JP2017191454A - Data integration system, method and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a data integration system, method and program for integrating data in respective data items of a plurality of databases based upon time as a coupling key.SOLUTION: The present invention relates to a data integration system which integrates a base axis database including time information and space information in data items and at least one database to be integrated which includes data items related to the time information or space information, the data integration system comprising: data acquisition means; time unit conversion means of converting time information in the respective data base according to a predetermined time unit; space reference conversion means of converting space information in the respective data base according to a predetermined space standard; data integration means of integrating data in respective data items of the data bases, having been converted according to the time unit and space standard, into one integrated database based upon time as a coupling key; and integrated database storage means of storing the integrated database.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a data integration system, method, and program.

  Conventionally, various information is displayed on a map in association with a specific place or region on a two-dimensional map (spatial information) (see Patent Document 1).

  Patent Document 1 describes a multidimensional data display system that displays a temporal transition of a specific place or building on a map.

  However, the display system shown in Patent Document 1 simply displays time-series display data (time information) on a map so as not to be integrated with other databases.

  Some data integration systems integrate time data (base) and spatial data (base). However, these data are no longer displayed on the map. The databases were independent, and it was not a data integration where data was linked between each database.

JP 2006-301713 A

  Accordingly, an object of the present invention is to provide a data integration system, method, and program for integrating a plurality of databases with data in each data item using time as a combination key.

(1) According to one aspect of the present invention, data that integrates a base database that includes time information and spatial information in a data item and at least one integrated database that includes a data item associated with the time information or spatial information. An integrated system, a database storage means for storing each database, a data acquisition means for acquiring data from each database, a time unit conversion means for aligning time information in each database to a predetermined time unit, and each database Spatial reference conversion means for aligning spatial information in a predetermined spatial reference, and each converted database in which time units and spatial reference are aligned, using time as a join key, and data in each data item as an integrated database Data integration means for integrating, and integrated database storage means for storing an integrated database And it has a.

(2) In the aspect of the above (1), it further includes a conversion function storage means for storing a conversion function, and the time unit conversion means is selected from a plurality of conversion functions stored in the conversion function storage means. Based on the conversion function, the acquired data is aligned in a predetermined time unit, and the spatial reference conversion unit acquires the plurality of conversion functions stored in the conversion function storage unit based on the selected conversion function. The database spatial information may be aligned with a predetermined spatial reference.

(3) In the above aspect (1) or (2), the information processing apparatus may further include output means for outputting the integrated database to the outside.

(4) In any one of the aspects (1) to (3), the information processing apparatus may further include display means for displaying the integrated database on a display screen.

(5) In the aspect of the above (4), it further includes map information storage means for storing map information, and the display screen includes a first area having a vertical axis and a horizontal axis, and a second area for displaying a map. The display means displays the data items of the integrated database on the vertical axis of the first area, the time on the horizontal axis, and on the map of the second area, Spatial information of the integrated database may be displayed in an overlapping manner.

(6) In the above aspect (5), search condition receiving means for receiving an input of a search condition for searching for data items in the integrated database, and searching the integrated database for data that matches the input search condition A data item including data that matches the search condition, and displays the time including the data that matches the search condition as a target range. May include spatial information, the spatial information within the target range may be displayed in an overlapping manner on the map of the second region.

(7) In the above aspect (5) or (6), there is further provided a comparison operation means for calculating the degree of association between one designated data item selected from the integrated database and all other data items. The display means may display the comparison calculation result in a third area of the display screen.

(8) In any one of the above aspects (5) to (7), an event database storage unit that stores an event database including character information associated with time information, and an event that acquires event data from the event database Data acquisition means, and the display means may superimpose and display the character information of the acquired event data in correspondence with the horizontal axis of the first area.

(9) Another aspect according to the present invention integrates a base database that includes temporal information and spatial information in data items, and at least one integrated database that includes data items associated with temporal information or spatial information. A data acquisition method for acquiring data from each database, a time unit conversion step for aligning time information in each database to a predetermined time unit, and spatial information in each database A spatial reference conversion step for aligning with the spatial reference, and a data integration step for integrating the data in each data item as an integrated database using the time-based and each converted database with the same spatial reference as the combined key. It is what you have.

(10) Still another aspect according to the present invention is a computer program that causes a computer to execute each step of the data integration method according to the aspect (9).

  ADVANTAGE OF THE INVENTION According to this invention, the data integration system, method, and program which integrate the data in each data item can be provided for a plurality of databases using time as a combination key.

It is the schematic which shows the data integration system which concerns on embodiment of this invention. It is a flowchart which shows a data integration process. It is a flowchart which shows a condition search process. It is a flowchart which shows a data item correlation process. It is a flowchart which shows an event correlation process. It is the schematic which shows the difference in the time interval of time information. It is the schematic which shows the difference in the space reference | standard of space information. It is the schematic which shows the display screen of a data integration process. It is the schematic which shows the display screen A of a condition search process. It is the schematic which shows the display screen B of a condition search process. It is the schematic which shows the display screen of a data item correlation process. It is the schematic which shows the display screen of an event correlation process.

  Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings. Note that the same reference numerals are given to the same elements throughout the description of the embodiment.

  A data integration system 100 shown in FIG. 1 includes storage means HD, arithmetic processing means C, input means such as a keyboard K and a mouse M, display means such as a display screen D, a printer P, a recording medium, and the like. Output means.

  The storage means HD is constituted by a so-called hard disk, memory (RAM) that can be temporarily stored, and functions as database storage means, conversion function storage means, integrated database storage means, and map information storage means. The storage means HD includes a base database DB00, integrated databases DB01, DB02,... DB0n, map information Map, time unit conversion functions ft1, ft2,... Ftn, and space reference conversion functions gp1, gp2. ,..., Gpn, and temporarily converted databases DB11, DB12,.

  The base axis database DB00 includes time information and space information in data items, and includes, for example, POS data, but is not limited thereto. Normally, POS data collects “when”, “where”, “what”, “how much”, “how many”, and data items corresponding to this time, store, product, quantity, price Etc.

  Among these, the time is time information, and the time unit is set to one minute unit, one hour unit, one day unit, etc. On the other hand, a store is a location and is spatial information, and its spatial reference is a point.

  The database to be integrated DB01, DB02,... DB0n includes data items associated with time information or space information, and examples include weather data, stock price data, basic resident register data, household survey data, and the like. These data (base) includes a data item associated with at least one of time information and spatial information and the data. These data are obtained from the Internet, a recording medium (CD / DVD), and the like, and are temporarily stored in the storage means HD at the time of storage or integration processing.

  The time unit of the time information is, for example, 1 day unit or 1 hour unit for weather data, 1 minute unit or 1 day unit for stock price data, and 1 month unit for Basic Resident Register data.

  For this reason, the time unit of the time information in the base database DB00 and the time unit of the time information in the integrated databases DB01, DB02,... DB0n often do not match (see FIG. 4).

  On the other hand, the standard of spatial information is, for example, for each point in the meteorological data, and for each region (area) in the basic resident register data. And even if the standard of spatial information is the same point, it is rare that it is the same place and is usually a different place. As for the relationship between a point and a region, the point may be included in the region or may be close without being included.

  For this reason, the reference | standard of the spatial information of basic | foundation database DB00 and the reference | standard of the spatial information of database to be integrated DB01, DB02, ... DB0n often do not correspond (refer FIG. 5).

  Therefore, the data integration system 100 according to the embodiment of the present invention integrates the basic database DB00 and the integrated databases DB01, DB02,... DB0n by the following data integration processing.

(Data integration processing)
The arithmetic processing means C of the data integration system 100 executes each step according to the data integration processing flow (program) shown in FIG. Here, the arithmetic processing means C functions as a data acquisition means, a time unit conversion means, a space reference conversion means, and a data integration means.

(S11) Data acquisition step The data acquisition means acquires data from at least one integrated database DB01, DB02,... DB0n selected by the input means.

(S12) Time unit conversion step The time unit conversion means aligns the acquired time information in the integrated databases DB01, DB02,... DB0n to a predetermined time unit, for example, the time unit of the base database DB00.

  At this time, the time unit conversion means aligns time units using the time unit conversion functions ft1, ft2,... Ftn stored in the conversion function storage means. Since time is a continuous flow in one direction, the time unit conversion functions ft1, ft2,... Ftn may be relatively simple or frequently used in statistical methods. For example, if the time unit of the base database DB00 is 1 hour and the time unit of the integrated database DB01, DB02,... DB0n is 1 day, a function that simply divides the data value of the data item by 24, Functions with different weights are used between day and night. Conversely, if the time unit of the base database DB00 is 1 hour and the time unit of the integrated database DB01, DB02,... DB0n is 1 minute, the function that sums the data values of the data items for the previous and next 30 minutes Etc. are used.

  Thus, the time units of the integrated databases DB01, DB02,... DB0n are aligned and temporarily stored in the storage means HD.

(S13) Space reference conversion step The space reference conversion means aligns the space information in the converted databases DB11, DB12,... DB1n with a predetermined space reference, for example, the space reference of the base axis database DB00.

  At this time, the space unit conversion means aligns the space reference using the space reference conversion functions gp1, gp2,... Gpn stored in the conversion function storage means. The spatial reference conversion functions gp1, gp2,... Gpn may be frequently used in statistical methods.

  Since the spatial information is not a continuous flow in one direction like the time information, the spatial information in the integrated databases DB01, DB02,... DB0n does not have a point corresponding to the base database DB00. In many cases, data of a nearby point or region is substituted.

Then, by these time unit conversion means and space reference conversion means, the time information and space reference of the integrated databases DB01, DB02,... DB0n are aligned and stored as converted databases DB11, DB12,. The
Each conversion function is selected by displaying another menu window in the display screen D (see FIG. 6).

(S14) Data Integration Step The data integration means integrates the data in each data item of the converted databases DB11, DB12,... DB1n into the basic database DB00, using time as a join key, and forms the integrated database DB100. .

(S15) Integrated Database Storage Step The storage means HD stores the integrated database DB100.

  In this way, the data integration system 100 integrates the basic database DB00 and the integrated databases DB01, DB02,... DB0n.

  Thereafter, the integrated database DB100 is output to the outside by being displayed on the display screen D of the display means, printed by the printer P of the output means, or recorded on a recording medium.

  Next, an analysis system using the following three processes for utilizing the integrated database DB100 will be described.

  First, the display means will be described. As shown in FIG. 1 (see also FIG. 6-9), the display screen D of the display means has a first region d1, a second region d2, and a third region d3. The first area d1 displays the integrated database DB100 with a vertical axis and a horizontal axis. In the first area d1, the data items of the integrated database DB100 are arranged on the vertical axis, and the time and date are displayed with the horizontal axis as the time axis. The second area d2 displays the map information Map as a so-called map. The third area d3 displays a graph such as the degree of relevance described later.

(A. Condition search process)
The condition search process is to search the corresponding data range from the integrated database DB100 by inputting the search condition, and display the time zone of the range on the display screen D, and analyze the data according to the display contents. it can.

  The arithmetic processing means C executes each step according to the condition search processing flow (program) shown in FIG. 3A. Here, the arithmetic processing means C also functions as a search condition receiving means and a search means.

(S21) Search condition input step The search condition accepting unit accepts input of a search condition for searching for data in the data items of the integrated database DB100. For example, another menu window is temporarily displayed near the second region d2 of the display screen D, and the search condition is input (see FIG. 7A).

(S22) Search step The search means searches the integrated database DB 100 for data that matches the input search conditions.

(S23) Display step A
When there is data that matches the input search condition, the display means displays (highlights) the time including the data that matches the search condition in the first area d1 of the display screen D as a matching target range. (See FIG. 7A).

(S24) Display step B
Furthermore, when the data item including the data that matches the search condition includes the spatial information, the spatial information within the matching target range is overlaid and displayed on the map of the second region d2 (see FIG. 7B). At this time, if the data is displayed with the passage of time within the matching target range, it looks like an animation and is easy to see.

(B. Relevance level processing between data items)
The relevance level processing between data items is to display the relevance level between data items on the display screen D by comparing the data items of the integrated database DB100. You can check changes over time.

  The arithmetic processing means C executes each step according to the data item correlation processing flow (program) shown in FIG. 3B. Here, the calculation processing means C also functions as a comparison calculation means.

(S31) Data acquisition step The data acquisition means acquires one designated data item selected by the input means and all other data items from the integrated database DB100. Normally, the data item of the base database DB00 is selected as this one designated data item, but the data item of the integrated database DB01, DB02,... DB0n may be selected.

(S32) Comparison operation step The comparison operation means calculates the degree of association between one designated data item selected by the input means and all other data items. The comparison calculation means calculates these degrees of association by a predetermined algorithm often used in statistical methods.

(S33) Display step The display means displays the calculated degree of association in the third area d3 of the display screen D using a series table or a scatter diagram or a graph of coefficient time series transition (FIG. 8). reference).

(C. Event correlation processing)
In addition, the event correlation process displays character information of the event database EV of various events on the display screen D (see FIG. 9). Can be confirmed.

  The arithmetic processing means C executes each step according to the event correlation processing flow (program) shown in FIG. 3C. Here, the arithmetic processing means C also functions as an event data acquisition means, and the storage means HD also functions as an event data storage means.

  The event database EV is data including character information associated with time information. The text information associated with the time information includes various events such as current news, regional events such as festivals and flea markets, baseball / soccer games, concerts / events, and the like.

(S41) Data acquisition step The event data acquisition means acquires event data from the event data storage means. Specifically, it is acquired by an operation such as selection or drag and drop using a separate menu window.

(S42) Display step The display means displays the character information of the acquired event data on the first area d1 of the display screen D displaying the contents of the integrated database DB100 in correspondence with the time on the horizontal axis ( (See FIG. 9).

  As described above, the data integration system 100 according to the embodiment of the present invention includes the basic database DB00 that includes time information and space information as data items, and at least one integrated item that includes data items associated with the time information or space information. Databases DB01, DB02,..., DB0n are integrated, database storage means for storing each database, data acquisition means for acquiring data from each database, and time information in each database are predetermined. Time unit conversion means for aligning the time units, spatial information conversion means for aligning spatial information in each database with a predetermined spatial reference, and databases DB11, DB12,. ..Data in each data item is stored using DB1n as a join key One of a data integration means for integrating the integrated database DB 100, a consolidated database storage means for storing the integrated database DB 100, a.

  A data integration method according to an embodiment of the present invention includes a base database DB00 that includes time information and space information in data items, and at least one database to be integrated DB01, DB02, that includes data items associated with time information or space information. .., Integrating DB0n, a data acquisition step for acquiring data from each database, a time unit conversion step for aligning time information in each database to a predetermined time unit, and a space in each database A space reference conversion step for aligning information with a predetermined space reference, and each converted database DB11, DB12,... A data integration step of integrating data as one integrated database DB100; Having.

  Thus, first, the base database DB00 and the integrated databases DB01, DB02,... DB0n are aligned with the time unit and space reference of the base database DB00. After that, the data in each data item is integrated into the integrated database DB100 using time as a combination key. Therefore, even if the time unit and position reference of the base database DB00 and the time unit and position reference of the integrated databases DB01, DB02,... DB0n are different, they can be integrated into the integrated database DB100.

  The data integration system 100 according to the present embodiment includes a search condition receiving unit that receives an input of a search condition for searching for data items in the integrated database DB100, and a search that searches the integrated database DB100 for data that matches the input search condition. The display means displays the time including the data matching the search condition in the first region d1 as the target range, and the data item including the data matching the search condition displays the spatial information. If included, the spatial information within the target range is displayed superimposed on the map of the second region d2.

  According to the present embodiment, the time range including the data that matches the search condition from the integrated database DB100 is overlaid, and the spatial information is also overlaid on the map, thereby supporting data analysis work and the like. be able to.

  The data integration system 100 of the present embodiment further includes comparison operation means for calculating the degree of association between one designated data item selected from the integrated database DB 100 and all other data items, and the display means is The comparison calculation result is displayed in the third area of the display screen.

  According to the present embodiment, the degree of association between data items is displayed in order to display on the display screen D the degree of association for one selected data item selected in the integrated database DB100 and all other data items. Can understand and support analysis work.

  The data integration system 100 of this embodiment further includes event data storage means for storing an event database EV including character information associated with time information, and event data acquisition means for acquiring event data from the event database EV. Then, the display unit displays the acquired character information of the event data so as to correspond to the horizontal axis of the first region d1.

  According to the present embodiment, since the data items and data of the base database DB00 and the integrated databases DB01, DB02,... DB0n and the character information of various events are simultaneously displayed on the display screen D, the presence / absence of relevance is determined. It can be confirmed, and analysis work can be supported.

  The preferred embodiments of the present invention have been described in detail above. However, the present invention is not limited to the above-described embodiments, and various modifications may be made within the scope of the gist of the present invention described in the claims. It can be changed.

100 data integration system C arithmetic processing means D display screen, d1 first area, d2 second area, d3 third area HD storage means K keyboard M mouse P printer DB00 basic axis database DB01, DB02,... DB0n Integrated database DB11, DB12, ... DB1n Database after conversion DB100 Integrated database EV Event database ft1, ft2, ... ftn Time unit conversion function gp1, gp2, ... gpn Space reference conversion function Map Map information

Claims (10)

A basic database that includes time information and spatial information in data items;
A data integration system for integrating at least one integrated database including data items associated with temporal information or spatial information,
Database storage means for storing each database;
Data acquisition means for acquiring data from each database;
Time unit conversion means for aligning time information in each database to a predetermined time unit;
Spatial reference conversion means for aligning spatial information in each database with a predetermined spatial reference;
Data integration means for integrating each converted database, in which time units and space standards are aligned, using time as a join key and integrating data in each data item as one integrated database;
An integrated database storage means for storing the integrated database; A conversion function storage means for storing the conversion function;
The time unit conversion means aligns the acquired data in a predetermined time unit based on a selected conversion function from a plurality of conversion functions stored in the conversion function storage means,
The spatial reference conversion unit aligns the acquired spatial information of the database with a predetermined spatial reference based on a conversion function selected from a plurality of conversion functions stored in the conversion function storage unit. Item 4. The data integration system according to Item 1. The data integration system according to claim 1, further comprising output means for outputting the integrated database to the outside. The data integration system according to any one of claims 1 to 3, further comprising display means for displaying the integrated database on a display screen. It further has map information storage means for storing map information,
The display screen has a first area having a vertical axis and a horizontal axis, and a second area for displaying a map,
The display means displays the data items of the integrated database on the vertical axis of the first area, the time on the horizontal axis, and superimposes the spatial information of the integrated database on the map of the second area. The data integration system according to claim 4, wherein the data integration system is displayed. Search condition receiving means for receiving input of search conditions for searching for data items of the integrated database;
Search means for searching the integrated database for data that matches the input search condition;
The display means displays the time including the data matching the search condition in the first area as a target range, and when the data item including the data matching the search condition includes spatial information, The data integration system according to claim 5, wherein the spatial information in the target range is displayed on the map in the area of 2 in an overlapping manner. Comparison operation means for calculating the degree of association between one specified data item selected from the integrated database and all other data items, respectively,
The data integration system according to claim 5 or 6, wherein the display means displays a comparison calculation result in a third area of the display screen. Event data storage means for storing an event database including character information associated with time information;
Event data acquisition means for acquiring event data from the event database,
The data integration according to any one of claims 5 to 7, wherein the display means displays the acquired event data character information in an overlapping manner in association with the horizontal axis of the first area. system. A basic database that includes time information and spatial information in data items;
A data integration method for integrating at least one integrated database including data items associated with temporal information or spatial information,
A data acquisition step for acquiring data from each database;
A time unit conversion step for aligning time information in each database to a predetermined time unit;
A spatial reference conversion step for aligning spatial information in each database with a predetermined spatial reference;
A data integration step of integrating each converted database in which the time unit and the spatial standard are aligned with each other using the time as a join key and integrating the data in each data item into a single integrated database. Method. A computer program,
A program causing a computer to execute each step of the data integration method according to claim 9.