JP2010175504A - Data-integrating device and data integration method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To show information regarding the evaluation of facilities obtained from the exterior of a mobile terminal at a correct position on a map. <P>SOLUTION: A data-integrating device stores a plurality of attribute values of a plurality of respective facilities as internal facility data; the plurality of attribute values included in the internal facility data includes attribute values showing a coordinate of the location of each of the facilities; the data integration device obtains the plurality of attribute values of facilities as external facility data; the plurality of attribute values included in the external facility data includes the attribute values showing the evaluation of the facilities. When the plurality of attribute values of a first facility included in the internal facility data satisfy search conditions, including at least part of the plurality of attribute values included in the external facility data, the data-integrating device stores information, in a storage device, matching at least one attribute value of the plurality of attribute values concerning the facilities, included in the external facility data, and the plurality of attribute values of the first facilities. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The technology disclosed in the present specification is a mobile terminal that displays a map around the current location and a specified position, or guides a driver or a pedestrian along a route to a destination, a map to the mobile terminal, and a hotel Alternatively, the present invention relates to a map information server that provides facility data such as restaurants. In particular, the technology disclosed in the present specification relates to a mobile terminal that takes in facility data posted on the Internet or the like into a mobile terminal and displays and uses the data at an appropriate position on map data held by the mobile terminal.

  In a conventional mobile terminal such as a car navigation terminal, a facility table that is a collection of facility data is stored in a secondary storage device at the time of shipment from a manufacturer. The user can search for desired facility data included in the facility table, set the searched facility data as, for example, a destination, and reach the site by route search.

  The facility data stored in the mobile terminal at the time of shipment as described above is referred to as internal facility data in order to distinguish it from external facility data described later. This internal facility data generally includes a table associating attribute names with attribute values. As attribute names, for example, facility names, addresses, telephone numbers, and coordinate values representing the location of facilities are maintained, and attribute values corresponding to these attribute names are stored in a character string or numerical data type. .

  In recent years, with the reduction in the price of secondary storage devices, the installed capacity has increased, and products with millions to tens of millions of facility data have been announced. However, in general, evaluation of superiority or inferiority is not added to these huge facility data. For this reason, for example, even if the user can search for a plurality of restaurants in the vicinity, there are many cases in which such facility data is not referred to as a result of lack of criteria for selecting one of them.

  On the other hand, a lot of information on facility data to which evaluation information is given by users is disclosed on the Internet. If the mobile terminal can use the facility data to which the evaluation information is given, the convenience for the user is improved. However, there are two major problems when using such facility information in a mobile terminal.

  The first problem is that facility information that is generally disclosed on the Internet is described in a text format such as text, so that it cannot be imported into the table structure of the facility database stored in the mobile terminal as it is. It is. To solve this problem, techniques for extracting proper nouns, addresses, and telephone numbers from text such as sentences have been disclosed (see, for example, Patent Document 1, Non-Patent Document 1, and Non-Patent Document 2). By this method, names and addresses related to facility information can be extracted from text data published on the Internet, and these can be converted into a table structure consisting of pairs of attribute names and attribute values.

  Secondly, even if the first problem is solved and converted into a table structure from the description about the facility information published on the Internet, the information corresponding to each attribute is incomplete or missing. It is a problem that there may be. For example, the facility name is not a formal name but may be a simplified description as a common name. Furthermore, the address cannot be expected to include a complete description of the prefecture, city, town character, chome, street address, and issue. Further, even if coordinate values representing the location of the facility are described, there may be a problem of displacement due to accuracy. In that case, even if the facility data is taken into the mobile terminal, the data cannot be displayed at the correct position on the map. The cause of this misalignment is that the accuracy differs due to errors in the maintenance process when the map generation sources are different. Due to this difference, the relative positional relationship between the facility data and the road in contact with the facility may be erroneously handled on the mobile terminal.

  Therefore, in the already disclosed facility information services for car navigation terminals, the provider of the map and the facility data is almost the same. This is due to the problem that only facility data mapped on the same map can be taken into the mobile terminal. Therefore, the service object is limited to the facility data prepared by the same mapping company, and the application range is limited. Currently, map information is provided by multiple companies in each region in Japan and overseas, and this problem is expected to continue in the future.

On the other hand, Patent Document 2 discloses a method of superimposing two maps prepared by different projection methods while correcting a shift.
JP 2004-46775 A JP 2007-34145 A Kawaguchi, M Shu, pp.929--932, July 2006 Seiji Yokoji, Katsumi Takahashi, Nobuyuki Miura, Kenichi Shima, “Location-oriented information collection, structuring and retrieval methods”, IPSJ Journal vol.41 No.7, pp1987-1998, July 2000.

  In general, the CPU processing capacity of a mobile terminal such as a car navigation terminal and the capacity of a primary storage device such as an installed memory are limited. For this reason, it is difficult to apply the technique disclosed in Patent Document 2 to a mobile terminal. The present invention has been made in view of the above-described points, and the object of the present invention is that even facility data prepared on a different map can be placed at a correct position when handled on a mobile terminal. To provide a mechanism.

  A representative invention disclosed in the present application is a data integration device including a display unit, an operation unit, a control unit connected to the display unit and the operation unit, and a storage device connected to the control unit. The data integration apparatus holds a plurality of attribute values related to each of a plurality of facilities as internal facility data, and the plurality of attribute values included in the internal facility data indicate coordinates of the location of each facility. The plurality of facilities includes a first facility, the data integration device acquires a plurality of attribute values related to the facility as external facility data, and the plurality of attribute values included in the external facility data are , Including an attribute value indicating the evaluation of the facility, and the data integration device includes the plurality of attribute values in which the plurality of attribute values related to the first facility included in the internal facility data are included in the external facility data. Information that associates at least one of the plurality of attribute values related to the facility included in the external facility data with the plurality of attribute values related to the first facility is integrated. The stored external facility data is stored in the storage device.

  According to an embodiment of the present invention, even facility data prepared on different maps can be used by being placed at a correct position when handled on a mobile terminal.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

<First Embodiment>
FIG. 1 is a block diagram showing a configuration of an external facility data integration system according to the first embodiment of this invention.

  The external facility data integration system of this embodiment includes a server 110, a mobile terminal 120, an external server 140, and a network 130 that connects them to each other.

  The server 110 is a computer connected to the network 130. The server 110 of this embodiment includes an external information reference unit 111, an external facility data extraction unit 112, a GUI (Graphical User Interface) unit 113, and an address table 114.

  The external information reference unit 111 refers to information managed by the outside of the server 110 (for example, the external server 140). For example, when the external server 140 is a Web server, the external information reference unit 111 may be a Web browser.

  The external facility data extraction unit 112 extracts facility data from the information referred to by the external information reference unit 111.

  The GUI unit 113 provides a GUI for the user of the server 110 to use the server 110.

  The address table 114 stores address text information. This information is referred to in order for the external facility data extraction unit 112 to extract facility data.

  The hardware configuration of the server 110 and details of the above-described units will be described later.

  The mobile terminal 120 is an information terminal carried by the user. A typical example of the mobile terminal 120 is a car navigation terminal that is installed in a car and provides information for guiding a user (that is, a car driver). This embodiment demonstrates the case where the mobile terminal 120 is a car navigation terminal as an example. However, the present embodiment can also be applied to a terminal other than the car navigation terminal, for example, a so-called personal navigation terminal that is carried by a pedestrian and provides information for guiding the pedestrian.

  The mobile terminal 120 according to the present embodiment includes an external facility data integration unit 121, a navigation unit 122, a GUI unit 123, an external facility table 124, an internal facility table 125, and a map table 126.

  The external facility data integration unit 121 stores, in the external facility table 124, data permitted by the user among facility data provided from outside the mobile terminal 120 (for example, the server 110) (hereinafter referred to as external facility data). . At this time, the external facility data integration unit 121 executes processing for complementing the deficient data, as will be described later.

  The navigation unit 122 realizes a navigation function that the mobile terminal 120 (that is, the car navigation terminal) originally has. Specifically, the navigation unit 122 performs a route search based on position information acquired from the GPS described later and information stored in the map table 126, and guides the user based on the result. Output information.

  The GUI unit 123 provides a GUI for the user of the mobile terminal 120 to use the mobile terminal 120.

  The external facility table 124 stores data permitted by the user among the external facility data.

  The internal facility table 125 stores facility data maintained by the manufacturer of the mobile terminal 120 when the mobile terminal 120 is shipped.

  The map table 126 includes information necessary for drawing a map (for example, information indicating roads, rivers, topography, and the like) and information necessary for executing navigation (for example, network information for roads). ) Is stored.

  The hardware configuration of the mobile terminal 120 and details of each of the above units will be described later.

  The external server 140 is a computer connected to the network 130. For example, the external server 140 may be a Web server that provides external facility data. Since the external server 140 can be realized by a known technique, a detailed description of its configuration is omitted.

  The network 130 may be of any kind as long as it enables communication between devices connected thereto, but is typically the so-called Internet.

  The server 110 can acquire external facility data from the external server 140 via the network 130. Furthermore, the server 110 can transmit external facility data to the mobile terminal 120 via the network 130, for example.

  For example, when the network 130 is the Internet and the external server 140 is a Web server, the server 110 acquires Web page data held by the external server 140 using a Web browser (that is, the external information reference unit 111). May be. Then, the server 110 may transmit the external facility data extracted from the acquired data to the mobile terminal 120 by attaching it to an e-mail.

  However, the data transfer as described above is an example, and data transfer via a data transfer medium other than the Internet may be applied. For example, the server 110 may acquire data from the external server 140 via a recording medium such as a CD-ROM. Furthermore, the server 110 may transmit external facility data to the mobile terminal 120 via, for example, a USB (Universal Serial Bus). Alternatively, the external facility data may be transferred when the server 110 records the external facility data on a recording medium such as a memory card and the mobile terminal 120 reads the external facility data from the recording medium.

  FIG. 2 is a block diagram illustrating a hardware configuration of the mobile terminal according to the first embodiment of this invention.

  A mobile terminal 200 shown in FIG. 2 corresponds to the mobile terminal 120 shown in FIG.

  The mobile terminal 200 includes a control unit 210, a GPS (Global Positioning System) 220, a communication unit 230, an operation unit 240, a display unit 250, and a secondary storage device 260 that are connected to each other.

  The GPS 220 calculates the current position (at least latitude and longitude) of the mobile terminal 200 based on signals received from a plurality of GPS satellites. However, the GPS 220 may be replaced by any device as long as the device acquires information indicating the current position of the mobile terminal 200 to the control unit 210. For example, the GPS 220 may be replaced by a device that calculates the current position of the mobile terminal 200 based on signals from base stations other than GPS satellites. Alternatively, the GPS 220 may be replaced by an inertial navigation device. Alternatively, the GPS 220 may be replaced by a combination of a plurality of types of devices as described above.

  The communication unit 230 is connected to the network 130 and receives data from the server 110 via the network 130. When the network 130 is the Internet, the communication unit 230 may be an interface for connecting to the Internet. Alternatively, when the mobile terminal 200 is connected to the server 110 via, for example, a USB, the communication unit 230 may be an interface for connecting to the USB. Alternatively, when the mobile terminal 200 receives data from the server 110 via the recording medium, the communication unit 230 reads the reading device for reading data from the recording medium (for example, when the recording medium is a memory card, the memory card Reader).

  The operation unit 240 is an input device (for example, a button or a touch panel) that receives input from the user.

  The display unit 250 is an output device (for example, an image display device and a speaker) that outputs information to the user.

  The control unit 210 controls each unit described above. For example, the control unit 210 processes the position data calculated by the GPS 220 and the data received by the communication unit 230 in accordance with an instruction from the user input to the operation unit 240, and outputs the result to the display unit 250.

  The control unit 210 includes a CPU (Central Processing Unit) 211 and a primary storage device 212. The CPU 211 implements various functions (for example, the external facility data integration unit 121, the navigation unit 122, and the GUI unit 123 shown in FIG. 1) by executing a program stored in the primary storage device 212. Therefore, the processing executed by the external facility data integration unit 121, the navigation unit 122, and the GUI unit 123 in the present embodiment is actually executed by the CPU 211.

  The primary storage device 212 is a semiconductor memory, for example, and stores a program executed by the CPU 211 and data referred to by the CPU 211.

  The secondary storage device 260 is a nonvolatile storage device such as a hard disk drive (HDD) or a flash memory. The secondary storage device 260 is a program executed by the CPU 211 (for example, a program for realizing the external facility data integration unit 121, the navigation unit 122, and the GUI unit 123 shown in FIG. 1) and data referred to by the CPU 211 ( For example, the external facility table 124, the internal facility table 125, and the map table 126) shown in FIG. 1 are stored. At least a part of these programs and data is copied to the primary storage device 212 as necessary, and is executed or referred to by the CPU 211.

  FIG. 3 is a block diagram illustrating a hardware configuration of the server according to the first embodiment of this invention.

  A server 300 illustrated in FIG. 3 corresponds to the server 110 illustrated in FIG.

  The server 300 includes a control unit 310, a communication unit 330, an operation unit 340, a display unit 350, and a secondary storage device 360 that are connected to each other.

  The communication unit 330 is connected to the network 130, receives data from the external server 140 via the network 130, and transmits data to the mobile terminal 120. When the network 130 is the Internet, the communication unit 330 may be an interface for connecting to the Internet.

  Alternatively, when the mobile terminal 120 is connected to the server 300 via, for example, a USB, the communication unit 330 may be an interface for connecting to the USB. Alternatively, when the server 300 receives data from the external server 140 and transmits data to the mobile terminal 120 via the recording medium, the communication unit 330 may be a reading / writing device for the recording medium. For example, when the storage medium is an optical disk, the communication unit 330 may be an optical disk drive. Alternatively, when the recording medium is a memory card, the communication unit 330 may be a reader / writer of the memory card. The server 300 includes a plurality of communication units 330, and each of the communication units 330 may be any of the above.

  The operation unit 340 is an input device (for example, a keyboard or a mouse) that receives input from the user.

  The display unit 350 is an output device (for example, an image display device) that outputs information to the user.

  The control unit 310 includes a CPU 311 and a primary storage device 312. The CPU 311 implements various functions (for example, the external information reference unit 111, the external facility data extraction unit 112, and the GUI unit 113 illustrated in FIG. 1) by executing a program stored in the primary storage device 312. Therefore, the processing executed by the external information reference unit 111, the external facility data extraction unit 112, and the GUI unit 113 in the present embodiment is actually executed by the CPU 311.

  The primary storage device 312 is a semiconductor memory, for example, and stores a program executed by the CPU 311 and data referred to by the CPU 311.

  The secondary storage device 360 is a non-volatile storage device such as an HDD or a flash memory. The secondary storage device 360 is referred to by a program executed by the CPU 311 (for example, a program for realizing the external information reference unit 111, the external facility data extraction unit 112, and the GUI unit 113 shown in FIG. 1) and the CPU 311. Data (for example, the address table 114 shown in FIG. 1) is stored. At least a part of these programs and data is copied to the primary storage device 312 as necessary, and is executed or referred to by the CPU 311.

  Although illustration is omitted, the external server 140 may also be realized by hardware similar to the server 110.

  1 to 3 show examples in which the server 110 and the mobile terminal 120 are realized by independent hardware. However, these may be realized by a single hardware. For example, the mobile terminal 120 may further include an external information reference unit 111, an external facility data extraction unit 112, a GUI unit 113, and an address table 114.

  FIG. 4 is a flowchart showing the entire external facility data integration process executed in the external facility data integration system according to the first embodiment of the present invention.

  First, the external information reference unit 111 of the server 110 acquires external information (step 411). The external information acquired here is HTML data acquired from the external server 140, for example, HTML data of a Web page on which evaluations of facilities such as various stores are posted. For example, an individual who actually visits a facility can evaluate the facility (for example, if the facility is a restaurant, impressions about the quality of food or services provided) along with information such as the name and location of the facility. When posted on the personal web log (so-called blog), HTML data of the blog may be acquired as external information.

  Next, the external facility data extraction unit 112 of the server 110 extracts external facility data from the external information, and transmits the external facility data to the mobile terminal 120 (step 412).

  The external facility data integration unit 121 of the mobile terminal 120 that has received the external facility data from the server 110 integrates the external facility data (step 413).

  The navigation unit 122 performs navigation based on the integrated external facility data (step 414).

  Hereinafter, the above processing will be described in detail.

  FIG. 5 is a flowchart showing external facility data extraction processing executed by the external facility data extraction unit 112 according to the first embodiment of this invention.

  The process shown in FIG. 5 is executed in step 412 of FIG.

  First, the external facility data extraction unit 112 of the server 110 refers to the information acquired by the external information reference unit 111 (step 501). Here, an example in which the external information reference unit 111 refers to the HTML data acquired from the external server 140 will be described.

  Next, the external facility data extraction unit 112 acquires information indicating the date and time when the HTML data was generated from the referenced HTML data (step 511).

  Next, the external facility data extraction unit 112 performs morphological analysis on the text of the referenced HTML data (step 512). This morphological analysis is executed by a conventionally known method. Specifically, the external facility data extraction unit 112 divides the body of the HTML data into morphemes and determines the part of speech of each morpheme. As a result, character strings such as numbers such as proper names of facilities, facility addresses, and facility telephone numbers included in the HTML data are extracted.

  In step 512, the external facility data extraction unit 112 compares the character string extracted as the address with the character string stored in the address table 503. The address table 503 corresponds to the address table 114 shown in FIG. When the same character string as the extracted character string is stored in the address table 503, the extracted character string is an address that actually exists. On the other hand, if the same character string as the extracted character string is not stored in the address table 503, it is erroneously determined that the extracted character string is an address, or the extracted character string is incorrect. Address. The address table will be described later in detail (see FIG. 6).

  Next, the external facility data extraction unit 112 extracts attribute values from the HTML data based on the result of morphological analysis (step 513). Specifically, the attribute value corresponding to the address determined to actually exist in step 512 is extracted. The attribute value is a value of an item to be included in the external facility data, and is, for example, a facility name, an address, a postal code, a telephone number, or the like. The external facility data will be described later in detail (see FIG. 7).

  Next, the external facility data extraction unit 112 creates external facility data including the extracted attribute value (step 502).

  In step 502, the external facility data extraction unit 112 may further transmit the created external facility data to the mobile terminal 120. As already explained, this transmission may be performed by various methods. For example, the external facility data extraction unit 112 may transmit an e-mail attached with the external facility data to the mobile terminal 120. Alternatively, the user may copy the external facility data to the recording medium, connect the recording medium to the mobile terminal 120, and copy the external facility data from the recording medium to the mobile terminal 120.

  FIG. 6 is an explanatory diagram of an address table according to the first embodiment of this invention.

  An address table 600 shown in FIG. 6 corresponds to the address table 114 shown in FIG.

  Each entry of the address table 600 shown in FIG. 6 stores a real address, specifically, a character string indicating the prefecture 601, the municipality 602, and the town character 603. In the example of FIG. 6, a character string “Tokyo” as the prefecture 601 of the entry 611, “Musashino City” as the city 602, and “Kichijoji Honmachi” as the town character 603 are stored. This indicates that the address “Kichijoji Honmachi, Musashino City, Tokyo” actually exists.

  Although not shown in FIG. 6, the address table 600 may include coordinate values of representative points of addresses. For example, when the character string stored in the entry 611 represents an address “Kichijoji Honmachi, Musashino City, Tokyo”, the coordinate value of the representative point of the address may be further included in the entry 611. The representative point is a point in the administrative district boundary indicated by the address. For example, the center point of a circumscribed rectangle of a polygon figure corresponding to the outline of the administrative district boundary may be used as the representative point.

  FIG. 7 is an explanatory diagram of external facility data according to the first embodiment of this invention.

  External facility data 700 shown in FIG. 7 is an example of external facility data created in step 502 of FIG.

  7 includes a name 701, an address 702, a postal code 703, a telephone number 704, a generation date and time 705, a coordinate value 706, and an evaluation 707.

  Of the attribute values extracted from the HTML data, the attribute value determined as the name of the facility (that is, the character string determined as the name of the facility) is stored as the name 701. Similarly, as the address 702, the postal code 703, and the telephone number 704, character strings determined as the facility address, the facility postal code, and the facility telephone number are stored.

  As the generation date and time 705, the date and time when the referenced HTML data was generated is stored.

  Further, when the coordinate value of the location of the facility is included in the HTML data, the coordinate value (for example, a combination of latitude and longitude) extracted from the HTML data is stored as the coordinate value 706.

  Further, the facility evaluation information extracted from the HTML data is stored as an evaluation 707.

  However, when the HTML data is created by an individual who visited the facility, not all the above attributes are included in the HTML data. In the example of FIG. 7, “NULL” is stored as an attribute value not included in the HTML data.

  In the example of FIG. 7, the name 701, the address 702, the postal code 703, the telephone number 704, the generation date 705, the coordinate value 706, and the evaluation 707 are “Yamatoken”, “Tokyo Musashino City”, “NULL”, “NULL”, “2008-03-10”, “(X, Y)”, and “Tokyo best 5” are stored. This is because the acquired HTML data includes data indicating the name of the facility “Yamatoken”, the address of the facility “Musashino City, Tokyo”, the coordinates of the facility “(X, Y)”, and the evaluation of the facility “best 5 in Tokyo”. This indicates that the HTML data was created on March 10, 2008, and that the HTML data did not include the facility zip code and telephone number. This HTML data may be, for example, created by an individual who actually visited a facility called “Yamatoken” (for example, a restaurant) and published on a blog.

  However, when the external facility data 700 shown in FIG. 7 is created, each attribute value is only estimated based on the result of morphological analysis. Since the facility address “Musashino City, Tokyo” is checked against the address table 503 in step 512, it is certain that the facility exists. However, it is not guaranteed that the facility “Yamatoken” actually exists in Musashino City, Tokyo, and that its coordinates are (X, Y).

  FIG. 8 is a flowchart illustrating external facility data integration processing executed by the external facility data integration unit 121 according to the first embodiment of this invention.

  First, the external facility data integration unit 121 acquires the external facility data 810 via an e-mail or a memory card (step 811). This external facility data 810 corresponds to, for example, the external facility data 700 shown in FIG.

  Next, the external facility data integration unit 121 generates a search condition for searching the internal facility table (step 812). Detailed processing for generating the search condition will be described later (see FIG. 9).

  Next, the external facility data integration unit 121 searches the internal facility table 840 using the search condition generated in step 812 (step 813). The internal facility table 840 corresponds to the internal facility table 125 shown in FIG. Details of the internal facility table 840 will be described later (see FIG. 10).

  Next, the external facility data integration unit 121 determines whether or not the search result is 0 (step 814).

  In step 814, if the search result is 0 (in other words, no entry in the internal facility table 840 that matches the search condition is acquired), the external facility data 810 is incorrect or the external facility The facility indicated by the data 810 may have been opened after the internal facility table 840 has been prepared. Therefore, next, the external facility data integration unit 121 determines whether or not the generation date and time 705 of the external facility data 810 is later than the maintenance date and time 1006 (see FIG. 10) of the internal facility table 840 (step 815). ).

  If the generation date 705 of the external facility data 810 is later than the maintenance date 1006 of the internal facility table 840, the facility indicated by the external facility data 810 is estimated to have been opened after the internal facility table 840 has been maintained. . In this case, the external facility data 810 may be correct. Therefore, the external facility data integration unit 121 receives an input indicating whether or not to permit registration of the external facility data 810 in the external facility table 830 from the user (step 816). For example, the external facility data integration unit 121 displays an inquiry as to whether or not to permit registration of the external facility data 810 on the display unit 250, and receives a value input to the operation unit 240 by the user according to the display. May be.

  As already explained, it is not guaranteed that the external facility data 810 is correct. For example, incorrect external facility data 810 may be generated due to an error in morphological analysis. Alternatively, a malicious person may intentionally post incorrect information on a blog or the like. If the user determines that the external facility data 810 is apparently incorrect, he / she can input to refuse registration.

  If registration of the external facility data 810 is permitted in step 816, the external facility data integration unit 121 registers the external facility data 810 in the external facility table 830 (step 817). The external facility table 830 corresponds to the external facility table 124 shown in FIG. Details of the external facility table 830 will be described later (see FIG. 11).

  On the other hand, if the registration of the external facility data 810 is rejected in step 816, the external facility data integration unit 121 ends the process without registering the external facility data 810 in the external facility table 830 (step 818).

  In step 814, when the search result is not zero (in other words, at least one entry of the internal facility table 840 that matches the search condition is acquired), the external facility data integration unit 121 displays the search result on the display unit 250. It is displayed (step 819). When a plurality of entries are acquired, these entries are displayed as a list as a search result.

  Next, the external facility data integration unit 121 receives an input for selecting one of the search results displayed in a list from the user (step 820). For example, the user may select the most probable search result displayed in the list and input the selection to the operation unit 240.

  Next, the external facility data integration unit 121 complements the attribute value of the external facility data 810 using the search result selected in Step 820 (Step 821). Specifically, the external facility data integration unit 121 replaces the coordinate value (the coordinate value 706 in the example of FIG. 7) of the external facility data 810 with the coordinate value included in the search result selected in Step 802. Further, the external facility data integration unit 121 uses the attribute value included in the search result selected in step 802 as the attribute value missing in the external facility data 810 (postal code 703 and telephone number 704 in the example of FIG. 7). Register. Details of this complement will be described later with reference to FIGS.

  When step 821 ends, the process proceeds to step 816. The processing after step 816 is as already described.

  FIG. 9 is a flowchart showing search condition generation processing executed by the external facility data integration unit 121 according to the first embodiment of this invention.

  The process shown in FIG. 9 is executed in step 812 of FIG.

  First, the external facility data integration unit 121 initializes search conditions (step 911).

  Next, the external facility data integration unit 121 determines whether or not the attribute value corresponding to the name of the facility (the value of the name 701 in the example of FIG. 7) among the attribute values included in the external facility data 810 is “NULL”. Is determined (step 912).

  When it is determined in step 912 that the attribute value is not “NULL”, the external facility data integration unit 121 generates a search condition including an attribute value corresponding to the name of the facility (step 921).

  On the other hand, when it is determined in step 912 that the attribute value is “NULL”, the external facility data integration unit 121 proceeds to step 913 without executing step 921.

  Next, the external facility data integration unit 121 determines whether or not the attribute value (the value of the address 702 in the example of FIG. 7) corresponding to the facility address among the attribute values included in the external facility data 810 is “NULL”. Is determined (step 913).

  When it is determined in step 913 that the attribute value is not “NULL”, the external facility data integration unit 121 generates a search condition including an attribute value corresponding to the facility address (step 922).

  On the other hand, if it is determined in step 913 that the attribute value is “NULL”, the external facility data integration unit 121 proceeds to step 914 without executing step 922.

  Next, of the attribute values included in the external facility data 810, the external facility data integration unit 121 has an attribute value corresponding to the zip code of the facility (the value of the zip code 703 in the example of FIG. 7) “NULL”. (Step 914).

  If it is determined in step 914 that the attribute value is not “NULL”, the external facility data integration unit 121 generates a search condition including an attribute value corresponding to the postal code of the facility (step 923).

  On the other hand, when it is determined in step 914 that the attribute value is “NULL”, the external facility data integration unit 121 proceeds to step 915 without executing step 923.

  Next, of the attribute values included in the external facility data 810, the external facility data integration unit 121 has an attribute value corresponding to the telephone number of the facility (the value of the telephone number 704 in the example of FIG. 7) “NULL”. Whether or not (step 915).

  If it is determined in step 915 that the attribute value is not “NULL”, the external facility data integration unit 121 generates a search condition including an attribute value corresponding to the telephone number of the facility (step 924).

  On the other hand, when it is determined in step 915 that the attribute value is “NULL”, the external facility data integration unit 121 proceeds to step 916 without executing step 924.

  Next, the external facility data integration unit 121 determines whether the attribute value (the value of the coordinate value 706 in the example of FIG. 7) corresponding to the facility coordinates among the attribute values included in the external facility data 810 is “NULL”. It is determined whether or not (step 916).

  If it is determined in step 916 that the attribute value is not “NULL”, the external facility data integration unit 121 generates a search condition including an attribute value corresponding to the facility coordinates (step 925).

  On the other hand, if it is determined in step 916 that the attribute value is “NULL”, the external facility data integration unit 121 proceeds to step 917 without executing step 925.

  Next, the external facility data integration unit 121 integrates the search conditions generated in steps 921 to 925 (step 917).

  This completes the search condition generation process. The search conditions integrated in step 917 are used in the search of step 813 in FIG.

  Here, an example of the search condition generated when the external facility data 700 shown in FIG. 7 is acquired as the external facility data 810 will be described. The search condition may be described in any language, but in the present embodiment, an example is described in which a SQL (Structured Query Language) LIKE operator and a Whithin function are used.

  By using the LIKE operator, a partial character string can be searched. That is, the attribute value of the character string is searched, and it is determined whether there is a portion that matches the specified character string. Wildcards are used for this purpose. A wildcard is a special character that matches something. The LIKE operator uses a percent sign (%) as a wildcard. This wild card corresponds to an arbitrary number (including 0) of consecutive characters.

  For SQL LIKE operators, see Jonathan Genic (Author), Jonathan Gennick (Original), Hideyuki Hayashi (Translation), SQL Handbook-Function Guide, Publisher: O'Reilly Japan (2005/07), ISBN-10: 4873112362, ISBN-13: 978-4873112367.

  On the other hand, by using the Within function, a coordinate value within an arbitrary range including coordinates given as a search condition can be searched. The Within function of SQL is described in, for example, Akira Shiro Tanaka, “Application Package SQL / MM Standardization Trend”, IEICE Technical Report, Vol.99, No117 (DE99-4), June, 1999. .

  In the example of FIG. 7, since the value of the name 701 is not “NULL”, in step 921, a search condition including the value “Yamatoken” of the name 701 is generated. For example, the search condition “name LIKE‘% Daiwaken% ’” is generated using the SQL LIKE operator. When this search condition is used, a character string including a portion matching “Daiwaken” is searched.

  Similarly, in step 922, the search condition “address LIKE‘% Tokyo Musashino City% ’” is generated. When this search condition is used, a character string including a portion that matches “Musashino City, Tokyo” is searched.

  On the other hand, in the example of FIG. 7, the values of the postal code 703 and the telephone number 704 are both “NULL”. In this case, step 923 and step 924 are not executed.

  In the example of FIG. 7, since the value of the coordinate value 706 is not “NULL”, a search condition including the value “(X, Y)” of the coordinate value 706 is generated in Step 925. For example, the search condition “within (internal facility table.coordinate value, circle (point (X, Y), 500)) = 1” is generated using the SQL Within function. Using this search condition, facility data existing in a circle having a radius of 500 m centered on coordinates (X, Y) is searched from the internal facility table.

  Here, the radius of 500 m is an example, and a larger value or a smaller value may be set. When it is estimated that the error of the coordinate value based on the difference in the map data maintenance process described later is within 500 m, a value of 500 m is used.

  When the search conditions generated as described above are integrated in step 917, the search condition “SELECT * FROM internal facility table WHERE name LIKE '% Daiwaken%' AND address LIKE '% Tokyo Musashino City%' AND within ( Internal facility table.Coordinate value, circle (point (X, Y) 500) = 1; ”is generated.

  In addition, when the above-mentioned external facility data includes incorrect information, if the incorrect information is used as a search condition, a desired search result (that is, an entry in the internal facility table related to the facility corresponding to the external facility data) is acquired. Can not. For this reason, a plurality of search conditions may be prepared by reducing the items included in the search conditions, and a plurality of searches may be executed using each search condition. For example, in addition to the search condition including all the name, address and coordinate value of the facility as described above, the search condition including only the name and address, the search condition including only the address and coordinate value, and only the address and coordinate value A search condition including the search condition may be prepared, and a search using each search condition may be executed.

  When such a plurality of searches are executed, a search result that satisfies a search condition that includes more items is more likely to correspond to external facility data. However, if the external facility data contains an error, a desired result may be included in a search result that satisfies a search condition that does not include all items (for example, a search condition that includes only the name and address). There is sex. The user can select a search result that seems appropriate based on the knowledge and the like that the user has.

  FIG. 10 is an explanatory diagram of the internal facility table according to the first embodiment of this invention.

  The internal facility table 1000 illustrated in FIG. 10 corresponds to the internal facility table 125 illustrated in FIG.

  The internal facility table 1000 includes an internal facility data ID 1001, a name 1002, an address 1003, a postal code 1004, a telephone number 1005, a maintenance date and time 1006, and a coordinate value 1007.

  The internal facility data ID 1001 is information that uniquely identifies each entry in the internal facility table 1000 (that is, information that uniquely identifies a facility registered in each entry).

  A name 1002, an address 1003, a postal code 1004, and a telephone number 1005 are character strings indicating the name of the facility, the address of the facility, the postal code of the facility, and the telephone number of the facility, respectively.

  The maintenance date and time 1006 indicates the date and time when the information of each entry in the internal facility table 1000 was maintained.

  A coordinate value 1007 indicates the coordinates of the location of the facility.

  In the example of FIG. 10, the internal facility data ID 1001, name 1002, address 1003, postal code 1004, telephone number 1005, maintenance date and time 1006, and coordinate value 1007 of the second entry (ie, entry 1011) of the internal facility table 1000 are shown. , "1002," "Ganso Yamatoken Kichijoji store", "Kichijoji Honmachi, Musashino City, Tokyo", "180-0004", "042-xxx-xxx", "2007-10-01" and "(X2, Y2) Is stored. This is the address, postal code, telephone number and coordinates of the facility named “Ganso Yamatoken Kichijoji”, “Kichijoji Honmachi, Musashino City, Tokyo”, “180-0004”, “042-xxx-xxx”, respectively. And “(X2, Y2)”, indicating that the information is prepared on October 1, 2007, and the entry including the information is identified by the identifier “1002”.

  FIG. 11 is an explanatory diagram of an external facility table according to the first embodiment of this invention.

  The external facility table 1100 illustrated in FIG. 11 corresponds to the external facility table 124 illustrated in FIG.

  The external facility table 1100 includes an external facility data ID 1101, a name 1102, an address 1103, a postal code 1104, a telephone number 1105, a generation date 1106, a coordinate value 1107, an internal facility data ID 1108, and an evaluation 1109.

  The external facility data ID 1101 is information that uniquely identifies each entry in the external facility table 1100 (that is, information that uniquely identifies a facility registered in each entry).

  The name 1102, the address 1103, the postal code 1104, and the telephone number 1105 are character strings indicating the name of the facility, the address of the facility, the postal code of the facility, and the telephone number of the facility, respectively. Each of these is either a character string extracted from the external facility data acquired from the external server 140 or a character string supplemented based on the internal facility table 1000.

  The generation date and time 1106 indicates the date and time when the external facility data that is the basis of the information of each entry in the external facility table 1100 was generated.

  A coordinate value 1107 indicates the coordinates of the location of the facility.

  The internal facility data ID 1108 identifies the internal facility table 1000 that is referenced to complement the external facility data that is the basis of the information of each entry in the external facility table 1100.

  The evaluation 1109 is a character string indicating the evaluation of the facility extracted from the external facility data.

  The example of FIG. 11 shows the external facility table 1100 created by complementing the external facility data 700 shown in FIG. 7 based on the entry 1011 of the internal facility table 1000 shown in FIG.

  Specifically, when the external facility data 700 shown in FIG. 7 is acquired in step 811 of FIG. 8, as described with reference to FIG. 9, “SELECT * FROM internal facility table WHERE name LIKE ' % Yamatoken% 'AND Address LIKE'% Musashino City, Tokyo% 'AND within (internal facility table. Coordinate value, circle (point (X, Y) 500) = 1;) is generated.

  By using this search condition, at least part of the name 1002 includes “Yamatoken”, at least part of the address 1003 includes “Tokyo Musashino City”, and the coordinate value 1007 has a value from (X, Y) An entry having a radius of 500 m or less is retrieved from the internal facility table 1000 shown in FIG. In the example of FIG. 10, when the distance between the coordinate values (X2, Y2) and (X, Y) is within 500 m, the entry 1011 is acquired as a search result.

  In addition to the entry 1011, if there is an entry that satisfies the above search conditions, the entry is acquired, and in step 819, information on all the acquired entries is displayed.

  When entry 1011 is selected in step 820, the attribute value of external facility data 700 is supplemented using data included in entry 1011 in step 821. In the example of FIG. 11, the complemented value is stored in the entry 1111 of the external facility table 1100.

  Specifically, the values of the name 701 and the address 702 that are incomplete in the external facility data 700 (that is, “Yamatoken” and “Musashino City, Tokyo”) are the values of the name 1002 and the address 1003 of the entry 1011 respectively. (Ie, “Ganso Yamatoken Kichijoji store” and “Kichijoji Honmachi, Musashino City, Tokyo”). The values of the postal code 703 and the telephone number 704 that are missing in the external facility data 700 are the values of the postal code 1004 and the telephone number 1005 of the entry 1011 (that is, “180-0004” and “042-xxx-xxxx”), respectively. Complemented by

  Thereby, the mobile terminal 120 can provide the user with information related to the evaluation of the facility together with information without any missing information regarding attributes (for example, an address or a telephone number) other than the evaluation of the facility.

  Further, in step 821, the value (X, Y) of the coordinate value 706 of the external facility data 700 is replaced with the value (X2, Y2) of the coordinate value 1007 of the entry 1011. This is because the value (X, Y) of the coordinate value 706 of the external facility data 700 may not match the map data held by the mobile terminal.

  For example, the map data generator used as the basis for calculating the coordinate values (X, Y) included in the external facility data 700 is used as the basis for calculating the coordinate values (X2, Y2) included in the internal facility table. If the map data is different from the origin of the map data, the two values may not match. Such inconsistencies are caused by differences in the map data maintenance process.

  Normally, the coordinate value 1007 included in the internal facility table 1000 (that is, the internal facility table 125) held by the mobile terminal 120 matches the map data included in the map table 126 held by the mobile terminal 120. For this reason, the information regarding the facilities included in the internal facility table 1000 is correctly displayed on the map displayed by the mobile terminal 120 (in other words, displayed at the position on the map corresponding to the location of the facility).

  However, if there is a mismatch in the coordinate values as described above, the information regarding the facility included in the external facility data is not correctly displayed on the map displayed by the mobile terminal 120 (in other words, on the map corresponding to the location of the facility). May be displayed at a different position from This hinders providing accurate navigation information to the user.

  In step 821, by replacing the value (X, Y) of the coordinate value 706 with (X2, Y2), the information regarding the facility included in the external facility data can be correctly displayed on the map displayed by the mobile terminal 120. it can.

  Eventually, as the name 1102, the address 1103, the postal code 1104, the telephone number 1105, and the coordinate value 1107 of the entry 1111 in the external facility table 1100, the name 1002, the address 1003, the postal code 1004, and the telephone of the entry 1011 in the internal facility table 1000, respectively. The same value as the number 1005 and the coordinate value 1007 is stored.

  Furthermore, the generation date / time 705 and the evaluation 707 value of the external facility data 700 (that is, “2008-03-10” and “Tokyo best5”) are stored as the generation date / time 1106 and the evaluation 1109 of the entry 1111 of the external facility table 1100. . Further, the value “1002” of the internal facility data ID 1001 for identifying the entry 1011 of the internal facility table used for complementing is stored as the internal facility data ID 1108 of the entry 1111. Furthermore, in the example of FIG. 11, “1” is stored as the external facility data ID 1101 of the entry 1111.

  On the other hand, for example, when the entry 1011 is not included in the internal facility table 1000 and any of the other entries does not satisfy the above search condition, it is determined in step 814 that the search result is 0. In this case, in step 815, it is determined whether or not the generation date and time of the acquired external facility data is later than the maintenance date and time of the internal facility table 1000. The maintenance date and time of the internal facility table 1000 is acquired from the maintenance date and time 1006 of any entry in the internal facility table 1000, for example.

  In the example of FIGS. 7 and 10, the external facility data generation date “March 10, 2008” is later than the maintenance date “October 1, 2007” of the internal facility table 1000. Such external facility data may be a mere error, but may be correct if the external facility data relates to facilities opened on or after October 1, 2007.

  Therefore, the external facility data integration unit 121 registers the external facility data 700 in the external facility table 1100 when permission from the user is input in step 816. In this case, the complement using the attribute value of the internal facility table 1000 is not executed. Therefore, as the name 1102, address 1103, and coordinate value 1107, the same values as the name 701, address 702, and coordinate value 706, that is, “Yamatoken”, “Musashino City, Tokyo” and “(X, Y)”, respectively. Is stored. Further, for example, “NULL” may be stored as the postal code 1104, the telephone number 1105, and the internal facility data ID 1108.

  FIG. 7 illustrates an example in which the coordinate value (X, Y) is included, but there may be a case where the external facility data 700 does not include the coordinate value (that is, the coordinate value 706 is “NULL”). Even in this case, there is a possibility that the coordinate value can be calculated based on the facility address. Specifically, when the address 702 includes even detailed address information, the external facility data integration unit 121 can calculate the coordinates of the location of the facility based on the map table 126.

  For example, the external facility data integration unit 121 searches the note / background table 1230 (described later) for an entry corresponding to the administrative district boundary indicated by the address 702, and has a polygonal shape specified by the shape data 1234 (described later) of the entry. The coordinate value of the center point of the circumscribed rectangle may be calculated as the coordinate value of the location of the facility.

  Alternatively, when the address table 600 includes the coordinate value of the representative point, the external facility data integration unit 121 searches the address table 600 for the coordinate value of the representative point corresponding to the address 702, and obtains the coordinate value of the above facility. You may acquire as a coordinate value of a location.

  The external facility data integration unit 121 may store the coordinate value calculated as described above as the coordinate value 1107.

  Even when the coordinate value 706 is included in the external facility data 700, when the detailed information is included in the address 702, the external facility data integration unit 121 determines the facility based on the value of the address 702 and the map table 126. May be calculated, and the calculated coordinate value may be stored as the coordinate value 1107. As described above, the coordinate value 706 included in the external facility data 700 may not match the map table 126 held by the mobile terminal 120. On the other hand, since the map table 126 is used for calculating the coordinate value based on the address 702, the above inconsistency does not occur.

  When the coordinate value 706 of the external facility data 700 is “NULL” and the address 702 does not include detailed information, the external facility data integration unit 121 determines the approximate facility number based on the value of the address 702. A coordinate value indicating the location may be calculated, and the calculated value may be stored as the coordinate value 1107.

  Note that the attribute values shown in FIGS. 7, 10, and 11 are examples, and any attribute value not shown may be handled. For example, the internal facility table 1000 may include a facility category (for example, information indicating whether the facility is a restaurant or a public facility) as an attribute value. In this case, a character string or the like indicating the facility category may be extracted as the external facility data 700, and a condition related to the facility category may be added to the search condition illustrated in FIG.

  In the present embodiment, as described above, by integrating the acquired external facility data 700 and the internal facility table 1000 held by the mobile terminal 120, the external facility table 1100 shown in FIG. Created. The external facility table 1100 associates the attribute value of the external facility data 700 (for example, the evaluation “Tokyo best 5”) with the attribute value of the internal facility table 1000 (for example, coordinates (X, Y)). However, such an association method is merely an example, and the present invention may be realized by an association method other than the above.

  For example, the mobile terminal 120 stores the external facility data 700 as it is in the secondary storage device 260, and further, the attribute value of the external facility data 700 and the attribute value of an appropriate entry (eg, entry 1011) of the internal facility table 1000. May be stored in the secondary storage device 260. By such association, it is possible to display the evaluation of the facility included in the external facility data at the correct position, and to supplement the missing information in the external facility data.

  Next, the map table 126 will be described with reference to FIGS. 12A to 12F. The map table 126 used in the present embodiment may be the same as that used in a conventional car navigation terminal. 12A to 12F show examples of the map table 126 used in the present embodiment.

  FIG. 12A is an explanatory diagram of a road table 1210 included in the map table 126 according to the first embodiment of this invention.

  The road table 1210 includes information necessary for the mobile terminal 120 to display a road on a map. Specifically, the road table 1210 includes a link ID 1211, a region ID 1212, a width 1213, a road type code 1214, point sequence data 1215, a start node ID 1216, and an end node ID 1217.

  The link ID 1211 is information for identifying a link, that is, a section of a road connecting two adjacent intersections.

  The area ID 1212 is information for identifying an area to which each section identified by the link ID 1211 belongs. The area will be described later with reference to FIG. 12E.

  The width 1213 is information indicating the road width of each section.

  The road type code 1214 is information indicating the type of road including the section identified by the link ID 1211. This will be described later with reference to FIG. 12B.

  The point sequence data 1215 is a set of coordinate values of points on the road in each section. Based on the point sequence data 1215, the shape of the road in each section can be specified.

  The starting point node ID 1216 is information for identifying the starting point of each section.

  The end node ID 1217 is information for identifying the end point of each section.

  FIG. 12B is an explanatory diagram of a road type table 1220 included in the map table 126 according to the first embodiment of this invention.

  The road type table 1220 includes information associating information describing the road type (road type 1221 in FIG. 12B) and a code for identifying the road type (code 1222 in FIG. 12B).

  In the example of FIG. 12B, “1”, “2”, and “3” are stored as codes 1222 corresponding to the values “highway”, “national road”, and “prefectural road” of the road type 1221, respectively. . This indicates that the code identifying the highway is “1”, the code identifying the national road is “2”, and the code identifying the prefectural road is “3”.

  For example, “1” is stored as the road type code 1214 of the top entry of the road table 1210 in FIG. 12A. This indicates that the section corresponding to the entry is a part of the highway.

  FIG. 12C is an explanatory diagram of the note / background table 1230 included in the map table 126 according to the first embodiment of this invention.

  The note / background table 1230 includes information necessary for the mobile terminal 120 to display background features on the map. Specifically, the note / background table 1230 includes a background ID 1231, a region ID 1232, a background type code 1233, shape data 1234, and a note character string 1235. Here, the background feature means a feature other than the road displayed on the map, for example, a river, a railroad, and an administrative district boundary.

  The background ID 1231 is information for identifying each background feature.

  The area ID 1232 is information for identifying an area to which each background feature identified by the background ID 1231 belongs (see FIG. 12E).

  The background type code 1233 is information indicating the type of each background feature. This will be described later with reference to FIG. 12D.

  The shape data 1234 is information indicating the shape of each background feature. For example, as the shape data 1234, coordinate values representing either a point graphic representing a map symbol or the like, a polygonal graphic representing a railway or the like, and a polygonal graphic representing a water area or a site are stored.

  The annotation character string 1235 is a character string displayed on the screen for explaining each background feature. For example, as the note character string 1235, a river name, a railway route name, a city name, an address, or the like may be stored.

  FIG. 12D is an explanatory diagram of the background type table 1240 included in the map table 126 according to the first embodiment of this invention.

  The background type table 1240 includes information associating information describing the type of the background feature (background type 1241 in FIG. 12D) and a code for identifying the type of the background feature (code 1242 in FIG. 12D).

  In the example of FIG. 12D, “1”, “2”, and “3” are stored as codes 1242 corresponding to the values “river”, “railway”, and “administrative boundary” of the background type 1241, respectively. This indicates that the code for identifying rivers is “1”, the code for identifying railways is “2”, and the code for identifying administrative districts is “3”.

  For example, “1” is stored as the background type code 1233 of the top entry of the note / background table 1230 in FIG. 12C. This indicates that the background feature corresponding to the entry is a river.

  As described with reference to FIG. 11, the calculation of the coordinate value based on the address data can be performed using the note / background table 1230 and the background type table 1240.

  FIG. 12E is an explanatory diagram of the arrangement of areas managed in the first embodiment of the present invention.

  The mobile terminal 120 according to the present embodiment divides a space on a map corresponding to the real world into a lattice shape, and assigns an identification number (that is, an area ID) to each divided rectangular area. For example, as shown in FIG. 12E, a region ID “1” is assigned to a rectangular region 1250 having an X coordinate from X1 to X2 and a Y coordinate from Y0 to Y1.

  FIG. 12F is an explanatory diagram of an area ID table 1260 included in the map table 126 according to the first embodiment of this invention.

  The area ID table 1260 includes information associating the area ID and coordinates of each rectangular area shown in FIG. 12E. Specifically, the region ID table 1260 includes a region ID 1261, a lower left coordinate 1262, and an upper right coordinate 1263.

  The area ID 1261 is an identifier assigned to each area.

  The lower left coordinates 1262 are the coordinates of the lower left corner point of each rectangular area (in other words, the coordinates of the point having the smallest X coordinate and the smallest Y coordinate among the points on the boundary line of each area).

  The upper right coordinate 1263 is the coordinate of the upper right corner point of each rectangular area (in other words, the coordinate of the point having the largest X coordinate and the largest Y coordinate among the points on the boundary line of each area).

  In the example of FIG. 12F, “(X1, Y0)” and “(X2, Y1)” are stored as the lower left coordinates 1262 and the upper right coordinates 1263 corresponding to the value “1” of the area ID 1261, respectively. This indicates that a region ID “1” is assigned to a rectangular region 1250 having an X coordinate from X1 to X2 and a Y coordinate from Y0 to Y1, as shown in FIG. 12E.

  For example, “1” is stored as the area ID 1212 of the top entry in FIG. 12A. This indicates that the section corresponding to the entry is included in a rectangular area 1250 having an X coordinate from X1 to X2 and a Y coordinate from Y0 to Y1.

  Alternatively, “1” is stored as the area ID 1232 of the top entry in FIG. 12C. This indicates that the background (the river in the examples of FIGS. 12C and 12D) corresponding to the entry is included in the region 1250 described above.

  FIG. 13 is a flowchart showing navigation processing executed by the navigation unit 122 according to the first embodiment of this invention.

  First, the navigation unit 122 acquires data indicating the current location (that is, the current location of the mobile terminal 120) (step 1311). For example, the navigation unit 122 may acquire the GPS data 1310 from the GPS 220.

  Next, the navigation part 122 displays the map which shows a present location on the display part 250 based on the data acquired at step 1311 (step 1312). At this time, the navigation unit 122 refers to the map table 1320 and acquires data necessary for displaying the map. Specifically, the navigation unit 122 refers to the region ID table 1260 to identify the region to which the current location belongs, and the road and background data included in the region from the road table 1210 and the note / background table 1230. get. Note that the map table 1320 shown in FIG. 13 corresponds to the map table 126 described with reference to FIGS. 12A to 12F.

  Next, the navigation part 122 designates the destination with evaluation (step 1313). For example, when the user inputs information specifying a destination via the operation unit 240, the navigation unit 122 refers to the external facility table 1330 using the input information as a search key. The external facility table 1330 illustrated in FIG. 13 corresponds to the external facility table 124 illustrated in FIG. 1 (that is, the external facility table 1100 illustrated in FIG. 11).

  For example, when the user inputs a facility address “Musashino City, Tokyo” as a search key, the navigation unit 122 acquires an entry 1111 including “Tokyo Musashino City” in the address 1103 from the external facility table 1330 (FIG. 11). Reference), information on the facility corresponding to the acquired entry (in the case of entry 1111, the facility having the name “Ganso Yamatoken Kichijoji”) is displayed on the display unit 250. When a plurality of entries satisfying the search conditions are acquired, information on a plurality of facilities corresponding to the plurality of entries is displayed. At this time, information about the facility evaluation (that is, evaluation 1109) included in each entry is also displayed. The user can designate one of the facilities as the destination with reference to the evaluation of the facility.

  In step 1313 or steps 1314 to 1315 to be described later, the navigation unit 122 obtains the facility information stored in the external facility table 1330 (for example, at least the facility name “Yamatoken” and the facility evaluation “Tokyo best 5”). You may display corresponding to the position on the map corresponding to the coordinate value 1107 of a plant | facility. As already described, since the coordinate value 1107 matches the map table 126 held by the mobile terminal 120, the facility information is displayed in association with the correct position on the map.

  Here, displaying the facility information in association with the position on the map corresponding to the coordinate value 1107 of the facility may be realized in any way. For example, a character string including facility information may be displayed in a balloon indicating the position on the map, or a character string including facility information, a point indicating the position on the map, and A connecting line may be displayed.

  The user can select a destination with reference to the evaluation of the facility displayed in association with the correct position on the map.

  However, when external facility data complementation using the internal facility table 1000 is not executed (that is, after step 817 is executed after the search result is determined to be 0 in step 814), the coordinate value 1107 may not match the map table 126 held by the mobile terminal 120 (see the description of FIG. 11). Therefore, in such a case, the navigation unit 122 may display that the displayed facility information is not supplemented using the internal facility table 1000 using, for example, a symbol indicating the fact.

  For example, information that is not complemented may be displayed using a color different from the complemented information. In some cases, uncomplemented information may be displayed using an icon different from the supplemented information. Or the character string etc. which notify that the information is not complemented may be displayed with the information which is not complemented.

  Next, the navigation unit 122 searches for a route from the current location to the designated destination (step 1314). This route search can be executed by a known method. For example, when the start point (for example, the current location) and the end point (for example, the designated destination) of the route are determined, the navigation unit 122 determines the road table 1210 and the road included in the map table 1320 (corresponding to the map table 126 illustrated in FIG. 1). Referring to the type table 1220, a road data string corresponding to the shortest route is calculated. That is, the navigation unit 122 can determine the shortest route by representing a set of links as a graph composed of edges to which the route length of the link is given as a weight, and performing a calculation represented by the Dijkstra method. .

  Next, the navigation unit 122 guides the user based on the route searched in Step 1314 (Step 1315). Specifically, the navigation unit 122 outputs information necessary for guiding the user via the display unit 250.

  Since the route search in step 1314 and the guidance in step 1315 are the same as those performed in a conventional car navigation terminal, detailed description thereof will be omitted.

  When the mobile terminal 120 arrives at the destination, the navigation unit 122 evaluates the reliability of the external facility table 1330 and reflects the result of the evaluation in the external facility table 1330 (step 1316). Here, the reliability evaluation of the external facility table 1330 is the reliability of the data stored in the external facility table 1330, for example, whether the correspondence between the name 1102 and the address 1103 is correct, or the evaluation 1109 It is an evaluation of whether or not the value matches the evaluation by the user himself.

  As described above, the external facility table 1330 is generated by complementing the external facility data acquired from the external server 140 using the attribute values stored in the internal facility table 1000. However, the external facility table is caused by, for example, an error in morphological analysis (step 512) when extracting the external facility data, or an error in searching the internal facility table 840 corresponding to the external facility data (step 813). Data stored in 1330 may be incorrect.

  For example, the guidance in step 1315 ends when the mobile terminal 120 arrives near the destination. However, when incorrect data is stored in the external facility table 1330 as described above, there is a case where the facility set as the destination does not exist at the address set as the destination. In such a case, since the user cannot find the facility set as the destination even though the guidance is finished, it is expected that the user continues to move while searching for the destination. For this reason, for example, when the mobile terminal 120 continues to move for a time longer than a predetermined threshold after the guidance is completed, the navigation unit 122 includes at least the location of the facility among the information stored in the external facility table 1330. It can be determined that the coordinate value 1107 is incorrect.

  For example, if it is determined in step 1316 that the coordinate value 1107 is incorrect, the navigation unit 122 may delete the entry related to the facility set as the destination from the external facility table 1330.

  Alternatively, when the navigation unit 122 determines in step 1316 that the coordinate value 1107 is incorrect, the navigation unit 122 indicates that the evaluation 1109 corresponding to the facility estimates that the coordinate value 1107 of the facility location is incorrect. When it is determined that the coordinate value 1107 is not incorrect, information indicating that the coordinate value 1107 of the location of the facility is estimated to be correct is added to the evaluation 1109 corresponding to the facility. Also good.

  For example, a point indicating the high reliability of the coordinate value 1107 may be added to the evaluation 1109. If it is determined in step 1316 that the coordinate value 1107 is incorrect, the point corresponding to the facility is subtracted. If it is determined that the coordinate value 1107 is not incorrect, the point corresponding to the facility is added. Good.

  Or the navigation part 122 acquires the coordinate value of the position where the user parked the car from the GPS 220 after the guidance in step 1315 is completed, and uses the coordinate value as the new coordinate value 1107 of the facility set as the destination. You may store in the external facility table 1330.

  Here, the state where the automobile is parked means that the automobile driver has left the automobile in order to use the facility. The navigation unit 122 may detect a state where the driver can leave the vehicle as a state where the vehicle is parked. For example, the navigation unit 122 may determine that the position where the engine of the automobile has stopped is the position where the user parked the automobile, or the user used the handbrake of the automobile, and the automobile did not move after a predetermined time. In this case, the position where the hand brake is used may be determined as the position where the user parked the automobile.

  However, in order to prevent erroneous data from being stored, the navigation unit 122 outputs a display inquiring whether or not to store a new coordinate value 1107 to the display unit 250, and storage permission is input thereto. In this case, a new coordinate value 1107 may be stored.

  On the other hand, when the address stored in the external facility table 1330 is correct, the user actually uses the facility after arriving at the destination. As a result, in addition to the evaluation by a third party (for example, “Tokyo best 5”) stored in the evaluation 1109 of the external facility table 1330, the user has an independent evaluation (for example, “delicious” when the facility is a restaurant). Etc.). In that case, the user can input the evaluation he / she gave to the facility to the mobile terminal 120 via the operation unit 240. In that case, the navigation part 122 may add the information regarding the evaluation input from the user in step 1316 to the evaluation 1109 corresponding to the facility set as the destination.

  According to the first embodiment of the present invention described above, when the external facility data integration unit 121 acquires the external facility data 700 related to a certain facility, the external facility data integration unit 121 extracts information related to the facility from the internal facility table 1000 and extracts the extracted information. Is used to complement the external facility data 700, and the supplemented data is registered in the external facility table 1100 (see FIGS. 8 and 9). Accordingly, it is possible to provide the user with information regarding the evaluation of the facility included in the external facility data while appropriately complementing the incomplete part of the external facility data. Further, since the coordinate value 706 of the external facility data 700 is replaced by the coordinate value 1007 of the internal facility table 1000 by the above complementation, the coordinate value based on the difference in the map information maintenance process that is the basis of the calculation of each coordinate value. The error is eliminated. Thereby, the information regarding the evaluation of the facility can be correctly displayed on the map. Furthermore, the user can add information indicating the reliability to the external facility table.

<Second Embodiment>
In the first embodiment of the present invention, in step 1316 of FIG. 13, a user who uses information included in the external facility table 1100 evaluates the reliability of the information. In the second embodiment, the information whose reliability is evaluated in this way is stored in a server connected to the network so that it can be used by other users.

  FIG. 14 is a block diagram showing the configuration of the external facility data sharing system according to the second embodiment of this invention.

  The external facility data sharing system of this embodiment includes a server 1410, a mobile terminal 1420, an external facility data sharing server 1440, an external server 1450, and a network 1430 that connects them to each other.

  The server 1410 is a computer connected to the network 1430. The server 1410 of this embodiment includes an external information reference unit 1411, an external facility data extraction unit 1412, a GUI unit 1413, and an address table 1414. Since these are the same as the external information reference unit 111, the external facility data extraction unit 112, the GUI unit 113, and the address table 114 of the first embodiment, description thereof is omitted (see FIG. 1).

  The mobile terminal 1420 is an information terminal carried by the user, for example, a car navigation terminal installed in an automobile. The mobile terminal 1420 of this embodiment includes an external facility data integration unit 1421, a navigation unit 1422, a GUI unit 1423, an external facility table 1424, an internal facility table 1425, and a map table 1426. These are the same as the external facility data integration unit 121, the navigation unit 122, the GUI unit 123, the external facility table 124, the internal facility table 125, and the map table 126 of the first embodiment, respectively, and thus description thereof is omitted ( (See FIG. 1).

  Similar to the first embodiment, the second embodiment can also be applied to terminals other than car navigation terminals, such as so-called personal navigation terminals carried by pedestrians.

  Since the network 1430 and the external server 1450 are respectively equivalent to the network 130 and the external server 140 of the first embodiment, description thereof is omitted (see FIG. 1).

  The external facility data sharing server 1440 is a computer connected to the network 130. The external facility data sharing server 1440 of this embodiment includes a sharing external facility table 1441. Details of the shared external facility table 1441 will be described later (see FIG. 15).

  For example, the external facility data sharing server 1440 may be a Web server that provides information included in the sharing external facility table 1441. Since the external facility data sharing server 1440 can be realized by a known technique, a detailed description of its configuration is omitted.

  FIG. 14 shows an example in which the external server 1450 and the external facility data sharing server 1440 are independent from each other, but these may be realized by a single computer.

  Since the hardware configurations of the server 1410 and the mobile terminal 1420 are the same as the hardware configurations of the server 110 and the mobile terminal 120 of the first embodiment, description thereof will be omitted (see FIGS. 2 and 3). The external server 1450 and the external facility data sharing server 1440 may be realized by a computer similar to the server 1410. In that case, the external facility data sharing server 1440 includes a storage device (not shown) similar to the secondary storage device 360, and the shared external facility table 1441 is stored in the storage device.

  FIG. 15 is an explanatory diagram of a shared external facility table according to the second embodiment of this invention.

  The sharing external facility table 1500 shown in FIG. 15 corresponds to the sharing external facility table 1441 shown in FIG.

  The shared external facility table 1500 includes an internal facility data ID 1501, a name 1502, an address 1503, a postal code 1504, a telephone number 1505, a generation date and time 1506, a coordinate value 1507, and an evaluation 1509. These are the same as the internal facility data ID 1108, name 1102, address 1103, postal code 1104, telephone number 1105, generation date 1106, coordinate value 1107, and evaluation 1109 of the external facility table 1100 of the first embodiment, respectively. Detailed description will be omitted.

  However, the information stored in the shared external facility table 1500 reflects the result of the reliability evaluation by the user. FIG. 15 shows the table created by reflecting the result of the reliability evaluation by the user in the external facility table 1100 shown in FIG.

  Specifically, the internal facility data ID 1501, name 1502, address 1503, postal code 1504, telephone number 1505, generation date 1506, and coordinate value 1507 of the entry 1511 of the shared external facility table 1500 are the external data shown in FIG. This is the same as the internal facility data ID 1108, name 1102, address 1103, postal code 1104, telephone number 1105, generation date 1106, and coordinate value 1107 in the entry 1111 of the facility table 1100. This indicates that the attribute value included in the entry 1111 has been evaluated as accurate.

  Further, {“Tokyo best 5”, “delicious”} is stored as the value of the evaluation 1519 of the entry 1511. This indicates that the user who actually visited the facility corresponding to the entry 1111 using the external facility table 1100 added the evaluation “delicious”.

  FIG. 16 is a flowchart illustrating external facility data sharing processing executed by the navigation unit 1422 according to the second embodiment of this invention.

  The GPS data 1610, the map table 1620, and the external facility table 1630 shown in FIG. 16 are equivalent to the GPS data 1310, the map table 1320, and the external facility table 1330 shown in FIG. 13, respectively.

  Of the processes shown in FIG. 16, the process in which the navigation unit 1422 acquires the GPS data 1610 (step 1611) and the process in which the navigation unit 1422 displays a map indicating the current location (step 1612) are shown in FIG. Similar to 1311 and step 1312.

  Following step 1612, the navigation unit 1422 specifies a destination with evaluation (step 1613). At this time, the navigation unit 1422 executes the same search as in step 1313 of FIG. 13 not only for the external facility table 1630 but also for the shared external facility table 1631.

  For example, the navigation unit 1422 may transmit a search request including a search key input by the user to the external facility data sharing server 1440 via the network 1430. The external facility data sharing server 1440 executes a search according to the received search request and transmits the result to the mobile terminal 1420.

  Alternatively, for example, the user operates the server 1410 to acquire at least a part of information stored in the shared external facility table 1631 in advance from the external facility data sharing server 1440, and stores the acquired information in a memory card (not shown). The memory card or the like may be connected to the mobile terminal 1420. In this case, in step 1613, the navigation unit 1422 also performs a search for information stored in the memory card.

  The sharing external facility table 1631 illustrated in FIG. 16 corresponds to the sharing external facility table 1441 illustrated in FIG. 14 (that is, the sharing external facility table 1500 illustrated in FIG. 15). The user designates any facility corresponding to the entry acquired as the search result of these tables as the destination. The user may specify the information corresponding to the entry acquired from the external facility table 1630 as the destination, or may specify the information corresponding to the entry acquired from the shared external facility table 1631 as the destination. Good.

  Next, the navigation unit 1422 searches for a route from the current location to the designated destination (step 1614), and guides the user based on the route (step 1615). These processes are the same as step 1314 and step 1315 of FIG.

  Next, the navigation unit 1422 evaluates the reliability of the entry in the external facility table 1630 or the shared external facility table 1631 specified in step 1613, and the result of the evaluation is the external facility table 1630 and the shared external facility table 1631. To reflect. This evaluation is performed in the same manner as the evaluation in step 1316 of FIG. The navigation unit 1422 transmits the evaluation result to the external facility data sharing server 1440 via the network 1430 to reflect the evaluation result in the sharing external facility table 1631.

  As described above, according to the second embodiment of the present invention, the user evaluates the reliability of the external facility table 1424 and shares the result of the evaluation as a shared external facility table 1441 with other users. Thereby, each user can use more reliable information regarding the facility.

It is a block diagram which shows the structure of the external facility data integration system of the 1st Embodiment of this invention. It is a block diagram which shows the hardware constitutions of the mobile terminal of the 1st Embodiment of this invention. It is a block diagram which shows the hardware constitutions of the server of the 1st Embodiment of this invention. It is a flowchart which shows the whole external facility data integration process performed in the external facility data integration system of the 1st Embodiment of this invention. It is a flowchart which shows the external facility data extraction process which the external facility data extraction part of the 1st Embodiment of this invention performs. It is explanatory drawing of the address table of the 1st Embodiment of this invention. It is explanatory drawing of the external facility data of the 1st Embodiment of this invention. It is a flowchart which shows the external facility data integration process which the external facility data integration part of the 1st Embodiment of this invention performs. It is a flowchart which shows the search condition production | generation process which the external facility data integration part of the 1st Embodiment of this invention performs. It is explanatory drawing of the internal facility table of the 1st Embodiment of this invention. It is explanatory drawing of the external facility table of the 1st Embodiment of this invention. It is explanatory drawing of the road table contained in the map table of the 1st Embodiment of this invention. It is explanatory drawing of the road classification table contained in the map table of the 1st Embodiment of this invention. It is explanatory drawing of the note and background table contained in the map table of the 1st Embodiment of this invention. It is explanatory drawing of the background classification table contained in the map table of the 1st Embodiment of this invention. It is explanatory drawing of arrangement | positioning of the area | region managed in the 1st Embodiment of this invention. It is explanatory drawing of the area | region ID table contained in the map table of the 1st Embodiment of this invention. It is a flowchart which shows the navigation process which the navigation part of the 1st Embodiment of this invention performs. It is a block diagram which shows the structure of the external facility data sharing system of the 2nd Embodiment of this invention. It is explanatory drawing of the external facility table for a share of the 2nd Embodiment of this invention. It is a flowchart which shows the external facility data sharing process which the navigation part of the 2nd Embodiment of this invention performs.

110, 300, 1410 Server 111, 1411 External information reference unit 112, 1412 External facility data extraction unit 113, 123, 1413, 1423 GUI unit 114, 503, 600, 1414 Address table 120, 200, 1420 Mobile terminal 121, 1421 External Facility data integration unit 122, 1422 Navigation unit 124, 830, 1100, 1330, 1424, 1630 External facility table 125, 820, 1000, 1425 Internal facility table 126, 1320, 1426, 1620 Map table 130, 1430 Network 140, 1450 External Server 210, 310 Control unit 211, 311 CPU
212, 312 Primary storage device 220 GPS unit 230, 330 Communication unit 240, 340 Operation unit 250, 350 Display unit 260, 360 Secondary storage device 502, 700, 810 External facility data 1440 External facility data sharing server 1441, 1500, 1631 External facility table for sharing

Claims (19)

A data integration device comprising: a display unit; an operation unit; a control unit connected to the display unit and the operation unit; and a storage device connected to the control unit,
The data integration device holds a plurality of attribute values for each of a plurality of facilities as internal facility data,
The plurality of attribute values included in the internal facility data include an attribute value indicating coordinates of the location of each facility,
The plurality of facilities includes a first facility,
The data integration device acquires a plurality of attribute values related to facilities as external facility data,
The plurality of attribute values included in the external facility data include attribute values indicating evaluation of the facility,
The data integration apparatus, when the plurality of attribute values related to the first facility included in the internal facility data satisfy a search condition including at least a part of the plurality of attribute values included in the external facility data, Information that associates at least one of the plurality of attribute values related to the facility included in the external facility data with the plurality of attribute values related to the first facility is stored in the storage device as integrated external facility data. A data integration device. The data integration device includes:
It also holds map data that includes at least road coordinates,
Based on the map data, a map is displayed on the display unit,
Based on the integrated external facility data, an attribute value indicating the evaluation of the facility included in the external facility data is displayed in association with the position on the map corresponding to the coordinates of the location of the first facility. The data integration device according to claim 1. The data integration device includes:
Using the search key input to the operation unit, search the plurality of attribute values associated with the integrated external facility data,
As a result of the search, when the plurality of attribute values related to the first facility are acquired, an attribute value indicating an evaluation of the facility included in the external facility data is obtained based on the integrated external facility data. The data integration apparatus according to claim 2, wherein the data integration apparatus is displayed in association with the position on the map corresponding to the coordinates of the location of the first facility. The data integration device includes:
When the plurality of attribute values related to the first facility included in the internal facility data satisfy the search condition, the plurality of attribute values related to the first facility included in the internal facility data are displayed on the display unit,
When information indicating that the plurality of attribute values related to the first facility are associated with the attribute values included in the external facility data is input to the operation unit, the information included in the external facility data The information associating an attribute value indicating an evaluation of a facility with the plurality of attribute values related to the first facility is stored in the storage device as the integrated external facility data. Data integration equipment. The data integration device includes:
Furthermore, a communication unit connected to the network is provided,
The data integration apparatus according to claim 2, wherein the external facility data is acquired by the communication unit receiving the external facility data via the network. The data integration device includes:
Furthermore, a reading device for reading data from the storage medium is provided,
The data integration device according to claim 2, wherein the reading device acquires the external facility data by reading the external facility data stored in the storage medium. The plurality of attribute values included in the external facility data further includes at least one of an attribute value indicating the name of the facility, an attribute value indicating the address of the facility, and an attribute value indicating the telephone number of the facility,
The plurality of attribute values included in the internal facility data further includes an attribute value indicating the name of the first facility, an attribute value indicating the address of the first facility, and an attribute value indicating the telephone number of the first facility. The data integration device according to claim 2, further comprising: The plurality of attribute values included in the external facility data further include an attribute value indicating an address of the facility, and an attribute value indicating a date when the external facility data is generated,
The plurality of attribute values included in the internal facility data further include an attribute value indicating a date on which the internal facility data was maintained,
The data integration device includes:
If the plurality of attribute values related to any facility included in the internal facility data do not satisfy the search condition, is the date when the external facility data was generated later than the date when the internal facility data was prepared Determine whether or not
When the date when the external facility data is generated is later than the date when the internal facility data is maintained, based on the attribute value indicating the address of the facility included in the external facility data and the map data Calculating the coordinates of the location of the facility with respect to the external facility data;
Information associating the plurality of attribute values included in the external facility data with the calculated coordinates is stored in the storage device as the integrated external facility data,
Based on the integrated external facility data, the attribute value indicating the evaluation of the facility included in the external facility data is displayed in association with the position on the map corresponding to the calculated coordinates,
The data integration apparatus according to claim 2, wherein the fact that the plurality of attribute values related to any facility included in the internal facility data does not satisfy the search condition is displayed together with the attribute value. The plurality of attribute values included in the external facility data further include an attribute value indicating coordinates of the location of the facility, and an attribute value indicating a date when the external facility data is generated,
The plurality of attribute values included in the internal facility data further include an attribute value indicating a date on which the internal facility data was maintained,
The data integration device includes:
If the plurality of attribute values related to any facility included in the internal facility data do not satisfy the search condition, is the date when the external facility data was generated later than the date when the internal facility data was prepared Determine whether or not
When the date when the external facility data is generated is later than the date when the internal facility data is prepared, an attribute value indicating the evaluation of the facility included in the external facility data is included in the external facility data. Display in association with the position on the map corresponding to the coordinates of the location of the facility,
The data integration apparatus according to claim 2, wherein the fact that the plurality of attribute values related to any facility included in the internal facility data does not satisfy the search condition is displayed together with the attribute value. The data integration device includes:
A navigation device,
A current position acquisition unit for acquiring a coordinate value of the current position of the data integration device;
When the location of the first facility is selected as a destination, a route from the current position of the data integration device to the destination is calculated,
Information for guiding the user of the data integration device along the route is output from the display unit,
The integrated external facility data is updated after the output of information for guiding a user of the data integration device is completed because the data integration device has reached the vicinity of the destination. The data integration device described in 1. The data integration device includes:
Installed in the car,
After the output of the information for guiding the user of the data integration device is completed, when detecting the parking of the automobile, the coordinate value of the parking position of the automobile is acquired using the current position acquisition unit,
When the information indicating that storage of the coordinate value of the parking position is permitted is input to the operation unit, the attribute value indicating the coordinates of the location of the first facility included in the integrated external facility data, The data integration device according to claim 10, wherein coordinate values of the parking position are stored. The data integration device includes:
Installed in the car,
When it is detected that the vehicle is parked within a predetermined time after the output of information for guiding the user of the data integration device is completed, the location of the first facility is included in the integrated external facility data. Add information to indicate that the attribute value for the coordinates of is estimated to be correct,
After the output of information for guiding the user of the data integration device is completed, when it is detected that the automobile has moved for the predetermined time or longer, the integrated external facility data is included in the integrated external facility data. 11. The data integration apparatus according to claim 10, wherein information indicating that an attribute value indicating a location coordinate is estimated to be incorrect is added.   The data integration device, when information related to the evaluation of the first facility is input to the operation unit, the input information is attributed to the integrated external facility data indicating the evaluation of the first facility. The data integration apparatus according to claim 10, which is added as: The data integration device includes:
Furthermore, a communication unit connected to the network is provided,
11. The data integration apparatus according to claim 10, wherein when the integrated external facility data is updated, the integrated external facility data is transmitted via the network. The data integration device includes:
Using the search key input to the operation unit, a request for searching for the plurality of attribute values associated with the integrated external facility data is transmitted via the network,
When the plurality of attribute values related to the first facility are acquired as a response to the search request, an attribute value indicating an evaluation of the facility included in the external facility data is obtained based on the integrated external facility data. The data integration apparatus according to claim 14, wherein the data integration apparatus displays the information in association with the position on the map corresponding to the coordinates of the location of the first facility. A data integration method using a terminal device comprising: a display unit; an operation unit; a control unit connected to the display unit and the operation unit; and a storage device connected to the control unit,
The terminal device
Holds at least map data including road coordinates,
Holds multiple attribute values for each of multiple facilities as internal facility data,
The plurality of attribute values included in the internal facility data include an attribute value indicating coordinates of the location of each facility,
The plurality of facilities includes a first facility,
The terminal device acquires a plurality of attribute values related to a facility as external facility data,
The plurality of attribute values included in the external facility data include attribute values indicating evaluation of the facility,
The data integration method includes:
If the plurality of attribute values related to the first facility included in the internal facility data satisfy a search condition including at least a part of the plurality of attribute values included in the external facility data, they are included in the external facility data A procedure for storing information associating at least one of the plurality of attribute values related to the facility with the plurality of attribute values related to the first facility in the storage device as integrated external facility data;
A procedure for displaying a map on the display unit based on the map data;
Based on the integrated external facility data, an attribute value indicating the evaluation of the facility included in the external facility data is displayed in association with the position on the map corresponding to the coordinates of the location of the first facility. A data integration method characterized by comprising a procedure. The plurality of attribute values included in the external facility data further include an attribute value indicating an address of the facility, and an attribute value indicating a date when the external facility data is generated,
The plurality of attribute values included in the internal facility data further include an attribute value indicating a date on which the internal facility data was maintained,
The data integration method further includes:
If the plurality of attribute values related to any facility included in the internal facility data do not satisfy the search condition, is the date when the external facility data was generated later than the date when the internal facility data was prepared A procedure for determining whether or not,
When the date when the external facility data is generated is later than the date when the internal facility data is maintained, based on the attribute value indicating the address of the facility included in the external facility data and the map data Calculating the coordinates of the location of the facility with respect to the external facility data;
A procedure for storing information associating the plurality of attribute values included in the external facility data with the calculated coordinates in the storage device as the integrated external facility data;
A step of displaying an attribute value indicating the evaluation of the facility included in the external facility data in association with the position on the map corresponding to the calculated coordinates based on the integrated external facility data; Including
The procedure of displaying the attribute value indicating the evaluation of the facility includes a procedure of displaying together with the attribute value that the plurality of attribute values regarding any facility included in the internal facility data do not satisfy the search condition. The data integration method according to claim 16. The terminal device
A navigation device,
A current position acquisition unit for acquiring a coordinate value of the current position of the terminal device;
The method further comprises:
When the location of the first facility is selected as a destination, a procedure for calculating a route from the current position of the terminal device to the destination;
A procedure for outputting information for guiding a user of the terminal device along the route from the display unit;
And a procedure for updating the integrated external facility data after the output of information for guiding the user of the terminal device is completed because the terminal device has reached the vicinity of the destination. The data integration method according to claim 16. The terminal device further includes a communication unit connected to a network,
19. The data integration method according to claim 18, wherein the procedure of updating the integrated external facility data includes a procedure of transmitting the integrated external facility data via the network.

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