KR102291462B1 - Method for Managing Channel for Transmission of Chunk Data, Parallel Transmission Method and Reception Method of Chunk Data - Google Patents

Abstract

A method for managing a junk data transmission channel according to an embodiment of the present invention includes: transmitting chunk data obtained by dividing entire data in parallel through a plurality of channels; checking the number of a plurality of currently connected channels and further connecting a new channel when the number of the checked channels is smaller than a preset maximum number of channels; continuously transmitting the junk data through the plurality of currently connected channels and the connected new channel; and when there is a channel unused for a preset time or longer among connected channels including the new connected channel, disconnecting the unused channel for a preset time or longer.

Description

A method for managing a junk data transmission channel, a method for parallel transmission and reception of junk data

The present invention relates to a method and apparatus for managing a junk data transmission channel, a method and apparatus for transmitting junk data in parallel, and a method and apparatus for receiving junk data in parallel.

Transmission and reception of data are occurring in numerous devices based on the network. When transmitting or receiving data, encryption, data size, and transmission speed are important for the security of the data transmission section.

In order to transmit large-capacity data or to improve security, there is a method for generating and transmitting and receiving chunk data by dividing the entire data into predetermined sizes.

The receiver side merges the junk data to generate the entire data.

In this method of transmitting and receiving all data using the junk data, the transmitting side must sequentially transmit the junk data in order to merge the junk data. Accordingly, it is impossible to simultaneously transmit the junk data in parallel using a plurality of channels regardless of the order of the junk data.

SUMMARY The technical problem to be solved by the embodiment of the present invention is to provide a method for parallel transmission and reception of junk data capable of simultaneously transmitting and receiving junk data in parallel through a plurality of channels.

In addition, the technical problem to be solved by the embodiment of the present invention is to provide a junk data transmission channel management method for managing a channel used to simultaneously and parallelly transmit junk data in order to improve a transmission speed.

In addition, the technical problem to be solved by the embodiment of the present invention is to provide a method for managing a junk data transmission channel and a method for parallel transmission and reception of junk data capable of integrally processing not only data transmission but also encryption and/or compression will be.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

A method for managing a junk data transmission channel according to a first aspect (ASPECT) of the present invention for achieving the above technical problem includes: transmitting junk data obtained by dividing the entire data in parallel through a plurality of channels; checking the number of a plurality of currently connected channels and further connecting a new channel when the number of the checked channels is smaller than a preset maximum number of channels; continuously transmitting the junk data through the plurality of currently connected channels and the connected new channel; and when there is a channel unused for a preset time or longer among connected channels including the new connected channel, disconnecting the unused channel for a preset time or longer.

According to an embodiment, in the connecting of the new channels, when the number of the checked channels is smaller than the preset maximum number of channels, further connecting one new channel, the one new channel and the plurality of currently connected channels When the sum of the number of channels is smaller than the preset number of channels, the method may further include connecting one new channel again.

According to an embodiment, in the step of terminating the connection of the channel, when the transmission of the junk data is completed and there is no transmission of additional data, the connection with all currently connected channels may be terminated.

According to an embodiment, if there is a channel to which the connection is terminated due to the existence of the unused channel in the step of terminating the connection of the channel, the step of further connecting the new channel may include: After that, the connection of the new channel may be stopped for at least a predetermined period of time.

According to an embodiment, the method for managing the junk data transmission channel further comprises, before the parallel transmission, dividing the entire data to generate junk data, wherein the generating of the junk data includes: , encrypting each of the junk data, wherein the parallel transmission may include transmitting the encrypted junk data.

According to an embodiment, the method for managing the junk data transmission channel includes, before the parallel transmission, identifier information of the entire data, a hash of the entire data, and hash information for each encrypted junk data generating a hash map; and transmitting the generated hash map.

According to an embodiment, the generating of the junk data may further include compressing each of the encrypted junk data, and the parallel transmitting may include transmitting the compressed junk data. have.

According to an embodiment, each of the transmitted encrypted junk data may include checksum information used for validation.

Junk data transmission channel management apparatus according to a second aspect (ASPECT) of the present invention for achieving the above technical problem, and transmits junk data obtained by dividing the entire data into predetermined sizes in parallel through a plurality of channels a junk data transmission unit; and a channel management unit for checking the number of currently connected plurality of channels and further connecting a new channel when the number of the checked channels is less than a preset maximum number of channels, wherein the junk data transmission unit includes: the plurality of currently connected channels and The junk data is continuously transmitted through the connected new channel, and the channel manager is a channel unused for more than the preset time when there is a channel unused for a preset time or more among connected channels including the connected new channel. connection can be disconnected.

According to an embodiment, when the number of the checked channels is smaller than the preset maximum number of channels, the channel manager further connects one new channel, and the number of the one new channel and the plurality of currently connected channels is When the sum is smaller than the preset number of channels, one new channel may be further connected.

According to an embodiment, the apparatus for managing the junk data transmission channel further includes a junk data generator configured to generate junk data by dividing the entire data, wherein the junk data generator encrypts and compresses each of the junk data. The method may further include, wherein the junk data transmission unit transmits the encrypted and compressed junk data.

Junk data parallel transmission method according to a third aspect (ASPECT) of the present invention for achieving the above technical problem, generating junk data by dividing the entire data; encrypting each of the generated junk data; generating a hash map including identifier information of the entire data, hash information of the entire data, and hash information of each of the encrypted junk data; transmitting the generated hash map; and transmitting the encrypted junk data in parallel using a plurality of channels.

According to an embodiment, the generating of the junk data may further include compressing each of the junk data, and the parallel transmitting may include transmitting the compressed junk data.

According to an embodiment, a header of each of the transmitted encrypted junk data may include identifier information of the entire data and information about a reference number of the corresponding junk data.

According to an embodiment, each of the transmitted encrypted junk data may include checksum information used for validation.

Junk data parallel transmission apparatus according to a fourth aspect (ASPECT) of the present invention for achieving the above technical problem, the junk data generation unit for generating junk data by dividing, encrypting, and compressing entire data; a hash map generator for generating a hash map including hash information of each of the junk data, identifier information of the entire data, and hash information of the entire data; a hash map transmission unit for transmitting the generated hash map; and a junk data transmitter configured to transmit the encrypted junk data in parallel using a plurality of channels after transmitting the hash map.

Junk data parallel receiving apparatus according to a fifth aspect (ASPECT) of the present invention for achieving the above technical problem is a hash including hash information for each of junk data, identifier information of all data, and hash information of the entire data a hash map receiving unit for receiving a map (Hash Map); a junk data receiver configured to receive junk data in parallel using a plurality of channels; and data generation for generating the entire data by merging the received junk data using identifier information of all data included in the header of each of the received junk data and information on a reference number of the corresponding junk data. may include wealth.

According to an embodiment, the apparatus for receiving junk data in parallel checks validity of each of the received junk data using information included in the hash map and checksum information included for each received junk data. The apparatus may further include a checker, wherein the data generator may generate the entire data by using the junk data checked to be valid.

According to an embodiment, the received junk data is compressed and encrypted junk data, and the junk data parallel receiving device further comprises a processing unit for decompressing and decrypting each of the received junk data, The validity check unit may check the validity of each of the decoded and decompressed junk data.

According to an embodiment, the apparatus for receiving junk data in parallel may further include a re-request transmitter configured to transmit a re-request signal for the junk data, which has been checked to be invalid.

A method for parallel receiving junk data according to a sixth aspect (ASPECT) of the present invention for achieving the above technical problem is a hash including hash information for each of junk data, identifier information of all data, and hash information of the entire data Receiving a map (Hash Map); receiving junk data in parallel using a plurality of channels; checking the validity of each of the received junk data using information included in the hash map and checksum information included for each received junk data; and merging the received junk data by using the identifier information of the entire data included in the header of each of the junk data checked as valid and the reference number of the corresponding junk data to merge the entire data It may include the step of generating

According to an embodiment, the method for receiving junk data in parallel may further include transmitting a signal for re-requesting the junk data that has been checked to be invalid.

A computer program according to a seventh aspect (ASPECT) of the present invention for achieving the above technical problem is combined with hardware, comprising the steps of: transmitting the junk data divided by the entire data in parallel through a plurality of channels; checking the number of a plurality of currently connected channels and further connecting a new channel when the number of the checked channels is smaller than a preset maximum number of channels; continuously transmitting the junk data through the plurality of currently connected channels and the connected new channel; and if there is a channel unused for more than a preset time among connected channels including the new connected channel, disconnecting the channel not used for more than the preset time. may be stored on the medium.

According to an embodiment of the present invention, it is possible to simultaneously transmit and receive junk data in parallel through a plurality of channels. Accordingly, the present invention can improve data transmission speed.

In addition, according to an embodiment of the present invention, it is possible to manage a channel used to simultaneously and parallelly transmit junk data in order to improve a transmission speed. Therefore, according to the present invention, it is possible to flexibly adjust the channel according to the network conditions to improve the transmission speed and secure the transmission.

In addition, according to an embodiment of the present invention, not only data transmission but also encryption and/or compression can be integrated.

In addition, according to an embodiment of the present invention, it is possible to detect data tampering by a malicious attack.

Effects of the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a flowchart illustrating a method for managing a junk data transmission channel according to an embodiment of the present invention.
2 is a block diagram of an apparatus for managing a junk data transmission channel according to another embodiment of the present invention.
3 is a diagram illustrating an example of a step S100 of a method (S1000) for transmitting junk data in parallel according to another embodiment of the present invention.
4 is a diagram illustrating an example of a process of generating junk data.
5 is a diagram illustrating an example of a hash map.
6 is a flowchart illustrating a method for receiving junk data in parallel according to another embodiment of the present invention.
7 is a block diagram of an apparatus for receiving junk data in parallel according to another embodiment of the present invention.
8 is another configuration diagram of an apparatus for managing a junk data transmission channel according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. Advantages and features of the present invention, and a method for achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments published below, but may be implemented in various different forms, only these embodiments make the publication of the present invention complete, and common knowledge in the technical field to which the present invention pertains It is provided to fully inform the possessor of the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout.

Unless otherwise defined, all terms (including technical and scientific terms) used herein may be used with the meaning commonly understood by those of ordinary skill in the art to which the present invention belongs. In addition, terms defined in a commonly used dictionary are not to be interpreted ideally or excessively unless clearly defined in particular.

In this specification, the singular may also include the plural unless otherwise specified in the phrase. As used herein, "comprises" and/or "comprising" refers to the presence of one or more other components, steps, operations and/or elements mentioned. or addition is not excluded.

1 is a flowchart illustrating a method for managing a junk data transmission channel according to an embodiment of the present invention.

Referring to FIG. 1 , the junk data transmission channel management apparatus 100 generates junk data ( S100 ). A more detailed description of the junk data transmission channel management apparatus 100 according to another embodiment of the present invention will be described later with reference to FIG. 2 .

The junk data transmission channel management apparatus 100 generates a hash map (S150). A more detailed description of the hash map will be described later with reference to FIG. 5 .

The junk data transmission channel management apparatus 100 transmits the generated hash map ( S200 ).

The junk data transmission channel management apparatus 100 transmits the junk data in parallel using a plurality of channels (S250). When the junk data transmission channel management apparatus 100 transmits the junk data in parallel, it may mean that a plurality of pieces of junk data are divided using a plurality of channels and transmitted at the same time. Here, simultaneous transmission does not mean that transmission is started or completed at the same time, but means that at least two or more channels among a plurality of channels are simultaneously transmitting.

Steps S100 to S250 in FIG. 1 may be a flowchart of a method S1000 for transmitting junk data in parallel according to another embodiment of the present invention.

A method for parallel transmission of junk data according to another embodiment of the present invention may be understood with reference to the content to be described later with reference to FIGS. 3 to 6 .

The junk data transmission channel management apparatus 100 checks information on a currently connected channel for the parallel transmission of junk data ( S300 ). The information on the currently connected channel includes information on the number of currently connected channels, and may further include information on the time the channel is used.

When the checked number of currently connected channels is smaller than the preset maximum number of channels ( S350 ), the junk data transmission channel management apparatus 100 may additionally connect a new channel for junk data transmission in order to improve the junk data transmission speed ( S350 ). S400).

The junk data transmission channel management apparatus 100 may additionally connect new channels one by one whenever step S400 is performed once.

However, the junk data transmission channel management apparatus 100 does not necessarily need to additionally connect new channels one by one every time step S400 is performed, and may connect a plurality of new channels.

The junk data transmission channel management apparatus 100 may not additionally connect a new channel when the number of currently connected channels is equal to the preset maximum number of channels.

The junk data transmission channel management apparatus 100 may continuously transmit the junk data in parallel through a plurality of currently connected channels including the additionally connected channels ( S450 ).

When the junk data transmission channel management apparatus 100 determines that additional transmission is necessary (S500), the number of channels is increased until the transmission of the junk data is completed by re-performing steps S300 to S450 to perform parallel transmission. can

If the junk data transmission channel management apparatus 100 determines that the data transmission is complete or that additional transmission is not required, the junk data transmission channel management apparatus 100 may terminate the connection with the channel used for the junk data transmission.

The method for managing a junk data transmission channel according to an embodiment of the present invention may further include terminating the connection with the unused channel when there is an unused channel for more than a preset time ( S550 ).

Information about a channel that is not used for more than a preset time may be included in information about a currently connected channel checked in step S300.

In addition, in the method for managing a junk data transmission channel according to an embodiment of the present invention, when a channel whose connection is terminated due to the existence of a channel unused for more than a preset time exists, for at least a predetermined time after the connection of the channel is terminated may further include stopping the connection of the new channel. This is to prevent additional connection of meaningless channels.

2 is a block diagram of an apparatus for managing a junk data transmission channel according to another embodiment of the present invention.

The description of the junk data transmission channel management method according to an embodiment of the present invention described with reference to FIG. 1 may be applied to the junk data transmission channel management apparatus 100 according to another embodiment of the present invention.

Referring to FIG. 2 , an apparatus 100 for managing a junk data transmission channel according to another embodiment of the present invention includes a junk data generation unit 110 , a hash map generation unit 120 , a hash map transmission unit 130 , and junk data. It may include a transmitter 140 and a channel manager 150 .

The junk data generator 110 generates junk data.

The hash map generator 120 generates a hash map.

The junk data transmitter 140 transmits the generated junk data to an external device.

Here, the external device is a device that receives data transmission. For example, the external device becomes the junk data parallel receiving device 200 .

The hash map transmitting unit 130 transmits the generated hash map to the junk data parallel receiving apparatus 200 .

The channel manager 150 manages a channel used to transmit junk data in parallel.

Specifically, the channel manager 150 may additionally connect channels up to a preset maximum channel.

Also, the channel manager 150 may terminate the connection with a channel not used for transmitting junk data that is not used for more than a preset time.

3 is a diagram illustrating an example of a step S100 of a method (S1000) for transmitting junk data in parallel according to another embodiment of the present invention.

The contents described with reference to FIG. 3 may be applied to the junk data transmission channel management method and apparatus according to the embodiment of the present invention described with reference to FIGS. 1 to 2 .

Referring to FIG. 3 , the junk data parallel transmission apparatus 300 divides all data to be transmitted into predetermined sizes ( S111 ).

The junk data parallel transmission device 300 encrypts each of the divided data (S113).

The junk data parallel transmission apparatus 300 includes identifier (File ID) information of all data and reference number information of the corresponding junk data in a header of the encrypted data (S115).

The reference number information of the corresponding junk data is information indicating information about the order number of each junk data. That is, the reference number is information indicating which part (or number) of the whole data corresponds to the junk data itself.

For example, when the number of divided data is m and the corresponding junk data corresponds to data of the second order among all data, reference number information of the corresponding data may be 2/m. In other words, each junk data includes its own reference number information in its header. A more detailed description will be given later with reference to FIG. 4 .

In addition, the junk data parallel transmission apparatus 300 includes information for a checksum in each of the divided data (S117).

Junk data parallel transmission apparatus 300 may generate junk data by compressing each divided data generated through steps S111 to S119 (S119).

Referring to FIG. 3 , data generated including all steps S111 to S119 is described as junk data, but this is not necessarily the case.

That is, the compression or encryption process may be excluded, and the one generated in any of steps S111 to S119 may be used as junk data.

In addition, each data obtained by dividing the entire data may be viewed as junk data. In this case, junk data can be encrypted, information is included in a header, information for checksum is included, and the compressed data can be viewed as finally generated junk data.

4 is a diagram illustrating an example of a process of generating junk data.

Referring to FIG. 4 , the entire data 41 to be transmitted is divided into m pieces with a predetermined size.

That is, the entire data 41 may be divided into first junk data 42 , second junk data 43 , ???, and mth junk data 44 .

As an example, a process in which the second junk data 43 finally becomes junk data will be described.

The second junk data 43 becomes the encrypted junk data 45 through encryption. The header portion 46 of the encrypted junk data may include an identifier (File ID) 46a of all data and 2/m (46b) which is reference number information of the second junk data.

The identifier of the entire data and the reference number information of the data are not necessarily included in the header part.

The information included in the header part of the second junk data may be later used to merge the junk data in a device that has received the junk data.

The encrypted data may additionally include information 47 for checksum.

Junk data including the encrypted data added information 46 and 47 may become data 48 whose size is reduced through a compression process.

5 is a diagram illustrating an example of a hash map.

Referring to FIG. 5 , the hash map includes a file name 51 of all data, identifier information 52 of all data, a total number of junks 53, total data hash information 54, and checksum hash information 55 can do.

The identifier information 52 of all data may be used by the receiving side to determine which junk data the corresponding junk data is.

The checksum hash information 55 includes hash information for each junk data. Hash information for each piece of junk data may be used at the receiving side of the junk data for validation through a checksum.

In addition, the entire data hash information 54 may be used to perform validation, data merging, and the like at the receiving end.

The junk data receiving side such as the junk data parallel receiving apparatus 200 may generate total data by merging the junk data using a hash map.

Junk data parallel receiving device 200 using a hash map to merge junk data to generate full data and check validity, the junk data parallel transmitting device 300 is a hash map before transmitting the junk data. can be sent first.

A more detailed description of a method and apparatus for receiving junk data in parallel will be described with reference to FIGS. 6 and 7 .

6 is a flowchart illustrating a method for receiving junk data in parallel according to another embodiment of the present invention.

Referring to FIG. 6 , the parallel junk data receiving apparatus 200 receives a hash map from the junk data parallel transmitting apparatus 300 ( S610 ).

The apparatus 200 for receiving junk data in parallel receives junk data transmitted in parallel using a plurality of channels ( S620 ).

The junk data parallel receiving apparatus 200 may check the validity of each junk data using the hash map and checksum information (S630).

The junk data parallel receiving apparatus 200 may generate total data by merging junk data using the hash map and header information ( S640 ).

As described above, the junk data parallel transmission apparatus 300 may first transmit the hash map before transmitting the junk data.

Accordingly, the junk data parallel receiving apparatus 200 may first receive the hash map before receiving the junk data.

When the junk data parallel receiving apparatus 200 first receives the hash map, validity of the received junk data can be checked based on the hash map and data can be merged.

7 is a block diagram of an apparatus for receiving junk data in parallel according to another embodiment of the present invention.

The contents described with reference to FIG. 7 may be applied to a method for receiving junk data in parallel according to another embodiment of the present invention.

Referring to FIG. 7 , the junk data parallel reception apparatus 200 includes a reception unit 210 , a processing unit 220 , and a data generation unit 240 , and may further include a re-request transmission unit 250 .

The receiver 210 may include a hash map receiver (not shown) and a junk data receiver (not shown). The hash map receiver receives the hash map. The junk data receiving unit receives junk data.

The receiving unit 210 first receives the hash map from the junk data parallel transmission device 300 before receiving the junk data.

Also, the receiver 210 may receive junk data in parallel using a plurality of channels.

When the received junk data is compressed, the processing unit 220 may decompress the compression.

Also, when the received junk data is encrypted, the processing unit 220 decrypts it.

The validity check unit 230 may check the validity of each of the decompressed and decrypted junk data.

Specifically, an example of a method for the validity check unit 230 to check the validity will be described with reference to FIGS. 4 and 5 together.

The validation unit 230 checks the validity of the junk data by using the checksum hash information 55 of the received hash map table, information about the reference number of the corresponding junk data included in the header file of each junk data, and checksum information can do.

More specifically, as an example of the validation check for the second junk data, the validation unit 230 includes 2/m information that is a reference number of the corresponding (here, the second) junk data included in the header file of the received second junk data. (46b) is obtained. The validation unit 230 compares the hash information (esdft4sdfasfasfe3rsf...es) for checking the checksum of the junk data corresponding to the reference number 2/m using the received hash map with the checksum information 47 of the received second junk data. so that the validity can be checked.

The validity check unit 230 may check validity using a method such as a cyclic redundancy check (CRC) and check whether there is an error in the received junk data.

If there is junk data determined to be invalid by the validity check unit 230 , the re-request transmission unit 250 transmits a signal requesting retransmission of the junk data determined to be invalid to the junk data parallel transmission device 300 . can

The data generator 240 may generate whole data by merging the validated junk data.

Specifically, an example in which the data generator 240 merges junk data will be described with reference to FIGS. 4 and 5 together.

The data generation unit 240 compares the identifier information of the entire data included in the header of each junk data with the entire data identifier information 52 of the hash map to determine whether the received junk data is junk data constituting the whole data. have.

The data generator 240 may determine where each piece of junk data corresponds to among whole data by using information about a reference number of the corresponding junk data included in the header of each piece of junk data.

thus. The data generator 240 may merge the junk data by using information about the reference number of the corresponding junk data included in the header of each junk data.

The data generator 240 may perform a process of confirming whether all data generated by merging is the same as the total data to be received.

Specifically, for example, the data generator 240 compares the hash information 54 of all data included in the hash map with the hash of all generated data to determine whether the data is the same as the total data to be received. .

8 is another configuration diagram of an apparatus for managing a junk data transmission channel according to an embodiment of the present invention.

The junk data transmission channel management apparatus 100 may have the configuration shown in FIG. 8 .

Junk data transmission channel management apparatus 100 includes a processor 1 that executes a command, a memory 2 such as RAM, a storage 3 in which program data is stored, and a network interface 4 for transmitting and receiving data with an external device. , a data bus 5 that is connected to the processor 1 and the memory 2 to become a data movement path.

Junk data transmission channel management device 100 as well as junk data parallel transmission device 300 and junk data parallel reception device 200, like the junk data transmission channel management device 100, processor, memory, storage, interface and It may be configured to include a bus.

According to an embodiment of the present invention, it is possible to simultaneously transmit and receive junk data in parallel through a plurality of channels. Accordingly, the present invention can improve data transmission speed.

In addition, according to an embodiment of the present invention, it is possible to manage a channel used to simultaneously and parallelly transmit junk data in order to improve a transmission speed. Therefore, according to the present invention, it is possible to flexibly adjust the channel according to the network conditions to improve the transmission speed and secure the transmission.

In addition, according to an embodiment of the present invention, not only data transmission but also encryption and/or compression can be integrated. In addition, according to an embodiment of the present invention, it is possible to detect data tampering by a malicious attack.

Each component of FIGS. 2 and 7 may mean software or hardware such as a field-programmable gate array (FPGA) or an application-specific integrated circuit (ASIC). However, the components are not meant to be limited to software or hardware, and may be configured to be in an addressable storage medium or configured to execute one or more processors. The functions provided in the components may be implemented by more subdivided components, or may be implemented as one component that performs a specific function by combining a plurality of components.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, those of ordinary skill in the art to which the present invention pertains can realize that the present invention can be embodied in other specific forms without changing the technical spirit or essential features. you will be able to understand Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

Claims (25)

generating junk data by dividing the entire data;
generating a hash map for the junk data;
transmitting the hash map;
transmitting the junk data in parallel through a plurality of channels;
checking the number of a plurality of currently connected channels and further connecting a new channel when the number of the checked channels is less than a preset maximum number of channels;
transmitting the junk data through the plurality of currently connected channels and the connected new channel; and
If there is a channel unused for more than a preset time among connected channels including the connected new channel, disconnecting the unused channel for more than the preset time,
The hash map includes identifier information of the entire data, and hash information of the entire data,
The junk data are merged with each other in the junk data parallel receiving device,
The merging of the junk data is
i) verifying the validity of each of the junk data using checksum information included in each of the junk data, ii) based on the identifier information of the entire data included in the hash map, the junk data is confirming that it is junk data constituting the entire data, iii) checking the order in the total data of each of the junk data based on information about a reference number included in a header of each of the junk data, iv ) based on the hash information of the entire data included in the hash map, the method of checking whether the data generated by merging the junk data is the same data as the total data, the junk data transmission channel management method. According to claim 1,
The step of further connecting the new channel comprises:
When the number of the confirmed channels is smaller than the preset maximum number of channels, one new channel is further connected,
and when the sum of the number of the one new channel and the plurality of currently connected channels is smaller than the preset number of channels, further connecting one new channel. According to claim 1,
The step of terminating the connection of the channel comprises:
When the transmission of the junk data is completed and there is no transmission of additional data, the connection with all currently connected channels is terminated. According to claim 1,
In the step of terminating the connection of the channel, if there is a channel for which the connection is terminated due to the existence of the unused channel,
The step of further connecting the new channel comprises:
A method for managing a junk data transmission channel, wherein the connection of the new channel is stopped for at least a predetermined period of time after the connection of the channel is terminated. delete delete delete delete a junk data generation unit generating junk data by dividing the entire data;
a junk data transmitter configured to transmit the junk data in parallel through a plurality of channels; and
and a channel management unit that checks the number of currently connected plurality of channels and further connects a new channel when the number of the checked channels is less than a preset maximum number of channels;
The junk data transmission unit transmits the junk data through the plurality of currently connected channels and the connected new channel,
If there is a channel unused for a preset time or longer among connected channels including the new connected channel, the channel manager terminates the connection of the unused channel for more than the preset time (Disconnect),
The junk data generator generates a hash map for the junk data,
The junk data transmission unit transmits the hash map,
The hash map includes identifier information of the entire data, and hash information of the entire data,
The junk data are merged with each other in the junk data parallel receiving device,
The merging of the junk data is
i) verifying the validity of each of the junk data using checksum information included in each of the junk data, ii) based on the identifier information of the entire data included in the hash map, the junk data is confirming that it is junk data constituting the entire data, iii) checking the order in the total data of each of the junk data based on information about a reference number included in a header of each of the junk data, iv ) based on the hash information of the entire data included in the hash map, the junk data transmission channel management apparatus is performed by a method of confirming whether the data generated by merging the junk data is the same data as the entire data. 10. The method of claim 9,
The channel management unit,
When the number of the confirmed channels is smaller than the preset maximum number of channels, one new channel is further connected,
When the sum of the number of the one new channel and the plurality of currently connected channels is smaller than the preset number of channels, the apparatus for managing a junk data transmission channel further connects one new channel. 10. The method of claim 9,
The junk data generation unit,
Further comprising the process of encrypting and compressing each of the junk data,
The junk data transmission unit, the junk data transmission channel management apparatus for transmitting the encrypted and compressed junk data. delete delete delete delete delete delete delete a hash map receiving unit for receiving a hash map including hash information for each of the junk data, identifier information of all data, and hash information of the entire data;
a junk data receiver configured to receive junk data in parallel using a plurality of channels; and
A data generator for merging the junk data by using identifier information of all data included in the header of each of the junk data and information on a reference number of the corresponding junk data
The data generation unit,
i) verifying the validity of each of the junk data using checksum information included in each of the junk data;
ii) confirming that the junk data are junk data constituting the entire data based on the identifier information of the entire data included in the hash map;
iii) ascertaining an order in the total data of each of the junk data based on the information about the reference number;
iv) based on the hash information of the entire data included in the hash map, confirming whether the data generated by merging the junk data is the same data as the entire data,
The junk data and the hash map are transmitted through the plurality of channels by a junk data transmission channel management device,
The junk data transmission channel management device,
Check the number of a plurality of currently connected channels, and if the number of the checked channels is less than the preset maximum number of channels, further connect new channels, and among the connected channels including the connected new channels, there is a channel unused for a preset time or longer In the case of disconnecting a channel that is not used for more than the preset time, the junk data parallel receiving device. 20. The method of claim 19,
The junk data parallel receiving device,
The apparatus for parallel receiving junk data, further comprising a validation unit for checking the validity of each of the received junk data using information included in the hash map and checksum information included for each received junk data. 21. The method of claim 20,
The received junk data is compressed and encrypted junk data,
The junk data parallel receiving device,
Further comprising a processing unit for decompressing and decoding each of the received junk data,
The validity check unit checks the validity of each of the decoded and decompressed junk data, the junk data parallel receiving device. 21. The method of claim 20,
The junk data parallel receiving device,
Further comprising a re-request transmitter for transmitting a signal for re-requesting the junk data, which has been checked to be invalid, the junk data parallel receiving device. Receiving a hash map (Hash Map) including hash information for each of the junk data, identifier information of the entire data, and the hash information of the entire data;
receiving junk data in parallel using a plurality of channels;
checking the validity of each of the junk data using information included in the hash map and checksum information included for each junk data; and
A step of merging the junk data by using the identifier information of the entire data included in the header of each of the junk data checked as valid and information about the reference number of the corresponding junk data,
The step of merging the junk data includes:
i) verifying the validity of each of the junk data using checksum information included in each of the junk data;
ii) confirming that the junk data are junk data constituting the entire data based on the identifier information of the entire data included in the hash map;
iii) ascertaining an order in the total data of each of the junk data based on the information about the reference number;
iv) based on the hash information of the entire data included in the hash map, confirming whether the data generated by merging the junk data is the same data as the entire data,
The junk data and the hash map are transmitted through the plurality of channels by a junk data transmission channel management device,
The junk data transmission channel management device,
Check the number of a plurality of currently connected channels, and if the number of the checked channels is less than the preset maximum number of channels, further connect new channels, and among the connected channels including the connected new channels, there is a channel unused for a preset time or longer In the case of disconnecting a channel that is not used for more than the preset time, a parallel receiving method of junk data. 24. The method of claim 23,
The junk data parallel reception method,
The method of receiving junk data in parallel, further comprising the step of transmitting a signal for re-requesting the junk data checked as invalid A computer program stored in a medium for performing a junk data transmission channel management method in combination with hardware, comprising:
The junk data transmission channel management method comprises:
generating junk data by dividing the entire data;
generating a hash map for the junk data;
transmitting the hash map;
transmitting the junk data in parallel through a plurality of channels;
checking the number of a plurality of currently connected channels and further connecting a new channel when the number of the checked channels is less than a preset maximum number of channels;
transmitting the junk data through the plurality of currently connected channels and the connected new channel; and
If there is a channel unused for more than a preset time among connected channels including the connected new channel, disconnecting the unused channel for more than the preset time,
The hash map includes identifier information of the entire data, and hash information of the entire data,
The junk data are merged with each other in the junk data parallel receiving device,
The merging of the junk data is
i) verifying the validity of each of the junk data using checksum information included in each of the junk data, ii) based on the identifier information of the entire data included in the hash map, the junk data is confirming that it is junk data constituting the entire data, iii) checking the order in the total data of each of the junk data based on information about a reference number included in a header of each of the junk data, iv ) Performing a junk data transmission channel management method, which is performed by a method of confirming whether data generated by merging the junk data based on the hash information of the entire data included in the hash map is the same data as the entire data A computer program stored on a medium for

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