KR102120611B1 - Backup data management system based on bitcoin reward, and method thereof - Google Patents

Abstract

The present invention relates to a system for managing backup data based on bitcoin compensation and a method thereof. The method comprises: a first step in which a backup and bitcoin compensation server (300) receives data stored in a designated directory on a storage memory of a user terminal (100) in a preset cycle or in real time; a second step in which the backup and bitcoin compensation server (300) forms group information according to group identification number formed by the first user terminal (100); a third step in which the backup and bitcoin compensation server (300) checks whether a category is first event information of a failure, second event information of an accident, third event information of data recovery, and fourth event information of information confirmation; and a fourth step in which the backup and bitcoin reward server (300) controls transfer of bitcoin by the user terminal (100) to a name of another user terminal (100) responding to help through a bitcoin transaction server (700). Thereby, the system and method may provide an effect capable of activating transaction of bitcoin.

Description

Backup data management system based on bitcoin reward, and method thereof

The present invention relates to a bitcoin compensation-based backup data management system and method, more specifically, according to the type of event occurring on the terminal while using data backup on each user terminal after being assigned to one group. Bitcoin not only provides differentiated data backup service and compensates with Bitcoin, but also activates P2P backup data exchange between each user terminal and rewards group users who helped with Bitcoin, thereby enabling Bitcoin transactions It relates to a compensation-based backup data management system and method.

Terminals for institutions, businesses, individuals, etc. basically introduce and operate systems or data backup systems to minimize the voids or paralysis caused by data loss or damage.

Accordingly, the resident program on each terminal protects the system and data by backing up the current system state and data using a system backup and/or data backup algorithm when the user's designated date, period, or data capacity is exceeded. have.

However, these system backup and/or data backup algorithms not only take a lot of time for backup, but also require a lot of terminal resources, such as the way of saving the entire storage memory itself for each data and the image data storage structure. By occupying, there is a problem that hinders the performance of the terminal, and there has been a limitation in that the user himself cannot manage his own terminal resource by relying only on the program.

In addition, although one terminal's own backup or data backup through a backup server is the limitation of the main backup process, the user terminal itself constituting the group between the groups performing the same operating system and tasks is also used as a medium to exchange backup data. In this case, the efficiency of data backup will be improved.

Republic of Korea Patent Application No. 10-2018-0076661 (2018.07.02) "Software development system and method using blockchain capable of developer compensation (SOFTWARE DEVELOPMENT SYSTEM THAT CAN REWARD SOFTWARES USING BLOCK CHAIN)"

The present invention is to solve the above problems, while providing data backup on each user terminal after being assigned to one group, providing a differential data backup service according to the type of event occurring on the terminal and compensating with Bitcoin To provide a Bitcoin compensation based backup data management system and a method for doing so.

In addition, the present invention is a bitcoin compensation based backup data management system and method for activating P2P backup data exchange between each user terminal and rewarding group users who helped with bitcoin, thereby enabling the transaction of bitcoin It is intended to provide.

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

In order to achieve the above object, a method for managing backup data based on bitcoin compensation according to an embodiment of the present invention includes a backup and bitcoin compensation server 300 on a storage storage server 400 for each user terminal 100 Allocating storage space and receiving data stored in the designated directory on the storage memory of the user terminal 100 through the network 200 based on the cloud from each user terminal 100 as the allocated storage space in a preset cycle or in real time First step; The backup and Bitcoin reward server 300 requests a group formation request for a member ID of a user operating another user terminal 100 corresponding to another member based on SNS from each user terminal 100 subscribed as each member. A second step of forming group information according to the group identification number formed by the first user terminal 100 by transmitting to the user terminal 100 and receiving an acceptance request from another user terminal 100; After the backup and bitcoin compensation server 300 classifies the category of event information according to a data recovery request including event information from each user terminal 100 belonging to one group identification number, the category is the first event information. A third step of checking whether the failure, the accident as the second event information, the data recovery as the third event information, or the information as the fourth event information is confirmed; And the backup and bitcoin compensation server 300 provides a recovery or verification service matching each event, and after performing data recovery and verification according to the first to fourth event information, recovering data from the user terminal 100 When data recovery and verification are completed through a query for completion, the user terminal 100 is charged by charging the user terminal 100 through the network 200 with a bitcoin for a predetermined failure recovery and verification. Backup through the Bitcoin transaction server 700 and search for a backup directory on the storage memory of another user terminal 100 belonging to the same group identification number or previously controlled by Bitcoin in the name of the Bitcoin reward server 300 In the name of another user terminal 100 responding to help through the Bitcoin transaction server 700 by the user terminal 100 after completing data recovery by utilizing the other user terminal 100 as a separate backup storage through A fourth step of controlling bitcoin to be transferred; It may be characterized by including.

In order to achieve the above object, in the backup data management system based on Bitcoin compensation according to an embodiment of the present invention, at least one user terminal group 100g consisting of a plurality of user terminals 100 is formed. In the backup data management system 1 based on bitcoin compensation including the backup 200 and the bitcoin compensation server 300, the backup and bitcoin compensation server 300 is stored for each user terminal 100 Allocate storage space on the storage server 400, and pre-store the data stored in the designated directory on the storage memory of the user terminal 100 through the network 200 based on the cloud from each user terminal 100 as the allocated storage space. A member subscription module 321 that receives in a set cycle or in real time; A group formation request for a member ID of a user who operates another user terminal 100 corresponding to another member based on SNS is transmitted from each user terminal 100 registered as each member to another user terminal 100 and another user A group forming module 322 for forming group information according to the group identification number formed by the first user terminal 100 by receiving an acceptance request from the terminal 100; And the backup and bitcoin reward server 300 classifies the category of event information according to a data recovery request including event information from each user terminal 100 belonging to one group identification number, and then the category is the first event information. To check whether it is a failure, an accident that is the second event information, a data recovery that is the third event information, or an information confirmation that is the fourth event information, and provides a recovery or verification service matching each event, and the first to fourth events After performing data recovery and verification according to the information, when data recovery and verification is completed through a query for whether data recovery is complete from the user terminal 100, the cost for the predetermined failure recovery and verification is networked by bitcoin ( By claiming to the user terminal 100 through 200), the bitcoin is previously controlled by the user terminal 100 through the bitcoin transaction server 700 and in the name of the bitcoin reward server 300, or other same group Bitcoin is performed by the user terminal 100 after completing data recovery by using the other user terminal 100 as a separate backup storage by searching for a backup directory on the storage memory of the other user terminal 100 belonging to the identification number. An event-based data backup module 323 that controls the transfer of bitcoin in the name of another user terminal 100 that responds to the help through the transaction server 700; It may be characterized by including.

Bitcoin compensation-based backup data management system and method according to an embodiment of the present invention, differentiated data according to the type of event occurring on the terminal while using data backup on each user terminal after being assigned to one group It provides a backup service and an effect that can be compensated with Bitcoin.

In addition, the bitcoin compensation-based backup data management system and method according to another embodiment of the present invention enable P2P backup data exchange between each user terminal and compensate the group users who helped with bitcoin, thereby It can provide an effect that can be used to activate coin trading.

1 is a diagram illustrating a backup data management system 1 based on bitcoin compensation according to an embodiment of the present invention.
2 is a block diagram showing components of a backup and bitcoin compensation server 300 among the backup data management system 1 based on bitcoin compensation according to an embodiment of the present invention.
3 is a flowchart illustrating a method for managing backup data based on Bitcoin compensation according to an embodiment of the present invention.

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

In the present specification, when one component'transmits' data or a signal to another component, the component may directly transmit the data or signal to another component, and through at least one other component This means that data or signals can be transmitted to other components.

1 is a diagram illustrating a backup data management system 1 based on bitcoin compensation according to an embodiment of the present invention. Referring to FIG. 1, in the bitcoin compensation-based backup data management system 1, at least one user terminal group 100g formed of a plurality of user terminals 100 is formed, in addition to the network 200, backup and It may include a Bitcoin reward server 300, a storage storage server 400, a backup log storage server 500, an AI server 600, and a Bitcoin transaction server 700.

Here, each user terminal group 100g is composed of a plurality of user terminals 100 operated by users who perform the same work or other work with the same purpose, and one on the backup and bitcoin compensation server 300. It can be managed by the group identification number.

The network 200 is a communication network, which is a high-speed period network of a large communication network capable of large-capacity, long-distance voice and data services, and may be the next-generation wired and wireless network for providing high-speed multimedia services. When the network 200 is a mobile communication network, it may be a synchronous mobile communication network or an asynchronous mobile communication network. An example of an asynchronous mobile communication network is a wideband code division multiple access (WCDMA) communication network. In this case, although not shown in the drawing, the mobile communication network 700 may include a radio network controller (RNC). On the other hand, although the WCDMA network is taken as an example, it may be a 3G LTE network, a 4G network, a next-generation communication network such as 5G, or an IP network based on other IPs. The network 200 includes a user terminal group 100g consisting of a plurality of user terminals 100, a backup and bitcoin compensation server 300, a storage storage server 400, a backup log storage server 500, and an AI server 600 ), Bitcoin transaction server 700, and serves to mutually transfer signals and data between other systems.

2 is a block diagram showing the components of a backup and bitcoin compensation server 300 among the backup data management system 1 based on bitcoin compensation according to an embodiment of the present invention. Referring to FIG. 2, the backup and bitcoin reward server 300 includes a transceiver 310, a controller 320, and a database 330, and the controller 320 is a member registration module 321 and a group forming module. 322, an event-based data backup module 323, and a block unit recovery providing module 324.

The member registration module 321 is a user individual including a member ID and password, and a terminal identification number (IP address) of the user terminal 100 according to access through the network 200 from each user terminal 100 After controlling the transceiver 310 to receive the information, the user's personal information may be stored in the database 330.

Subsequently, the member registration module 321 allocates storage space on the storage storage server 400 for each user terminal 100, and uses the cloud 200 from the user terminal 100 as a cloud-based network as the allocated storage space. Through this, the transceiver 310 may be controlled to receive data stored in a designated directory on the storage memory of the user terminal 100 in a predetermined cycle or in real time.

The group formation module 322 requests a group formation request for a member ID of a user operating another user terminal 100 corresponding to another member based on SNS from each user terminal 100 subscribed as each member to another user terminal ( 100) and controls the transceiver 310 to receive an accept request from another user terminal 100, thereby forming group information according to the group identification number formed by the first user terminal 100.

Accordingly, the event-based data backup module 323 allocates storage space on the storage storage server 400 for each group identification number, and the allocated storage space is based on the cloud from each user terminal 100 belonging to the group identification number. By transmitting/receiving unit 310 to receive data stored in a designated directory on the storage memory of the user terminal 100 through a network 200 in a predetermined cycle or in real time, a lower category of each group identification number on the storage story server 400 It can be controlled to store for each member ID category belonging to.

Thereafter, the event-based data backup module 323 classifies the category of event information according to a data recovery request including event information from each user terminal 100 belonging to one group identification number, and then the category is the first event information. It is possible to check whether or not the failure, the accident that is the second event information, the data recovery that is the third event information, and the information that is the fourth event information.

Thereafter, the event-based data backup module 323 is a user terminal 100 and a network 200 that transmits a data recovery request when incompatibilities and failures of each program on the terminal, which are various events occurring on the user terminal 100, occur. After connecting the data session through ), it analyzes whether it is a system directory for at least one backup directory designated as a backup directory on the storage memory of the user terminal 100, extracts the analyzed backup directory first, and then extracts the backup. Each backup data within the preset period from the current period among the preset period or real-time reception information before the data recovery request including the event information in the directory is received from the user terminal 100 to the storage storage server 400 according to its relay After providing each time information for each received period or in real time, the transceiver 310 may be controlled to receive one selected time information from the user terminal 100.

Accordingly, the event-based data backup module 323 receives the backup data of the time information received from the user terminal 100 from the storage storage server 400, and then, among the received backup data, all file data included in the system directory By controlling the transceiver 310 to transmit the data to the user terminal 100 requesting data recovery through the network 200, to recover the system directory to a time state corresponding to the time information by the recovery program on the user terminal 100 Can be controlled.

Meanwhile, the event-based data backup module 323 queries whether the data recovery is complete from the user terminal 100 after data recovery on the user terminal 100 for the backup data provided on the storage storage server 400 is performed. When the data recovery is completed through, by charging the user terminal 100 through the network 200 as a bitcoin cost for the predetermined failure recovery, by the user terminal 100 through the bitcoin transaction server 700 Bitcoin may be transferred in the name of the backup and bitcoin reward server 300.

Conversely, the event-based data backup module 323 recovers data through the network 200 when data recovery is not completed through a query for whether data recovery is complete from the user terminal 100 after data recovery is performed. Through the query for the requested user terminal 100, the installation history or usage history of each program before time information selected for data recovery may be queried, and the queried installation history and usage history may be received and stored in the database 330. .

Subsequently, the event-based data backup module 323 transmits and receives a failure help request including the received installation history and usage history to another user terminal 100 belonging to the same group identification number through the network 200 (310). By controlling the, the network 200 receives a failure help response from at least one other user terminal 100 having the same installation history and usage history by each other user terminal 100 but not receiving a data recovery request including event information. ) To control the transceiver 310 to receive.

Accordingly, the event-based data backup module 323 is a member ID of another user terminal 100 that transmits a failure help response to the storage storage server 400 and recovers data in which the system directory of the backup directory includes failure event information. If it matches the user terminal 100 that sent the request, after receiving through the request to provide all file data included in the system directory among the backup data received for the other user terminal 100 that sent the failure help response , By controlling the transmitting and receiving unit 310 to transmit all the file data included in the system directory among the returned backup data to the user terminal 100 to request data recovery through the network 200, to the recovery program on the user terminal 100 By doing so, it is possible to control the system directory to be restored to a time state corresponding to the time information.

Accordingly, the event-based data backup module 323 determines whether data recovery is completed from the user terminal 100 after data recovery on the user terminal 100 for backup data provided on the storage storage server 400 is performed. When data recovery is completed through an inquiry, the bitcoin transaction server 700 is requested by the user terminal 100 by charging the user terminal 100 through the network 200 as a bitcoin fee for a predetermined failure recovery. Through this, bitcoin can be transferred in the name of another user terminal 100 that responds to the failure help.

According to another embodiment of the present invention, when the event information is an accident due to an illegal intrusion of a virus from the outside, the event-based data backup module 323 stores not only the system directory but also a system directory among designated directories on the storage memory of the user terminal 100 After extracting the directory, each backup data within the preset period from the current among the preset period or real-time reception information before the data recovery request including the event information among the extracted directories is received by period or real time, which is the received time information. After providing, the transmitting and receiving unit 310 may be controlled to receive time information from the user terminal 100.

Accordingly, the event-based data backup module 323 receives the backup data of the time information received from the user terminal 100 from the storage storage server 400, and then for each of the system directory and storage directory included in the backup data Through a data session connection through the user terminal 100 and the network 200, a configuration directory different for each system and storage directory on the storage memory of the current user terminal 100 can be extracted.

The event-based data backup module 323 transmits a delete request for the added configuration directory to the user terminal 100 through the network 200 when there is a different configuration directory, and the configuration directory is deleted. If it is, the transmission/reception unit 310 may be controlled to transmit an additional request based on the backup data on the storage storage server 400 for the deleted configuration directory to the user terminal 100 through the network 200.

On the other hand, the event-based data backup module 323 first transmits the unhiding of the hidden file for each system directory to the user terminal 100 through the network 200 when there is no changed configuration directory, and then the user terminal For each system directory in the storage memory of the (100) and each system directory in the directory for each member ID on the storage storage server 400, the files deleted through the inspection of the files for each system directory are stored on the storage storage server 400 The transmitting and receiving unit 310 is controlled to be provided from each system directory of each member ID directory to each system directory of the storage memory of the user terminal 100. Conversely, for files added through inspection, the storage memory of the user terminal 100 The transmitting and receiving unit 310 may be controlled to transmit a control command to be deleted on each system directory to the user terminal 100 through the network 200.

Subsequently, the event-based data backup module 323 queries the user terminal 100 to determine whether or not the recovery of an accident is completed through the network 200. When the recovery is completed, only the recovery of the system directory is completed in the absence of a changed configuration directory. And the transmission and reception unit 310 may be controlled to transmit the completion of the recovery to the user terminal 100 through the network 200.

Conversely, the event-based data backup module 323 queries the user terminal 100 to determine whether or not recovery of an accident is completed through the network 200. For each storage directory of the storage memory of the terminal 100 and each storage directory of each directory of each member ID on the storage storage server 400, the storage storage server 400 for the files deleted through a check for files for each storage directory The transmitting and receiving unit 310 is controlled to be provided to each storage directory of the storage memory of the user terminal 100 from each storage directory of the directory for each member ID of the user. For the files added through the inspection, the storage memory of the user terminal 100 The transmitting and receiving unit 310 may be controlled to transmit a control command to be deleted on each storage directory of the user terminal 100 through the network 200.

In this case, the event-based data backup module 323 determines whether data recovery is completed from the user terminal 100 after data recovery on the user terminal 100 for backup data provided on the storage storage server 400 is performed. When data recovery is completed through a query, the bitcoin transaction server 700 is requested by the user terminal 100 by charging the user terminal 100 through the network 200 with Bitcoin for a predetermined accident recovery cost. Through this, it is possible to transfer bitcoin in the name of the backup and bitcoin reward server 300.

Conversely, the event-based data backup module 323 recovers data through the network 200 when data recovery is not completed through a query for whether data recovery is complete from the user terminal 100 after data recovery is performed. Query the requested user terminal 100 to query the history of each backup directory and the file data change in each backup directory before the selected time information for data recovery, and the history of the file data change in each backup directory and each backup directory It can be received and stored in the database 330.

Subsequently, the event-based data backup module 323 requests an accident help request including each received backup directory and file data change history in each backup directory through the network 200 to another user terminal 100 belonging to the same group identification number. By controlling the transmitting and receiving unit 310 to transmit to, each of the same backup directory by each different user terminal 100 and the file data change history inside each backup directory, but the data recovery request containing the accident event information is not received The transceiver 310 may be controlled to receive an accident help response from at least one other user terminal 100 through the network 200.

Accordingly, the event-based data backup module 323 is a member ID of another user terminal 100 that has transmitted an accident help response to the storage storage server 400, and all backup directories request data recovery including accident event information. If it matches the transmitted user terminal 100, it is returned after receiving through the request to provide all file data included in all directories among the backup data received for the other user terminal 100 that transmitted the incident help response. By controlling the transmitting and receiving unit 310 to transmit all file data included in all directories among the backup data to the user terminal 100 requesting data recovery through the network 200, the time by the recovery program on the user terminal 100 You can control to restore all directories to a time state corresponding to the information.

Accordingly, the event-based data backup module 323 determines whether data recovery is completed from the user terminal 100 after data recovery on the user terminal 100 for backup data provided on the storage storage server 400 is performed. When data recovery is completed through a query, the bitcoin transaction server 700 is requested by the user terminal 100 by charging the user terminal 100 through the network 200 with Bitcoin for a predetermined accident recovery cost. Through this, bitcoin may be transferred in the name of another user terminal 100 that responds to the accident help.

According to another embodiment of the present invention, when the event information is data recovery, the event-based data backup module 323 extracts the storage directory among the designated directories on the storage memory of the user terminal 100, and then the event information in the extracted storage directory After providing each backup data within a preset period from the current period among the preset period or the real-time reception information before the data recovery request including the received periodic or real-time information, the time from the user terminal 100 The transceiver 310 may be controlled to receive information.

Accordingly, the event-based data backup module 323 receives the backup data of the time information received from the user terminal 100 from the storage storage server 400, and the user terminal for each storage directory included in the backup data ( 100) and a data session connection through the network 200, a configuration directory that is different for each storage directory on the storage memory of the current user terminal 100 can be extracted.

The event-based data backup module 323 transmits a delete request for the added configuration directory to the user terminal 100 through the network 200 when there is a different configuration directory, and the configuration directory is deleted. If it is, the transmission/reception unit 310 may be controlled to transmit an additional request based on the backup data on the storage storage server 400 for the deleted configuration directory to the user terminal 100 through the network 200.

On the other hand, the event-based data backup module 323 first transmits the unhiding of the hidden file for each storage directory to the user terminal 100 through the network 200 when there is no changed configuration directory, and then the user terminal For each storage directory of the storage memory of the (100) and each storage directory of the directory for each member ID on the storage storage server 400, the files deleted through the check of the files for each storage directory on the storage storage server 400 The transmitting and receiving unit 310 is controlled to be provided from each storage directory of each member ID directory to each storage directory of the storage memory of the user terminal 100. Conversely, for files added through inspection, the storage memory of the user terminal 100 The transmitting and receiving unit 310 may be controlled to transmit a control command to be deleted on each storage directory of the user terminal 100 through the network 200.

Subsequently, the event-based data backup module 323 queries the user terminal 100 whether or not recovery of data recovery is completed through the network 200 and, when the recovery is completed, restores only the storage directory in the absence of a different configuration directory. The transmission and reception unit 310 may be controlled to complete and transmit the recovery completion to the user terminal 100 through the network 200.

Conversely, the event-based data backup module 323 queries the user terminal 100 to determine whether or not data recovery is complete through the network 200. For each system directory of each system directory of the storage memory of the user terminal 100 and each system directory of each member ID on the storage storage server 400, the storage storage server 400 for the files deleted by checking the files for each system directory ) To control the transmitting and receiving unit 310 to be provided to each system directory of the storage memory of the user terminal 100 from each system directory of the directory for each member ID, and, conversely, for files added through the check, the user terminal 100 The transmission/reception unit 310 may be controlled to transmit a control command to be deleted on each system directory of the storage memory to the user terminal 100 through the network 200.

Meanwhile, the event-based data backup module 323 queries whether the data recovery is complete from the user terminal 100 after data recovery on the user terminal 100 for the backup data provided on the storage storage server 400 is performed. When the data recovery is completed through, by charging the user terminal 100 through the network 200 as a bitcoin cost for the preset data recovery, through the bitcoin transaction server 700 by the user terminal 100 Bitcoin may be transferred in the name of the backup and bitcoin reward server 300.

In another embodiment of the present invention, when the event information is information verification, the event-based data backup module 323 extracts all of the designated directories on the storage memory of the user terminal 100, and then includes data including event information among the extracted directories. Before the recovery request is received, each backup data within the preset period from the present among the preset period or real-time reception information is provided for each received time information, either periodically or in real time, and then time information is received from the user terminal 100 The transmitter/receiver 310 can be controlled to do so.

Accordingly, the event-based data backup module 323 receives the backup data of the time information received from the user terminal 100 from the storage storage server 400, and then the user terminal 100 for each directory included in the backup data ) And a data session connection through the network 200 to extract the configuration directory that is different for each directory on the storage memory of the current user terminal 100 to generate first verification information.

On the other hand, the event-based data backup module 323 first transmits the unhiding of the hidden file for each storage directory to the user terminal 100 through the network 200 when there is no changed configuration directory, and then the user terminal For each directory in the storage memory of (100) and each directory in the directory for each member ID on the storage storage server 400, the deleted and added files are checked with the directory information for each directory by checking the files for each directory. The second confirmation information may be generated by extracting together.

Here, when the event-based data backup module 323 has two or more consecutive time information received from the user terminal 100, the first verification information and the second verification information are added according to the flow of time of each time information and The deleted history information can be generated.

Thereafter, the event-based data backup module 323 may control the transceiver 310 to transmit the first verification information, the second verification information, and the history information to the user terminal 100 through the network 200, The transmitting and receiving unit 310 may be controlled to re-receive a data recovery request including time information and event information from the user terminal 100 receiving each information.

After receiving a data recovery request including time information and event information, the event-based data backup module 323 classifies the category of event information included in the data recovery request, and then breaks the category, which is the first event information, and the second event. It is possible to check whether the information is an accident or the third event information is data recovery, and after confirmation, a more precise data recovery can be performed by performing a process according to each event information described above.

Subsequently, the event-based data backup module 323 charges for preset data verification from the user terminal 100 after data verification on the user terminal 100 for backup data provided on the storage storage server 400 is performed. In addition to claiming to the user terminal 100 through the network 200 with Bitcoin, when the failure event, the accident event, and the data recovery event corresponding to each event are additionally performed, the execution cost for each preset event is charged. By claiming to the user terminal 100 through the network 200 with Bitcoin, the backup through the Bitcoin transaction server 700 by the user terminal 100 and the name of the Bitcoin reward server 300, additionally another user Bitcoin may be transferred in the name of the terminal 100.

When the data recovery request according to the first to third event information of each event information is completed, the event-based data backup module 323 performs data recovery, and all designated directories and respective directories on the storage memory of the user terminal 100 before After performing a comparison operation on the file information on each directory and all the directories corresponding to the directory for each member ID on the storage storage server 400 on which the data recovery was performed, and the file information on each directory, the comparison operation log information is displayed. In addition to controlling the transmitting and receiving unit 310 to transmit to the backup log storage server 500 through the network 200, all designated directories on the storage memory of the user terminal 100 where data recovery is completed and file information on each directory By controlling the transmitting and receiving unit 310 so that the update operation is performed to match the directory and file information for each user terminal 100 to the storage storage server 400, the user terminal 100 through the cloud 200 through the network 200 The transceiver 310 may be controlled to receive data stored in a designated directory on the storage memory of the user terminal 100 in a predetermined cycle or in real time.

The event-based data backup module 323 is modified according to the category of event information provided from each user terminal 100 through analysis based on comparison work log information stored in the backup log storage server 500 and AI for each event information. It analyzes whether attribute information for directory and file information is modified, and sets directory and file information for which attribute information is frequently changed to managed directory and file information, so that it can be provided to each user terminal 100 through the network 200. have.

That is, the event-based data backup module 323 can acquire the target directory and file information through the query to the AI server 600 through the network 200, and the AI server 600 receiving the query is a distributed file By analyzing the modified directory and file information, which is the collected data distributed and stored as a category of each event information in the DCS DB by the program through a machine learning algorithm, and finally extracting the managed directory and file information from each modified directory and file information It may be provided to the user terminal 100 through the event-based data backup module 323 through the network 200.

Here, the AI server 600 receives the comparison job log information on the backup log storage server 500 by the distributed file program, and extracts the modified directory and file information, which is collected data distributed and stored in its own DCS DB, as well as In the comparison work log information, after analyzing whether there is modification to general/read-only/hidden file or directory information, capacity information, changed date information, etc. that correspond to at least one attribute information of directory and file information that has not been modified, and then transformed Extraction can be performed with the directory and file information.

In this case, the machine learning algorithm used for the comparative analysis of the at least one attribute information and the modified directory and file information in the AI server 600 includes a decision tree (DT) classification algorithm, a random forest classification algorithm, and SVM ( Support Vector Machine).

More specifically, the AI server 600 analyzes the modified directory and file information, which is data collected and stored in the DCS DB by the distributed file program, and the number of variations for each event category is greater than or equal to a preset number or modified for each event category. When sorting the changed number of times for the directory and file information made in descending order, not only extracts directory and file information included in a preset ranking, but also extracts and extracts at least one attribute information for each directory and file information. As a result of learning by learning attribute information using at least one of a plurality of machine learning algorithms, final directory and file information may be extracted.

That is, the AI server 600 may apply an ensemble structure composed of a number of complementary machine learning algorithms to improve the accuracy of the directory and file information to be managed.

The decision tree classification algorithm is a method of deriving the results by learning in a tree structure, so it is easy to interpret and understand the results, the data processing speed is fast, and the rule can be derived based on the search tree. RF can be applied as a method to improve the low classification accuracy of DT. The random forest classification algorithm is a method of slaughtering a result of learning a large number of DTs as an ensemble. It is difficult to understand the results than DT, but the result accuracy may be higher than DT. SVM can be applied as an improvement method for overfitting that can occur through DT or RF learning. The SVM classification algorithm is a method of classifying data belonging to different classifications on a plane basis, and generally has high accuracy and may have low sensitivity to structural overfitting.

On the other hand, the AI server 500 performs deep learning using refined data after machine learning, but the deep learning method is a cycle time, which is the time required for one entire process when iterating by pattern data formed by analyzing attribute information ( Cycle time) and a method of minimizing a decrease in tact time, which is a maximum time of each attribute information analysis time, may be performed according to transformation and application of a deep learning algorithm program for each attribute information.

Next, the block unit recovery providing module 324 is provided to the user terminal 100 that provides a data recovery and data verification request from the storage storage server 400 or another user terminal 100 for each directory and file data. , After the transmission data is hooked, the change of each directory or file data unit for each transmission data can be formed into a data block and stored in the database 330.

That is, the block unit recovery providing module 324 is configured to respond to each event when data recovery or verification is completed through a data recovery or data verification completion query for the user terminal 100 that provided a data recovery request for each data block unit. After storing the block data in the database 330 as block data, the block data is preferentially provided when a data recovery request including the same event information by another user terminal 100 is received on the same group identification number. Subsequently, a process by the above-described event-based data backup module 323 may be performed.

3 is a flowchart illustrating a method for managing backup data based on Bitcoin compensation according to an embodiment of the present invention. Hereinafter, the overall flow of the method in the process by each component of the backup and bitcoin compensation server 300 described above in FIG. 2 will be mainly described, but for the convenience of description and clarification of the subject matter of the invention, a duplicate description will be given. The description is omitted, but the same action and effect may be provided by corresponding components in each step.

Referring to FIG. 3, the backup and bitcoin reward server 300 is a member ID and password according to access through the network 200 from each user terminal 100, and a terminal identification number of the user terminal 100 After receiving the user's personal information including the (IP address), the user's personal information may be stored in the database 330 (S11).

After the step S11, the backup and bitcoin compensation server 300 allocates storage space on the storage storage server 400 for each user terminal 100, and the storage space is clouded from each user terminal 100 as the allocated storage space. Based on the network 200, data stored in a designated directory on the storage memory of the user terminal 100 may be received in a predetermined cycle or in real time (S12).

After the step S12, the backup and bitcoin reward server 300 is assigned to the member ID of the user operating another user terminal 100 corresponding to another member based on SNS from each user terminal 100 registered as each member. By transmitting a request for forming a group for another user terminal 100 and receiving an acceptance request from another user terminal 100, group information according to the group identification number formed by the first user terminal 100 may be formed (S13). ).

After step S13, the backup and bitcoin compensation server 300 allocates storage space on the storage storage server 400 for each group identification number, and each user terminal 100 belonging to the group identification number as the allocated storage space. Each group on the storage storage server 400 is identified by transmitting/receiving unit 310 to receive data stored in a designated directory on the storage memory of the user terminal 100 through a cloud-based network 200 in a preset cycle or in real time from the cloud 200 It can be stored for each member ID category belonging to the category below the number (S14).

After step S14, the backup and bitcoin reward server 300 classifies the category of event information according to a data recovery request including event information from each user terminal 100 belonging to one group identification number, and then category A may check whether the first event information is a failure, the second event information is an accident, the third event information is data recovery, and the fourth event information is information verification (S15).

After step S15, the backup and bitcoin compensation server 300 provides a recovery or verification service matching each event, and after performing data recovery and verification according to the first to fourth event information, the user terminal ( When data recovery and verification are completed through a query as to whether data recovery is completed from 100), a user terminal 100 is charged by charging the user terminal 100 through the network 200 with Bitcoin for a predetermined failure recovery and verification. Backed up through the Bitcoin transaction server 700 by 100 and backed up on the storage memory of another user terminal 100 belonging to the same group identification number or previously controlled by Bitcoin in the name of the Bitcoin reward server 300 Another user terminal responding to help through the Bitcoin transaction server 700 by the user terminal 100 after completing data recovery by using the other user terminal 100 as a separate backup storage through a search for a directory It is possible to control the transfer of bitcoin in the name of 100) (S16).

The present invention can also be embodied as computer readable codes on a computer readable recording medium. The computer-readable recording medium includes all types of recording devices in which data readable by a computer system is stored.

Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tapes, floppy disks, optical data storage devices, etc., which are also implemented in the form of carrier waves (for example, transmission over the Internet). Also includes.

In addition, the computer-readable recording medium may be distributed over network-connected computer systems so that the computer-readable code is stored and executed in a distributed manner. And functional programs, codes, and code segments for implementing the present invention can be easily inferred by programmers in the technical field to which the present invention pertains.

As described above, in the present specification and drawings, preferred embodiments of the present invention have been disclosed, and although specific terms are used, they are merely used in a general sense to easily describe the technical contents of the present invention and to help understand the invention. , It is not intended to limit the scope of the present invention. It is apparent to those skilled in the art to which the present invention pertains that other modified examples based on the technical idea of the present invention can be implemented in addition to the embodiments disclosed herein.

1: Bitcoin compensation based backup data management system
100: user terminal
100g: User terminal group
200: network
300: backup and Bitcoin reward server
310: transceiver
320: control unit
321: Membership registration module
322: group forming module
323: Event-based data backup module
324: module for providing block unit recovery
330: database
400: storage storage server
500: backup log storage server
600: AI server
700: Bitcoin trading server

Claims (2)

The backup and bitcoin compensation server 300 allocates storage space on the storage storage server 400 for each user terminal 100, and uses the cloud 200 based on the cloud 200 from each user terminal 100 as the allocated storage space. A first step of receiving data stored in a designated directory on a storage memory of the user terminal 100 through a preset cycle or in real time through the;
The backup and Bitcoin reward server 300 requests a group formation request for a member ID of a user operating another user terminal 100 corresponding to another member based on SNS from each user terminal 100 subscribed as each member. A second step of forming group information according to the group identification number formed by the first user terminal 100 by transmitting to the user terminal 100 and receiving an acceptance request from another user terminal 100;
After the backup and bitcoin compensation server 300 classifies the category of event information according to a data recovery request including event information from each user terminal 100 belonging to one group identification number, the category is the first event information. A third step of determining whether a failure, an accident as the second event information, data recovery as the third event information, or information confirmation as the fourth event information; And
After the backup and Bitcoin reward server 300 provides a recovery or verification service matching each event, performs data recovery and verification according to the first to fourth event information, and completes data recovery from the user terminal 100 When data recovery and verification are completed through a query for recognition, the cost for a predetermined failure recovery and verification is charged to the user terminal 100 through the network 200 by bitcoin, thereby being bit by the user terminal 100 Through the coin transaction server 700 and through the search for a backup directory on the storage memory of another user terminal 100 belonging to the same group identification number or previously controlled by bitcoin in the name of the backup and bitcoin reward server 300 After completing data recovery by utilizing the other user terminal 100 as a separate backup storage, the user terminal 100 performs a bit in the name of another user terminal 100 that responds to the help through the bitcoin transaction server 700 A fourth step of controlling coin transfer; Bitcoin compensation based backup data management method comprising a.
At least one user terminal group 100g formed of a plurality of user terminals 100 is formed, and in addition, a network 200, a backup data management system based on bitcoin compensation, including a backup and bitcoin compensation server 300 In (1), the backup and Bitcoin reward server 300 is,
Storage space is allocated on the storage storage server 400 for each user terminal 100, and the storage memory of the user terminal 100 through the network 200 based on the cloud from each user terminal 100 as the allocated storage space A member registration module 321 for receiving data stored in a designated directory on a predetermined cycle or in real time;
A group formation request for a member ID of a user who operates another user terminal 100 corresponding to another member based on SNS is transmitted from each user terminal 100 registered as each member to another user terminal 100 and another user A group forming module 322 for forming group information according to the group identification number formed by the first user terminal 100 by receiving an acceptance request from the terminal 100; And
After the backup and bitcoin reward server 300 classifies the category of event information according to a data recovery request including event information from each user terminal 100 belonging to one group identification number, the category is the first event information. Faults, accidents that are the second event information, data recovery that is the third event information, and whether it is information verification that is the fourth event information, and provides a recovery or verification service matching each event, and the first to fourth event information After performing data recovery and verification according to the case, when data recovery and verification is completed through a query on whether data recovery is completed from the user terminal 100, the cost for the predetermined failure recovery and verification is network 200 with bitcoin. ) Through the user terminal 100, the user terminal 100 through the Bitcoin transaction server 700, and the name of the Bitcoin reward server 300, previously controlled by Bitcoin or other identical group identification Bitcoin transaction by the user terminal 100 after completing data recovery by using the other user terminal 100 as a separate backup storage by searching the backup directory on the storage memory of the other user terminal 100 belonging to the number An event-based data backup module 323 that controls the transfer of bitcoin in the name of another user terminal 100 that responds to help through the server 700; Bitcoin compensation based backup data management system comprising a.

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