D2D communication path (cellular link b) and a D2D communication-based D2D link (a) based on a D2D communication Lt; / RTI >

Currently, the current multipath data transmission technique uses one of the D2D transmission path (a) and the mobile network transmission path (b), and whenever the transmission path to be used is changed, the transmission path In recent years, studies have been made to adjust transmission path settings using a multipath transmission protocol.

This is because, by using the multipath transmission protocol, the transmission path can be selected in the transmission protocol without the existing vertical handover, and the advantage of using the D2D transmission path (a) and the mobile network transmission path (b) simultaneously can be obtained .

However, it is somewhat problematic to use (employ) the existing multipath transmission protocol as it is in the multipath data transmission technology.

Hereinafter, with reference to FIG. 2, a problem to be expected when a conventional multi-path transmission protocol is directly adopted in the multi-path data transmission technology will be briefly described.

2 is an internal structure of a terminal (for example, 10) having a mobile communication unit 60 and a D2D communication unit 70 that support a multipath data transmission technique.

As shown in FIG. 2, if the terminal 10 supporting the multi-path data transmission technology adopts the existing multi-path transmission protocol as it is, the application 40, which is the transmission subject, recognizes it as a conventional single path transmission protocol The data to be transmitted, that is, data packets 1, 2, 3, and 4, are transmitted as a single stream as before.

The multipath transmission protocol 50 that receives data from the application 40 is capable of transmitting data in a transmission path according to its own transmission protocol among a plurality of transmission paths, that is, a D2D transmission path a and a mobile network transmission path b, Packets 1, 2, 3, and 4 are scheduled. In the case of FIG. 2, it is assumed that the multipath transmission protocol 50 is scheduling data to the D2D transmission path (a) according to its own transmission protocol method.

Accordingly, the D2D communication unit 70 transmits the scheduled data, that is, the data packets 1, 2, 3, and 4, through the D2D transmission path (a) as described above.

As can be seen from the above description, if the existing multipath transmission protocol 50 is adopted as it is, since the multipath transmission protocol 50 transmits data through the transmission path according to its own transmission protocol scheme, There is a problem that the in-application 40 can not select the transmission path.

2, if the conventional multipath transmission protocol 50 is adopted as it is, since the transmission method of the existing multipath transmission protocol 50 is a data transmission method focused on efficiency, There is a problem that is unsuitable for transmitting data of a communication service (for example, public safety communication) in which reliability of transmission is important.

Accordingly, in the present invention, in consideration of a problem expected due to the adoption of the existing multi-path transmission protocol 50 as described above in providing the multi-path data transmission environment including the D2D transmission path (a) We propose a method to efficiently satisfy the path selection and data transmission reliability.

Hereinafter, the configuration of a terminal device according to a preferred embodiment proposed by the present invention will be described in detail with reference to FIG.

As shown in FIG. 3, the terminal device 100 according to the present invention is a terminal supporting a plurality of transmission paths including a D2D transmission path.

At this time, the plurality of transmission paths supported by the terminal apparatus 100 basically include the D2D transmission path (a) as shown in FIG. 1, and the other transmission paths include the mobile network transmission path (b) desirable.

Accordingly, it is assumed that the terminal apparatus 100 includes a communication unit 150 that supports multipath data transmission through the D2D transmission path (a) and the mobile network transmission path (b).

3, the terminal device 100 according to the present invention includes an application unit 110 for encapsulating transmission path information to data to be transmitted and delivering the data, A scheduling unit (120) for checking the transmission path information to perform scheduling, and scheduling the decapsulated data in a transmission path corresponding to the transmission path information among the plurality of transmission paths; and a scheduling unit And a communication unit 150 for transmitting the data.

The application unit 110 encapsulates the transmission path information in the data to be transmitted and transmits the data as a transmission subject end to which data is to be transmitted.

In the following description with reference to FIG. 3, for convenience of description, data packets 1, 2, 3, and 4 will be referred to as data to be transmitted.

The application unit 110 encapsulates the transmission path information in the data to be transmitted, that is, the data packets 1, 2, 3, and 4, and transmits the encapsulated transmission path information to the lower end, that is, the scheduling unit 120.

Here, the transmission path information includes a first identifier for specifying a D2D transmission path (a), a second identifier for specifying a mobile network transmission path (b), a D2D transmission path (a), and a transmission path And a fourth identifier for redundantly designating the third identifier, the D2D transmission path (a), and the mobile network transmission path (b), even if the first and second identifiers are specified.

Hereinafter, it is assumed that each identifier is defined as follows, for example.

First identifier: 2

Second identifier: 1

Third identifier: 0

Fourth identifier: 3

At this time, the application unit 110 may encapsulate the transmission path information in the header or the data packet, respectively.

Here, the header format includes information indicating that the header is a header for selecting a transmission path, information indicating the length of the header, and information on a transmission path (selected by the header) Quot;) is input.

At this time, the application unit 110 selects a transmission path among a plurality of transmission paths, that is, a D2D transmission path (a) and a mobile network transmission path (b), according to a communication service related to data to be transmitted, It is preferable to encapsulate the transmission path information according to the transmission path information.

For example, the data to be transmitted may be data related to a communication service (hereinafter referred to as a general communication service) for general data transmission such as a file transmission or a message transmission, May be data related to a communication service for important data transmission (hereinafter, referred to as a security communication service), or may be data related to a communication service for emergency data transmission (hereinafter referred to as an emergency communication service) .

Accordingly, the application unit 110 determines whether the communication service related to the data to be transmitted is a general communication service, a secure communication service, or an emergency communication service, and transmits the D2D transmission path a and the mobile network transmission path b The transmission path can be selected.

For example, the application unit 110 selects the D2D transmission path (a) as the transmission path when the communication service related to the data to be transmitted is the general communication service, and selects the selected transmission path, that is, the D2D transmission path (a) (First identifier: 2) according to the transmission path information.

Alternatively, the application unit 110 may select a mobile network transmission path (b) as a transmission path when the communication service related to the data to be transmitted is a secure communication service or an emergency communication service, And encapsulate the path information (second identifier: 1).

On the other hand, in selecting the transmission path, the application unit 110 may consider the D2D communication state and the mobile communication state together.

For example, when the communication service related to the data to be transmitted is a general communication service, if the current D2D communication state and the mobile communication state are both good, the application unit 110 transmits the D2D transmission path (a) as a transmission path (First identifier: 2) according to the selected and selected transmission path, that is, the D2D transmission path (a). If the current D2D communication state is bad while the mobile communication state is good, the D2D (Third identifier: 0) indicating that the transmission path (a) and the mobile network transmission path (b) can be selected (designated) regardless of the transmission path.

Of course, in addition to the above-described examples, the application unit 110 can set various transmission paths according to at least one of a communication service and a multi-path communication state related to data to be transmitted, have.

In FIG. 3, for each of the data packets 1, 2, 3, and 4, the transmission path of the D2D transmission path (a) and the mobile network transmission path (b) Encapsulates transmission path information (third identifier: 0), encapsulates transmission path information (second identifier: 1) according to the mobile network transmission path b in data packet 3, and transmits D2D transmission And the transmission path information (first identifier: 2) according to the path (a) is encapsulated.

The scheduling unit 120 decapsulates the data transmitted from the application unit 110 to check the transmission path information, and transmits the decapsulated data to a plurality of transmission paths, that is, a D2D transmission path (a) And the transmission path according to the transmission path information in the path (b).

The scheduling unit 120 decapsulates the data packets 1, 2, 3, and 4 transmitted from the application unit 110 to generate data packets 1, 2, 3, and 4 The transmission path information can be confirmed.

Accordingly, the scheduling unit 120 confirms transmission path information (third identifier: 0) in data packets 1 and 2, confirms transmission path information (second identifier: 1) in data packet 3, The transmission path information (first identifier: 2) will be confirmed.

Accordingly, the scheduling unit 120 schedules the data packets 1 and 2 for which the transmission path information of the third identifier (0) is confirmed in the transmission path according to its own transmission protocol scheme (e.g., D2D transmission path (a) ), The transmission path information of the second identifier (1) is scheduled to the mobile network transmission path (b) according to the transmission path information for the confirmed data packet 3, and the transmission path information of the first identifier (2) 4 can be scheduled in the D2D transmission path (a) according to the transmission path information.

The scheduling unit 120 is preferably a function in the multipath transmission protocol 140. [

The communication unit 150 transmits data, that is, data packets 1, 2, 3, and 4, through the transmission path scheduled by the scheduling unit 120.

That is, the mobile communication unit 153 of the communication unit 150 transmits the scheduled data packet 3 as described above through the mobile network transmission path (b), and the D2D communication unit 156 of the communication unit 150 performs the scheduling And transmits the data packets 1, 2, and 4 through the D2D transmission path (a).

Furthermore, the terminal device 100 according to the preferred embodiment proposed in the present invention supports redundant transmission through multiple paths in order to increase data transmission reliability.

Hereinafter, with reference to FIG. 4, an embodiment of redundant transmission through multiple paths will be described in more detail.

In the following description with reference to FIG. 4, the application unit 110, the scheduling unit 120, and the communication unit 150 will be described for convenience of explanation.

The application unit 110 encapsulates the fourth identifier 3 as the transmission path information in the data to be transmitted when the data to be transmitted is data related to the specified specific communication service requiring high reliability assurance Alternatively, the first identifier 2 or the second identifier 1 may be encapsulated differently as transmission path information in each of the data copied and copied as the data to be transmitted.

More specifically, the previously designated specific communication service, which requires high reliability assurance, means a communication service (for example, public safety communication) in which reliability of data transmission is more important than efficiency, and the emergency communication service This may be the case.

Hereinafter, for convenience of explanation, a specific communication service requiring high reliability assurance will be defined as an emergency communication service.

The application unit 110 determines that the communication service related to the data to be transmitted is a predetermined communication service, that is, an emergency communication service, through the multipath, and performs the redundant transmission.

At this time, the redundant transmission proposed in the present invention is performed by a scheme (hereinafter referred to as an application-based redundant transmission scheme) performed by the application unit 110, a scheme performed by the scheduling unit 120 (hereinafter referred to as a transmission protocol- .

In the following description with reference to FIG. 4, for convenience of description, data packets 1 and 2 will be referred to as data to be transmitted.

First, we will explain the application-based redundancy transmission method.

The application unit 110 determines that the communication service related to the data to be transmitted is a predetermined communication service, that is, the emergency communication service, and determines that the data to be transmitted, that is, the data packet 1 , 2 are copied.

In the case of the present invention, since the application unit 110 considers two transmission paths, that is, the D2D transmission path (a) and the mobile network transmission path (b), the application unit 110 copies the data packet 1, And copy the data packet 2 to obtain two data packets 2.

Then, the application unit 110 encapsulates the first identifier 2 or the second identifier 1 as transmission path information differently to each of the copied two data packets 1 and two data packets 2 .

On the left side of FIG. 4, transmission path information (second identifier: 1) according to the mobile network transmission path (b) is stored in one of the two data packets 1 for each of the copied two data packets 1 and two data packets 2 Encapsulates the transmission path information (first identifier: 2) according to the D2D transmission path (a) and encapsulates transmission path information (first identifier: 2) according to the transmission path information (First identifier: 2) according to the D2D transmission path (a) is encapsulated in the other one.

The scheduling unit 120 decapsulates the data transmitted from the application unit 110 to check the transmission path information, and transmits the decapsulated data to a plurality of transmission paths, that is, a D2D transmission path (a) And the transmission path according to the transmission path information in the path (b).

In other words, the scheduling unit 120 encapsulates the data packets 1, 1, 2 and 2 transmitted from the application unit 110 and transmits the data packets 1, 1, The transmission path information can be confirmed.

The scheduling unit 120 schedules the data packets 1 and 2 for which the transmission path information of the second identifier 1 is confirmed to the mobile network transmission path b according to the transmission path information, (A) according to the transmission path information for the data packets 1 and 2 for which the transmission path information of the D2D transmission path information is confirmed.

Therefore, the mobile communication unit 153 of the communication unit 150 transmits the scheduled data packets 1 and 2 as described above through the mobile network transmission path (b), and the D2D communication unit 156 of the communication unit 150, And transmits the scheduled data packets 1 and 2 through the D2D transmission path (a).

Hereinafter, a transmission protocol based redundant transmission method will be described.

The application unit 110 determines that the communication service related to the data to be transmitted is a predetermined communication service, that is, the emergency communication service, and determines that the data to be transmitted, that is, the data packet 1 , 2 encapsulate and transmit the fourth identifier (3) as transmission path information.

4 shows an example of encapsulating transmission path information (fourth identifier: 3) for duplicating the D2D transmission path (a) and the mobile network transmission path (b) for each data packet 2 to be transmitted Respectively.

The scheduling unit 120 decapsulates the data transmitted from the application unit 110 and confirms transmission path information.

In other words, the scheduling unit 120 may decapsulate the data packets 1 and 2 transmitted from the application unit 110 to check transmission path information in each of the data packets 1 and 2 .

Accordingly, the scheduling unit 120 will check the transmission path information (fourth identifier: 3) in the data packets 1 and 2.

When the fourth identifier (3) is confirmed as the transmission path information, the scheduling unit (120) copies the decapsulated data packets (1,2).

Since the present invention considers two transmission paths as a multipath, that is, a D2D transmission path (a) and a mobile network transmission path (b), the scheduling unit 120 copies the data packet 1 to obtain two data packets 1 And copy the data packet 2 to obtain two data packets 2.

Then, the scheduling unit 120 will schedule each of the copied two data packets 1 and two data packets 2 to the D2D transmission path a and the mobile network transmission path b, respectively.

Therefore, the mobile communication unit 153 of the communication unit 150 transmits the scheduled data packets 1 and 2 as described above through the mobile network transmission path (b), and the D2D communication unit 156 of the communication unit 150, And transmits the scheduled data packets 1 and 2 through the D2D transmission path (a).

Meanwhile, in the above description, the data transmission process in the multipath data transmission environment is mainly described.

Referring to FIG. 3, the process of receiving data in a multipath data transmission environment according to the present invention will be described below.

The terminal device 100 of the present invention includes a communication unit 150 for supporting data reception through a plurality of transmission paths including the D2D transmission path a and a communication unit 150 for determining whether the same data is redundantly received through a plurality of transmission paths And an application unit 110 for using the first received data among the duplicated received identical data and discarding other data if it is confirmed that the same data is duplicated.

Assuming the D2D transmission path (a) and the mobile network transmission path (b) as a plurality of transmission paths, the communication unit 150 can communicate with the D2D transmission path (a) and the mobile network transmission path (b) Path data reception.

Accordingly, the mobile communication unit 153 of the communication unit 150 can receive data transmitted through the mobile network transmission path (b), and the D2D communication unit 156 of the communication unit 150 can receive the D2D transmission path (a) Lt; / RTI >

The duplicate acknowledgment unit 130 checks whether duplicate data is received through a plurality of transmission paths, that is, the D2D transmission path a and the mobile network transmission path b.

For example, as described above, if the data transmission side terminal repeatedly transmits the data packets 1 and 2 through the D2D transmission path (a) and the mobile network transmission path (b), the duplicate reception confirmation unit 130, It can be confirmed that the same data packet 1 and the same data packet 2 are received redundantly through each of a plurality of transmission paths, that is, the D2D transmission path a and the mobile network transmission path b.

The duplicate acknowledgment unit 130 is preferably a function in the multipath transmission protocol 140.

When it is confirmed that the same data, for example, the same data packet 1 and the same data packet 2 are received redundantly through the D2D transmission path (a) and the mobile network transmission path (b), the application unit 110 transmits the same data packet 1, 1, discards the other data, uses the data received first among the duplicated data packets 2 and 2, and discards the other data.

As described above, according to the present invention, by utilizing a simple encapsulation / de-encapsulation function between an application in a terminal and a multi-path transmission protocol, an application that is an actual transmission subject can select a transmission path, It is possible to selectively perform the redundant transmission when the reliability of the data transmission is more important than the reliability of the data transmission.

In particular, since the present invention utilizes the encapsulation / decapsulation function that operates only between the application and the multi-path transmission protocol, there is no need to worry about overhead on the network.

Therefore, according to the present invention, in providing a multi-path data transmission environment, the effect of efficiently satisfying the transmission path selection and data transmission reliability aspects is derived.

At least one of the application unit 110, the scheduling unit 120, the duplicate acknowledgment unit 130, and the communication unit 150 described above is configured in the form of a recording medium (e.g., an application or a program) It may be mounted on the terminal device 100. [

For example, the communication unit 150 may be a function provided in the terminal apparatus 100, and the application unit 110, the scheduling unit 120, and the duplicate acknowledgment unit 130 may receive the instructions (For example, an application, a program, or the like) including the recording medium (e.g., a recording medium).

Hereinafter, a method of operating a terminal according to a preferred embodiment of the present invention will be described in detail with reference to FIG. Hereinafter, for the sake of convenience of description, reference will be made to the reference numerals mentioned in FIGS. 1 to 4 described above.

The operation method of the terminal device 100 according to the present invention determines whether or not application data, that is, data to be transmitted, is redundantly transmitted through a multipath, when data is generated in an application that is a transfer subject terminal (S100) (S110).

At this time, the redundant transmission proposed in the present invention is performed by a scheme (hereinafter referred to as an application-based redundant transmission scheme) performed by the application unit 110, a scheme performed by the scheduling unit 120 (hereinafter referred to as a transmission protocol- .

Accordingly, it is preferable that the operation method of the terminal device 100 according to the present invention determines whether application-based redundant transmission is required for data to be transmitted (S110).

For example, the operation method of the terminal device 100 according to the present invention is such that, when the communication service related to the data to be transmitted is the predetermined specific communication service, that is, the emergency communication service, It can be determined that application-based redundancy transmission is required (S110 Yes).

Hereinafter, for convenience of description, data packets 1 and 2 will be described as data to be transmitted.

If it is determined that application-based redundant transmission is required (Yes in S110), the operation method of the terminal device 100 according to the present invention is to transmit two transmission paths, that is, a D2D transmission path a and a mobile network transmission path b Therefore, the data packet 1 is copied to obtain two data packets 1, and the data packet 2 is copied to obtain two data packets 2 (S113).

The operation method of the terminal device 100 according to the present invention is a method of transmitting the first identifier 2 or the second identifier 1 as the transmission path information to the two copied data packets 1 and 2, And encapsulates them differently and transmits them to the lower end (scheduling unit 120) (S116).

On the left side of FIG. 4, transmission path information (second identifier: 1) according to the mobile network transmission path (b) is stored in one of the two data packets 1 for each of the copied two data packets 1 and two data packets 2 Encapsulates the transmission path information (first identifier: 2) according to the D2D transmission path (a) and encapsulates transmission path information (first identifier: 2) according to the transmission path information (First identifier: 2) according to the D2D transmission path (a) is encapsulated in the other one.

The operation method of the terminal device 100 according to the present invention decapsulates data transferred from an upper end (application unit 110) to check transmission path information (S170).

The operation method of the terminal device 100 according to the present invention includes the steps of encapsulating the data packets 1, 1, 2, and 2 transmitted from the application unit 110, , 1, 2, and 2, respectively (S180 No).

The operation method of the terminal device 100 according to the present invention is such that the data packets 1 and 2 for which the transmission path information of the second identifier 1 is confirmed are scheduled to the mobile network transmission path b according to the transmission path information , The transmission path information of the first identifier 2 can be scheduled in the D2D transmission path (a) according to the transmission path information for the checked data packets 1 and 2 (S190).

Accordingly, the method of operating the terminal device 100 according to the present invention is to transmit the scheduled data packets 1 and 2 through the mobile network transmission path b as described above, and transmit the scheduled data packets 1 and 2 to the D2D And then transmitted through the transmission path (a) (S200).

If it is determined that application-based redundancy transmission is not required (No in S110), the operation method of the terminal device 100 according to the present invention determines whether redundancy transmission based on a transmission protocol is required (S120).

For example, the operation method of the terminal device 100 according to the present invention is a method in which, when the communication service related to the data to be transmitted is the predetermined specific communication service, that is, the emergency communication service, , It can be determined that a transmission protocol based redundant transmission is necessary (S120 Yes).

If it is determined that the transmission protocol based redundant transmission is required (Yes in S120), the operation method of the terminal device 100 according to the present invention is a method of transmitting data, i.e., a fourth identifier 3) to the lower layer (the scheduling unit 120) (S125).

4 shows an example of encapsulating transmission path information (fourth identifier: 3) for duplicating the D2D transmission path (a) and the mobile network transmission path (b) for each data packet 2 to be transmitted Respectively.

The operation method of the terminal device 100 according to the present invention decapsulates data transferred from an upper end (application unit 110) to check transmission path information (S170).

The operation method of the terminal device 100 according to the present invention is a method of decapsulating the data packets 1 and 2 transmitted from the application unit 110 and transmitting the decapsulated data packets 1 and 2 The transmission path information can be confirmed.

Thus, the operation method of the terminal device 100 according to the present invention will check the transmission path information (fourth identifier: 3) in the data packets 1 and 2 (Yes in S180).

The operation method of the terminal device 100 according to the present invention copies the decapsulated data packets 1 and 2 (S183) when the fourth identifier 3 is confirmed as the transmission path information (Yes in S180).

The present invention considers two transmission paths as a multipath, that is, a D2D transmission path (a) and a mobile network transmission path (b), so that the operating method of the terminal device 100 according to the present invention is to copy To obtain two data packets 1, and copy data packet 2 to obtain two data packets 2.

The operation method of the terminal device 100 according to the present invention will schedule each of the copied two data packets 1 and two data packets 2 to the D2D transmission path a and the mobile network transmission path b respectively S186).

Accordingly, the method of operating the terminal device 100 according to the present invention is to transmit the scheduled data packets 1 and 2 through the mobile network transmission path b as described above, and transmit the scheduled data packets 1 and 2 to the D2D And then transmitted through the transmission path (a) (S200).

Meanwhile, if it is determined that the transmission protocol-based redundant transmission is not required (No at S120), the operation method of the terminal device 100 according to the present invention may include at least one of communication service and multi- (S130 to S140).

For example, when the communication service related to the data to be transmitted is the general communication service, if the current D2D communication state is bad while the mobile communication state is good, the D2D transmission It is determined that any transmission path among the path (a) and the mobile network transmission path (b) can be selected (designated) (S130 Yes), and transmission path information (third identifier: 0) It is possible to encapsulate the data (S135).

Alternatively, when the communication service related to the data to be transmitted is a general communication service, if the current D2D communication state and the mobile communication state are all good (No in S130), the terminal device 100 according to the present invention transmits (First identifier: 2) according to the selected transmission path, that is, the D2D transmission path (a), to the transmission target data by selecting the D2D transmission path (a) as the path (S145).

Alternatively, in the operation method of the terminal device 100 according to the present invention, when the communication service related to the data to be transmitted is a general communication service, the mobile network transmission path b is selected as a transmission path without considering the multi- (Second identifier: 1) according to the selected transmission path, that is, the transmission path b of the mobile network, to the data to be transmitted (S160).

Accordingly, the operation method of the terminal device 100 according to the present invention decapsulates the data transmitted from the upper end (application unit 110) to check the transmission path information (S170).

For example, as shown in Fig. 3, for each of the data packets 1, 2, 3, and 4 to be transmitted, the data packets 1 and 2 include a D2D transmission path (a) (Second identifier: 1) according to the mobile network transmission path (b) is encapsulated in the data packet 3, and transmission path information (third identifier: 0) indicating that the transmission path is independent And encapsulates the transmission path information (first identifier: 2) according to the D2D transmission path (a) in the data packet 4 will be described.

In this case, the operating method of the terminal device 100 according to the present invention encapsulates the data packets 1, 2, 3, and 4 transmitted from the application unit 110, (Second identifier: 1) in data packet 3, and transmission path information (first identifier: 2) in data packet 4 (S170 , S180 No).

The operation method of the terminal device 100 according to the present invention is such that the data packets 1 and 2 for which the transmission path information of the third identifier 0 is confirmed are scheduled in the transmission path according to its own transmission protocol method : The D2D transmission path (a)), the transmission path information of the second identifier (1) is scheduled to the mobile network transmission path (b) according to the transmission path information for the confirmed data packet 3, The data packet 4 for which the path information is confirmed can be scheduled in the D2D transmission path (a) according to the transmission path information (S190).

Therefore, the operation method of the terminal device 100 according to the present invention is to transmit the scheduled data packet 3 through the mobile network transmission path b as described above, and to transmit the scheduled data packets 1, 2, And then transmitted through the transmission path (a) (S200).

As described above, according to the operation method of the terminal device of the present invention, by utilizing the simple encapsulation / de-encapsulation function between the application in the terminal and the multi-path transmission protocol, In addition, if reliability of data transmission is more important than efficiency, redundant transmission can be selectively performed.

Therefore, according to the operation method of the terminal device according to the present invention, in providing a multi-path data transmission environment, the effect of efficiently satisfying the transmission path selection and data transmission reliability aspects is derived.

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

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

According to a terminal apparatus and a recording medium supporting multi-path data transmission according to the present invention, a multi-path data transmission environment through a plurality of transmission paths including a D2D transmission path is provided, It is possible to satisfy not only the utilization of the related technology but also the possibility of the market or operation of the applied device as well as the practical application of the device, It is a possible invention.

100: terminal device
110: Application section 120: Scheduling section
130: Duplicate acknowledgment unit 140: Multipath transmission protocol
150: communication unit 153: mobile communication unit
156: D2D communication unit

Claims (12)

A terminal device supporting a plurality of transmission paths including a D2D transmission path and a mobile network transmission path,
An application unit for encapsulating transmission path information into data to be transmitted and delivering the transmission path information to a lower layer;
Encapsulating the decapsulated data to decode the data transmitted from the application unit and transmitting the decapsulated data to a transmission path corresponding to the transmission path information among the plurality of transmission paths, part; And
And a communication unit for transmitting the data through the scheduled transmission path;
The transmission path information may include:
A third identifier indicating whether a transmission path of the D2D transmission path and a mobile network transmission path is irrelevant, a second identifier indicating a transmission path of the D2D transmission path, And a fourth identifier for redundantly designating a mobile network transmission path,
The application unit includes:
Encapsulates the fourth identifier as transmission path information in the data to be transmitted if the data to be transmitted is data associated with a designated specific communication service requiring high reliability assurance, And encapsulates the first identifier or the second identifier differently as transmission path information in each of the data copied and copied. delete The method according to claim 1,
The application unit includes:
Selects a transmission path among the plurality of transmission paths according to a communication service related to data to be transmitted, and encapsulates transmission path information according to the selected transmission path. delete delete The method according to claim 1,
The scheduling unit may include:
Encapsulates the decrypted data and schedules the duplicated data on the D2D transmission path and the mobile network transmission path, respectively, when the fourth identifier is confirmed as the transmission path information. delete A recording medium supporting a plurality of transmission path-based data transmission including a D2D transmission path and a mobile network transmission path in a terminal apparatus,
An encapsulation step of encapsulating the transmission path information in the data to be transmitted and delivering the transmission path information to the lower layer by the application in the terminal device;
Decapsulating data transmitted from the upper layer application and confirming the transmission path information;
A scheduling step of scheduling the decapsulated data in a transmission path corresponding to the identified transmission path information among the plurality of transmission paths; And
And performing a data transmission step of transmitting the data through the scheduled transmission path;
The transmission path information may include:
A third identifier indicating whether a transmission path of the D2D transmission path and a mobile network transmission path is irrelevant, a second identifier indicating a transmission path of the D2D transmission path, And a fourth identifier for redundantly designating a mobile network transmission path,
Wherein the instructions for performing the encapsulating step comprise:
Encapsulates the fourth identifier as transmission path information in the data to be transmitted if the data to be transmitted is data associated with a designated specific communication service requiring high reliability assurance, And encapsulates the first identifier or the second identifier differently as transmission path information in each of the data copied and copied. delete delete delete 9. The method of claim 8,
Wherein the scheduling step comprises:
Encapsulates the decrypted data and schedules the duplicated data on the D2D transmission path and the mobile network transmission path, respectively, when the fourth identifier is confirmed as the transmission path information. .

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