JP2009169173A - Information processor, server device, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information processor, a server device, and a program, enabling a user of the information processor to exactly comprehend the situation around the current position such as how point information around the present position is distributed. <P>SOLUTION: The information processor 1 includes: a display attribute value calculating section 20 which calculates a display attribute value for displaying on a map the distribution state of facilities within the map range calculated by a map range calculating section 19 and records the calculated display attribute value in a display attribute value recording section 21; and a display control section 22 which displays, on the basis of the map information recorded in a map recording section 4, the map of the map range and the user's current position on a display screen of a display apparatus 3 and displays on the map, on the basis of the display attribute value recorded in the display attribute value recording section 21, the distribution state of facilities within the map range. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention reads out map information recorded in a map recording unit based on a user instruction input via an input device, and displays a map indicated by the read map information together with the current position of the user on the display screen of the display device. The present invention relates to an information processing apparatus, a server apparatus, and a program to be displayed above.

  Conventionally, for example, in an information processing device such as a car navigation device, a map is displayed on a display screen of a display device connected to the information processing device, and a restaurant, a gas station, a hospital, a movie is displayed on the map. Icons indicating facilities such as a library, a library, and a lodging facility were overlaid. Further, by using such an information processing apparatus, it is possible to search for a desired facility around the current position of the user. In the following, a case where the user of the information processing apparatus searches for a restaurant facility around the current position will be described as an example.

  That is, when the user of the information processing apparatus inputs a search condition indicating “restaurant facilities near the current position” to the information processing apparatus, the information processing apparatus searches for the search condition as shown in FIG. 29, for example. The result is displayed on the display screen of the display device. That is, on the map displayed on the display screen of the display device, an icon R indicating a restaurant facility around the current position is displayed together with an icon H indicating the current position of the information processing device. Thereby, the user of the information processing apparatus can grasp the position of the facility of the restaurant around the current position.

Thus, when displaying the icon R which shows the restaurant facility in the present position periphery on a map, conventionally, the following 1st-3rd display method is shown so that the visibility of a map may not fall, for example By using, a map was displayed on the display screen of the display device. That is, as a first display method, a map scale and a map display position are calculated so that predetermined N icons R can be displayed on a one-screen display screen, and the calculated map scale and This is a method of displaying a map in a map range determined from the map display position on the display screen of the display device (see, for example, Patent Document 1). As a second display method, by setting a priority for each genre of facility, a map scale and a map display position are displayed so that an icon R indicating a facility with a high priority can be displayed on a one-screen display screen. And a map in a map range determined from the calculated map scale and map display position is displayed on the display screen of the display device (see, for example, Patent Document 2). As a third display method, a range from the current position of the information processing apparatus to a predetermined distance is determined in advance as a search range, and the map is obtained by using the first and second display methods within the search range. This is a method of displaying a map of a range on a display screen of a display device.
JP 2002-131070 A JP-A-10-153449

  However, since the first and second display methods limit the number of facilities to be displayed, the user of the information processing apparatus only knows the positions of the facilities around the current position. It is impossible to accurately grasp the situation around the current position such as how a certain facility is distributed. In the third display method, since the range is limited, if there are many facilities to be searched at a position slightly beyond the range, the facility cannot be displayed and information is displayed. The user of the processing apparatus cannot accurately grasp the situation around the current position, such as how the facilities around the current position are distributed. That is, in the first to third display methods, it is difficult for the user of the information processing apparatus to grasp the overall image of the facility around the current position.

  The present invention has been made in view of the above-described problems, and its purpose is to provide information processing apparatus users around the current position such as how the point information around the current position is distributed. An object is to provide an information processing apparatus, a server apparatus, and a program capable of accurately grasping the state.

  In order to achieve the above object, an information processing apparatus according to the present invention relates to an input device, a display device, a map recording unit in which map information indicating a map is recorded in advance, position information indicating a position of a predetermined point, and the position An information processing apparatus capable of accessing a point information recording unit that records point information including information, and a current position acquisition unit that acquires current position information indicating a user's current position, and input via the input device Spot information reading unit that reads the spot information from the spot information recording unit, and spot information that is read by the spot information reading unit. A set generation unit that generates one or a plurality of sets including one or a plurality of point information so that the closer the positions are to each other based on the position information included, Based on the map information recorded in the map recording unit, a display target set determining unit that determines as a display target set a set that includes all point information within a predetermined range from the current position, and the display target set The map scale and the map display position are calculated so that the area on the map and the current position of the user can be displayed on a one-screen display screen in the display device, and the calculated map scale and map display are calculated. A map range calculation unit for calculating a map range of a map displayed on the display screen of one screen in the display device based on the position, and the map range based on the number of pieces of point information in the map range. A display attribute value calculating unit for calculating a display attribute value for displaying the distribution state of the point information in the map on the map, and recording the calculated display attribute value in the display attribute value recording unit; and the map recording unit Record Based on the map information, the map of the map range and the current position of the user are displayed on the display screen of the display device, and based on the display attribute value recorded in the display attribute value recording unit, A display control unit that displays a distribution state of the point information within the map range on the map.

  According to the information processing apparatus of the present invention, the display target set determination unit determines, as a display target set, a set that includes all the spot information within a predetermined range from the current position of the user. The point information includes position information indicating the position of the predetermined point and information regarding the position. The information regarding the position is, for example, facility information at the position specified on the map, traffic information at the position, reputation information at the position, or predetermined information regarding the position. Based on the map information, the map range calculation unit calculates the map scale and the map display position so that the area on the map of the display target set and the current position of the user can be displayed on a single display screen in the display device Is calculated. The map range calculation unit calculates the map range of the map displayed on the one-screen display screen in the display device based on the calculated map scale and the map display position. The display attribute value calculation unit calculates a display attribute value for displaying the distribution state of the point information in the map range on the map based on the number of the point information in the map range. The display attribute value calculation unit records the calculated display attribute value in the display attribute value recording unit. A display control part displays the map of a map range, and a user's present position on the display screen of a display apparatus based on map information. Further, the display control unit displays the distribution state of the spot information within the map range on the map based on the display attribute value. Thereby, the user of the information processing apparatus can accurately grasp the situation around the current position, such as how the spot information around the current position is distributed.

  In order to achieve the above object, an information processing apparatus according to the present invention includes an input unit that allows a user to input a predetermined search condition, a display unit that displays an image, and a map recording unit in which map information indicating a map is recorded in advance. A point information recording unit that records position information including position information indicating a position of a predetermined point and information related to the position, a current position acquisition unit that acquires current position information indicating a user's current position, and the input unit. The spot information reading unit that reads the spot information from the spot information recording unit and the spot information reading unit read the spot information that matches the search condition input via the user and is within a predetermined range from the current position of the user. A set generation unit that generates one or a plurality of sets including one or a plurality of pieces of point information based on the position information included in the point information, so that the closer to each other the positions are included in the same set; A display target set determining unit that determines a set including all point information within a predetermined range from the current position of the user as a display target set, and the display based on the map information recorded in the map recording unit Calculating a map scale and a map display position such that an area on the map of the target set and the current position of the user can be displayed on a one-screen display screen in the display device; Based on the display position of the map, based on the number of pieces of point information within the map range, a map range calculation unit that calculates the map range of the map displayed on the one-screen display screen in the display unit, A display attribute value calculating unit for calculating a display attribute value for displaying the distribution state of the point information within the map range on the map, and recording the calculated display attribute value in a display attribute value recording unit; and the map In the recording section Based on the recorded map information, the map of the map range and the current position of the user are displayed on the display screen of the display unit, and based on the display attribute value recorded in the display attribute value recording unit. And a display control unit for displaying the distribution state of the point information within the map range on the map.

  In order to achieve the above object, a server apparatus according to the present invention includes an information processing apparatus, a map recording unit in which map information indicating a map is recorded in advance, position information indicating the position of a predetermined point, and information related to the position. A server device that is accessible to a point information recording unit that records point information, and when the point information recorded in the point information recording unit is updated, all the point information including the updated point information is stored. Based on the location information included in the location information read out from the location information recording unit and the location information read out by the location information readout unit, 1 or Based on the number of pieces of point information within the map range indicated by the scale of the map and the set generation unit that generates one or a plurality of sets including the plurality of point information, A display attribute value calculating unit that calculates a display attribute value for displaying a cloth state on the map for each scale of the map, and records the calculated display attribute value in a display attribute value recording unit for each scale of the map; When a request information indicating a request for acquiring the display attribute value is received from the information processing device, a map range of a map to be displayed on a display screen of a display device connected to the information processing device And a display attribute value reading unit that reads display attribute values that match the scale of the map from the display attribute value recording unit, and drawing information that includes the display attribute values read by the display attribute value reading unit A drawing information transmitting unit that transmits the generated drawing information to the information processing apparatus that has transmitted the request information.

  According to the server device of the present invention, when the spot information recorded in the spot information recording unit is updated, the spot information reading unit extracts all the spot information including the updated spot information from the spot information recording unit. read out. The set generation unit generates one or a plurality of sets including one or a plurality of pieces of spot information based on the position information included in the read spot information so that the closer to each other the positions are included in the same set. The display attribute value calculation unit displays the display attribute value for displaying the distribution state of the point information in the map range on the map based on the number of the point information in the map range indicated by the map scale. Calculate every time. The display attribute value calculation unit records the calculated display attribute value in the display attribute value recording unit for each map scale.

  A display attribute value reading unit displays request information indicating a request for acquiring a display attribute value on a display screen of a display device connected to the information processing device when the request information is received from the information processing device. A display attribute value matching the map range of the map and the scale of the map is read from the display attribute value recording unit. The drawing information transmission unit generates drawing information including the read display attribute value. The drawing information transmission unit transmits the generated drawing information to the information processing apparatus that has transmitted the request information. For this reason, the information processing apparatus can display the distribution state of the point information in the map range of the map to be displayed on the display screen of the display device on the map based on the transmitted drawing information. Thereby, the user of the information processing apparatus can accurately grasp the situation around the current position, such as how the spot information around the current position is distributed.

  The display attribute value calculation unit does not calculate a display attribute value that matches the request when requested by the information processing device, but instead calculates a display attribute value for each scale of the map in advance. The value is recorded in advance in the display attribute value recording unit for each map scale. Therefore, the display attribute value reading unit, when receiving the request information from the information processing device, displays a display attribute value that matches the map range of the map to be displayed on the display screen of the display device and the scale of the map. It is only necessary to read from the display attribute value recording unit. As a result, it is possible to improve the response speed (response speed) as compared with a mode in which a display attribute value suitable for the request is calculated when there is a request from the information processing apparatus.

  As described above, the information processing apparatus, the server apparatus, and the program according to the present invention show the state around the current position such as how the point information around the current position is distributed by the user of the information processing apparatus. There is an effect that it can be accurately grasped.

  In an embodiment of the present invention, the display attribute value calculation unit determines a plurality of sets in the region on the map of a set including all the spot information in the map range as a contour target set. A target set determining unit, a contour target set classifying unit for classifying the contour target set into any one of a plurality of stages based on the number of pieces of point information included in the contour target set, and each of the plurality of stages The contour surrounding the position indicated by all the spot information included in all the contour target sets at the stage is calculated for each of the plurality of stages, and the display attribute value recording unit uses the contour information indicating the calculated contour as a display attribute value. A contour calculation unit that records the region within each contour calculated for each of the plurality of stages based on the display attribute value recorded in the display attribute value recording unit. Multiple stages Preferably in a manner to be displayed on the map in a different display mode on.

  According to the above configuration, the contour target set classifying unit classifies the contour target set into one of a plurality of stages based on the number of pieces of point information included in the contour target set. The contour calculation unit calculates, for each of a plurality of stages, a contour surrounding the position indicated by all the spot information included in all the contour target sets in each of the plurality of stages. The contour calculation unit records contour information indicating the calculated contour in the display attribute value recording unit as a display attribute value. Based on the display attribute value, the display control unit displays the area in each contour calculated for each of the plurality of stages on the map in a display mode that is different for each of the plurality of stages. As a result, the user of the information processing apparatus can accurately grasp the state around the current position such as how the spot information around the current position is distributed.

  In an embodiment of the present invention, the display attribute value calculation unit includes a plurality of sets in the region on the map of the set including all the spot information within the map range. By calculating the icon duplication number when the icon is displayed at each representative position on the map of the candidate set, so that the calculated icon duplication number does not exceed the allowable duplication number, An icon display set corresponding to an icon to be displayed on the map is determined from the candidate set, a representative position on the map of the determined icon display set is calculated as an icon display position, and the calculated icon display position is Based on the number of pieces of point information included in the icon display set and the icon position calculation unit that records the display attribute value in the display attribute value recording unit The icon having any one of the display modes of the plurality of stages is assigned to the icon display position indicated by the icon display set, and the display attribute is used as the display attribute value as the display attribute value. An icon assigning unit for recording to the value recording unit, and the display control unit assigns the icon display position to the icon display position based on the display attribute value recorded in the display attribute value recording unit. It is preferable that an icon is displayed.

  According to said structure, an icon position calculation part calculates the duplication multiple of the icon when each icon is displayed in the representative position on the map of a candidate set. The overlapping number of icons indicates the number of overlapping icons on the map. The icon position calculation unit determines an icon display set corresponding to an icon to be displayed on the map from the candidate set so that the calculated overlapping number of icons does not exceed the allowable overlapping number. The icon position calculation unit calculates a representative position on the map of the determined icon display set as the icon display position. The icon position calculation unit records the calculated icon display position in the display attribute value recording unit as a display attribute value. The icon assigning unit displays an icon display position indicated by the icon display set from among the icons having a plurality of display modes based on the number of pieces of point information included in the icon display set. Assign to. The icon assigning unit records the display mode of the assigned icon as a display attribute value in the display attribute value recording unit. The display control unit displays an icon assigned to the icon display position at the icon display position based on the display attribute value. As a result, the user of the information processing apparatus can accurately grasp the state around the current position such as how the spot information around the current position is distributed.

  The icon is a mark indicating a set, and is a mark formed of a figure, a character, a symbol, or a combination thereof displayed on a map.

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

[Embodiment 1]
FIG. 1 is a block diagram illustrating a schematic configuration of an information processing apparatus 1 according to the present embodiment. An information processing apparatus 1 shown in FIG. 1 is connected to an input device 2, a display device 3, a map recording unit 4, and a facility information recording unit 5. The information processing apparatus 1 is, for example, a car navigation apparatus, a personal computer, a server machine, a mobile terminal (for example, a PDA, a mobile phone, a PHS, etc.). In this embodiment, the information processing apparatus 1 is a car navigation apparatus. . The input device 2 includes an arbitrary input device such as a mouse, a keyboard, a remote controller, a button, a touch panel, and a voice recognition device. The display device 3 includes an arbitrary display device such as a liquid crystal display, an organic EL display, a plasma display, and a CRT display. The map recording unit 4 records in advance map information indicating a map representing a specific part of the earth's surface (for example, Japan, Kansai region, Hyogo prefecture, etc.) on a reduced scale. The information processing device 1 reads the map information recorded in the map recording unit 4 based on the user's instruction input via the input device 2, and displays the map indicated by the read map information together with the current position of the user It is displayed on the display screen of the device 3.

  The facility information recording unit (point information recording unit) 5 records facility information (point information) indicating the facility. FIG. 2 is a diagram illustrating an example of facility information recorded in the facility information recording unit 5 according to the present embodiment. As shown in FIG. 2, the facility information recording unit 5 records facility ID, facility name, address, position, genre, and reputation as facility information. Here, the facility ID indicates an identification code for uniquely identifying the facility. The facility name indicates the name of the facility. The address indicates the address of the facility. The position indicates the latitude information of the facility and the longitude information of the facility. The genre indicates the genre of the facility. The genre includes, for example, a restaurant, a gas station, a hospital, a movie theater, a library, an accommodation, a golf course, a ski resort, an amusement park, an art museum, a museum, and the like. The reputation indicates an average value of evaluation points of the facility by the user who uses the facility. In the present embodiment, the reputation is expressed by a maximum of 5 points, and the higher the score, the higher the evaluation of the facility.

  The facility information recording unit 5 according to the present embodiment records facility information regardless of the genre. For example, the facility information recording unit 5a that records facility information indicating a restaurant facility, Even if the facility information recording unit 5b that records the facility information indicating the facility, the facility information recording unit 5c that records the facility information indicating the facility of the hospital,. Good.

  The map recording unit 4 and the facility information recording unit 5 are realized by a recording device such as an optical recording device, a magnetic recording device, or a semiconductor memory. The map recording unit 4 and the facility information recording unit 5 may be realized as a recording device in a web server or file server on the Internet, or may be realized as a recording device in the information processing apparatus 1. . Further, it may be realized as a recording device in a recording medium detachably attached to the information processing device 1 such as an FD (Flexible Disk) or a CD (Compact Disc).

(Configuration of information processing device)
The information processing apparatus 1 includes a current position measurement unit 11, a search condition input unit 12, a current position acquisition unit 13, a facility information reading unit 14, a set generation unit 15, a set information recording unit 16, a proximity facility detection unit 17, and a display target set. A determination unit 18, a map range calculation unit 19, a display attribute value calculation unit 20, a display attribute value recording unit 21, and a display control unit 22 are provided.

  Here, the current position measurement unit 11, the search condition input unit 12, the current position acquisition unit 13, the facility information reading unit 14, the set generation unit 15, the proximity facility detection unit 17, the display target set determination unit 18, the map range calculation The functions of the unit 19, the display attribute value calculation unit 20, and the display control unit 22 are realized by an arithmetic device such as a CPU provided in the computer executing a predetermined program. Therefore, a program for realizing the above functions by a computer or a recording medium on which the program is recorded is also an embodiment of the present invention. The collective information recording unit 16 and the display attribute value recording unit 21 are embodied by a built-in storage device of a computer or a storage device accessible from this computer. Note that the collective information recording unit 16 and the display attribute value recording unit 21 may record data temporarily, for example.

  In addition, the current position measurement unit 11, the search condition input unit 12, the current position acquisition unit 13, the facility information reading unit 14, the set generation unit 15, the set information recording unit 16, the proximity facility detection unit 17, the display target set determination unit 18, the map range calculation part 19, the display attribute value calculation part 20, the display attribute value recording part 21, and the display control part 22 may be comprised collectively in one apparatus, as shown in FIG. These may be distributed in a plurality of apparatuses.

  The current position measurement unit 11 measures the current position of the information processing apparatus 1. That is, the current position measurement unit 11 measures the current position of the user of the information processing apparatus 1. Specifically, the current position measuring unit 11 has a GPS (Global Positioning System) function, receives radio waves transmitted from a plurality of geodetic satellites (GPS satellites), and receives the received radio waves. Based on the relative time difference, the current position of the information processing apparatus 1 is measured. The current position measurement unit 11 generates current position information indicating the current position of the information processing apparatus 1 based on the measurement result. The current position information includes latitude information indicating the current latitude of the information processing apparatus 1 and longitude information indicating the current longitude of the information processing apparatus 1.

  In the above description, the example in which the current position measurement unit 11 includes the GPS function has been described. However, the present invention is not limited to this. That is, the current position measurement unit 11 may acquire current position information from a nearby mobile phone base station, a wireless LAN access point, or the like with which the information processing apparatus 1 can communicate. Further, the current position measurement unit 11 may acquire current position information from a road sign, an address sign, or the like. That is, as long as the current position measurement unit 11 can measure the current position of the information processing apparatus 1, various arbitrary methods can be adopted as a method of measuring the current position of the information processing apparatus 1.

  The search condition input unit 12 receives a search condition for searching for information desired by the user of the information processing apparatus 1 from the user via the input apparatus 2. The search condition is a word or sentence related to information desired by the user, or a search expression generated by combining the word or sentence. In the present embodiment, it is assumed that the search condition input unit 12 receives a search condition indicating “a restaurant facility around the current position” from the user via the input device 2. The search condition input unit 12 outputs a signal indicating that the search condition has been received to the current position acquisition unit 13. In addition, the search condition input unit 12 outputs the received search condition to the facility information reading unit 14.

  When the current position acquisition unit 13 receives a signal indicating that the search condition is received from the search condition input unit 12, the current position acquisition unit 13 refers to the current position measurement unit 11 to indicate the current position of the information processing apparatus 1. Information is acquired from the current position measurement unit 11. In addition, when the user designates an arbitrary position on the map displayed on the display screen of the display device 3 via the input device 2, the position designated by the user on the map is set as the current position of the information processing device 1. You may make it do. In this case, the current position acquisition unit 13 acquires the position indicated by the user on the map as current position information indicating the current position of the information processing apparatus 1. The current position acquisition unit 13 outputs the acquired current position information to the facility information reading unit 14.

  The facility information reading unit (point information reading unit) 14 conforms to the search condition output from the search condition input unit 12 and is in the reading range from the current position of the information processing apparatus 1 indicated by the current position information. Is read from the facility information recording unit 5. Note that the reading range is a sufficiently wide range. In the present embodiment, the reading range is a range from the current position of the information processing apparatus 1 to 100 km. That is, in the present embodiment, since the search condition output from the search condition input unit 12 is “distribution of restaurant facilities around the current position”, the facility information reading unit 14 sets the restaurant facilities within the reading range. Is read from the facility information recording unit 5. FIG. 3 is a diagram for explaining a restaurant facility around the current position H of the information processing apparatus 1. As shown in FIG. 3, there are 24 restaurant facilities A to X in the reading range R. For this reason, the facility information reading unit 14 according to the present embodiment reads out the facility information indicating the restaurants A to X in the reading range R from the facility information recording unit 5. The reading range R is recorded in advance in a memory (not shown) of the information processing apparatus 1. The notification range N shown in FIG. 3 will be described later. The facility information reading unit 14 outputs the read facility information to the set generation unit 15.

  The set generation unit 15 generates one or more sets including one or more facilities by performing cluster analysis on the facility information output from the facility information reading unit 14. Cluster analysis is one of statistical methods for defining the distance between objects and classifying the objects according to the closeness of the distance. There are generally two types of cluster analysis: hierarchical clustering and non-hierarchical clustering. In this embodiment, a case where hierarchical clustering is used will be described.

  Specifically, the set generation unit 15 calculates the distance between the facilities based on the location of the facility indicated by the facility information output from the facility information reading unit 14. The set generation unit 15 generates a set (cluster) including two facilities having the closest distance (highest similarity) among the calculated distances between the facilities. The set generation unit 15 calculates the distance between the generated set and other facilities, and newly generates a set including the generated set and the facility closest to the set. The set generation unit 15 repeats this process until all the facilities indicated by the facility information are included in one set. As a result, a dendrogram (dendrogram) is generated by the set generation unit 15 as a result of the hierarchical clustering. As a method for calculating the distance between facilities, there are a shortest distance method, a longest distance method, an intergroup averaging method, a center of gravity method, a Ward method, and the like, but are not particularly limited here.

  FIG. 4 is a diagram illustrating an example of a dendrogram generated by the set generation unit 15 according to the present embodiment. In FIG. 4, the vertical axis represents dissimilarity and the horizontal axis represents facilities A to X. Note that the dissimilarity has a property that, unlike the similarity, the similarity increases as the value decreases. Here, as shown in FIG. 4, a set including the facility A is set with a set number “001”, a set including the facility B is set with a set number “002”, a set including the facility C is set with a set number “003”,. A set including X is represented by a set number “024”. That is, the set with the set number “001” includes only the facility A. The set with the set number “002” includes only the facility B. The set with the set number “003” includes only the facility C. Similarly, the set with the set number “024” includes only the facility X. In FIG. 4, the set with the set number “100” includes the facility A included in the set with the set number “001” and the facility B included in the set with the set number “002”. The set with the set number “200” includes the facilities A and B included in the set with the set number “100” and the facility C included in the set with the set number “003”. The set with the set number “400” includes the facilities A to C included in the set with the set number “200” and the facilities D to H included in the set with the set number “300”. Similarly, the set of the set number “900” includes all the facilities A to X indicated by the facility information.

  The set generation unit 15 generates set information for each set based on the generated dendrogram. The set generation unit 15 records the generated set information in the set information recording unit 16. FIG. 5 is a diagram showing an example of the set information recorded in the set information recording unit 16 according to the present embodiment. As shown in FIG. 5, the set information recording unit 16 includes, as set information, set number, upper set number, lower set number, facility ID, set range, set distance, number of facilities, set area, set density, and non- Similarity is recorded. Here, the set number indicates a number for uniquely identifying the set. The upper set number indicates the set number of the most recent upper set in which the set is included. The lower set number indicates the set number of the latest lower set included in the set. The facility ID indicates an identification code for uniquely identifying the facility. In this embodiment, only when the set is the terminal set (in the example shown in FIG. 4, the set having the set number “001” to the set having the set number “024”), The facility ID of the facility that is included in the set is recorded. The set range indicates a range (area) composed of a minimum rectangle including all facilities included in the set. The set distance indicates the distance in the latitude direction of the set range and the distance in the longitude direction of the set range. The number of facilities indicates the number of facilities included in the set. The collective area indicates the area of a range made up of the smallest polygons including all the facilities included in the collective. A specific description of the set range, set distance, and set area will be described later. The set density indicates the number of facilities per set area. That is, the set density is calculated by the number of facilities / the set area. The dissimilarity indicates the degree of distance between facilities. Note that “none” shown in FIG. 5 indicates that no value exists.

FIG. 6 is a diagram for explaining a method of calculating the set range, set distance, and set area recorded in the set information recording unit 16 by the set generation unit 15. In FIG. 6, “×” represents the location of the facility, and all the facilities are included in one set. Here, the set range Q indicates a range (area) consisting of the smallest quadrilateral including all the facilities included in the set. The upper right position P ₁ and the lower left position P ₂ in FIG. Identified. In other words, the set range of the set information recording unit 16, and the latitude information indicating the latitude of position P _1, and longitude information indicating the longitude of the position P _1, and the latitude information indicating the latitude of position P _2, the position P ₂ Longitude information indicating longitude is recorded. When there is only one facility included in the set, the set range is a range composed of an arbitrary quadrilateral including one facility.

Set distance, and the distance L _a latitudinal direction in the set range, and a distance L _b of longitude in the set range. That is, the collection distance set information recording unit 16, a distance L _b of longitude in the set range and latitudinal distance L _a in the set range is recorded in kilometers. The collective area S indicates an area in a range including a minimum polygon (or a triangle) R including all facilities included in the collective. Here, the contour of the polygon R is calculated using a known method such as a convex method. The area of the polygon R (the aggregate area S) is calculated using a known mathematical formula or the like. Note that if there is only one or two facilities included in the set, the data “None” indicating that the set area S and the set density do not exist in the set area S and set density of the set information recording unit 16 Is recorded. The set area S may be the area of the set range Q instead of the area of the polygon R.

  In the above description, the example has been described in which the set generation unit 15 generates a set including one or a plurality of facilities by performing cluster analysis on the facility information output from the facility information reading unit 14. It is not limited to. For example, the set generation unit 15 uses a known data analysis technique (data clustering) such as a self-organizing mapping method, a K-average method, or statistical classification to generate a set including one or more facilities. You may make it produce | generate. In addition, the set generation unit 15 includes, for example, a set including a facility in “Okubocho, Akashi City, Hyogo Prefecture ×× address”, a set including a facility in “Okubocho, Akashi City, Hyogo Prefecture”, and “Akashi City, Hyogo Prefecture” A set including one or a plurality of facilities may be generated for each city, such as a set including a certain facility or a set including a facility in “Hyogo Prefecture”.

  The proximity facility detection unit 17 detects facility information indicating a facility closest to the current position of the information processing apparatus 1 (hereinafter referred to as “proximity facility”). Specifically, the proximity facility detection unit 17 calculates the distance between the facility position indicated by all the facility information recorded in the facility information recording unit 5 and the current position of the information processing apparatus 1, Detect nearby facilities. Further, the proximity facility detection unit 17 calculates a distance (hereinafter referred to as “proximity distance”) between the position of the proximity facility and the current position of the information processing apparatus 1. The proximity facility detection unit 17 outputs the calculated proximity distance to the display target set determination unit 18.

  The proximity facility detection unit 17 reads facility information indicating a facility within a predetermined range (for example, 100 m) from the current position of the information processing apparatus 1 from the facility information recording unit 5, and reads the proximity information from the read facility information Facility information indicating the facility may be detected. Here, if there is no facility within the predetermined range from the current position of the information processing apparatus 1, the proximity facility detection unit 17 expands the predetermined range (for example, 200 m) and expands from the current position of the information processing apparatus 1 The facility information indicating the facility within the predetermined range is read from the facility information recording unit 5. The proximity facility detection unit 17 repeats this process thereafter.

  When the proximity distance output from the proximity facility detection unit 17 does not exceed the notification range N, the display target set determination unit 18 reads out facility information indicating a facility in the notification range N from the facility information recording unit 5 Then, a set including all the read facility information is determined as a display target set. Specifically, the display target set determination unit 18 first determines whether or not the proximity distance output from the proximity facility detection unit 17 exceeds the notification range N (see FIG. 3). Here, the notification range N indicates an appropriate range for notifying the user of the information processing apparatus 1. For example, when the information processing apparatus 1 is a mobile terminal and the user of the information processing apparatus 1 is moving on foot, even if the user is notified of a facility 100 km away from the current position of the user, there is no need for the user. Meaning. For this reason, the notification range N indicates an appropriate range for notifying the user of the information processing apparatus 1, and in the present embodiment, is a range from the current position of the information processing apparatus 1 to 10 km. And From another point of view, the notification range N is a predetermined range from the current position of the information processing apparatus in the third display method described in the background art. The notification range N is recorded in advance in a memory (not shown) of the information processing apparatus 1.

  In the present embodiment, since the proximity distance does not exceed the notification range N, the display target set determination unit 18 reads out the facility information indicating the facility of the restaurant within the notification range N from the facility information recording unit 5. Specifically, as shown in FIG. 3, within the notification range N, there are 14 restaurant facilities A to G, I to M, S, and T. For this reason, the display target set determination unit 18 according to the present embodiment reads out the facility information indicating the facilities A to G, I to M, S, and T of the restaurant within the notification range N from the facility information recording unit 5. Further, the display target set determination unit 18 reads set information indicating a set including all the facilities A to G, I to M, S, and T indicated by the read facility information from the set information recording unit 16. In the present embodiment, the set including all of the facilities A to G, I to M, S, and T is the set having the set number “600” (see FIGS. 4 and 5), and therefore the display target set is determined. The unit 18 reads the set information indicating the set with the set number “600” from the set information recording unit 16. The display target set determining unit 18 determines the set having the set number “600” indicated by the read set information as the display target set. In addition to the facilities A to G, I to M, S, and T, the display target set with the set number “600” includes six facilities H and N to R. As described above, in the information processing apparatus 1 according to the present embodiment, it is possible to include a facility that exceeds the notification range N as a display target by using the set.

  Here, if the proximity distance exceeds the notification range N, the display target set determination unit 18 reads out facility information indicating the proximity facility from the facility information recording unit 5. The display target set determination unit 18 reads from the set information recording unit 16 set information indicating a set including only neighboring facilities indicated by the read facility information. For example, if the nearby facility is the facility A, the display target set determination unit 18 reads the set information indicating the set with the set number “001” from the set information recording unit 16. The display target set determination unit 18 determines the set with the set number “001” indicated by the read set information as the display target set. That is, the display target set in this case is a display target set having 1 element.

  The map range calculation unit 19 displays based on the map information recorded in the map recording unit 4, the set range of the display target set determined by the display target set determination unit 18, and the current position of the information processing apparatus 1. The scale of the map and the display position of the map are calculated so that the set range of the target set and the current position of the information processing apparatus 1 can be displayed on the one-screen display screen in the display device 3. The scale means the ratio between the distance between two points on the map and the corresponding distance on the site. Usually, the scale is expressed as a fraction with a numerator as a ratio value.

  FIG. 7 is a diagram for explaining the relationship among the display screen D of the display device 3, the set range Q of the display target set, and the current position H of the information processing device 1. That is, in the present embodiment, as illustrated in FIG. 7, the current position H of the information processing apparatus 1 is located within the set range Q of the display target set with the set number “600”. For this reason, the map range calculation unit 19 according to the present embodiment calculates the map display position by matching the center of the set range Q to the center of the display screen D of the display device 3. Further, the map range calculation unit 19 calculates the scale of the map so that the entire collection range Q can be displayed on the display screen D of one screen. In the present embodiment, it is assumed that the scale of the map is predetermined by the map information, for example, 1/25000, 1/10000, 1/5000... 1/1500. When the map scale is expressed as a fraction as described above, the map scale decreases as the denominator increases. Therefore, the map range calculation unit 19 according to the present embodiment has a plurality of scales that are determined in advance in a scale that allows the entire set range Q to be displayed on the display screen D of one screen. The map scale is calculated by selecting from among them. The map range calculation unit 19 calculates the map range M of the map displayed on the one-screen display screen D in the display device 3 based on the calculated map scale and the map display position. That is, the map range M is the same as the display range displayed on the display screen D of the display device 3.

  Here, if the current position H of the information processing apparatus 1 is not located within the set range Q of the display target set, that is, the current position H of the information processing apparatus 1 is outside the set range Q of the display target set. If it is located, the map range calculation unit 19 performs the following processing. That is, the map range calculation unit 19 first calculates the minimum rectangle including the set range Q of the display target set and the current position H of the information processing apparatus. Here, the calculated square is naturally larger than the set range Q. The map range calculation unit 19 calculates the display position of the map by aligning the calculated center of the quadrangle with the center of the display screen D of the display device 3. The map range calculation unit 19 calculates the scale of the map so that the entire calculated rectangle can be displayed on the display screen D of one screen. Thereby, similarly to the above, the map range calculation unit 19 maps the map range M of the map displayed on the one-screen display screen D in the display device 3 based on the calculated map scale and the map display position. Can be calculated.

  The display attribute value calculation unit 20 displays the distribution state of the restaurant facilities in the map range M on the map based on the number of restaurant facilities in the map range M calculated by the map range calculation unit 19. The display attribute value is calculated, and the calculated display attribute value is recorded in the display attribute value recording unit 21. Therefore, as shown in FIG. 8, the display attribute value calculation unit 20 includes a contour target set determination unit 20a, a contour target set classification unit 20b, an approach set determination unit 20c, and a contour calculation unit 20d.

  The contour target set determining unit 20a determines a plurality of sets in the set range of the set including all the restaurant facilities in the map range M as the contour target set. Specifically, the outline target set determination unit 20 a first reads out facility information indicating a restaurant facility within the map range M from the facility information recording unit 5. In the present embodiment, as shown in FIG. 7, there are 21 restaurant facilities A to U in the map range M. For this reason, the outline target set determination unit 20 a according to the present embodiment reads out facility information indicating the facilities A to U of the restaurant within the map range M from the facility information recording unit 5. Further, the outline target set determination unit 20a reads set information indicating a set including all the facilities A to U indicated by the read facility information from the set information recording unit 16. In the present embodiment, the set including all the facilities A to U is the set having the set number “700” (see FIGS. 4 and 5), and therefore the outline target set determining unit 20a sets the set number “700”. Is read from the set information recording unit 16.

  The contour target set determination unit 20a sets the dissimilarity “0.01” as the line L in the dendrogram shown in FIG. The dissimilarity “0.01” is recorded in advance in a memory (not shown) of the information processing apparatus 1. Since the dissimilarity is a number representing the closeness of the distance between the sets, it is determined in advance how close ones are to be made into one set. In the line L shown in FIG. 4, a set with a set number “700” is a set with a set number “400”, a set with a set number “a”, a set with a set number “b”, a set with a set number “019”, and a set It is classified into a set of number “020” and a set of set number “021”. That is, the outline target set determination unit 20a includes a set having a set number “400”, a set having a set number “a”, a set having a set number “b”, a set having a set number “019”, and a set having a set number “020”. The set with the set number “021” is determined as the outline target set. That is, each determined outline target set is a set having a set range within the set range of the set with the set number “700”. In addition to the above, the setting method of the line L includes a method of setting the dissimilarity of the set number “700” to 1/2 and 1/3, and the number of sets is n without using the dissimilarity. (However, n is determined in advance).

  The contour target set classifying unit 20b uses the contour target set determined by the contour target set determining unit 20a based on the set density of the contour target set as the contour target set with the distribution density “large” and the contour target set with the distribution density “medium”. The target set is classified into any one of the three stages of the outline target set of distribution density “small”. Here, the contour target set having the distribution density “large” indicates a contour target set having a relatively high set density in the contour target set. A contour target set having a distribution density of “medium” indicates a contour target set having a relatively medium set density in the contour target set. It should be noted that the contour target set with the distribution density “medium” includes the contour target set with the distribution density “large”. A contour target set having a distribution density of “small” indicates a contour target set having a relatively small set density in the contour target set. Note that the contour target set with distribution density “small” includes the contour target set with distribution density “large” and “medium”.

  Specifically, the contour target set classifying unit 20b first extracts a contour target set whose set density is calculated from the contour target sets determined by the contour target set determining unit 20a. In the present embodiment, the contour target set with the set number “019”, the contour target set with the set number “020”, and the contour target set with the set number “021” are sets including only one facility. The assembly density has not been calculated. For this reason, the contour target set classification unit 20b according to the present embodiment includes the contour target set with the set number “400” and the contour with the set number “a” among the contour target sets determined by the contour target set determining unit 20a. The target set and the outline target set with the set number “b” are extracted.

  The contour target set classification unit 20b extracts the highest set density and the lowest set density from the set density of the extracted contour target sets. In the present embodiment, the set density of the outline target set with the set number “400” is “66.7”, the set density of the outline target set with the set number “a” is “40.0”, and the set number “b”. Since the set density of the outline target set is “66.7” (see FIG. 5), the outline target set classifying unit 20b sets the highest set density “66.7” and the lowest set density “40.0”. Extract. The contour target set classification unit 20b calculates a value that bisects between the highest set density “66.7” and the lowest set density “40.0”. That is, the outline target set classification unit 20b calculates the set density “53.35”.

  The contour target set classifying unit 20b sets a contour target set having a set density of “53.35” or more as a contour target set having a distribution density of “large”. In this embodiment, the contour target set classifying unit 20b sets the contour target set with the set number “400” and the contour target set with the set number “b” as the contour target set with the distribution density “large”. The contour target set classifying unit 20b sets a contour target set having a set density of “40.0” or more as a contour target set having a distribution density of “medium”. In this embodiment, the contour target set classifying unit 20b distributes the contour target set with the set number “400”, the contour target set with the set number “a”, and the contour target set with the set number “b” with a distribution density “medium”. The set of contour objects. Further, the contour target set classifying unit 20b sets all contour target sets including the contour target set for which the set density is not calculated as the contour target set having the distribution density of “small”. In the present embodiment, the contour target set classification unit 20b includes a contour target set with a set number “400”, a contour target set with a set number “a”, a contour target set with a set number “b”, and a set with a set number “019”. The contour target set, the contour target set with the set number “020”, and the contour target set with the set number “021” are set as the contour target set with the distribution density “small”.

  In the above description, the contour target set classifying unit 20b has one of three stages: a contour target set with a distribution density “large”, a contour target set with a distribution density “medium”, and a contour target set with a distribution density “small”. Although the example classified into (1) was demonstrated, it is not limited to this. That is, the distribution density stage is arbitrary. Moreover, although the outline object set classification | category part 20b demonstrated above the example which classifies an outline object set based on the value which bisects between the highest set density and the lowest set density, it limited to this Not. For example, if there is no contour target set for which the set density has not been calculated among the contour target sets determined by the contour target set determining unit 20a, the contour target set classifying unit 20b determines the highest set density and the lowest set density. The contour target set may be classified based on a value obtained by dividing the space between the two into three. In the above description, the set density is used, but dissimilarity may be used. That is, the method by which the contour target set classifying unit 20b classifies the contour target set is arbitrary.

  The approaching set determining unit 20c determines whether or not the contour target sets determined by the contour target set determining unit 20a are approaching sets. In the present embodiment, the approach set determination unit 20c includes the contour target set with the set number “400”, the contour target set with the set number “a”, the contour target set with the set number “b”, and the contour with the set number “019”. It is determined whether the target set, the contour target set with the set number “020”, and the contour target set with the set number “021” are close to each other.

Specifically, the approach set determination unit 20c first calculates an approach determination range for determining whether or not the contour target sets determined by the contour target set determination unit 20a are close to each other. In the present embodiment, from among the outline target set determined by the contour target set decision unit 20a, a distance L _a latitudinal direction in the set distance (set range of the contour target set the set distance is calculated, in the set range An average value of the distance L _b ) in the longitude direction is calculated, and the calculated average value is set as the approach determination range. That is, approaching the set determination unit 20c, and the average value of the latitudinal distance L _a in the set range, the average value and the proximity determination range of the distance L _b of longitude in the set range. In the present embodiment, the contour target set with the set number “019”, the contour target set with the set number “020”, and the contour target set with the set number “021” are sets that include only one facility. The set distance is not calculated. Therefore, the approach set determination unit 20c according to the present embodiment calculates the average of the set distances of the contour target set with the set number “400”, the contour target set with the set number “a”, and the contour target set with the set number “b”. The value is calculated, and the calculated average value is set as the approach determination range.

  The approach set determination unit 20c calculates the center of gravity of the contour target set determined by the contour target set determination unit 20a, and sets the calculated center of gravity as the center of the approach determination range, so that another contour target set is included in the approach determination range. It is determined whether or not the center of gravity is included. Note that the center of gravity of the contour target set indicates the average of latitude information and longitude information at the positions of all facilities included in the contour target set. The approach set determination unit 20c includes the center of gravity of another contour target set within the approach determination range of one contour target set, and the one of the contour target sets within the approach determination range of the other contour target set. When the center of gravity is included, it is determined that one contour target set and another contour target set are close to each other.

  As a result of determining whether or not it is an approaching set as described above, the approaching set determination unit 20c classifies the contour target set determined by the contour target set determination unit 20a into one or more approaching sets. The approach set determination unit 20c assigns the same distribution number to the outline target sets determined to belong to the same approach set. In the present embodiment, the approach set determination unit 20c includes the contour target set with the set number “400”, the contour target set with the set number “a”, the contour target set with the set number “b”, and the contour with the set number “019”. Assume that it is determined that the target set, the contour target set with the set number “020”, and the contour target set with the set number “021” belong to the same approach set. In this case, the approach set determination unit 20c includes a contour target set with a set number “400”, a contour target set with a set number “a”, a contour target set with a set number “b”, a contour target set with a set number “019”, The same distribution number “1” is assigned to the contour target set with the set number “020” and the contour target set with the set number “021”.

  The contour calculation unit 20d calculates, for each of the plurality of steps, a contour that surrounds all facilities included in all the contour target sets in each of the plurality of steps, and displays the contour information indicating the calculated contour as a display attribute value. Record in the attribute value recording unit 21. Specifically, the contour calculating unit 20d first detects a contour target set having a distribution density of “small” from the contour target set classifying unit 20b. In the present embodiment, the contour calculation unit 20d includes the contour target set with the set number “400”, the contour target set with the set number “a”, the contour target set with the set number “b”, and the contour target with the set number “019”. The contour target set with the set number “020” and the contour target set with the set number “021” are detected from the contour target set classifying unit 20b. The contour calculating unit 20d calculates a contour surrounding all facilities included in all detected contour target sets. The contour is calculated using a known method such as a convex method. The contour calculating unit 20d calculates the vertex coordinates constituting the calculated contour and the number of vertices that is the number of the vertex coordinates. The vertex coordinates are represented by latitude information and longitude information on the map. Here, the contour information includes vertex coordinates and the number of vertices. The contour calculation unit 20d includes the distribution number “1” given by the approach set determination unit 20c, and the set numbers “400”, “a”, “b”, “019”, “020”, and “020” of the contour target set. “021”, the distribution density “small”, the calculated number of vertices, and the calculated vertex coordinates are recorded in the display attribute value recording unit 21.

  In addition, the contour calculation unit 20d detects the contour target set having the distribution density “medium” from the contour target set classification unit 20b. In the present embodiment, the contour calculation unit 20d converts the contour target set with the set number “400”, the contour target set with the set number “a”, and the contour target set with the set number “b” into the contour target set classifying unit 20b. Detect from. The contour calculation unit 20d classifies the contour target set with the set number “400”, the contour target set with the set number “a”, and the contour target set with the set number “b” into one or more approach sets. The approach set classification method by the contour calculation unit 20d is the same as the classification method by the approach set determination unit 20c described above. However, the approach determination range in this case is a range narrower than the approach determination range calculated by the approach set determination unit 20c.

  In this embodiment, the contour calculation unit 20d classifies the contour target set with the set number “400”, the contour target set with the set number “a”, and the contour target set with the set number “b” into the same approach set. Shall. In this case, the contour calculation unit 20d encloses all the facilities included in the contour target set with the set number “400”, the contour target set with the set number “a”, and the contour target set with the set number “b”. Is calculated. The contour calculating unit 20d calculates the vertex coordinates constituting the calculated contour and the number of vertices that is the number of the vertex coordinates. The contour calculation unit 20d calculates the distribution number “1” given by the approach set determination unit 20c, the set numbers “400”, “a”, and “b” of the contour target set, and the distribution density “medium”. The number of vertices and the calculated vertex coordinates are recorded in the display attribute value recording unit 21.

  Further, the contour calculating unit 20d detects the contour target set having the distribution density “high” from the contour target set classifying unit 20b. In the present embodiment, the contour calculating unit 20d detects the contour target set with the set number “400” and the contour target set with the set number “b” from the contour target set classifying unit 20b. The contour calculation unit 20d classifies the contour target set with the set number “400” and the contour target set with the set number “b” into one or more approach sets. However, the approach determination range in this case is also a range narrower than the approach determination range calculated by the approach set determination unit 20c.

  In the present embodiment, it is assumed that the contour calculation unit 20d classifies the contour target set with the set number “400” and the contour target set with the set number “b” into different approach sets. For this reason, the contour calculation unit 20d calculates the contour separately for the contour target set with the set number “400” and the contour target set with the set number “b”. That is, the contour calculating unit 20d first calculates a contour that surrounds all facilities included in the contour target set with the set number “400”. The contour calculating unit 20d calculates the vertex coordinates constituting the calculated contour and the number of vertices that is the number of the vertex coordinates. The contour calculation unit 20d includes the distribution number “1” given by the approach set determination unit 20c, the set number “400” of the contour target set, the distribution density “large”, the calculated number of vertices, and the calculated vertex coordinates. Are recorded in the display attribute value recording unit 21. The contour calculation unit 20d calculates a contour that surrounds all facilities included in the contour target set with the set number “b”. The contour calculating unit 20d calculates the vertex coordinates constituting the calculated contour and the number of vertices that is the number of the vertex coordinates. The contour calculation unit 20d includes the distribution number “1” given by the approach set determination unit 20c, the set number “b” of the contour target set, the distribution density “large”, the calculated number of vertices, and the calculated vertex coordinates. Are recorded in the display attribute value recording unit 21.

  Thus, the display attribute value recording unit 21 sequentially records display attribute values. FIG. 9 is a diagram showing an example of display attribute values recorded in the display attribute value recording unit 21 according to the present embodiment. As shown in FIG. 9, the display attribute value recording unit 21 records the distribution number, the set number of the outline target set, the distribution density, the number of vertices, and the vertex coordinates as display attribute values.

  Based on the map information recorded in the map recording unit 4 and the display attribute values recorded in the display attribute value recording unit 21, the display control unit 22 and the current position of the information processing apparatus 1 And the distribution state of the restaurant facilities in the map range M are displayed on the display screen of the display device 3. Specifically, the display control unit 22 first reads map information indicating the map of the map range M determined by the map range calculation unit 19 from the map recording unit 4. The display control unit 22 displays the map indicated by the read map information on the display screen of the display device 3 together with the current position of the information processing device 1. FIG. 10 is a diagram illustrating an example of a display screen displayed on the display device 3 according to the present embodiment. As shown in FIG. 10, a map in the map range M and an icon H indicating the current position of the information processing apparatus 1 (user's current position) are displayed on the display screen of the display device 3.

First, the display control unit 22 reads the vertex coordinates corresponding to the distribution density “small” from the display attribute value recording unit 21. The display control unit 22, based on the vertex coordinates corresponding to the read distribution density "small", to display the distribution information D ₁ on the map. In addition, the display control unit 22 reads the vertex coordinates corresponding to the distribution density “medium” from the display attribute value recording unit 21. The display control unit 22, based on the vertex coordinates corresponding to the read distribution density "medium", and displays the distribution information D ₂ on the map. In addition, the display control unit 22 reads the vertex coordinates corresponding to the distribution density “large” of the set number “b” from the display attribute value recording unit 21. The display control unit 22, based on the vertex coordinates corresponding to the distribution density "large" of the read set number "b", and displays the distribution information D ₃ on the map. Further, the display control unit 22 reads the vertex coordinates corresponding to the distribution density “large” of the set number “400” from the display attribute value recording unit 21. The display control unit 22, based on the vertex coordinates corresponding to the distribution density "large" of the read set number "400" to display the distribution information D ₄ on the map.

Here, the display colors of the distribution information D _{1 to} D ₄ displayed on the map are determined based on color information recorded in advance in a memory (not shown) of the information processing apparatus 1. In this embodiment, as the distribution density increases, the display color of the distribution information becomes darker. In addition, the display color of distribution information is not limited to this, What is necessary is just to be displayed with the display mode different for every distribution density.

  That is, on the map displayed on the display screen of the display device 3, the distribution state of the restaurant facilities around the current position of the information processing device 1 is displayed. Therefore, the user of the information processing apparatus 1 can accurately grasp the appearance around the current position, such as how the restaurant facilities are distributed around the current position, at a glance.

  Here, if there is only one vertex coordinate recorded in the display attribute value recording unit 21, for example, as shown in FIG. 11A, the display control unit 22 includes one vertex coordinate T. A rectangular area composed of 3 pixels × 3 pixels is displayed on the map as distribution information. When there are two vertex coordinates recorded in the display attribute value recording unit 21, for example, as shown in FIG. 11B, the display control unit 22 distributes a rectangular region including the two vertex coordinates T. Display on the map as information.

  The configuration of the information processing apparatus 1 has been described above, but the configuration of the information processing apparatus 1 is not limited to the configuration illustrated in FIG. For example, in the information processing apparatus 1, an input unit for allowing a user to input a predetermined search condition, a display unit for displaying an image, a map recording unit in which map information indicating a map is recorded in advance, and a facility are shown. A facility information recording unit in which facility information is recorded may be provided. In this case, as shown in FIG. 1, the information processing device 1 does not need to be connected to the input device 2, the display device 3, the map recording unit 4, and the facility information recording unit 5.

(Operation of information processing device)
Next, the operation of the information processing apparatus 1 according to the above configuration will be described with reference to FIGS.

  FIG. 12 is a flowchart illustrating an overall operation example of the information processing apparatus 1. As illustrated in FIG. 12, the current position measurement unit 11 measures the current position of the information processing apparatus 1 (user's current position) (Op1). The search condition input unit 12 receives a search condition for searching for information desired by the user of the information processing apparatus 1 from the user via the input apparatus 2 (Op2). When the search condition input unit 12 accepts the search condition (YES at Op2), the current position acquisition unit 13 refers to the current position measurement unit 11 to thereby determine the current position of the information processing apparatus 1 measured at Op1. Is acquired from the current position measurement unit 11 (Op3). On the other hand, when the search condition input unit 12 does not accept the search condition (NO in Op2), the process returns to Op2 and repeats the Op2 determination process.

  The facility information reading unit 14 conforms to the search condition received by the search condition input unit 12 and stores facility information within the reading range R from the current position of the information processing apparatus 1 indicated by the current position information. 5 (Op4). The reading range R is recorded in advance in a memory (not shown) of the information processing apparatus 1. In the present embodiment, the facility information reading unit 14 reads out facility information indicating the facilities A to X of the restaurants in the reading range R from the facility information recording unit 5 (see FIG. 3). The set generation unit 15 generates a plurality of sets including one or a plurality of facilities by performing cluster analysis (for example, hierarchical clustering) on the facility information read in Op4. That is, as a result of the hierarchical clustering, the dendrogram shown in FIG. 4 is generated by the set generation unit 15 (Op5). The set generation unit 15 generates set information for each set based on the dendrogram generated in Op5, and records the generated set information in the set information recording unit 16 (Op6).

  The nearby facility detection unit 17 refers to the facility information recording unit 5 to detect facility information indicating the nearby facility from the facility information recording unit 5 (Op7). As described above, the proximity facility indicates a facility that is closest to the current position of the information processing apparatus 1. Then, the proximity facility detection unit 17 calculates the proximity distance (Op8). As described above, the proximity distance indicates the distance between the position of the proximity facility and the current position of the information processing apparatus 1. The display target set determining unit 18 determines a display target set (Op9).

  Here, an example of processing of the display target set determination unit 18 in Op9 will be described with reference to FIG.

  FIG. 13 is a flowchart illustrating an example of display target set determination processing by the display target set determination unit 18. As illustrated in FIG. 13, the display target set determination unit 18 determines whether the proximity distance calculated in Op8 exceeds the notification range N (Op91). The notification range N indicates an appropriate range for notifying the user of the information processing apparatus 1. The notification range N is recorded in advance in a memory (not shown) of the information processing apparatus 1.

  If the proximity distance does not exceed the notification range N (NO in Op91), the display target set determination unit 18 reads out facility information indicating facilities in the notification range N from the facility information recording unit 5 (Op92). In the present embodiment, the display target set determination unit 18 reads out facility information indicating the facilities A to G, I to M, S, and T of the restaurants within the notification range N from the facility information recording unit 5. The display target set determination unit 18 reads the set information indicating the set including all the facilities indicated by the facility information read in Op92 from the set information recording unit 16 (Op93). In the present embodiment, the set including all of the facilities A to G, I to M, S, and T is the set having the set number “600” (see FIGS. 4 and 5), and therefore the display target set is determined. The unit 18 reads the set information indicating the set with the set number “600” from the set information recording unit 16.

  On the other hand, if the proximity distance exceeds the notification range N (YES in Op91), the display target set determination unit 18 reads the facility information indicating the proximity facility from the facility information recording unit 5 (Op94). The display target set determination unit 18 reads from the set information recording unit 16 set information indicating a set including only the nearby facility indicated by the facility information read in Op94 (Op95).

  The display target set determining unit 18 determines a set indicated by the set information read in Op93 or Op95 as a display target set (Op96). In the present embodiment, the display target set determination unit 18 determines the set having the set number “600” indicated by the set information read in Op 93 as a display target set.

  Returning to FIG. 12, the map range calculation unit 19 is based on the map information recorded in the map recording unit 4, the set range of the display target set determined in Op9, and the current position of the information processing apparatus 1. The scale of the map and the display position of the map are calculated so that the set range of the display target set and the current position of the information processing apparatus 1 can be displayed on the display screen of one screen in the display device 3. The map range calculation unit 19 calculates the map range M of the map displayed on the one-screen display screen in the display device 3 based on the calculated map scale and the map display position (Op10). The display attribute value calculation unit 20 calculates a display attribute value for displaying the distribution state of the restaurant facilities within the map range M calculated in Op10 on the map, and displays the calculated display attribute value as the display attribute value. Recording is performed on the recording unit 21 (Op11).

  Here, an example of processing of the display attribute value calculation unit 20 in Op11 will be described with reference to FIG.

  FIG. 14 is a flowchart illustrating an example of display attribute value calculation processing by the display attribute value calculation unit 20. As illustrated in FIG. 14, the outline target set determination unit 20 a reads out facility information indicating a restaurant facility in the map range M from the facility information recording unit 5 (Op111). In the present embodiment, the contour target set determination unit 20a reads facility information indicating the facilities A to U of the restaurant within the map range M from the facility information recording unit 5 (see FIG. 7). The contour target set determination unit 20a determines whether or not the number of facilities indicated by the facility information read in Op111 is “2” or more (Op112). If the contour target set determination unit 20a determines that the number of facilities is “2” or more (YES in Op112), the set information indicating the set including all the facilities indicated by the facility information read in Op111 is displayed. The data is read from the collective information recording unit 16 (Op113). In the present embodiment, the set including all the facilities A to U is the set having the set number “700” (see FIGS. 4 and 5), and therefore the outline target set determining unit 20a sets the set number “700”. Is read from the set information recording unit 16.

  On the other hand, when the outline target set determination unit 20a determines that the number of facilities is not “2” or more (NO in Op112), the number of facilities indicated by the facility information read in Op111 is the number of vertices, in Op111. By using the position of the facility indicated by the read facility information as the vertex coordinates, the number of vertices and the vertex coordinates are recorded in the display attribute value recording unit 21 as display attribute values (Op114).

  The contour target set determination unit 20a selects a set classified when the predetermined dissimilarity is set as the line L from the sets below the set indicated by the set information read in Op113. The outline target set is determined (Op115). In this embodiment, the outline target set determination unit 20a includes a set with a set number “400”, a set with a set number “a”, a set with a set number “b”, a set with a set number “019”, and a set number “020”. ”And the set with the set number“ 021 ”are determined as the outline target set.

  The contour target set classifying unit 20b uses the contour target set determined in Op115 based on the set density of the contour target set as the contour target set with the distribution density “large”, the contour target set with the distribution density “medium”, and the distribution. Classification is made into any one of the three stages of the outline target set of density “small” (Op 116). The approach set determination unit 20c determines whether or not the outline target sets determined in Op 115 are close to each other by the above-described method (Op 117). The approach set determination unit 20c assigns the same distribution number to the outline target sets determined to belong to the same approach set as a result of the determination in Op117 (Op118). In the present embodiment, the approach set determination unit 20c determines that the contour target sets determined in Op115 belong to the same approach set, and the same distribution number “1” for the contour target sets determined in Op115. Is given.

  The contour calculation unit 20d calculates, for each of a plurality of steps, a contour that surrounds all facilities included in all the contour target sets in each of the plurality of steps, and displays the contour information indicating the calculated contour as a display attribute value. It records in the attribute value recording part 21 (Op119).

  Here, an example of processing of the contour calculation unit 20d in Op119 will be described with reference to FIG.

  FIG. 15 is a flowchart illustrating an example of a contour calculation process performed by the contour calculation unit 20d. As illustrated in FIG. 15, the contour calculating unit 20 d detects a contour target set having a distribution density of “small” from the contour target set classifying unit 20 b (Op 1191). The contour calculation unit 20d calculates contours surrounding all facilities included in all contour target sets detected in Op 1191, and displays the contour information (vertex number, vertex coordinates) indicated by the calculated contours as display attribute values. Is recorded in the display attribute value recording unit 21 (Op 1192).

  Then, the contour calculating unit 20d detects the contour target set having the distribution density “medium” from the contour target set classifying unit 20b (Op 1193). The contour calculating unit 20d classifies the contour target set with the distribution density “medium” detected in Op 1193 into one or more approaching sets by the above-described method (Op 1194). The contour calculation unit 20d extracts one approaching set from the approaching sets classified in Op1194 (Op1195). The contour calculation unit 20d calculates a contour that surrounds all facilities included in the approach set extracted in Op1195, and records the contour information indicated by the calculated contour in the display attribute value recording unit 21 as a display attribute value. (Op 1196).

  Next, the contour calculation unit 20d detects from the contour target set classifying unit 20b a contour target set having a distribution density of “large” included in the approach set extracted in Op1195 (Op1197). The contour calculation unit 20d classifies the contour target set having the distribution density “large” detected in Op 1197 into one or more approach sets by the above-described method (Op 1198). The contour calculating unit 20d extracts one approaching set from the approaching sets classified in Op1198 (Op1199). The contour calculation unit 20d calculates a contour that surrounds all facilities included in the approach set extracted in Op1199, and records the contour information indicated by the calculated contour in the display attribute value recording unit 21 as a display attribute value. (Op1200).

  Then, the contour calculating unit 20d determines whether there is another approach set having the distribution density “large” among the one or more approach sets classified in Op 1198 (Op 1201). If the contour calculation unit 20d determines that there is another approach set having a distribution density of “large” (YES in Op1201), the process returns to Op1199, and another approach is selected from the one or more approach sets classified in Op1198. Extract a set. On the other hand, if the contour calculation unit 20d determines that there is no other approaching set with the distribution density “large” (NO in Op1201), the distribution density “medium” among the one or more approaching sets classified in Op1194. It is determined whether there is another approaching set (Op1202). If the contour calculation unit 20d determines that there is another approach set with a distribution density of “medium” (YES in Op1202), it returns to Op1195 and extracts another approach set from the approach sets classified in Op1194. To do. On the other hand, if contour calculation unit 20d determines that there is no other approach set of distribution density “medium” (NO in Op1202), the process of FIG. 15 ends.

  Returning to FIG. 12, the display control unit 22 reads out the map information indicating the map in the map range M determined at Op10 from the map recording unit 4, and the read map information and the display attribute value recording unit 21 at Op11. On the display screen of the display device 3, the map of the map range M, the current position of the information processing device 1, and the distribution state of restaurant facilities around the current position are displayed on the display screen of the display device 3. Display (Op12). That is, on the map displayed on the display screen of the display device 3, as shown in FIG. 10, the distribution state of the restaurant facilities around the current position is displayed. Therefore, the user of the information processing apparatus 1 can accurately grasp the appearance around the current position, such as how the restaurant facilities are distributed around the current position, at a glance.

[Embodiment 2]
FIG. 16 is a block diagram illustrating a schematic configuration of the information processing apparatus 6 according to the present embodiment. That is, the information processing apparatus 6 according to the present embodiment includes a display attribute value calculation unit 61, a display attribute value, instead of the display attribute value calculation unit 20, the display attribute value recording unit 21, and the display control unit 22 illustrated in FIG. A recording unit 62 and a display control unit 63 are provided. In FIG. 15, components having the same functions as those in FIG. 1 are given the same reference numerals, and detailed descriptions thereof are omitted.

  Also in the present embodiment, as in the first embodiment, the search condition input unit 12 receives a search condition indicating “a restaurant facility around the current position” from the user via the input device 2. To do.

  Similar to the display attribute value calculation unit 20 shown in FIG. 1, the display attribute value calculation unit 61 is based on the number of restaurant facilities in the map range M calculated by the map range calculation unit 19. The display attribute value for displaying the distribution state of the restaurant facility on the map is calculated, and the calculated display attribute value is recorded in the display attribute value recording unit 62. Therefore, as shown in FIG. 17, the display attribute value calculation unit 61 includes a display form recording unit 61a, an icon position calculation unit 61b, and an icon assignment unit 61c.

  The display form recording unit 61a records display form information indicating the display form of icons displayed on the map. FIG. 18 is a diagram illustrating an example of display form information recorded in the display form recording unit 61a according to the present embodiment. As shown in FIG. 18, in the display form recording unit 61a, the icon size and the icon display form are recorded as the display form information. The icon is a mark indicating a set, and is a mark formed of a figure, a character, a symbol, or a combination thereof displayed on a map. The icon size has three levels of icon size “large”, icon size “medium”, and icon size “small”. Here, an icon having an icon size of “large” indicates an icon having a relatively large icon size among icons displayed on the map. The icon of “medium” icon size indicates an icon having a relatively medium icon size among icons displayed on the map. The icon having the icon size “small” indicates an icon having a relatively small icon size among icons displayed on the map. The icon display form indicates an icon image when the icon is displayed on the map. In the example shown in FIG. 18, the icon display form indicates an image that abstractly represents a building, and the image increases as the icon size increases.

  The icon position calculation unit 61b determines an icon to be displayed on the map in the map range M, and calculates the determined icon display position. Specifically, the icon position calculation unit 61 b first reads from the facility information recording unit 5 facility information indicating a restaurant facility within the map range M. In the present embodiment, as shown in FIG. 7, there are 21 restaurant facilities A to U in the map range M. For this reason, the icon position calculation unit 61b according to the present embodiment reads out the facility information indicating the facilities A to U of the restaurant within the map range M from the facility information recording unit 5. Further, the icon position calculation unit 61b reads from the set information recording unit 16 set information indicating a set including all the facilities A to U indicated by the read facility information. In the present embodiment, the set including all the facilities A to U is the set having the set number “700” (see FIGS. 4 and 5), and therefore the icon position calculation unit 61b sets the set number “700”. Is read from the set information recording unit 16.

In the dendrogram shown in FIG. 4, the icon position calculation unit 61b sets a line L _n (n is an integer equal to or greater than 1) one line at a time from the set of the read set number “700”. A set classified in L _n is determined as a candidate set. For example, when the line L ₁ is set one level lower than the set of the set number “700”, the icon position calculation unit 61b sets the set of the set number “600” and the set number “021” classified in the line L ₁ . Each set is determined as a candidate set. Also, for example, when the line L ₂ is set in the _second lower layer from the set of the set number “700”, the icon position calculation unit 61b sets the set number “c” and the set number “c” classified in the line L ₂ . ”And a set with a set number“ 021 ”are determined as candidate sets.

  The icon position calculation unit 61b calculates the number of overlapping icons (the number of overlapping icons) when icons are displayed at the representative positions on the map of the determined candidate set. In the present embodiment, it is assumed that the icon displayed at the representative position is an icon having an icon size of “large”. In the present embodiment, the representative position is the center of gravity of the candidate set. The center of gravity of the candidate set indicates an average of latitude information and longitude information at the positions of all facilities included in the candidate set.

  For example, when one icon and another icon overlap each other on the map, the icon position calculation unit 61b sets the number of one icon and another icon that overlap each other on the map as the overlapping number of icons. For example, when one icon overlaps with one icon, the icon position calculation unit 61b calculates the number of icons that overlap on the map, that is, the icon overlap number “2”. For example, when one icon overlaps two other icons, the icon position calculation unit 61b calculates the number of icons that overlap on the map, that is, the icon overlap number “3”. Note that the method for calculating the number of overlapping icons by the icon position calculation unit 61b is not limited to this. For example, the icon position calculation unit 61b may calculate the overlapping number of icons by measuring a portion where the icons overlap on the map.

Icon position calculating unit 61b is a set information indicating the candidate set duplication number icon calculated as described above are classified in the line L _n that does not exceed the allowable overlap number is read from the set information storage section 16. The allowable overlap number is recorded in advance in a memory (not shown) of the information processing apparatus 1. The icon position calculation unit 61b determines the candidate set indicated by the read set information as the icon display set corresponding to the icon to be displayed on the map. The icon position calculation unit 61b calculates the representative position on the map of the determined icon display set as the icon display position. In the present embodiment, the representative position is the center of gravity of the icon display set. The icon position calculation unit 61b records the calculated icon display position in the display attribute value recording unit 62 as a display attribute value together with the set number of the icon display set.

The icon assigning unit 61c has an icon size “large” icon, an icon size “medium” icon, or an icon size “small” icon for the icon display position calculated by the icon position calculating unit 61b. Assign. Specifically, the icon assignment unit 61 c first reads set information indicating an icon display set from the set information recording unit 16. The icon allocation unit 61c extracts the largest number of facilities and the smallest number of facilities from the number of facilities indicated by the read set information. The icon assigning unit 61c calculates a value that equally divides the largest number of facilities and the smallest number of facilities into three. Of the values divided into three, the value closest to the number of facilities is V ₁ , and the value closest to the number of facilities is V ₂ . For example, if the largest number of facilities is “19” and the smallest number of facilities is “1”, the icon assigning unit 61c sets the third between the largest number of facilities “19” and the smallest number of facilities “1”. The values to be divided, that is, the value V ₁ “7” and the value V ₂ “13” are calculated.

Icon assignment unit 61c, from the set information indicating the icon display set, there is the least number of facilities over, and extracts the set information indicating the number of facilities within the range of less than a value V _1. The icon assigning unit 61c assigns an icon having the icon size “small” to the icon display position corresponding to the extracted set information. Further, the icon assigning unit 61c extracts set information indicating the number of facilities within the range of the value V ₁ or more and less than the value V ₂ from the set information indicating the icon display set. The icon assigning unit 61c assigns an icon of “medium” icon size to the icon display position corresponding to the extracted set information. Further, the icon assigned portion 61c, from the set information indicating the icon display set, there is value V ₂ or more, and extracts the set information indicating the number of facilities in the largest number of facilities within the following range. The icon assigning unit 61c assigns an icon having a large icon size to the icon display position corresponding to the extracted set information. Note that the icon allocation method by the icon allocation unit 61c is not limited to this. The icon assigning unit 61c records the icon size of the assigned icon in the display attribute value recording unit 62 as a display attribute value.

  In this way, the display attribute value recording unit 62 sequentially records the display attribute value. FIG. 19 is a diagram showing an example of display attribute values recorded in the display attribute value recording unit 62 according to the present embodiment. As shown in FIG. 19, in the display attribute value recording unit 62, an identification number, a set number of an icon display set, an icon size, and an icon display position are recorded as display attribute values. The identification number indicates a code that uniquely identifies a record in the display attribute value recording unit 62.

  Similar to the display control unit 22 shown in FIG. 1, the display control unit 63 uses the map range M based on the map information recorded in the map recording unit 4 and the display attribute value recorded in the display attribute value recording unit 62. , The current position of the information processing apparatus 1, and the distribution of restaurant facilities within the map range M are displayed on the display screen of the display device 3. Specifically, the display control unit 63 first reads map information indicating the map of the map range M determined by the map range calculation unit 19 from the map recording unit 4. The display control unit 63 displays the map indicated by the read map information on the display screen of the display device 3 together with the current position of the information processing device 1. FIG. 20 is a diagram illustrating an example of a display screen displayed on the display device 3 according to the present embodiment. As shown in FIG. 20, on the display screen of the display device 3, a map of the map range M and an icon H indicating the current position of the information processing apparatus 1 (user's current position) are displayed.

  The display control unit 63 reads the icon size and icon display position from the display attribute value recording unit 62. The display control unit 63 reads the icon display form corresponding to the read icon size from the display form recording unit 61a. The display control unit 63 displays the display form of the read icon at the read icon display position. Note that the display color of the icon displayed on the map is determined based on color information recorded in advance in a memory (not shown) of the information processing apparatus 1. For example, the display color may be different for each icon size.

  That is, on the map displayed on the display screen of the display device 3, the distribution state of the restaurant facilities around the current position of the information processing device 1 is displayed. Therefore, the user of the information processing apparatus 1 can accurately grasp the appearance around the current position, such as how the restaurant facilities are distributed around the current position, at a glance.

  Next, the operation of the display attribute value calculation unit 61 according to the above configuration will be described with reference to FIGS. 21 and 22.

  FIG. 21 is a flowchart illustrating an example of display attribute value calculation processing by the display attribute value calculation unit 61. As illustrated in FIG. 21, the icon position calculation unit 61b reads out facility information indicating a restaurant facility within the map range M from the facility information recording unit 5 (Op21). In the present embodiment, the icon position calculation unit 61b reads facility information indicating the facilities A to U of the restaurant within the map range M from the facility information recording unit 5 (see FIG. 7). The icon position calculation unit 61b reads the set information indicating the set including all the facilities indicated by the facility information read in Op21 from the set information recording unit 16 (Op22). In the present embodiment, the set including all the facilities A to U is the set having the set number “700” (see FIGS. 4 and 5), and therefore the icon position calculation unit 61b sets the set number “700”. Is read from the set information recording unit 16. The icon position calculation unit 61b determines an icon to be displayed on the map in the map range M, calculates the determined icon display position, and records the calculated icon display position in the display attribute value recording unit 62 as a display attribute value. (Op23).

  Here, an example of processing of the icon position calculation unit 61b in Op23 will be described with reference to FIG.

  FIG. 22 is a flowchart illustrating an example of an icon display position calculation process performed by the icon position calculation unit 61b. As shown in FIG. 22, the icon position calculation unit 61b first initializes a variable k to “1” (Op 231). The variable k indicates the number of sets. The icon position calculation unit 61b calculates an icon display position corresponding to the set information read in Op22 (Op232). In the present embodiment, the icon position calculation unit 61b calculates the icon display position corresponding to the set of the set number “700”. In the present embodiment, it is assumed that the icon display position is the center of gravity of the set with the set number “700”. The icon position calculation unit 61b records the icon display position calculated in Op232 together with the set number of the set indicated by the set information read in Op22 in a storage memory (not shown) of the information processing apparatus 1 (Op233). .

  Then, the icon position calculation unit 61b calculates the overlapping number of icons when k icons are displayed at the representative positions (icon display positions) on the map of the k candidate sets (Op234). When k is “1”, only one icon is displayed on the map, so the icon position calculation unit 61b calculates the overlapping number “0” of the icon.

  Next, the icon position calculation unit 61b determines whether or not the icon duplication number calculated in Op234 exceeds the allowable duplication number (Op235). The allowable overlap number is recorded in advance in a memory (not shown) of the information processing apparatus 1. If icon position calculation unit 61b determines that the overlapping number of icons does not exceed the allowable overlapping number (NO in Op235), it stores the set number of k candidate sets and k icon display positions in storage memory. (Op 236). If the set number and icon display position of the candidate set are already recorded in the storage memory, the set number and icon display position of the candidate set are updated. Then, the icon position calculation unit 61b adds “1” to the variable k (k = k + 1) (Op237). On the other hand, if icon position calculation unit 61b determines that the overlapping number of icons exceeds the allowable overlapping number (YES in Op235), it proceeds to Op241.

The icon position calculation unit 61b determines whether or not the variable k exceeds the number of restaurant facilities in the map range M (Op238). Icon position calculating unit 61b, if determined that the variable k is not greater than the number of facilities (NO in Op238), the dendrogram shown in Figure 4, the line from the line L _n previously set to 1 stage lower L _{n + The} set information indicating the k candidate sets classified when ₁ is set is read from the set information recording unit 16 (Op239). The icon position calculation unit 61b calculates the icon display position corresponding to the set information indicating the k candidate sets read in Op239 (Op240), and returns to Op234. And the icon position calculation part 61b repeats the process after Op234. On the other hand, if icon position calculation unit 61b determines that variable k exceeds the number of facilities (YES at Op238), it proceeds to Op241.

  In Op241, the icon position calculation unit 61b reads the set number and icon display position of the candidate set recorded in the storage memory from the storage memory as the set number and icon display position of the icon display set (Op241). The icon position calculation unit 61b records the set number of the icon display set read in Op241 and the icon display position read in Op241 in the display attribute value recording unit 62 as a display attribute value (Op242). ).

  Referring back to FIG. 21, the icon allocation unit 61c selects one of an icon size “large”, an icon size “medium”, and an icon size “small” for the icon display position calculated in Op23. The icon size of the assigned icon is recorded in the display attribute value recording unit 62 as a display attribute value (Op24).

  As a result of Op23 and Op24, the display attribute value recording unit 62 records the display attribute value as shown in FIG.

[Embodiment 3]
FIG. 23 is a block diagram illustrating a schematic configuration of the information processing device 7 and the server device 8 according to the present embodiment. The information processing device 7 and the server device 8 are connected to each other via a network N. In the present embodiment, as an example, the network N is assumed to be the Internet. However, the type of the network N is not particularly limited, and may be Ethernet (registered trademark), wireless LAN, other computer networks, or the like. Good. Further, the information processing device 7 is connected to the input device 2 and the display device 3. The information processing device 7 is, for example, a car navigation device, a personal computer, a server machine, a portable terminal, etc., as in the information processing device 1 shown in FIG. 1, but in this embodiment, it is assumed to be a portable terminal. The server device 8 is connected to the map recording unit 4 and the facility information recording unit 5. The server device 8 is a personal computer, a server machine, a workstation, or the like. In FIG. 23, components having functions similar to those in FIG. 1 are denoted by the same reference numerals, and detailed description thereof is omitted.

  In the present embodiment, the information processing apparatus 7 displays the screen shown in FIG. 20 on the display screen of the display device 3, for example, as described in the second embodiment.

(Configuration of information processing device)
The information processing apparatus 7 includes a current position measurement unit 71, a position information transmission unit 72, a search condition input unit 73, a search condition transmission unit 74, a drawing information reception unit 75, and a display control unit 76.

  Here, the functions of the current position measuring unit 71, the position information transmitting unit 72, the search condition input unit 73, the search condition transmitting unit 74, the drawing information receiving unit 75, and the display control unit 76 are a CPU provided in the computer, etc. This is realized by executing a predetermined program. Therefore, a program for realizing the above functions by a computer or a recording medium on which the program is recorded is also an embodiment of the present invention.

  The current position measuring unit 71 has the same function as the current position measuring unit 11 shown in FIG. That is, the current position measurement unit 71 measures the current position of the information processing apparatus 7 (the current position of the user of the information processing apparatus 7). The current position measurement unit 71 generates current position information indicating the current position of the information processing device 7 based on the measurement result.

  The position information transmission unit 72 transmits the current position information generated by the current position measurement unit 71 to the server device 8 via the network N. In the present embodiment, the position information transmission unit 72 transmits the current position information to the server apparatus 8 every time the current position of the information processing apparatus 7 changes. The position information transmission unit 72 may transmit the current position information to the server device 8 every time the user of the information processing device 7 moves a certain distance or at a certain time interval.

  The search condition input unit 73 has the same function as the search condition input unit 12 shown in FIG. That is, the search condition input unit 73 receives a search condition for searching for information desired by the user of the information processing device 7 from the user via the input device 2. Also in the present embodiment, it is assumed that the search condition input unit 73 receives a search condition indicating “a restaurant facility around the current position” from the user via the input device 2. The search condition input unit 73 outputs the received search condition to the search condition transmission unit 74.

  The search condition transmission unit 74 transmits the search condition output from the search condition input unit 73 to the server device 8 via the network N together with request information indicating a request for acquiring a display attribute value.

  The drawing information receiving unit 75 receives drawing information transmitted from the server device 8 via the network N. The drawing information will be described later. The drawing information receiving unit 75 outputs the received drawing information to the display control unit 76.

  The display control unit 76, based on the drawing information output from the drawing information receiving unit 75, the map range map calculated by the map range calculation unit 90 of the server device 8, the current position of the information processing device 7, the server The distribution state of the restaurant facilities within the map range calculated by the map range calculation unit 90 of the device 8 is displayed on the display screen of the display device 3. In the present embodiment, the display control unit 76 displays, for example, the screen illustrated in FIG. 20 on the display screen of the display device 3 based on the drawing information output from the drawing information receiving unit 75.

(Configuration of server device for calculating display attribute value and recording the calculated display attribute value)
When the facility information recorded in the facility information recording unit 5 is updated, the server device 8 calculates a display attribute value for each map scale and records the calculated display attribute value for each map scale. Have. Therefore, the server device 8 includes a facility information reading unit 81, a set generation unit 82, a set information recording unit 83, a display attribute value calculation unit 84, and a display attribute value recording unit 85.

  Here, each of the functions of the facility information reading unit 81, the set generation unit 82, the set information recording unit 83, and the display attribute value calculation unit 84 is such that an arithmetic device such as a CPU provided in the computer executes a predetermined program. It is realized by. Therefore, a program for realizing the above functions by a computer or a recording medium on which the program is recorded is also an embodiment of the present invention. The display attribute value recording unit 85 is embodied by a built-in storage device of a computer or a storage device accessible from this computer.

  The facility information reading unit 81 reads all facility information including the updated facility information from the facility information recording unit 5 when the facility information recorded in the facility information recording unit 5 is updated. For this reason, the facility information reading unit 81 has a function of monitoring whether the facility information recorded in the facility information recording unit 5 has been updated. For example, when a new facility is created or when there is no facility, the facility information recorded in the facility information recording unit 5 is updated by the administrator. The facility information reading unit 81 outputs the read facility information to the set generation unit 82.

  The set generation unit 82 has the same function as the set generation unit 15 shown in FIG. That is, the set generation unit 82 generates one or a plurality of sets including one or a plurality of facilities by performing cluster analysis on the facility information output from the facility information reading unit 81. Here, it is assumed that the set generation unit 82 according to the present embodiment generates the dendrogram shown in FIG. 4 as a result of the hierarchical clustering, similarly to the set generation unit 15 shown in FIG. The set generation unit 82 generates set information for each set based on the dendrogram shown in FIG. The set generation unit 82 records the generated set information in the set information recording unit 83. Therefore, the collective information shown in FIG. 5 is recorded in the collective information recording unit 83 in the same manner as the collective information recording unit 16 shown in FIG.

  The display attribute value calculation unit 84 displays a display attribute value for displaying, on the map, the distribution state of the restaurant facilities within the map range indicated by the map scale for each map scale determined in advance by the map information. The calculated display attribute value is recorded in the display attribute value recording unit 85 for each map scale. Specifically, the display attribute value calculation unit 84 first determines the icon display set for each map scale by performing the process executed by the icon position calculation unit 61b shown in FIG. 17 for each map scale. . The display attribute value calculation unit 84 calculates the representative position on the map of the icon display set determined for each map scale as the icon display position. In addition, the display attribute value calculation unit 84 performs the process executed by the icon assignment unit 61c shown in FIG. 17 for each scale of the map, whereby the icon size “large” is displayed for the calculated icon display position. Assign an icon of icon size “medium” or icon size “small”. The display attribute value calculation unit 84 records the calculated icon display position and the size of the assigned icon in the display attribute value recording unit 85 as a display attribute value together with the set number of the icon display set.

  FIG. 24 is a diagram showing an example of display attribute values recorded in the display attribute value recording unit 85 according to the present embodiment. As shown in FIG. 24, the display attribute value recording unit 85 records the scale of the map, the set number of the icon display set, the upper scale set number, the lower scale set number, the icon size, and the icon display position. That is, the display attribute value recording unit 85 records display attribute values for each map scale.

(Configuration of server device for distributing drawing information to information processing device)
When the server device 8 receives the search condition and the request information transmitted from the information processing device 7, the server device 8 generates drawing information for displaying the search result corresponding to the search condition, and processes the generated drawing information. It has a function of transmitting to the device 7. For this reason, the server device 8 includes a current position acquisition unit 86, a search condition reception unit 87, a proximity facility detection unit 88, a display target set determination unit 89, a map range calculation unit 90, a display attribute value reading unit 91, and a drawing information transmission. Part 92 is provided.

  Here, the current position acquisition unit 86, the search condition reception unit 87, the proximity facility detection unit 88, the display target set determination unit 89, the map range calculation unit 90, the display attribute value reading unit 91, and the drawing information transmission unit 92 described above. Each function is realized by an arithmetic device such as a CPU provided in the computer executing a predetermined program. Therefore, a program for realizing the above functions by a computer or a recording medium on which the program is recorded is also an embodiment of the present invention.

  The current position acquisition unit 86 acquires current position information transmitted from the information processing apparatus 7 via the network N. The current position acquisition unit 86 outputs the acquired current position information to the proximity facility detection unit 88.

  The search condition receiving unit 87 receives the search condition and request information transmitted from the information processing apparatus 7 via the network N. The search condition receiving unit 87 outputs the received search condition and request information to the proximity facility detecting unit 88.

  When the proximity facility detecting unit 88 receives the request information output from the search condition receiving unit 87, the search condition output from the search condition receiving unit 87 and the current position information output from the current position acquisition unit 86. Based on the facility information recorded in the facility information recording unit 5, the facility information indicating the nearby facility is detected from the facility information recording unit 5. As described in the first embodiment, the proximity facility indicates a facility that is closest to the current position of the information processing apparatus 7. Further, the proximity facility detection unit 88 calculates the proximity distance. Note that the proximity distance indicates the distance between the position of the proximity facility and the current position of the information processing apparatus 7 as described in the first embodiment. The proximity facility detection unit 88 outputs the calculated proximity distance to the display target set determination unit 89.

  The display target set determining unit 89 has the same function as the display target set determining unit 18 shown in FIG. That is, the display target set determination unit 89 displays the facility information indicating the facilities in the notification range N when the proximity distance output from the proximity facility detection unit 88 does not exceed the notification range N. A set including all of the read facility information is determined as a display target set.

  The map range calculation unit 90 has the same function as the map range calculation unit 19 shown in FIG. That is, the map range calculation unit 19 is based on the map information recorded in the map recording unit 4, the set range of the display target set determined by the display target set determination unit 89, and the current position of the information processing device 7. Then, the scale of the map and the display position of the map are calculated so that the set range of the display target set and the current position of the information processing device 7 can be displayed on the display screen of one screen in the display device 3. The map range calculation unit 90 calculates the map range of the map displayed on the one-screen display screen in the display device 3 based on the calculated map scale and the map display position.

  The display attribute value reading unit 91 reads from the display attribute value recording unit 85 the display attribute value that matches the map range of the map calculated by the map range calculation unit 90 and the scale of the map. Specifically, the display attribute value reading unit 91 first reads from the display attribute value recording unit 85 the set number of the icon display set having the same map scale as the map scale calculated by the map range calculation unit 90. . For example, when the scale of the map calculated by the map range calculation unit 90 is 1/5000, the display attribute value reading unit 91 sets the collection numbers “400”, “ “a”, “b”, “019”, “020”, “021”, “401”, and “024” are read from the display attribute value recording unit 85. The display attribute value reading unit 91 extracts a set number having an icon display position located within the map range calculated by the map range calculation unit 90 from the set number of the read icon display set. The display attribute value reading unit 91 reads the icon size and icon display position corresponding to the set number of the extracted icon display set from the display attribute value recording unit 85. The display attribute value reading unit 91 outputs the read icon size and icon display position to the drawing information transmission unit 92.

  The drawing information transmitting unit 92 includes display attribute values (icon size and icon display position) output from the display attribute value reading unit 91, map information indicating a map of the map range recorded in the map recording unit 4, and information processing Drawing information including the current position of the device 7 is generated. The drawing information transmission unit 92 transmits the generated drawing information to the information processing apparatus 7 via the network N. Thereby, the information processing apparatus 7 can display, for example, the screen illustrated in FIG. 20 on the display screen of the display device 3 based on the drawing information transmitted from the server device 8.

  That is, on the map displayed on the display screen of the display device 3, the distribution state of the restaurant facilities around the current position of the information processing device 7 is displayed. Therefore, the user of the information processing device 7 just looks at the situation around the current position, such as how the restaurant facilities are distributed around the current position, as in the first and second embodiments. It can be accurately grasped.

  Further, as in the first and second embodiments, the display attribute value calculation unit 84 does not calculate a display attribute value that meets the request when requested by the information processing apparatus 7, but in advance for each map scale. The display attribute value is calculated, and the calculated display attribute value is recorded in the display attribute value recording unit 85 in advance for each scale of the map. For this reason, the display attribute value reading unit 84, when receiving the request information from the information processing device 7, displays a map suitable for the map range and the scale of the map to be displayed on the display screen of the display device 3. The attribute value only needs to be read from the display attribute value recording unit 85. As a result, the response speed (response speed) can be improved as compared with the first and second embodiments. That is, the response time from when the search condition is input via the input device 2 to when the search result is displayed on the display device 3 can be shortened.

(Operation of information processing device and server device)
Next, operations of the information processing apparatus 7 and the server apparatus 8 according to the above configuration will be described with reference to FIGS.

  FIG. 25 shows an operation example of the server device 8 that calculates the display attribute value for each scale of the map and records the calculated display attribute value when the facility information recorded in the facility information recording unit 5 is updated. It is a flowchart. As shown in FIG. 25, the facility information reading unit 81 monitors whether the facility information recorded in the facility information recording unit 5 has been updated (Op31). If the facility information has been updated (YES at Op31), the facility information reading unit 81 reads all facility information including the updated facility information from the facility information recording unit 5 (Op32). On the other hand, if the facility information has not been updated (NO at Op31), the process returns to Op31 and repeats the Op31 determination process.

  The set generation unit 82 generates a plurality of sets including one or a plurality of facilities by performing cluster analysis (for example, hierarchical clustering) on the facility information read in Op32. That is, as a result of the hierarchical clustering, the dendrogram shown in FIG. 4 is generated by the set generation unit 82 (Op33). The set generation unit 82 generates set information for each set based on the dendrogram generated in Op33, and records the generated set information in the set information recording unit 83 (Op34).

  The display attribute value calculation unit 84 calculates, for each map scale, a display attribute value for displaying the distribution state of the restaurant facilities within the map range indicated by the map scale on the map, and calculates the calculated display attribute. The value is recorded in the display attribute value recording unit 85 for each map scale (Op35).

  Here, an example of processing of the display attribute value calculation unit 84 in Op35 will be described with reference to FIG.

  FIG. 26 is a flowchart illustrating an example of display attribute value calculation processing by the display attribute value calculation unit 84. As shown in FIG. 26, the display attribute value calculation unit 84 first selects the minimum map scale from the map scales determined in advance by the map information (Op351). That is, the display attribute value calculation unit 84 sets the scale of the map selected in Op 351 as the scale of the map whose display attribute value is to be calculated. The display attribute value calculation unit 84 initializes the variable k to “1” (Op 352). The variable k indicates the number of sets. The display attribute value calculation unit 84 reads the set information indicating the k candidate sets from the set information recording unit 83 (Op 353). The display attribute value calculation unit 84 calculates an icon display position corresponding to the set information indicating the k candidate sets read in Op353 (Op354).

  Then, the display attribute value calculation unit 84 calculates the overlapping number of icons when k icons are displayed at the representative positions (icon display positions) on the map of the k candidate sets (Op355). When k is “1”, only one icon is displayed on the map, so the display attribute value calculation unit 84 calculates the overlapping number “0” of the icon.

  Next, the display attribute value calculation unit 84 determines whether or not the overlapping number of icons calculated in Op 355 exceeds the allowable overlapping number (Op 356). The allowable overlap number is recorded in advance in a memory (not shown) of the server device 8. If display attribute value calculation unit 84 determines that the overlapping number of icons does not exceed the allowable overlapping number (NO in Op 356), it displays the set number of k candidate sets and k icon display positions as a server. Recording is performed in a storage memory (not shown) of the device 8 (Op357). If the set number and icon display position of the candidate set are already recorded in the storage memory, the set number and icon display position of the candidate set are updated. Then, the display attribute value calculation unit 84 adds “1” to the variable k (k = k + 1) (Op 358). On the other hand, if display attribute value calculation unit 84 determines that the overlapping number of icons exceeds the allowable overlapping number (YES in Op356), the process proceeds to Op360.

  The display attribute value calculation unit 84 determines whether or not the variable k exceeds the number of restaurant facilities within the map range M (Op359). If display attribute value calculation unit 84 determines that variable k does not exceed the number of facilities (NO in Op359), it returns to Op353 and repeats the processing after Op353. On the other hand, if display attribute value calculation unit 84 determines that variable k exceeds the number of facilities (YES in Op359), the process proceeds to Op360.

  In Op360, the display attribute value calculation unit 84 reads the set number and icon display position of the candidate set recorded in the storage memory from the storage memory as the set number and icon display position of the icon display set (Op360). The display attribute value calculation unit 84 displays the set number of the icon display set read at Op 360 and the icon display position read at Op 360 as display attribute values in association with the set map scale. It records in the attribute value recording part 85 (Op361).

  The display attribute value calculation unit 84 determines whether or not the set map scale is the maximum map scale among the map scales predetermined by the map information (Op 362). If the display attribute value calculation unit 84 determines that the scale of the set map is not the maximum scale of the map (NO in Op 362), the scale of the set map is increased by one level (Op 363), the process returns to Op 354, and after Op 354. Repeat the process. On the other hand, if display attribute value calculation unit 84 determines that the scale of the set map is the maximum scale of the map (YES in Op 362), the process of FIG. 26 ends.

  FIG. 27 is a flowchart illustrating an operation example of the information processing device 7 and the server device 8 for delivering drawing information to the information processing device 7. As illustrated in FIG. 27, the current position measurement unit 71 measures the current position of the information processing apparatus 7 (Op41). Thereby, the current position measurement unit 71 generates current position information indicating the current position of the information processing apparatus 7 based on the measurement result of Op41. The position information transmitting unit 72 transmits the current position information generated by the current position measuring unit 71 to the server device 8 via the network N (Op42). The current position acquisition unit 86 acquires the current position information transmitted in Op42 (Op43).

  The search condition input unit 73 receives a search condition for searching for information desired by the user of the information processing device 7 from the user via the input device 2 (Op44). When the search condition input unit 73 receives the search condition (YES at Op44), the search condition transmission unit 74 displays the search condition received at Op44 together with request information indicating a request for acquiring the display attribute value. N is transmitted to the server apparatus 8 via N (Op45). The search condition receiving unit 87 receives the search condition and request information transmitted in Op45 (Op46).

  When the request information is received at Op46, the proximity facility detection unit 88, the search condition received at Op46, the current position information acquired at Op43, and the facility recorded in the facility information recording unit 5 Based on the information, the facility information indicating the nearby facility is detected from the facility information recording unit 5 (Op47). The proximity facility detection unit 88 calculates the proximity distance (Op48). The display target set determining unit 89 determines the display target set by the above-described method (Op49).

  The map range calculation unit 90 sets the display target set based on the map information recorded in the map recording unit 4, the set range of the display target set determined in Op 49, and the current position of the information processing device 7. The scale of the map and the display position of the map are calculated so that the range and the current position of the information processing device 7 can be displayed on the display screen of one screen in the display device 3. The map range calculation unit 90 calculates the map range of the map displayed on the one-screen display screen in the display device 3 based on the calculated map scale and the map display position (Op50). The display attribute value reading unit 91 reads a display attribute value that matches the map range of the map calculated in Op50 and the scale of the map from the display attribute value recording unit 85 (Op51). The drawing information transmission unit 92 displays drawing information including the display attribute value read in Op 51, map information indicating the map in the map range recorded in the map recording unit 4, and the current position of the information processing device 7. Generate. The drawing information transmitting unit 92 transmits the generated drawing information to the information processing apparatus 7 via the network N (Op52).

  The drawing information receiving unit 75 receives the drawing information transmitted in Op52 (Op53). Based on the drawing information received at Op53, the display control unit 76 displays the map in the map range, the current position of the information processing device 7, and the distribution state of the restaurant facilities in the map range on the display device 3. Is displayed on the display screen (Op54). That is, on the map displayed on the display screen of the display device 3, as shown in FIG. 20, the distribution state of the restaurant facilities around the current position is displayed. Therefore, the user of the information processing device 7 can accurately grasp the appearance around the current position, such as how the restaurant facilities are distributed around the current position, at a glance.

  In the above description, the information processing device 7 has been described based on the drawing information transmitted from the server device 8, for example, an example in which the screen illustrated in FIG. 20 is displayed on the display screen of the display device 3. It is not limited to. That is, the information processing device 7 may display the screen illustrated in FIG. 10 on the display screen of the display device 3 based on the drawing information transmitted from the server device 8, for example. In this case, the display attribute value calculation unit 84 of the server device 8 performs the processes executed by the contour target set determination unit 20a, the contour target set classification unit 20b, the approach set determination unit 20c, and the contour calculation unit 20d illustrated in FIG. By performing for each map scale, a display attribute value is calculated for each map scale, and the calculated display attribute value is recorded in the display attribute value recording unit 85 for each map scale. FIG. 28 is a diagram illustrating an example of display attribute values recorded in the display attribute value recording unit 85 when the screen illustrated in FIG. 10 is displayed on the display screen of the display device 3. As shown in FIG. 28, the display attribute value recording unit 85 records the scale of the map, the set number of the outline target set, the distribution density, and the vertex coordinates. That is, the display attribute value recording unit 85 records display attribute values for each map scale.

  Also, the facility information reading unit 81, the set generation unit 82, the set information recording unit 83, the display attribute value calculation unit 84, the display attribute value recording unit 85, the current position acquisition unit 86, the search condition receiving unit 87, and the proximity facility detection The unit 88, the display target set determining unit 89, the map range calculating unit 90, the display attribute value reading unit 91, and the drawing information transmitting unit 92 are configured in the server device 8 as shown in FIG. However, the present invention is not limited to this. For example, the proximity facility detection unit 88, the display target set determination unit 89, and the map range calculation unit 90 may be configured in the information processing device 7 instead of the server device 8. That is, the information processing apparatus 7 detects a nearby facility, determines a display target set, and calculates a map range of the map. That is, when reading the display attribute value, the information processing apparatus 7 accesses the server apparatus 8 via the network N. In this case, the information processing device 7 is connected to the same map recording unit 4 and facility information recording unit 5 as the map recording unit 4 and facility information recording unit 5 connected to the server device 8.

  In the first to third embodiments, the example in which the distribution state of the restaurant facilities around the current position of the information processing device is displayed on the map displayed on the display screen of the display device has been described. It is not limited. For example, on the map, in addition to the restaurant facilities around the current location of the information processing device, the distribution state of any facility such as a gas station, hospital, movie theater, library, lodging facility around the current location of the information processing device May be displayed. Further, for example, by calculating the average value of the points indicated by the reputation of the facilities included in each set in the set generation unit, the reputation of the facilities around the current position of the information processing device is displayed on the map. The distribution state may be displayed. Further, for example, by acquiring travel information indicating ON / OFF of the wiper from a vehicle traveling on the road, the distribution state of ON / OFF of the wiper of the vehicle may be displayed on the map. Thereby, the user of the information processing apparatus can grasp in which region it is raining. Furthermore, for example, in the event of a disaster such as an earthquake, a signal for rescue is obtained from a disaster victim (for example, a portable terminal possessed by the disaster victim, etc.), so that the disaster victim who is seeking rescue on the map. The distribution state may be displayed. Thereby, the user of an information processing apparatus can grasp | ascertain in which area there are many victims who are seeking help.

  That is, the present invention is not limited to the first to third embodiments described above, and various modifications can be made within the scope of the claims. That is, embodiments obtained by combining technical means appropriately modified within the scope of the claims are also included in the technical scope of the present invention.

  Regarding the above embodiment, the following additional notes are disclosed.

(Appendix 1)
An input device, a display device, a map recording unit in which map information indicating a map is recorded in advance, and a point information recording unit that records location information indicating the location of a predetermined location and information relating to the location An accessible information processing device,
A current position acquisition unit that acquires current position information indicating the current position of the user;
A point information reading unit that reads the point information that matches a search condition input via the input device and is within a predetermined range from the current position of the user, from the point information recording unit;
A set that generates one or a plurality of sets including one or a plurality of pieces of point information based on the position information included in the point information read out by the point information reading unit so that the closer to each other, the more the same set is included. A generator,
A display target set determining unit that determines a set including all point information within a predetermined range from the current position of the user as a display target set;
Based on the map information recorded in the map recording unit, the scale of the map so that the area on the map of the display target set and the current position of the user can be displayed on a one-screen display screen in the display device. And a map display position, and based on the calculated map scale and map display position, a map range calculation unit that calculates a map range of the map displayed on the one-screen display screen in the display device When,
Based on the number of pieces of point information in the map range, a display attribute value for displaying the distribution state of the point information in the map range on the map is calculated, and the calculated display attribute value is displayed as a display attribute value. A display attribute value calculation unit for recording in the recording unit;
Based on the map information recorded in the map recording unit, the map of the map range and the current position of the user are displayed on the display screen of the display device, and the display recorded in the display attribute value recording unit An information processing apparatus comprising: a display control unit configured to display a distribution state of point information within the map range on the map based on an attribute value.

(Appendix 2)
An input unit for allowing a user to input a predetermined search condition;
A display for displaying an image;
A map recording unit in which map information indicating a map is recorded in advance;
A point information recording unit for recording point information including position information indicating the position of the predetermined point and information on the position;
A current position acquisition unit that acquires current position information indicating the current position of the user;
A point information reading unit that reads point information that matches a search condition input via the input unit and is within a predetermined range from the current position of the user from the point information recording unit,
A set that generates one or a plurality of sets including one or a plurality of pieces of point information based on the position information included in the point information read out by the point information reading unit so that the closer to each other, the more the same set is included. A generator,
A display target set determining unit that determines a set including all point information within a predetermined range from the current position of the user as a display target set;
Based on the map information recorded in the map recording unit, the scale of the map so that the area on the map of the display target set and the current position of the user can be displayed on a one-screen display screen in the display device. And a map range calculation unit that calculates a map range of a map displayed on a one-screen display screen in the display unit based on the calculated map scale and map display position When,
Based on the number of pieces of point information in the map range, a display attribute value for displaying the distribution state of the point information in the map range on the map is calculated, and the calculated display attribute value is displayed as a display attribute value. A display attribute value calculation unit for recording in the recording unit;
Based on the map information recorded in the map recording unit, the map of the map range and the current position of the user are displayed on the display screen of the display unit, and the display recorded in the display attribute value recording unit An information processing apparatus comprising: a display control unit configured to display a distribution state of point information within the map range on the map based on an attribute value.

(Appendix 3)
The display attribute value calculation unit
A contour target set determining unit that determines a plurality of sets in the region on the map of the set including all the point information within the map range as a contour target set;
A contour target set classifying unit that classifies the contour target set into any one of a plurality of stages based on the number of pieces of point information included in the contour target set;
The contour surrounding the position indicated by all the spot information included in all the contour target sets of each of the plurality of steps is calculated for each of the plurality of steps, and the contour information indicating the calculated contour is used as a display attribute value. A contour calculation unit for recording in the display attribute value recording unit,
The display control unit displays the area within each contour calculated for each of the plurality of steps based on the display attribute value recorded in the display attribute value recording unit in a display mode that is different for each of the plurality of steps. The information processing apparatus according to appendix 1 or 2, which is displayed above.

(Appendix 4)
The display attribute value calculation unit
An icon is displayed at each representative position on the map of the candidate set by setting a plurality of sets in the map area of the set including all the point information within the map range as candidate sets. In this case, the icon duplication number is calculated, and the icon display set corresponding to the icon to be displayed on the map is determined from the candidate set so that the calculated icon duplication number does not exceed the allowable duplication number. An icon position calculation unit that calculates a representative position on the map of the determined icon display set as an icon display position, and records the calculated icon display position as a display attribute value in the display attribute value recording unit;
Based on the number of pieces of point information included in the icon display set, an icon having any display form among icons having a plurality of display forms is displayed with respect to the icon display position indicated by the icon display set. An icon assigning unit that records the display mode of the assigned icon as a display attribute value in the display attribute value recording unit,
The said display control part displays the icon allocated with respect to the said icon display position on the said icon display position based on the display attribute value recorded on the said display attribute value recording part, Addition 1 or 2 Information processing device.

(Appendix 5)
An information processing device, a map recording unit in which map information indicating a map is recorded in advance, and a point information recording unit that records location information including location information indicating the location of a predetermined location and information related to the location are accessible A server device,
When the spot information recorded in the spot information recording unit is updated, a spot information reading unit that reads all spot information including the updated spot information from the spot information recording unit,
A set that generates one or a plurality of sets including one or a plurality of pieces of point information based on the position information included in the point information read out by the point information reading unit so that the closer to each other, the more the same set is included. A generator,
Based on the number of pieces of point information within the map range indicated by the map scale, a display attribute value for displaying the distribution state of the point information within the map range on the map is calculated for each map scale. A display attribute value calculation unit that records the calculated display attribute value in a display attribute value recording unit for each scale of the map;
A map range of a map to be displayed on a display screen of a display device connected to the information processing device when request information indicating a request for acquiring the display attribute value is received from the information processing device; A display attribute value reading unit that reads a display attribute value that matches the scale of the map from the display attribute value recording unit;
A drawing information transmitting unit that generates drawing information including the display attribute value read by the display attribute value reading unit and transmits the generated drawing information to the information processing apparatus that has transmitted the request information; Server device.

(Appendix 6)
An input device, a display device, a map recording unit in which map information indicating a map is recorded in advance, and a point information recording unit that records location information indicating the location of a predetermined location and information relating to the location A program that causes an accessible computer to execute a process,
Current position acquisition processing for acquiring current position information indicating the current position of the user;
A spot information reading process that reads from the spot information recording unit spot information that matches a search condition input via the input device and is within a predetermined range from the current position of the user;
A set that generates one or a plurality of sets including one or a plurality of pieces of point information so that the closer to each other, the more the same set is included based on the position information included in the point information read by the point information reading process Generation process,
A display target set determination process for determining a set including all point information within a predetermined range from the current position of the user as a display target set;
Based on the map information recorded in the map recording unit, the scale of the map so that the area on the map of the display target set and the current position of the user can be displayed on a one-screen display screen in the display device. And map display position, and based on the calculated map scale and map display position, the map range calculation processing for calculating the map range of the map displayed on the one-screen display screen in the display device When,
Based on the number of pieces of point information in the map range, a display attribute value for displaying the distribution state of the point information in the map range on the map is calculated, and the calculated display attribute value is displayed as a display attribute value. Display attribute value calculation processing to be recorded in the recording unit;
Based on the map information recorded in the map recording unit, the map of the map range and the current position of the user are displayed on the display screen of the display device, and the display recorded in the display attribute value recording unit A program that causes the computer to execute a display control process for displaying a distribution state of point information within the map range on the map based on an attribute value.

(Appendix 7)
An information processing device, a map recording unit in which map information indicating a map is recorded in advance, and a point information recording unit that records location information including location information indicating the location of a predetermined location and information related to the location are accessible A program for causing a computer to execute processing,
When the spot information recorded in the spot information recording unit is updated, spot information reading processing for reading all spot information including the updated spot information from the spot information recording unit,
A set that generates one or a plurality of sets including one or a plurality of pieces of point information so that the closer to each other, the more the same set is included based on the position information included in the point information read by the point information reading process Generation process,
Based on the number of pieces of point information within the map range indicated by the map scale, a display attribute value for displaying the distribution state of the point information within the map range on the map is calculated for each map scale. Display attribute value calculation processing for recording the calculated display attribute value in the display attribute value recording unit for each scale of the map;
A map range of a map to be displayed on a display screen of a display device connected to the information processing device when request information indicating a request for acquiring the display attribute value is received from the information processing device; A display attribute value reading process for reading a display attribute value suitable for the scale of the map from the display attribute value recording unit;
A drawing information transmission process for generating drawing information including the display attribute value read by the display attribute value reading process and transmitting the generated drawing information to the information processing apparatus that has transmitted the request information; A program to be executed.

(Appendix 8)
An input device, a display device, a map recording unit in which map information indicating a map is recorded in advance, and a point information recording unit that records location information indicating the location of a predetermined location and information relating to the location A method performed by an accessible information processing apparatus,
A current position acquisition unit included in the information processing apparatus acquires current position information indicating a user's current position; and
A spot information reading unit included in the information processing apparatus is adapted to search information input via the input device, and spot information within a predetermined range from the current position of the user is read from the spot information recording unit. A point information reading step for reading;
The set generation unit included in the information processing apparatus is based on the position information included in the spot information read out by the spot information reading step, so that one or more spots are included in the same set as their positions are closer A set generation step for generating one or more sets including information;
A display target set determining unit provided in the information processing apparatus, a display target set determining step for determining, as a display target set, a set including all point information within a predetermined range from the current position of the user;
Based on the map information recorded in the map recording unit, the map range calculation unit included in the information processing apparatus displays one area of the display target set on the map and the current position of the user on the display device. The map scale and the map display position that can be displayed on the display screen are calculated and displayed on the one-screen display screen in the display device based on the calculated map scale and map display position. A map range calculation step for calculating a map range of the map,
A display attribute value calculation unit included in the information processing apparatus displays a distribution state of the spot information in the map range on the map based on the number of the spot information in the map range. And a display attribute value calculation step of recording the calculated display attribute value in the display attribute value recording unit,
The display control unit included in the information processing device displays a map of the map range and the current position of the user on the display screen of the display device based on the map information recorded in the map recording unit, A display control step of displaying a distribution state of the spot information within the map range on the map based on the display attribute value recorded in the display attribute value recording unit.

(Appendix 9)
An information processing device, a map recording unit in which map information indicating a map is recorded in advance, and a point information recording unit that records location information including location information indicating the location of a predetermined location and information related to the location are accessible A method executed by a server device,
The spot information reading unit provided in the server device reads all spot information including the updated spot information from the spot information recording unit when the spot information recorded in the spot information recording unit is updated. An information reading process;
Based on the position information included in the spot information read out by the spot information reading step, the set generation unit included in the server device includes one or more pieces of spot information so that the closer to each other the closer the positions are included in the same set A set generation step for generating one or more sets including
The display attribute value calculation unit included in the server device displays the distribution state of the spot information in the map range on the map based on the number of spot information in the map range indicated by the scale of the map. Display attribute value is calculated for each map scale, and the calculated display attribute value is recorded in the display attribute value recording unit for each map scale,
When the display attribute value reading unit included in the server device receives request information indicating a request for acquiring the display attribute value from the information processing device, the display of the display device connected to the information processing device A display attribute value reading step of reading from the display attribute value recording unit a display attribute value that matches the map range of the map to be displayed on the screen and the scale of the map;
The drawing information transmitting unit included in the server device generates drawing information including the display attribute value read by the display attribute value reading step, and the generated drawing information is transmitted to the information processing device that has transmitted the request information. And a drawing information transmitting step for transmitting the method.

  As described above, the present invention is an information processing apparatus in which a user of an information processing apparatus can accurately grasp the state around the current position, such as how the spot information around the current position is distributed. It is useful as a server device or a program.

FIG. 1 is a block diagram showing a schematic configuration of an information processing apparatus according to the first embodiment of the present invention. FIG. 2 is a diagram illustrating an example of facility information recorded in the facility information recording unit. FIG. 3 is a diagram for explaining a restaurant facility around the current position of the information processing apparatus. FIG. 4 is a diagram illustrating an example of a dendrogram generated by the set generation unit. FIG. 5 is a diagram illustrating an example of set information recorded in the set information recording unit. FIG. 6 is a diagram for explaining a method for calculating the set range, the set distance, and the set area recorded in the set information recording unit by the set generation unit. FIG. 7 is a diagram for explaining the relationship among the display screen of the display device, the collection range of the display target set, and the current position of the information processing device. FIG. 8 is a block diagram illustrating a schematic configuration of the display attribute value calculation unit. FIG. 9 is a diagram illustrating an example of display attribute values recorded in the display attribute value recording unit. FIG. 10 is a diagram illustrating an example of a display screen displayed on the display device. FIG. 11A is a diagram illustrating an example of distribution information displayed on a map when there is only one vertex coordinate recorded in the display attribute value recording unit. FIG. 11B is a diagram illustrating an example of distribution information displayed on the map when there are two vertex coordinates recorded in the display attribute value recording unit. FIG. 12 is a flowchart illustrating an example of the overall operation of the information processing apparatus. FIG. 13 is a flowchart illustrating an example of display target set determination processing by the display target set determination unit. FIG. 14 is a flowchart illustrating an example of display attribute value calculation processing by the display attribute value calculation unit. FIG. 15 is a flowchart illustrating an example of a contour calculation process performed by the contour calculation unit. FIG. 16 is a block diagram showing a schematic configuration of an information processing apparatus according to the second embodiment of the present invention. FIG. 17 is a block diagram illustrating a schematic configuration of the display attribute value calculation unit. FIG. 18 is a diagram illustrating an example of display form information recorded in the display form recording unit. FIG. 19 is a diagram illustrating an example of display attribute values recorded in the display attribute value recording unit. FIG. 20 is a diagram illustrating an example of a display screen displayed on the display device. FIG. 21 is a flowchart illustrating an example of display attribute value calculation processing by the display attribute value calculation unit. FIG. 22 is a flowchart illustrating an example of an icon display position calculation process by the icon position calculation unit. FIG. 23 is a block diagram showing a schematic configuration of the information processing apparatus and the server apparatus according to the third embodiment of the present invention. FIG. 24 is a diagram illustrating an example of display attribute values recorded in the display attribute value recording unit. FIG. 25 is a flowchart showing an operation example of the server device that calculates the display attribute value for each scale of the map and records the calculated display attribute value when the facility information recorded in the facility information recording unit is updated. is there. FIG. 26 is a flowchart illustrating an example of display attribute value calculation processing by the display attribute value calculation unit. FIG. 27 is a flowchart illustrating an operation example of the information processing apparatus and the server apparatus for delivering the drawing information to the information processing apparatus. FIG. 28 is a diagram illustrating an example of display attribute values recorded in the display attribute value recording unit when the screen illustrated in FIG. 10 is displayed on the display screen of the display device. FIG. 29 is a diagram showing an example of a conventional display screen displayed on the display device.

Explanation of symbols

1, 6, 7 Information processing device 2 Input device 3 Display device 4 Map recording unit 5 Facility information recording unit (point information recording unit)
8 Server device 13 Current position acquisition unit 14, 81 Facility information reading unit (point information reading unit)
15, 82 set generation unit 18 display target set determination unit 19 map range calculation unit 20, 61, 84 display attribute value calculation unit 20a contour target set determination unit 20b contour target set classification unit 20d contour calculation unit 61b icon position calculation unit 61c icon Allocation unit 21, 62, 85 Display attribute value recording unit 22, 63, 76 Display control unit 91 Display attribute value reading unit 92 Drawing information transmission unit

Claims (6)

An input device, a display device, a map recording unit in which map information indicating a map is recorded in advance, and a point information recording unit that records location information indicating the location of a predetermined location and information relating to the location An accessible information processing device,
A current position acquisition unit that acquires current position information indicating the current position of the user;
A point information reading unit that reads the point information that matches a search condition input via the input device and is within a predetermined range from the current position of the user, from the point information recording unit;
A set that generates one or a plurality of sets including one or a plurality of pieces of point information based on the position information included in the point information read out by the point information reading unit so that the closer to each other, the more the same set is included. A generator,
A display target set determining unit that determines a set including all point information within a predetermined range from the current position of the user as a display target set;
Based on the map information recorded in the map recording unit, the scale of the map so that the area on the map of the display target set and the current position of the user can be displayed on a one-screen display screen in the display device. And a map display position, and based on the calculated map scale and map display position, a map range calculation unit that calculates a map range of the map displayed on the one-screen display screen in the display device When,
Based on the number of pieces of point information in the map range, a display attribute value for displaying the distribution state of the point information in the map range on the map is calculated, and the calculated display attribute value is displayed as a display attribute value. A display attribute value calculation unit for recording in the recording unit;
Based on the map information recorded in the map recording unit, the map of the map range and the current position of the user are displayed on the display screen of the display device, and the display recorded in the display attribute value recording unit An information processing apparatus comprising: a display control unit configured to display a distribution state of point information within the map range on the map based on an attribute value. An input unit for allowing a user to input a predetermined search condition;
A display for displaying an image;
A map recording unit in which map information indicating a map is recorded in advance;
A point information recording unit for recording point information including position information indicating the position of the predetermined point and information on the position;
A current position acquisition unit that acquires current position information indicating the current position of the user;
A point information reading unit that reads point information that matches a search condition input via the input unit and is within a predetermined range from the current position of the user from the point information recording unit,
A set that generates one or a plurality of sets including one or a plurality of pieces of point information based on the position information included in the point information read out by the point information reading unit so that the closer to each other, the more the same set is included. A generator,
A display target set determining unit that determines a set including all point information within a predetermined range from the current position of the user as a display target set;
Based on the map information recorded in the map recording unit, the scale of the map so that the area on the map of the display target set and the current position of the user can be displayed on a one-screen display screen in the display device. And a map range calculation unit that calculates a map range of a map displayed on a one-screen display screen in the display unit based on the calculated map scale and map display position When,
Based on the number of pieces of point information in the map range, a display attribute value for displaying the distribution state of the point information in the map range on the map is calculated, and the calculated display attribute value is displayed as a display attribute value. A display attribute value calculation unit for recording in the recording unit;
Based on the map information recorded in the map recording unit, the map of the map range and the current position of the user are displayed on the display screen of the display unit, and the display recorded in the display attribute value recording unit An information processing apparatus comprising: a display control unit configured to display a distribution state of point information within the map range on the map based on an attribute value. The display attribute value calculation unit
A contour target set determining unit that determines a plurality of sets in the region on the map of the set including all the point information within the map range as a contour target set;
A contour target set classifying unit that classifies the contour target set into any one of a plurality of stages based on the number of pieces of point information included in the contour target set;
The contour surrounding the position indicated by all the spot information included in all the contour target sets of each of the plurality of steps is calculated for each of the plurality of steps, and the contour information indicating the calculated contour is used as a display attribute value. A contour calculation unit for recording in the display attribute value recording unit,
The display control unit displays the area within each contour calculated for each of the plurality of steps based on the display attribute value recorded in the display attribute value recording unit in a display mode that is different for each of the plurality of steps. The information processing apparatus according to claim 1, wherein the information processing apparatus is displayed above. The display attribute value calculation unit
An icon is displayed at each representative position on the map of the candidate set by setting a plurality of sets in the map area of the set including all the point information within the map range as candidate sets. In this case, the icon duplication number is calculated, and the icon display set corresponding to the icon to be displayed on the map is determined from the candidate set so that the calculated icon duplication number does not exceed the allowable duplication number. An icon position calculation unit that calculates a representative position on the map of the determined icon display set as an icon display position, and records the calculated icon display position as a display attribute value in the display attribute value recording unit;
Based on the number of pieces of point information included in the icon display set, an icon having any display form among icons having a plurality of display forms is displayed with respect to the icon display position indicated by the icon display set. An icon assigning unit that records the display mode of the assigned icon as a display attribute value in the display attribute value recording unit,
The said display control part displays the icon allocated with respect to the said icon display position on the said icon display position based on the display attribute value recorded on the said display attribute value recording part. Information processing device. An information processing device, a map recording unit in which map information indicating a map is recorded in advance, and a point information recording unit that records location information including location information indicating the location of a predetermined location and information related to the location are accessible A server device,
When the spot information recorded in the spot information recording unit is updated, a spot information reading unit that reads all spot information including the updated spot information from the spot information recording unit,
A set that generates one or a plurality of sets including one or a plurality of pieces of point information based on the position information included in the point information read out by the point information reading unit so that the closer to each other, the more the same set is included. A generator,
Based on the number of pieces of point information within the map range indicated by the map scale, a display attribute value for displaying the distribution state of the point information within the map range on the map is calculated for each map scale. A display attribute value calculation unit that records the calculated display attribute value in a display attribute value recording unit for each scale of the map;
A map range of a map to be displayed on a display screen of a display device connected to the information processing device when request information indicating a request for acquiring the display attribute value is received from the information processing device; A display attribute value reading unit that reads a display attribute value that matches the scale of the map from the display attribute value recording unit;
A drawing information transmitting unit that generates drawing information including the display attribute value read by the display attribute value reading unit and transmits the generated drawing information to the information processing apparatus that has transmitted the request information; Server device. An input device, a display device, a map recording unit in which map information indicating a map is recorded in advance, and a point information recording unit that records location information indicating the location of a predetermined location and information relating to the location A program that causes an accessible computer to execute a process,
Current position acquisition processing for acquiring current position information indicating the current position of the user;
A spot information reading process that reads from the spot information recording unit spot information that matches a search condition input via the input device and is within a predetermined range from the current position of the user;
A set that generates one or a plurality of sets including one or a plurality of pieces of point information so that the closer to each other, the more the same set is included based on the position information included in the point information read by the point information reading process Generation process,
A display target set determination process for determining a set including all point information within a predetermined range from the current position of the user as a display target set;
Based on the map information recorded in the map recording unit, the scale of the map so that the area on the map of the display target set and the current position of the user can be displayed on a one-screen display screen in the display device. And map display position, and based on the calculated map scale and map display position, the map range calculation processing for calculating the map range of the map displayed on the one-screen display screen in the display device When,
Based on the number of pieces of point information in the map range, a display attribute value for displaying the distribution state of the point information in the map range on the map is calculated, and the calculated display attribute value is displayed as a display attribute value. Display attribute value calculation processing to be recorded in the recording unit;
Based on the map information recorded in the map recording unit, the map of the map range and the current position of the user are displayed on the display screen of the display device, and the display recorded in the display attribute value recording unit A program that causes the computer to execute a display control process for displaying a distribution state of point information within the map range on the map based on an attribute value.

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