JP6782219B2 - Data utilization support device, data utilization support system, and data utilization support method - Google Patents

Description

The present invention relates to a data utilization support device and the like that support the utilization of data managed in a plurality of databases.

In recent years, for the purpose of accelerating technological development, efforts have been made to publish a database of research results and research results, and technologies related to such efforts are known (see, for example, Patent Document 1). For example, in the field of material development, a database on the properties of materials obtained by experiments and simulations is open to the public. In the medical field, efforts are being made to publish databases such as receipt information and medical examinations.

These public databases are called open data. By utilizing open data, it is possible to obtain data that was previously unavailable, and it is expected to have the effect of accelerating technological development.

A data lake has come to be used as a technique for managing data stored in a database (see, for example, Patent Document 2). In data lakes, it is common practice to add metadata to data. Examples of metadata given to data include the creator of the data, the date and time of creation, and the file name of the data. In the data lake, by adding metadata to the data in advance, it is easy to search and use the data. For example, it is possible to add the metadata "chair" to the image data including the image of the chair. By adding the metadata in this way, it becomes possible to easily search the data including the image of the chair from a large number of image data.

Japanese Unexamined Patent Publication No. 2014-14068 JP-A-2017-54487

For example, a company may have a database (in-house database) in the company, but it is conceivable that technological development will be promoted by using open data as well as the in-house database. However, whether or not technology development can be promoted depends on how the in-house database and open data are linked and used. Therefore, it is required to be able to easily grasp the relationship between the data in the in-house database and the open data, and the relationship between the data in the in-house database linked via the open data.

Further, when using open data, there may be a problem that the access history of open data is leaked to the outside. For example, if the access history is leaked to the outside, the corporate activity may be estimated from the outside of the company.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a technique for easily and appropriately grasping the relevance of database data.

In order to achieve the above object, the data utilization support device according to one viewpoint is a data utilization support device that supports the utilization of data from a plurality of databases, and is based on the access history of the user to the first database. The first metadata generator that generates the first metadata related to the data of the second database and the second metadata generation that generates the second metadata related to the data of the second database based on the access history by the user to the second database. Based on the part, the first metadata and the second metadata, the related information generation part that generates the related information that associates the related first database data with the second database data, and the related information based on the related information. , A related information output processing unit that identifies other data related to the predetermined data of the first database and outputs information on the relationship between the predetermined data and the related other data.

According to the present invention, it is possible to easily and appropriately grasp the relationship with the data in the database.

FIG. 1 is an overall configuration diagram of a data utilization support system according to an embodiment. FIG. 2 is a block diagram of the first metadata according to the embodiment. FIG. 3 is a configuration diagram of a user attribute table according to an embodiment. FIG. 4 is a block diagram of the second metadata according to the embodiment. FIG. 5 is a configuration diagram of a data-related table according to an embodiment. FIG. 6 is a block diagram of a data history table according to an embodiment. FIG. 7 is a configuration diagram of a download data management table according to an embodiment. FIG. 8 is a configuration diagram of an access log according to an embodiment. FIG. 9 is a hardware configuration diagram of the server according to the embodiment. FIG. 10 is a hardware configuration diagram of the proxy server according to the embodiment. FIG. 11 is a flowchart of the data management process according to the embodiment. FIG. 12 is a flowchart of the related object display process according to the embodiment. FIG. 13 is a diagram showing an inquiry request according to an embodiment. FIG. 14 is a diagram showing an inquiry result screen according to an embodiment. FIG. 15 is a flowchart of the data acquisition management process according to the embodiment. FIG. 16 is a flowchart of the download data generation process according to the embodiment.

The embodiment will be described with reference to the drawings. It should be noted that the embodiments described below do not limit the invention according to the claims, and all of the elements and combinations thereof described in the embodiments are indispensable for the means for solving the invention. Is not always.

In the following description, the information may be described by the expression of "AAA table", but the information may be expressed by any data structure. That is, the "AAA table" can be called "AAA information" to show that the information does not depend on the data structure.

FIG. 1 is an overall configuration diagram of a data utilization support system according to an embodiment.

The data utilization support system 10 includes one or more terminals 102, a proxy server 104, one or more external sites 110 (110a, 110b), a server 112 as an example of a data utilization support device, and an example of a storage device. It includes a storage device 129. The terminal 102, the proxy server 104, and the server 112 are connected via the network 103. The proxy server 104 and the external site 110 are connected to each other via the network 109. The server 112 and the storage device 129 are connected via, for example, a cable.

In the present embodiment, the terminal 102, the proxy server 104, the server 112, and the storage device 129 are arranged in a certain company (inside the company), and the external site 110 is arranged outside the certain company. ing. In the present embodiment, the network 103 is, for example, a LAN (Local Area Network), and the network 109 is, for example, a WAN (Wide Area Network) such as the Internet. The configuration of the network 103 and the network 109 is not limited to this, and may be any network using wired or wireless.

The external site 110 (110a, 110b) has a database 111 (111a, 111b) that stores various data, and provides functions such as searching and browsing the database 111. Here, the database 111 corresponds to the second database (external database). In the present embodiment, the database 111 of the external site 110 is an open database (open data) in which the users who can use the database 111 are not limited.

The terminal 102 is a device used by a user (user) 101 who is an employee of a certain company to use the database 111 of the external site 110 and the database 130 of the storage device 129. The terminal 102 is composed of, for example, a PC (Personal Computer) including a CPU, a memory, and the like, receives an input of an access request (for example, a search keyword, etc.) to a database, transmits the input to another device, and is transmitted from the other device. Receives access result information and displays it on a display (not shown). In the present embodiment, the terminal 102 receives an inquiry request requesting display of data relevance from the user 101, transmits the inquiry request to the server 112, and receives the result (inquiry result screen) corresponding to the inquiry request from the server 112. Then, the inquiry result screen is displayed and output.

The storage device 129 includes, for example, a non-temporary storage device (nonvolatile storage device) such as an HDD (Hard Disk Drive) and an SSD (Solid State Drive), and stores various information. In the present embodiment, the storage device 129 stores a database 130 (first database: in-house database) that can be used by the user 101 who is an employee, and a download database 131 that manages data downloaded from the external site 110.

The server 112 includes a data management mechanism 116. The data management mechanism 116 includes a first metadata generation unit 113, a first metadata 114, a user attribute table 115, an access log acquisition unit 117, a second metadata generation unit 118, and a second metadata 119. The inquiry receiving unit 120, the inquiry result output unit 121, the inquiry result generation unit 122, the data-related information generation unit 123 as an example of the related information generation unit, the data-related table 124, and the data-related information as an example. It includes a data history table 125, a download data search unit 126 as an example of a download data transmission unit, a download data generation unit 127 as an example of a download processing unit, and a download data management table 128. Here, the related information output control unit is composed of the inquiry result output unit 121 and the inquiry result generation unit 122.

The first metadata generation unit 113 receives the access request to the database 130 from the terminal 102, and adds an entry corresponding to the access request to the first metadata 114 based on the information included in the access request.

The access log acquisition unit 117 acquires the access log 108 from the proxy server 104. The second metadata generation unit 118 adds an entry corresponding to each log (entry) of the access log 108 to the second metadata 119 based on the content of the access log 108 acquired by the access log acquisition unit 117.

The proxy server 104 has a proxy processing mechanism 150. The proxy processing mechanism 105 includes an access log acquisition unit 106, a data acquisition unit 107, and an access log 108. The access log acquisition unit 106 acquires the content of the access request to the external site 110 by the terminal 102 and adds an entry corresponding to the access request to the access log 108. The data acquisition unit 107 receives an access request from the terminal 102 and executes a process of transmitting the corresponding data to the terminal 102. The access log 108 will be described later.

Next, the tables, data, and the like stored in the server 112 will be described.

FIG. 2 is a block diagram of the first metadata according to the embodiment.

The first metadata 114 manages information regarding access to the database 130 by the user 101 of the terminal 102 as an entry corresponding to each access. The entry in the first metadata 114 has fields for an access date and time 401, an access source IP address 402, an access type 403, an object name 404, and a change source object 405.

The access date and time 401 stores the date and time when the data (data object: also simply referred to as an object) in the database 130 is accessed. The access source IP address 402 stores the IP (Internet Protocol) address of the terminal 102 that has accessed the database 130. The access type 403 stores the type of access to the object in the database 130. Here, as the access type, there are "creation" indicating that a new object has been created, "viewing" indicating that the object has been browsed, and "change" indicating that the object has been changed. The object name (object name) of the accessed database 130 object is stored in the object name 404. In the example of FIG. 2, the object name is the same as the storage destination information indicating the storage destination of the object. The change source object 405 stores the object name of the change source object when the object is changed.

FIG. 3 is a configuration diagram of a user attribute table according to an embodiment.

The user attribute table 115 is a table that manages the attributes of the user 101 of the terminal 102, and stores entries for each user 101. The entry in the user attribute table 115 has fields for the IP address 501, the project 502 to which it belongs, and the role 503. The IP address 501 stores the IP address assigned to the terminal 102 used by the user 101. The affiliation project 502 stores the name of the project to which the user 101 belongs. The role of the user 101 is stored in the roll 503.

FIG. 4 is a block diagram of the second metadata according to the embodiment.

The second metadata 119 manages information regarding access to the database 111 of the external site 110 by the user of the terminal 102 as an entry corresponding to each access. The entry of the second metadata 119 has fields of an access date and time 701, an access source IP address 702, an access type 703, a search condition 704, an access URL 705, and a data storage destination 706.

The access date and time 701 stores the date and time when the data in the database 111 (data object: also simply referred to as an object) is accessed. The access source IP address 702 stores the IP address of the terminal 102 that has accessed the database 111. The access type 703 stores the type of access to the object in the database 111. Here, the types of access include "search" indicating that the database 111 has been searched, "browsing" indicating that the object has been browsed, and "downloading" indicating that the object has been downloaded. The search condition 704 stores the condition (search condition) used in the search corresponding to the access to the database 111. In the present embodiment, the condition set in the search condition 704 is that the second metadata generation unit 118 uses a plurality of search keywords (for example, existing in the description of the URL to be accessed) in the expression format based on each database 111. The search conditions converted into the unified expression format among the databases 111 are stored. As a result, the difference in the expression format due to the difference in the database 111 is absorbed. The access URL 705 stores the URL (Uniform Resource Locator) of the accessed data. The data storage destination 706 stores information (storage destination information) indicating the storage destination of the data when the data is downloaded. Here, the storage destination information is obtained from, for example, an access request from the terminal 102.

FIG. 5 is a configuration diagram of a data-related table according to an embodiment.

The data-related table 124 is a table that manages an object that has been accessed by the database 111 and an object of the database 130 that has been accessed after the access to the object in association with each other. The entries in the data-related table 124 include fields for the first database object 901, the second database object 902, the temporal relevance degree 903, the access method relevance degree 904, and the search keyword 905.

The storage destination information of the object of the database 130 is stored in the first database object 901. The storage destination information of the object of the database 111 is stored in the second database object 902. The temporal relevance degree 903 stores the relevance degree regarding the access time between the object of the database 130 corresponding to the entry and the object of the database 111. The degree of relevance may be the interval between the occurrence times of those accesses. The access method relevance degree 904 stores the relevance degree regarding the access method between the object of the database 130 corresponding to the entry and the object of the database 111. The degree of relevance regarding the access method stores the type of access to the object in the database 111. The search keyword 905 stores the search keyword used in the search corresponding to the access to the database 111.

FIG. 6 is a block diagram of a data history table according to an embodiment.

The data history table 125 is a table that manages how the objects of the database 111 and the database 130 are accessed, that is, the history of the data. For example, the object of the database 111 and the access of the object are affected. It is a table which manages the correspondence relationship between the object of database 130 and the object of database 130 influenced by the object of database 111. The entries in the data history table 125 are the first database object 1 1001, the first database object 2 1002, the second database object 1003, the temporal relevance 1004, the access method relevance 1005, and the search keyword 1006. Includes fields.

The second database object 1003 stores the storage destination information (also referred to as an object name) of the object of the database 111. In the first database object 1 1001, the storage destination information (also the object name) of the object of the database 130 that was accessed before accessing the object of the database 111 in which the storage destination information is stored in the second database object 1003 of the entry. Is stored. The first database object 2 1002 contains the storage destination information (also referred to as an object name) of the object of the database 130 accessed after accessing the object of the database 111 in which the storage destination information is stored in the second database object 1003 of the entry. It is stored.

The temporal relevance degree 1004 is the relevance degree regarding the access time between the object of the database 111 corresponding to the entry (the object in which the storage destination information is stored in the second database object 1003) and the object of the first database object 2 1002. Is stored. The degree of relevance may be the interval between the occurrence times of those accesses. The access method relevance degree 1005 stores the relevance degree regarding the access method between the object of the database 130 corresponding to the entry and the object of the first database object 2 1002. The degree of relevance regarding the access method stores the type of access to the object in the database 111. The types of access include, for example, "search" indicating that the object has been searched, "browsing" indicating that the object has been browsed, and "downloading" indicating that the object has been downloaded. Here, it means that the object of the database 130 corresponding to the entry and the object of the first database object 2 1002 are highly related in the order of download, browsing, and search. The search keyword 1006 stores the search keyword used in the search corresponding to the access to the database 111.

FIG. 7 is a configuration diagram of a download data management table according to an embodiment.

The download data management table 128 is a table for managing the data downloaded from the database 111 to the storage device 129, and stores entries for each object downloaded from the database 111.

The entry in the download data management table 128 includes fields for the second database object 1401 and the download database object 1402.

The second database object 1401 stores the storage destination information (object name) of the object downloaded from the database 111 corresponding to the entry. The download database object 1402 stores the storage destination information (object name) of the object of the download database 131 in which the data of the object of the database 111 corresponding to the entry is stored.

FIG. 8 is a configuration diagram of an access log according to an embodiment.

The access log 108 is a log that manages information on access from the terminal 102 to the external site 110 (object of the database 111). The entry of the access log 108 has fields of an access date and time 601, an access source IP address 602, an access destination IP address 603, an access URL 604, and a data storage destination 605.

The access date and time 601 stores the date and time when the object of the database 111 corresponding to the entry is accessed. The access source IP address 602 stores the IP address of the terminal 102 that has accessed the database 111. The access destination IP address 603 stores the IP address of the server that manages the database 111 of the external site 110 that is the access destination. The access destination URL 604 stores the URL of the access destination data. The data storage destination 605 stores the data storage destination information when the data is downloaded. Here, the storage destination information can be acquired from, for example, an access request from the terminal 102.

FIG. 9 is a hardware configuration diagram of the server according to the embodiment.

The server 112 includes a CPU (Central Processing Unit) 201 as an example of a processor, and a memory 203. The CPU 201 and the memory 203 are connected via the bus 202. The server 112 includes a communication interface and the like (not shown).

The CPU 201 executes various processes according to the program stored in the memory 203. The memory 203 is, for example, a RAM (RANDOM ACCESS MEMORY), and stores a program executed by the CPU 201 and necessary information. In the present embodiment, the memory 203 stores information such as programs and tables necessary for configuring the data management mechanism 116. In the present embodiment, each processing unit shown in FIG. 1 constituting the data management mechanism 116 is configured by the CPU 201 executing a program stored in the memory 203.

FIG. 10 is a hardware configuration diagram of the proxy server according to the embodiment.

The proxy server 104 includes a CPU 301 as an example of a processor and a memory 303. The CPU 301 and the memory 303 are connected via the bus 302. The proxy server 104 includes a communication interface and the like (not shown).

The CPU 301 executes various processes according to the program stored in the memory 303. The memory 303 is, for example, a RAM, and stores a program executed by the CPU 301 and necessary information. In the present embodiment, the memory 303 stores information such as programs and tables necessary for configuring the proxy processing mechanism 105. In the present embodiment, each processing unit shown in FIG. 1 constituting the proxy processing mechanism 105 is configured by the CPU 301 executing a program stored in the memory 303.

Next, the processing operation of the data utilization support system according to the embodiment will be described.

First, the data management process by the data-related information generation unit 123 of the server 112 will be described.

FIG. 11 is a flowchart of the data management process according to the embodiment.

First, the data-related information generation unit 123 extracts one data (entry) within a predetermined period (for example, one day) in the past from the second metadata 119 in chronological order (step 801). Here, in the description of this process, the extracted data is referred to as target metadata.

Next, the data-related information generation unit 123 is the data (entry) of the first metadata 114 in which the target metadata and the access source IP address are the same IP address and the access date and time is later than the access date and time of the target metadata. It is determined whether or not there is (step 802).

As a result, when the target metadata and the access source IP address are the same IP address, and there is no entry for the first metadata 114 whose access date and time is later than the access date and time of the target metadata (step 802: No). The data-related information generation unit 123 advances the process to step 808.

On the other hand, when the target metadata and the access source IP address are the same IP address, and there is an entry of the first metadata 114 whose access date and time is later than the access date and time of the target metadata (step 802: Yes). , It is considered that the object corresponding to the target metadata, which is accessed from the same terminal 102 (user 101), is highly related to the object corresponding to this entry. Therefore, the data-related information generation unit 123 is described in this way. Entry is taken out (step 803). Here, in the description of this process, the extracted entry is referred to as post-related metadata.

The data-related information generation unit 123 then adds an entry corresponding to the content of the post-related metadata to the data-related data 124 (step 804).

Next, in the data-related information generation unit 123, the target metadata and the data (entry) of the first metadata 114 whose access source IP address is the same IP address and whose access date and time is earlier than the access date and time of the target data are It is determined whether or not there is (step 805).

As a result, when the target metadata and the access source IP address are the same IP address, and there is no entry for the first metadata 114 whose access date and time is earlier than the access date and time of the target metadata (step 805: No). The data-related information generation unit 123 advances the process to step 807.

On the other hand, when the target metadata and the access source IP address are the same IP address, and there is an entry of the first metadata 114 whose access date and time is earlier than the access date and time of the target metadata (step 805: Yes). Since it is considered that the object corresponding to the target metadata and the object corresponding to this entry (pre-related metadata) are highly related, the data-related information generation unit 123 sets the target metadata in the data history table 125. The corresponding entry is added (step 806) and the process proceeds to step 807. In step 806, specifically, the data-related information generation unit 123 adds an entry to the data history table 125, and stores the content of the access URL 705 in the target metadata in the second database object 1003 for the entry. , The content of the access type 703 in the target metadata is stored in the access method relevance degree 1005, the value of the search condition 704 in the target metadata is stored in the search keyword 1006, and the object name 404 of the post-related metadata is stored in the first database object. 2 Stored in 1002, store the object name 404 of the previous related metadata in the first database object 1 1001, and set the time difference between the date and time of the access date and time 401 of the previous related metadata and the date and time of the access date and time 701 of the target metadata. It is stored in the target relevance degree 1004.

In step 807, the data-related information generation unit 123 uses the target metadata and all the first metadata 114 whose access source IP address is the same IP address and whose access date and time is later than the access date and time of the target metadata. It is determined whether or not the processing for the entry is completed (step 807), and if the processing is not completed (step 807: No), the processing proceeds to step 803, while the processing is completed (step 807). 807: Yes), the process proceeds to step 808.

In step 808, the data-related information generation unit 123 determines whether or not the processing for all the data (entries) within the past predetermined period has been completed (step 808), and if the processing has not been completed (step 808). : No), the process proceeds to step 801. When the process is completed (step 808: Yes), the data management process ends.

Next, the related object display process by the server 112 will be described.

FIG. 12 is a flowchart of the related object display process according to the embodiment. FIG. 13 is a diagram showing an inquiry request according to an embodiment. FIG. 14 is a diagram showing an inquiry result screen according to an embodiment.

The inquiry receiving unit 120 of the server 112 determines whether or not the inquiry request has been received from the terminal 102 (step 1601).

As a result, when the inquiry request is not received (step 1601: No), the inquiry receiving unit 120 proceeds to the process in step 1601, while when the inquiry request is received (step 1601: Yes). , Notifies the inquiry result generation unit 122 that the inquiry request has been received. Here, as shown in FIG. 13, the inquiry request includes storage destination information (object name) of the object to be displayed to display the information of the related object.

The query result generation unit 122, which has been notified that the inquiry request has been received, has accessed the database 130 before accessing the object of the storage destination information based on the storage destination information of the object included in the query request. Get information about the object (pre-related object) (step 1602). Specifically, the query result generation unit 122 refers to the data history table 125, identifies an entry in which the storage destination information of the object included in the query request is stored in the first database object 2 1002, and the information of this entry. To get.

Next, the query result generation unit 122 acquires the information of the object (post-related object) of the database 130 accessed after accessing the object of the storage destination information based on the storage destination information of the object included in the query request (). Step 1603). Specifically, the query result generation unit 122 refers to the data history table 125, identifies an entry in which the storage destination information of the object included in the query request is stored in the first database object 1 1001, and the information of this entry. To get.

Next, the inquiry result generation unit 122 generates the inquiry result screen 1200 (see FIG. 14) based on the information of the entries acquired in steps 1602 and 1603, and the inquiry result output unit 121 causes the terminal of the request source of the inquiry request. The inquiry result screen 1200 is displayed for 102 (step 1604).

Here, as shown in FIG. 14, the inquiry result screen 1200 is accessed in the target object display area 1201 in which the storage destination information of the target object (target object) of the query request is displayed, and before accessing the target object. The front-related object display area 1202 in which the storage destination information of the previous-related object is displayed, the back-related object display area 1203 in which the storage destination information of the front-related object accessed after accessing the target object is displayed, and the target. Used to access the pre-external object display area 1204, which displays the storage location information of the object (pre-external object) in database 111 that was accessed between the object and the access to the pre-related object, and the pre-external object. The keyword display area 1205 for displaying the search keyword, and the rear external object display area 1206 for displaying the storage destination information of the object (rear external object) of the database 111 accessed between the access between the target object and the rear related object. , And a keyword display area 1207 that displays the search keyword used to access the external object afterwards.

According to the inquiry result screen 1200, it is possible to easily and appropriately confirm the object of the database 130 that was viewed before the target object, the object of the database 111 that was accessed during that time, and the search keyword used. Therefore, it is possible to easily and appropriately grasp the process of reaching the target object. Further, according to the inquiry result screen 1200, it is possible to easily and appropriately confirm the object of the database 130 seen after the target object, the object of the database 111 accessed in the meantime, and the search keyword used. Therefore, it is possible to easily and appropriately grasp what kind of progress has been taken from the target object.

Next, the data acquisition management process by the data acquisition unit 107 of the proxy server 104 will be described.

FIG. 15 is a flowchart of the data acquisition management process according to the embodiment.

The data acquisition unit 107 of the proxy server 104 determines whether or not an access request (request) for data has been received from the terminal 102 (step 1301). As a result, when the access request is not received (step 1301: No), the data acquisition unit 107 proceeds to the process in step 1301.

On the other hand, when the access request is received (step 1301: Yes), the data acquisition unit 107 informs the download data search unit 126 whether or not the request target data (target data) is stored in the download database 131. Inquire (step 1302). As a result, the download data search unit 126 that has received the inquiry determines whether or not the target data is stored in the download database 131 with reference to the download data management table 128, and returns the determination result to the data acquisition unit 107. Will be done.

Next, the data acquisition unit 107 determines whether or not the target data is stored in the download database 131 based on the determination result from the download data search unit 126 (step 1303).

As a result, when the target data is stored in the download database 131 (step 1303: Yes), the data acquisition unit 107 acquires the target data from the town load database 131 via the download data search unit 126 of the server 112. Then, the target data is transmitted to the request source terminal 102 (step 1304), and the process ends.

On the other hand, when the target data is not stored in the download database 131 (step 1303: No), the data acquisition unit 107 sends an access request for the target data to the external site 110 to target the target data from the database 111. The data is acquired, the target data is transmitted to the request source terminal 102 (step 1305), and the process ends.

According to the above-mentioned data acquisition management process, since the request for access to the data downloaded to the download database 131 is not sent to the external site 110, the information about the data to be accessed to the external site 110 is not sent. Can be appropriately prevented from being known.

Next, the download data generation process by the download data generation unit 127 of the server 112 will be described.

FIG. 16 is a flowchart of the download data generation process according to the embodiment.

The download data generation unit 127 estimates open data that is likely to be used in the future based on the data history table 125 (step 1501).

Here, as the data that is likely to be used in the future, for example, data that includes a keyword that frequently appears as a search keyword may be used. Further, the data that is likely to be used in the future may be the data of the database 111 of another external site 110 that is searched by the keyword corresponding to the search keyword for the database 111 of one external site 110. Further, the data that is likely to be used in the future may be other data included in the search result when the data actually downloaded by the user is searched. Further, in determining whether or not it is likely to be used in the future, for example, it may be determined that the more relevant the access method is, the more likely it is, and the more temporally relevant ( It may be determined that the smaller the time difference), the higher the possibility. In addition, whether or not it is likely to be used in the future may be determined based on the frequency of browsing, the frequency of downloading, and the like.

Next, the download data generation unit 127 downloads data from the second database (database 111) to the download database 131 using the result estimated in step 1501 (step 1502).

Next, the download data generation unit 127 adds an entry corresponding to the downloaded data to the download data management table 128 (step 1503), and ends the process.

According to this download data generation process, data that is likely to be used in the future is downloaded to the download database 131 in advance, so that when the terminal 102 subsequently requests access to the corresponding data. , Desired data can be transmitted to the terminal 102 without accessing the database 111 of the external site 110. Therefore, it is possible to appropriately prevent the information about the data to be accessed from being known to the external site 110.

The present invention is not limited to the above-described embodiment, and can be appropriately modified and implemented without departing from the spirit of the present invention.

For example, in the above embodiment, the access log of the terminal 102 is acquired from the proxy server 105, but the present invention is not limited to this. For example, the terminal 102 stores the access log for the external site 110. And the access log may be acquired from the terminal 102.

Further, in the above embodiment, the server 112 and the storage device 129 are separate bodies, but the present invention is not limited to this, and the configuration and functions of the storage device 129 may be provided in the server 112.

Further, in the above embodiment, a part or all of the processing performed by the CPU (CPU 201, 301) may be performed by a dedicated hardware circuit. In addition, the program in the above embodiment may be installed from the program source. The program source may be a program distribution server or storage media (eg, portable non-volatile storage media).

10 ... Data utilization support system, 102 ... Terminal, 104 ... Proxy server, 110 ... External site, 111 ... Database, 112 ... Server, 113 ... First metadata generator, 114 ... First metadata, 118 ... Second meta Data generation unit, 119 ... Second metadata, 121 ... Query result output unit, 122 ... Query result generation unit, 123 ... Data-related information generation unit, 125 ... Data history table, 127 ... Download data generation unit, 129 ... Storage device , 130 ... database, 131 ... download database, 1200 ... inquiry result screen.

Claims (9)

A data utilization support device that supports the utilization of data from multiple databases.
A first metadata generation unit that generates first metadata related to the data in the first database based on the user's access history to the first database.
A second metadata generator that generates second metadata related to the data in the second database based on the access history of the user to the second database.
A related information generation unit that generates related information that associates the related data of the first database with the data of the second database based on the first metadata and the second metadata.
An inquiry receiving unit that receives an inquiry request for predetermined data of the first database to be output of information on relevance, and an inquiry receiving unit.
Related information output processing for identifying other data related to the predetermined data in the first database based on the related information and outputting information on the relationship between the predetermined data and the related other data. Department and
With
The related information includes the data of the first database, the data of the second database accessed before accessing the data of the first database, and the first accessed after accessing the data of the first database. (Ii) Contains information that associates with database data
The related information output processing unit includes the first data of the first database accessed before the data of the second database accessed before the predetermined data of the first database, and the first data of the first database. The second data of the first database accessed after the data of the second database accessed after the predetermined data of the above is specified as the data related to the predetermined data, and the first data Information indicating the second data, data of the second database accessed between the access of the first data and the predetermined data, and information indicating search conditions used when searching the data. , Display a screen including the data of the second database accessed between the access of the predetermined data and the second data and the information indicating the search conditions used when searching the data. /> Data utilization support device. The first database is a database in which the available users are limited.
The data utilization support device according to claim 1, wherein the second database is a database in which the available users are not limited. There are a plurality of the second databases,
The second metadata includes search conditions corresponding to search keywords at the time of accessing a plurality of the second databases.
The second metadata generation unit according to claim 1 or 2 , wherein the second metadata generation unit converts the search keyword in each of the second databases into a search condition having a unified expression format among the plurality of second databases. Data utilization support device. It also has an access history acquisition unit that acquires the access history to the second database from the proxy server that relays the access to the second database by the user's terminal.
The data utilization support device according to any one of claims 1 to 3 , wherein the second metadata generation unit generates the second metadata based on the access history acquired by the access history acquisition unit. .. Based on the related information, a download processing unit that downloads highly usable data from the second database and stores it in a predetermined storage device, and
Any of claims 1 to 4 , further comprising a download data transmission unit that takes out the data from the storage device and transmits the data to the access request source when there is an access request to the downloaded data. The data utilization support device described in item 1. It has a plurality of the second databases
The download processing unit downloads data corresponding to the search results obtained by performing a search on the other second database based on the search conditions used in the access to the second database. The data utilization support device according to claim 5, which is stored in the storage device. A data utilization system including a first database, a second database, and a data utilization support device for supporting the utilization of data in the first database and the second database.
The data utilization support device is
A first metadata generation unit that generates first metadata related to the data in the first database based on the user's access history to the first database.
A second metadata generator that generates second metadata related to the data in the second database based on the user's access history to the second database.
A related information generation unit that generates related information that associates the related data of the first database with the data of the second database based on the first metadata and the second metadata.
An inquiry receiving unit that receives an inquiry request for predetermined data of the first database to be output of information on relevance, and an inquiry receiving unit.
Based on said related information, wherein the first database to identify other data associated with a given data-related information output process for outputting information about the relationship with other data the associated with the predetermined data Department and
With
The related information includes the data of the first database, the data of the second database accessed before accessing the data of the first database, and the first accessed after accessing the data of the first database. (Ii) Contains information that associates with database data
The related information output processing unit includes the first data of the first database accessed before the data of the second database accessed before the predetermined data of the first database, and the first data of the first database. The second data of the first database accessed after the data of the second database accessed after the predetermined data of the above is specified as the data related to the predetermined data, and the first data Information indicating the second data, data of the second database accessed between the access of the first data and the predetermined data, and information indicating search conditions used when searching the data. , Display a screen including the data of the second database accessed between the access of the predetermined data and the second data and the information indicating the search conditions used when searching the data. /> Data utilization support system. The data utilization support system is
In addition, a proxy server that handles access to the second database from the user's terminal,
A storage device for storing a part of the data of the second database is provided.
The proxy server determines whether or not the data to be the target of the access request from the terminal is stored in the storage device, and if the data is stored in the storage device, the data is stored in the storage device. The data utilization support system according to claim 7 , wherein the data is controlled to be returned to the terminal. It is a data utilization support method using a data utilization support device that supports the utilization of data from multiple databases.
Based on the user's access history to the first database, the first metadata related to the data in the first database is generated.
Based on the access history by the user for the second database, the second metadata related to the data in the second database is generated.
Based on the first metadata and the second metadata, related information for associating the related data of the first database with the data of the second database is generated.
Receives a query request for predetermined data in the first database to be output information about relevance,
Based on the related information, other data related to the predetermined data in the first database is specified, and information regarding the relationship between the predetermined data and the other related data is output .
The related information includes the data of the first database, the data of the second database accessed before accessing the data of the first database, and the first accessed after accessing the data of the first database. (Ii) Contains information that associates with database data
The first data of the first database accessed before the data of the second database accessed before the predetermined data of the first database, and the access after the predetermined data of the first database. Information indicating the first data and the second data by identifying the second data of the first database accessed after the data of the second database as the data related to the predetermined data. The data indicating the data of the second database accessed between the access between the first data and the predetermined data, the information indicating the search conditions used when searching the data, the predetermined data, and the first data. (Ii) A data utilization support method for displaying a screen including the data of the second database accessed during the access to the data and the information indicating the search conditions used when searching the data.