WO2015178086A1 - 地理情報システムおよび数値データの可視化用プログラム - Google Patents

地理情報システムおよび数値データの可視化用プログラム Download PDF

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Publication number
WO2015178086A1
WO2015178086A1 PCT/JP2015/058200 JP2015058200W WO2015178086A1 WO 2015178086 A1 WO2015178086 A1 WO 2015178086A1 JP 2015058200 W JP2015058200 W JP 2015058200W WO 2015178086 A1 WO2015178086 A1 WO 2015178086A1
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layer
unit
map
numerical
calculation
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PCT/JP2015/058200
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English (en)
French (fr)
Japanese (ja)
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甲 島澤
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ウイングアーク1st株式会社
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    • GPHYSICS
    • G06COMPUTING OR CALCULATING; COUNTING
    • G06TIMAGE DATA PROCESSING OR GENERATION, IN GENERAL
    • G06T11/002D [Two Dimensional] image generation
    • G06T11/60Editing figures and text; Combining figures or text
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09BEDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
    • G09B29/00Maps; Plans; Charts; Diagrams, e.g. route diagram

Definitions

  • the present invention relates to a geographic information system and a numerical data visualization program, and is particularly suitable for use in a geographic information system in which a numerical value or a calculation result thereof can be visualized on a map.
  • GIS Geographic Information System
  • this geographic information system is used, for example, it is possible to aggregate numerical data for each region such as prefectures and municipalities, and display the result on a map color-coded for each region. It is also possible to analyze numerical data related to customers and sales by region and visualize geographical trends and patterns related to business on a map.
  • Patent Document 1 there is a technique in which a map is displayed on a screen and an arrow graph is displayed on the map according to a predetermined input operation (see, for example, Patent Document 1).
  • Patent Document 1 when a physical quantity is input and a display position of a start point and an end point of a graph is input, an arrow-shaped graph having a size corresponding to the input physical quantity is displayed as the input display position. Is displayed.
  • the specified range on the screen is specified as the range to be expanded and the specified range includes multiple graphs, the specified range is expanded while maintaining the width ratio of each graph. It is displayed.
  • the analysis information analyzing the living environment at the position or range desired by the user or the evaluation information evaluating the living environment is generated, and the analysis result and the evaluation result are superimposed on the map.
  • a technique for displaying them together for example, see Patent Document 2.
  • Patent Document 2 With the technique described in Patent Document 2, it is possible to provide two evaluations, an area evaluation and a point evaluation, as evaluations for the living environment.
  • Area evaluation is a living environment evaluation for a specific area as a whole.
  • the user can set a range on a map to be evaluated.
  • the point evaluation is a living environment evaluation regarding a position on a map such as the position of a certain apartment and its surroundings. The user can designate a point to be evaluated by enlarging or reducing the scale of the map or moving a displayed area and clicking a desired position on the map.
  • JP 2002-73002 A JP 2003-196380 A Japanese Patent Laid-Open No. 10-312152
  • Patent Documents 1 to 3 the numerical data analysis results (graphs, symbols, etc.) are visualized and displayed on the map while the map is enlarged / reduced or the display range of the map is moved. Is possible.
  • Patent Document 1 when the map is enlarged, the arrow graph is also enlarged and displayed accordingly. Therefore, in order to display another analysis result on the map in accordance with the enlarged display range, a predetermined input operation (such as input of a physical quantity to be analyzed and input of display positions of start and end points) must be performed again. It was very troublesome.
  • Patent Document 2 it is possible to visualize the result of numerical analysis performed by designating an arbitrary area or an arbitrary point.
  • Patent Document 3 it is possible to visualize the result of numerical analysis in the target area set by zooming the map.
  • the region on the map is divided into rectangular fine mesh units, and the result of numerical calculation using one or more meshes is visualized. Therefore, the result of numerical calculation can be visualized only in the rectangular area on the map defined by this mesh unit (its size can be enlarged / reduced), and numerical calculation is performed in units other than the geographical area. There is a problem that the result cannot be visualized.
  • the present invention has been made to solve such a problem, and visualizes the result of numerical calculation on a map with a geographical region and other elements as units without performing troublesome input operations.
  • the purpose is to be able to.
  • a layer showing a numerical calculation unit based on a geographical area on a map and a layer showing a numerical calculation unit based on a facility existing on the map are prepared, A user operation for designating any desired layer is accepted. And it specifies based on the numerical calculation unit shown by the designated layer from the database which memorize
  • numerical calculations are performed in units of geographical areas or facilities specified according to the specified layer, simply by the user performing an operation for specifying the desired layer.
  • the result of the numerical calculation is visualized and displayed on the map. If the specified layer or geographical area is changed, the numerical calculation unit is automatically changed accordingly, and the numerical calculation result in the changed numerical calculation unit is visualized and displayed on the map.
  • the result of the numerical calculation using elements such as the geographical area and other facilities as a unit without a troublesome input operation by the user.
  • FIG. 1 is a block diagram illustrating a configuration example of a geographic information system according to the present embodiment.
  • the geographic information system shown in FIG. 1 is a system in which a numerical value or a calculation result thereof can be visualized on a map, and includes a zoom operation reception unit 1, a scroll operation reception unit 2, a zooming unit 3, a scroll unit 4, and data identification.
  • Unit 5 target data acquisition unit 6, visualization processing unit 7, map data storage unit 11, layer information storage unit 12, calculation target data storage unit 13, and display 14.
  • the zoom operation receiving unit 1, the scroll operation receiving unit 2, the zooming unit 3, the scroll unit 4, the data specifying unit 5, the target data acquiring unit 6 and the visualization processing unit 7 are functional configurations realized by, for example, a microcomputer. is there. That is, each of these functional blocks 1 to 7 is actually configured by including a CPU, RAM, ROM, etc. of a computer, and a program stored in a recording medium such as RAM, ROM, hard disk, or semiconductor memory operates. It is realized by.
  • the map data storage unit 11 stores map data for displaying a map on the display 14.
  • This map data has, for example, data for an area covering the entire world, and includes information that can specify a country and a region. For example, taking Japan as an example, it includes information that can specify a country, a prefecture, and a city.
  • the layer information storage unit 12 represents the numerical calculation unit for each of the layer indicating the numerical calculation unit based on the geographical area on the map and the layer indicating the numerical calculation unit based on the facility existing on the map.
  • the layer information regarding the plurality of layers indicating the numerical calculation unit is stored in accordance with a plurality of stages of the geographical area from the most wide area level to the narrowest area level on the map.
  • the layer of the widest level is a layer indicating a numerical calculation unit for each country such as Japan, China, and Korea.
  • the narrowest level layer is a layer indicating a numerical calculation unit for each municipality.
  • the layer indicating the numerical calculation unit based on the facility is a layer in which the facility included in the calculation target data stored as a database in the calculation target data storage unit 13 is the numerical calculation unit.
  • the facility is a store, and a layer indicating a numerical calculation unit based on the facility.
  • layer indicates an individual store or a group of a plurality of stores as a numerical calculation unit.
  • FIG. 2 is a diagram illustrating an example of layer information stored in the layer information storage unit 12.
  • FIG. 2A shows layer information relating to the layer of the widest level, and names of a plurality of countries existing all over the world are stored.
  • this widest level layer is referred to as a “country layer”.
  • 2B to 2D show layer information relating to Japan as an example of a country.
  • FIG. 2 (b) shows layer information relating to an intermediate level layer in Japan, in which names of prefectures existing in Japan are stored.
  • this intermediate level layer is referred to as a “prefecture-specific layer”.
  • FIG. 2C shows layer information relating to the layer of the narrowest area level, and, as an example, names of municipalities existing in Tokyo are stored.
  • this narrowest level layer is referred to as a “city-specific layer”.
  • FIG. 2D shows layer information related to a facility layer, and stores names of a plurality of stores existing in a specific ward as an example.
  • this is referred to as a “store-specific layer”.
  • the layer information regarding the geographical area shown in FIGS. 2A to 2C predetermined information is stored.
  • the layer information of the store-specific layer shown in FIG. 2D is set according to the contents of the calculation target data stored in the calculation target data storage unit 13.
  • the store name data is read from the calculation target data storage unit 13
  • the layer information of the store-specific layer is set using the read store name data, and is stored in the layer information storage unit 12.
  • segments the layer regarding a geographical area into three layers is demonstrated here, it is not limited to this number.
  • the municipality layer may be divided into a city distinction layer and a municipality layer.
  • a regional layer such as the Kanto region or the Tohoku region may be set between the country layer and the prefecture layer.
  • the calculation target data storage unit 13 stores calculation target data including a name of a facility, a position where the facility exists, and a numerical value related to the facility as a database.
  • FIG. 3 is a diagram illustrating an example of calculation target data stored in the calculation target data storage unit 13. In the example of FIG. 3, a database having “store name” as an example of the facility, “address” as an example of the position where the store exists, and “sales” by month as an example of numerical values related to the store is shown.
  • the map data storage unit 11, the layer information storage unit 12, and the calculation target data storage unit 13 described above are included in the geographic information system of the present embodiment. It is not limited. That is, some or all of the map data storage unit 11, the layer information storage unit 12, and the calculation target data storage unit 13 are external systems (not shown) different from the geographic information system or server devices on the Internet (not shown). May be included.
  • the zoom operation accepting unit 1 accepts a zoom operation (zoom-in operation and zoom-out operation) performed by the user on the map displayed on the display 14.
  • the zooming unit 3 performs a zooming process on the map being displayed on the display 14 through the visualization processing unit 7 in accordance with the user operation received by the zoom operation receiving unit 1.
  • the zoom operation receiving unit 1 corresponds to the layer designation receiving unit of the present invention. That is, the zoom operation accepting unit 1 accepts designation of any one of a plurality of layers stored as layer information in the layer information storage unit 12 through a zoom operation on the map.
  • the map can be zoomed in four stages.
  • the map is zoomed out most and a map of the whole world is displayed, it is assumed that the country-specific layer shown in FIG.
  • a map of a specific country for example, Japan
  • the prefecture-specific layer shown in FIG. when a map of a specific prefecture (for example, Tokyo) is displayed by further zooming in one step, it is assumed that the municipality layer shown in FIG.
  • an operation for further zooming in is performed after zooming in on a city-specific layer, it is assumed that the store-specific layer shown in FIG.
  • the method described here is an example of the simplest method, and is not limited to this.
  • the number of layers and the number of stages (levels) at which zooming can be performed are not necessarily matched, and zooming may be performed seamlessly in multiple stages.
  • zooming may be performed seamlessly in this way.
  • the number of zooming levels is larger than the number of layers, for example, which layer is designated for which level of zooming is set in advance.
  • this setting may be arbitrarily performed by the user.
  • the designated layer may be switched depending on which range of the map is displayed on the screen of the display 14 as a result of zooming.
  • a layer according to the display range of the map for example, it is possible to do as follows. For example, when zoomed out to the extent that the entire region of two or more countries is displayed on the map, it is assumed that the country-specific layer shown in FIG. Further, when zooming is performed so that the entire region of two or more prefectures is displayed on the map, it is assumed that the prefecture-specific layer shown in FIG. 2B is designated. Further, when zooming is performed so that the entire area of two or more municipalities is displayed on the map, it is assumed that the municipality layer shown in FIG. 2C is designated. Furthermore, when zooming is performed so that the entire area of one city is displayed on the map, the store-specific layer shown in FIG. 2D is designated.
  • the scroll operation accepting unit 2 accepts a scroll operation (an operation to move the display area up, down, left, or right) by the user on the map displayed on the display 14.
  • the scroll unit 4 performs a scroll process on the map being displayed on the display 14 through the visualization processing unit 7 in accordance with the user operation received by the scroll operation receiving unit 2.
  • the scroll operation receiving unit 2 corresponds to the area designation receiving unit of the present invention. That is, the scroll operation accepting unit 2 accepts designation of a desired area on the map to be subjected to numerical calculation by the visualization processing unit 7 described later through a scroll operation on the map.
  • the area on the map that is subject to numerical calculation by the visualization processing unit 7 is the Kanto region.
  • the range of the prefecture where the entire area is displayed is the area on the map that is the target of numerical calculation.
  • the range of the prefecture where the entire area is displayed on the screen after scrolling is the area on the map that is subject to numerical calculation by the visualization processing unit 7 It becomes.
  • the prefectures where the entire area is displayed are included in the numerical calculation target, but the prefectures where at least a part is displayed may also be included in the numerical calculation target.
  • the data specifying unit 5 receives the numerical calculation unit indicated by the layer information (see FIG. 2) of the layer specified by the zooming user operation received by the zoom operation receiving unit 1 and the scroll operation receiving unit 2 Based on the area designated by the scrolling user operation, data to be subjected to numerical calculation is specified from the calculation target data stored in the calculation target data storage unit 13. As described above, when a map of the Kanto region is displayed on the display 14 based on the prefecture-specific layer, the data specifying unit 5 uses the visualization processing unit for data having the address of the prefecture where the entire region is displayed. 7 is specified as data to be subjected to numerical calculation according to 7.
  • the entire area of Tokyo and Saitama prefectures is displayed on the map, and only a part of Kanagawa, Chiba, Ibaraki, Gunma, Tochigi, and Yamanashi prefectures is displayed on the map.
  • the data specifying unit 5 addresses the Tokyo and Saitama prefectures where the whole area is displayed among the numerical calculation units (prefectures) indicated by the layer information of the prefecture-specific layers shown in FIG. Are specified as data to be subjected to numerical calculation by the visualization processing unit 7.
  • the target data acquisition unit 6 stores the calculation target data having the store name, the store address, and the monthly sales figures at the store as a database.
  • Data specified by the specifying unit 5 is acquired.
  • the target data acquisition unit 6 acquires data of a record that includes the word “Tokyo” or “Saitama Prefecture” in the address column.
  • the data acquired here is at least data related to sales figures, and store name and address data are not necessarily acquired as long as it is possible to distinguish which data belongs to which prefecture.
  • the visualization processing unit 7 performs a predetermined calculation for each numerical calculation unit on the numerical value included in the data acquired by the target data acquisition unit 6, and visualizes and displays the calculation result on the map.
  • the visualization processing unit 7 performs a predetermined calculation in units of Tokyo and Saitama Prefecture on the sales figures of Tokyo and Saitama Prefecture acquired by the target data acquisition unit 6, and the calculation result Is visualized and displayed on the map.
  • the predetermined calculation can be designated by the user, for example. For example, the user can arbitrarily specify the contents of numerical calculation, such as summing up the total sales for the specified year, or summing up monthly sales average values for the specified year.
  • FIG. 4 is a diagram for explaining calculation performed by the visualization processing unit 7 for each numerical calculation unit.
  • the total annual sales for the specified year are tabulated.
  • the visualization processing unit 7 displays the annual sales of each store having an address in the country where the entire area is displayed. Calculate the total value by country. In the example of FIG. 4, the total value “750” of annual sales of each store having an address in Japan is calculated.
  • the visualization processing unit 7 calculates the total value of the annual sales of each store having an address in the prefecture displaying the entire area, by prefecture. In the example of FIG. 4, total values “450” and “300” of the annual sales of each store having addresses in Tokyo and Saitama Prefecture are calculated.
  • the visualization processing unit 7 calculates the total value of the annual sales of each store having an address in the municipality that is displaying the entire area for each municipality. .
  • the visualization processing unit 7 calculates the total value of the annual sales of each store having an address in a specific city where the entire area is displayed for each store.
  • the visualization processing unit 7 visualizes and displays the total value of annual sales calculated for each numerical calculation unit according to the designated layer as described above, corresponding to the area or store of the corresponding numerical calculation unit on the map. .
  • the method for visualizing the calculation results on the map can be arbitrarily designed. For example, a mode is possible in which the total value of annual sales calculated for each numerical calculation unit is displayed as a graph or a graphic (for example, a bar graph or a bubble) on a map area indicating the numerical calculation unit.
  • the prefecture layer is specified in the example of FIG. 4, as shown in FIG. 5, the total value of the annual sales of each store having an address in Tokyo is displayed as a graph or figure on the map of Tokyo.
  • the total value of the annual sales of each store having an address in Saitama Prefecture is displayed as a graph or figure on the map of Saitama Prefecture. You may display a total value as a numerical value with a graph or a figure.
  • a store icon 71 indicating that a store exists at a position on the map corresponding to the address of each store. Is displayed. Then, the result of numerical calculation for each store is displayed as a graph or a figure 72 in the vicinity of the store icon 71.
  • the display color, display size, or display shape of the store icon 71 itself may be variable according to the result of numerical calculation.
  • the visualization mode may be changed. For example, as shown in FIG. 7B, the total value of the annual sales of the store is displayed as a numerical value 73, and the monthly sales transition of the year is displayed in the form of a graph 74 (line graph, pie chart, etc.). You may make it.
  • buttons 75 for instructing to perform various tabulations and display in charts of various patterns are displayed on the screen, and arbitrary tabulations are performed according to user operations, and the results are displayed in any chart. May be displayed.
  • a layer indicating a numerical calculation unit based on a geographical area on a map (a layer by country, a layer by prefecture, a layer by city, etc.) and a region other than the geographical area
  • a layer (store-specific layer) indicating a numerical calculation unit based on the facility which is an element of the above is prepared, and any desired layer can be designated according to the zoom operation of the map.
  • the data specified based on the numerical calculation unit shown by the designated layer is acquired from the database of the calculation target data stored in the calculation target data storage unit 13, and predetermined numerical calculation is performed.
  • the calculation result is visualized and displayed on a map.
  • a user can perform a zoom operation for designating a desired layer, and a geographical area or facility specified according to the layer information of the designated layer can be used as a unit.
  • Numerical calculation is performed, and the result of the numerical calculation is visualized and displayed on the map. That is, drill-down and drill-up related to the visualization display of numerical calculation results can be performed with a simple zoom operation.
  • the numerical calculation unit not only can drilling be performed by simply changing the geographical area on the map to change the numerical calculation unit, but also drilling for designating facilities other than the geographical element as the numerical calculation unit can be performed by the same zoom operation. It can be done easily.
  • the numerical calculation range to be visualized can be changed by only a simple scroll operation. Thereby, according to this embodiment, the result of numerical calculation can be easily visualized on a map without using a complicated input operation by the user as a unit of elements such as a geographical area and other facilities.
  • the layer name of each layer is set by actually storing the country name, prefecture name, city name, and store name. Is not limited to this.
  • the layer information may be set only by the item name of the layer indicating the numerical calculation unit. The item name set in this case is matched with the item name set in the calculation target data database stored in the calculation target data storage unit 13.
  • the database of calculation target data stored in the calculation target data storage unit 13 is configured as shown in FIG. 9, for example.
  • the point that the database has the store name and monthly sales as items is the same as in FIG. 3, but the address item is different from FIG. That is, the example of FIG. 9 has three items of country, prefecture, and city instead of the address item.
  • the data specifying unit 5 specifies which layer is designated in accordance with the zooming user operation received by the zoom operation receiving unit 1. In addition, it specifies which area on the map is designated according to the scroll user operation received by the scroll operation receiving unit 2. Then, the calculation target data stored in the calculation target data storage unit 13 is specified in the item having the same name as the layer information of the specified layer (see FIG. 8) (for example, the item of the prefecture). Data of a record in which the same name as the name of the area (for example, names of Tokyo and Saitama Prefectures) is stored is specified as target data for numerical calculation.
  • each chain store has been described as an example of a facility, but the facility is not limited to a store. For example, it may be a company or a public facility. Moreover, although the said embodiment demonstrated the example which represents the position where a facility exists with an address, this invention is not limited to this. For example, the location of the facility may be represented by latitude and longitude. In the above-described embodiment, sales have been described as numerical values related to the facility, but the numerical values are not limited thereto.
  • the contents of the numerical calculation and visualization by the visualization processing unit 7 are not limited to the numerical calculation for calculating the total value or the average value within a certain period, or the visualization by displaying a graph, a graphic, or a distribution diagram. .
  • the contents of the numerical calculation and visualization can be appropriately changed according to the type of calculation target data stored in the calculation target data storage unit 13. For example, as shown in FIG. 10, when data representing the flow rate of each product is stored in the calculation target data storage unit 13, as shown in FIG. 11, depending on the thickness of the arrow connecting from the departure place to the arrival place. In addition, it is possible to visualize the result of counting related to the magnitude of the material flow rate.
  • the layer indicating the numerical calculation unit based on the geographical area has been described.
  • the user may arbitrarily set the layer.
  • a desired area can be arbitrarily set by selecting a plurality of desired prefectures and assigning a desired name.
  • Zoom operation acceptance part (layer designation acceptance part) 2 Scrolling operation reception part (area specification reception part) DESCRIPTION OF SYMBOLS 3 Zooming part 4 Scroll part 5 Data identification part 6 Target data acquisition part 7 Visualization processing part 11 Map data storage part 12 Layer information storage part 13 Calculation object data storage part

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PCT/JP2015/058200 2014-05-22 2015-03-19 地理情報システムおよび数値データの可視化用プログラム WO2015178086A1 (ja)

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