JP5431698B2 - Ground information provision device - Google Patents

Description

  The present invention relates to a ground information providing apparatus that uses an electronic map and provides information on a desired position on the electronic map and the ground in the surrounding area.

  Conventionally, as this kind of ground information providing device, for example, one disclosed in Patent Document 1 is known. This ground information provision device is used to determine the construction method of the foundation of the building in order to prevent the occurrence of uneven settlement (the state where the building is unevenly subsidized and tilted in one direction). is there. Specifically, this ground information providing apparatus is configured by connecting a plurality of personal computers to a server having a database via a communication network such as the Internet. The database of the server stores an electronic map, topographic data corresponding to the electronic map, ground data obtained by ground survey, and the like. This ground data is the hardness of the ground in the land where a building such as a house or a building is to be constructed, and is obtained by a ground survey (sounding test) performed prior to construction.

  When using the above ground information providing device, the user operates the personal computer, accesses the server, and searches for the desired land location. An electronic map containing is displayed. On the electronic map, ground data and topographic data are displayed in a superimposed state. Specifically, for the ground data, an icon with a predetermined color corresponding to the hardness of the ground is displayed at the position where the ground survey is performed on the electronic map. Moreover, the details of the ground data are displayed by selecting an icon with a mouse or the like. With this ground information providing device, the user, for example, a contractor who intends to build a building on the land where the ground data is displayed, refers to the ground data displayed on the electronic map, and the construction method of the foundation of the building Can be determined.

  However, for businesses that frequently conduct land transactions, such as housing manufacturers, condominium developers, real estate agents, and building contractors, only the ground data and topographic data obtained from the above ground information providing device can be used for land transactions. It is not sufficient as ground information for appropriately performing risk assessment on the ground (hereinafter simply referred to as “ground risk assessment”). In other words, when purchasing land, it is preferable to determine whether or not to purchase after appropriately evaluating the ground risk of the land and surrounding areas. Ground information, such as seismic intensity distribution, seismic intensity distribution in a specific area, liquefaction risk, building collapse risk, landslide hazard area, inundation assumption area, ground subsidence risk, fire risk, active fault, soil / groundwater contamination By investigating areas, cultural property reserves, etc., it will be possible to appropriately evaluate the ground risk of the land. In recent years, natural disasters such as earthquakes, floods, and landslides have frequently occurred in Japan, and ground information has become even more important for risk management of land transactions.

  Moreover, with the spread of the Internet and the development of GIS technology in recent years, countries and local governments have begun to publish electronic maps on which various ground information is written on their web sites. For example, on the web site of the Ministry of Land, Infrastructure, Transport and Tourism, the boring data of the areas owned by the Ministry of Land, Infrastructure, Transport and Tourism (for example, the Kanto region and the Kyushu region) are disclosed. In addition to the data, seismic intensity distribution maps and liquefaction distribution maps of the entire Tokyo area when earthquakes occur in specific areas in Tokyo are available. Furthermore, the department collapsed by the Tokyo Metropolitan Government, for example, the web site of the Urban Development Bureau, discloses the risk of building collapse, and the web site of the Construction Bureau discloses landslide hazard areas. Furthermore, on the web site of the river office under the jurisdiction of the Ministry of Land, Infrastructure, Transport and Tourism, there is an inundated area map around the river under the jurisdiction of the river office.

  As described above, although electronic maps including various types of ground information have been released by countries and local governments, such electronic maps are independently disclosed on different websites for each type of ground information. . Therefore, when a user tries to obtain various kinds of ground information in a specific land or region using the Internet, the user must access a web site that publishes a desired kind of ground information. Also, links to web sites that disclose ground information are rarely provided on the homepages (top pages) of national and local governments, so it takes time to reach the desired web site from the above homepage. It will take. In addition, even if you arrive at the desired web site, an electronic map of the entire jurisdiction is usually displayed on the top page of the web site, so you can refine and select the desired land and area in detail. In many cases, further operations such as these are required.

  The present invention has been made to solve the above-described problems, and allows a user to quickly obtain various ground information in a desired position on an electronic map and its surrounding area with a simple operation by the user. An object of the present invention is to provide a ground information providing device that can be provided.

Japanese Patent No. 4086122

In order to achieve the above object, the invention according to claim 1 includes a server and a client connected to the server via a communication network. The server displays an electronic map in response to a request from the client. A ground information providing device that provides information on the ground by transmitting and receiving and displaying the transmitted electronic map, and the server is associated with latitude and longitude and a plurality of predetermined types of ground A ground map storage means for storing each of a plurality of electronic maps each including information as a ground map, a server side receiving means for receiving instruction data based on a request from a client, and a ground map storage according to the received instruction data Means for reading out the ground map from the means, and the read ground map according to the received instruction data A map correction unit for correcting, and a server side transmission unit for transmitting the corrected ground map to the client, wherein the client associates the longitude and latitude with the client side reception unit for receiving the ground map transmitted from the server. In order to display a basic map, which is an electronic map, a position specifying means for specifying a desired position of the basic map and a map display area for displaying the received ground map or basic map are provided. Map display means for displaying a specified position at the center of the map display area when displaying a map, ground information selection means for selecting a desired type from a plurality of types of ground information, and a map display area Center coordinate acquisition means for acquiring the latitude and longitude corresponding to the center of the map display area as center coordinates in the basic map or ground map displayed in Client-side transmission means for transmitting instruction data including the type of selected ground information and the acquired center coordinates to the server, and the map reading means of the server receives the instruction data when the instruction data is received. The ground map including the ground information of the selected type included in is read, and the map correction means of the server corrects the read ground map so that the position corresponding to the center coordinates included in the instruction data is centered. When the corrected ground map is received, the client's map display means displays the received ground map in the map display area instead of the basic map or ground map displayed in the map display area. Each location map has a plurality of different colors according to a predetermined level and / or classification based on the ground information of the ground map. For each ground map, a legend storage means for storing, as a legend, a list representing a plurality of colors attached to the ground map and a plurality of levels and / or divisions corresponding to the plurality of colors, and received instructions A legend reading means for reading the legend from the legend storage means according to the data, and the client further comprises a legend display instruction means for instructing the legend display, and a legend display means for displaying the legend, The client side transmission means transmits instruction data including the type of the ground map displayed by the map display means to the server when the legend display instruction means instructs the legend display, and the server legend reading means indicates the instruction When the data is received, the legend corresponding to the type of ground map included in the instruction data is read, and the server-side transmission means sends the read legend. The client-side receiving means receives the transmitted legend, the client legend display means displays the received legend when the legend is received, and the server displays the ground map for each ground map. Corresponds to the center coordinates included in the instruction data in the level / section color storage means for storing the plurality of colors attached in association with the corresponding levels and / or sections, and the ground map of the type included in the instruction data Color acquisition means for acquiring the color of the position to be performed, color comparison means for comparing the acquired color with the color stored in the level / division color storage means, and a ground map according to the comparison result by the color comparison means And a level / classification judging means for judging a level or classification at a position corresponding to the center coordinate of the server, and the server-side transmission means is a level / classification judgment means. Transmits the determination result by, receiving a judgment result of the client side receiving means is sent, the client a determination result displaying means for displaying the determination result received, characterized in that it comprises further.

  In this ground information providing apparatus, a client is connected to a server via a communication network, and the server is an electronic map including ground information in response to a request from the client by a user operation by a user. Send a ground map. Then, the client receives and displays the transmitted ground map, thereby providing information on the ground to the user.

  The client is provided with a map display means having a map display area. In this map display area, a ground map received by the client-side receiving means or a basic map which is an electronic map associated with latitude / longitude is displayed. The Further, when the basic map is displayed in the map display area, the desired position specified by the user using the position specifying means is displayed so as to be positioned at the center of the map display area. Thereby, the user can obtain the basic map displayed so that the position becomes the center of the map display area only by designating the desired position.

  In addition, as described above, when the user wants to obtain a desired type of ground information in a state where the basic map is displayed in the map display area, the ground information selection means can select from a plurality of types of ground information. Select the desired type. Then, the latitude / longitude corresponding to the center of the map display area is acquired as the center coordinates in the basic map displayed in the map display area by the center coordinate acquisition means, and the type of the selected ground information and the acquired The instruction data including the center coordinates is transmitted to the server by the client side transmission means.

  The server receives the instruction data transmitted from the client by the server-side receiving means, and reads the ground map from the ground map storage means by the map reading means according to the instruction data. That is, a ground map including the kind of ground information included in the instruction data is read out. Next, the read ground map is corrected according to the instruction data by the map correction means. That is, since the latitude and longitude are associated with the read ground map, the ground map is corrected so that the position corresponding to the latitude and longitude of the central coordinates included in the instruction data is the center. Thereafter, the corrected ground map is transmitted to the client by the server side transmission means.

  When the corrected ground map is received, the client displays the received ground map instead of the basic map displayed in the map display area. In this case, the ground map is displayed in the map display area in a state where the center coincides with the previously displayed basic map. Thereby, the user can obtain the ground information in the position designated by the user and the surrounding area. In addition, when the user wants to obtain other types of ground information in a state in which the ground map is displayed in the map display area, by selecting another type of ground information by the ground information selection means The ground map including the ground information is displayed in the map display area in a state where the center coincides with the previously displayed ground map, as in the case described above.

  As described above, according to the ground information providing apparatus of the present invention, the user can select a desired position on the electronic map by a simple operation of specifying a desired position on the basic map and selecting a desired type of ground information. It is possible to promptly provide the user with various ground information in the location of and the surrounding area.

Further , according to the above configuration, the local map is provided with a plurality of different colors according to a predetermined plurality of levels and / or divisions based on the ground information of the ground map. For this reason, when a ground map is displayed by the map display means of the client, it is displayed in a state where colors according to a plurality of levels and / or divisions based on the ground information are attached. However, simply displaying the color on the ground map means that the user means what each color means, that is, what level and classification of the ground information. It is difficult to understand what is. Therefore, the server is provided with a legend storage means, and this legend storage means has, for each ground map, a plurality of colors attached to the ground map, and a plurality of levels and / or corresponding to the plurality of colors. A list showing the categories is stored as a legend.

  When the user wants to obtain a legend of the ground map in a state where the ground map is displayed by the map display means, the legend display instruction means instructs the legend display. When this instruction is given, the client side transmission means transmits instruction data including the type of the displayed ground map to the server. In the server, when the instruction data is received, the legend reading means reads the legend corresponding to the type of the ground map included in the instruction data. Next, the read legend is transmitted to the client by the server side transmission means. In the client, when the legend is received, the received legend is displayed by the legend display means. Thereby, the user can obtain the legend of the ground map displayed by the map display means, and the meaning of the color attached to the ground map, that is, the level of the ground information corresponding to the color and the meaning of the classification. Easy to understand.

Further, according to the above configuration, for each ground map, a plurality of colors attached to the ground map are stored in association with a plurality of corresponding levels and / or sections by the level / partition color storage means of the server. ing. As described above, the instruction data received by the server includes the type of the ground map displayed by the map display unit and the center coordinate, and the center of the type of ground map is displayed by the color acquisition unit of the server. The color at the position corresponding to the coordinates is acquired. Then, the color comparison means compares the acquired color with the color stored in the level / division color storage means, and according to the comparison result, the level / division determination means sets the center coordinates of the ground map. The level or classification of ground information at the corresponding position is determined. This determination result is transmitted by the server side transmission means and received by the client side reception means. Then, the received determination result is displayed by the determination result display means of the client.

  As described above, according to the present invention, in the ground map displayed by the map display means of the client, the level or classification of the ground information at the position specified by the user is automatically determined, and the user can The result can be easily obtained.

The invention according to claim 2, in ground information providing apparatus according to claim 1, the server, based on the determination result, the soil evaluation means for performing an evaluation of soil at the position corresponding to the center coordinates, further comprising, a server-side The transmission means transmits an evaluation result by the ground evaluation means, the client-side reception means receives the transmitted evaluation result, and the client further includes an evaluation result display means for displaying the received evaluation result. And

  According to this configuration, the ground evaluation unit of the server performs the evaluation on the ground at the position corresponding to the center coordinates based on the determination result. This evaluation result is transmitted by the server side transmission means and received by the client side reception means. Then, the received evaluation result is displayed by the evaluation result display means of the client. Thereby, the user can easily obtain an evaluation regarding the ground at the position specified by the user.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. The ground risk evaluation support system (hereinafter referred to as “this system” as appropriate) to which the ground information providing device of the present invention is applied provides various information (hereinafter referred to as “ground information”) to the user regarding the risk of ground in the desired land and the surrounding area. In order to support appropriate ground risk assessment. In addition, this system can be used by general people as well as business operators who frequently conduct land transactions such as housing manufacturers, condominium developers, real estate agents, and construction companies.

  FIG. 1 shows a hardware configuration of the ground risk evaluation support system 1. As shown in the figure, the system 1 includes a server 2 and a plurality of clients 4 connected to the server 2 via a communication network 3 such as the Internet.

  The server 2 is a computer that functions as a Web server. As shown in FIG. 2, the server 2 incorporates software having various functions and stores a database 10 (ground map storage means, legend storage means, Level / division color storage means). In this database 10, a basic map Mb (see FIGS. 7 to 9) and a plurality of types of ground maps Mg (see FIGS. 10, 12 and 13) to be described later are registered, and these maps Mb and Mg are stored in Japan. Covers the whole country.

  The basic map Mb is an electronic map drawn in the same manner as a general map. The basic map Mb is subdivided into rectangular image data of a predetermined size, and the latitude and longitude are associated with each of them in the database 10. It is registered. Specifically, each image data is registered in the database 10 in a state in which the lower left and upper right latitude / longitude of the image are associated with each other.

  On the other hand, the plurality of types of ground maps Mg are a plurality of electronic maps provided by the country, local governments, and the like, each of which represents various types of ground information. Specifically, each of these ground maps Mg, as ground information, terrain classification, seismic intensity distribution with a specific area (for example, northern Tokyo Bay and Tama area), liquefaction risk, ease of ground shaking, The risk of building collapse, fire risk, comprehensive risk, landslide hazard, active fault, inundation area, land subsidence risk, soil / groundwater contamination area, cultural property reserve area, etc. are indicated.

  In addition, the local map Mg is provided with a plurality of different colors according to a plurality of levels and divisions based on the ground information. And each place map Mg is subdivided into the rectangular image data of a predetermined size like the basic map Mb, and is registered in the database 10 with the latitude and longitude associated with each of them. In the database 10, for each ground map Mg, a list indicating a plurality of colors attached to the ground map Mg and a plurality of levels and classifications corresponding to the colors is registered as a legend. . In addition, for each ground map Mg, a plurality of colors are registered by pixel information in association with a corresponding plurality of levels and divisions. In the database 10, old maps such as the Meiji period and Taisho period are also registered as a kind of ground map.

  Further, in the database 10, the location where the ground boring survey was conducted and the survey results are also registered. In addition to the data provided by the national and local governments, the data related to this boring survey includes data held by private companies and data registered by users.

  As shown in FIG. 2, various software incorporated in the server 2 has, as its function, for example, a data transmission / reception function 11 (server-side transmission means and server-side reception) that transmits and receives data to and from the client 4. Means), a map search function 12 (map reading means) for searching the basic map Mb and the ground map Mg from the database 10, and a map correction processing function 13 (map correction means) for correcting the searched basic map Mb and ground map Mg. A legend search function 14 (legend reading means) for searching a legend from the database 10, a color acquisition function 15 (color acquisition means) for acquiring a color at a predetermined position on the ground map Mg, and the acquired colors and registered in the database 10. Color comparison function 16 (color comparison means) for comparing with existing colors, ground information at a predetermined position on the ground map Mg It has bells and partition determining level category determination function 17 (level category determination means), and ground evaluation function 18 to carry out an evaluation of the soil and (ground evaluation means).

  On the other hand, as shown in FIG. 1, the client 4 is a PDA 4B, a mobile phone 4C, or the like, in addition to a computer such as a personal computer 4A. Each client 4 has an input unit 6 such as a keyboard for inputting characters and symbols, and a display unit 7 such as a display for displaying an electronic map transmitted from the server 2 (map display means, legend display means, determination Result display means and evaluation result display means), and a selection unit 8 (position designation means, ground information selection means, and legend display) such as a mouse 8a for selecting various buttons and icons displayed on the display unit 7 Instruction means).

  Further, as shown in FIG. 2, the client 4 has a Web browser 19 (client side transmission means, client side reception means, and center coordinate acquisition) for browsing a Web page while transmitting / receiving data to / from the server 2. Various software including the means) is incorporated.

  Next, a method of using the ground risk evaluation support system 1 will be described with reference to FIGS. In the following description, a usage method when the personal computer 4A is used as the client 4 will be described.

  FIG. 3 shows a login page to the system 1 displayed in a window on the display unit 7 of the client 4 when the user operates the client 4 to access the server 2 via the web browser 19. Show. After entering a predetermined ID and password in the ID input field 21 and password input field 22 of the login page 20, respectively, the “Enter” button 23 is pointed with the mouse pointer P and the mouse 8a is clicked. The input ID and password are transmitted to the server 2 and collated with a previously registered ID and password. And when both are appropriate, as shown in FIG. 4, the prefecture selection page 31 which described the Japan map is displayed.

  The map of Japan shows the name of the prefecture and the borderline of the prefecture. By moving the mouse pointer P on the map and pointing to the desired prefecture, clicking the mouse 8a displays the selected prefecture in an enlarged manner. FIG. 6 shows a state when “Tokyo” is selected, and shows the Tokyo and surrounding prefectures in an enlarged manner. On this map, the desired position in Tokyo is pointed with the mouse pointer P and the mouse 8a is clicked to display the detailed map centered on the selected position, that is, the basic map Mb described above. Is done.

  The prefecture selection page 31 shown in FIG. 4 is provided with a button 32 for searching for a desired position from the address. When this button 32 is selected, the address search page 33 shown in FIG. Is done. After inputting the corresponding item of the address in the prefecture name input field 34, city name input field 35, town name input field 36, and address input field 37 of the address search page 33, the “movement” button 38 is clicked. When selected, the basic map Mb centered on the address is displayed as in the case of selection with the mouse 8a. In addition, by selecting the “▼” button at the right end of each of the columns 34 to 37 in order from the top, the items of addresses to be input in the columns 34 to 37 are displayed as a list, and by selecting from the list, It is also possible to input an address in each column 34-37.

  FIG. 7 shows an example of the map display page 41 when a desired position is selected in FIG. 6 or 5 described above. As shown in FIG. 7, the map display page 41 is provided with a rectangular map display area 42 that occupies most of the map display page 41, and the basic map Mb shown in FIG. Or, as will be described later, the ground map Mg is displayed. The basic map Mb in FIG. 7 shows a state when the position of Minato Ward in Tokyo (the location of Keio University in the figure) is selected. Although both the basic map Mb and the ground map Mg are displayed in color, they are displayed in gray scale due to restrictions on the description of the drawings.

  At the periphery of the map display area 42, triangle triangles 43 having outward triangles are provided at the top, bottom, left, right, and four corners. By selecting one of these triangle icons 43, the map display area 42 The entire basic map Mb is moved by a predetermined amount in the direction of the selected Δ icon 43. In addition, a center position mark 44 having a shape in which “◯” and “+” are superimposed is written at the center of the map display area 42.

  Further, as shown in FIG. 8A, when a desired position (the location of Shinagawa station in the figure) is selected with the mouse pointer P in the map display area 42, the entire basic map Mb moves, As shown in b), the selected position is displayed at the center of the map display area 42.

  As shown in FIG. 7, a ground information selection field 45 for selecting ground information is provided on the left side of the map display area 42 of the map display page 41. When the ground information selection field 45 is pointed with the mouse pointer P and the mouse 8a is clicked, various ground information (including the name of the ground map) is listed below the ground information selection field 45 as shown in FIG. Is displayed. When a desired type of ground information is selected from this list, a ground map Mg including the ground information is displayed in the map display area 42 instead of the basic map Mb.

  FIG. 10A shows a state in which the seismic intensity distribution having the epicenter in the northern part of Tokyo Bay is selected as the ground information, and the seismic intensity distribution chart Mg1 as the ground map Mg is displayed in the map display area 42. This seismic intensity distribution chart Mg1 is displayed in the map display area 42 in a state where the center coincides with the basic map Mb shown in FIG.

  Here, with reference to FIGS. 9 to 11, the internal processing of the server 2 and the client 4 when the seismic intensity distribution map Mg1 is displayed in the map display area 42 and the transmission / reception of data between the two and the four will be described. To do.

  When “Tokyo Bay Northern Earthquake Seismic Intensity” (third from the top of the list) is selected from the ground information displayed in the list in the ground information selection field 45 shown in FIG. 9, the client 4 displays the center position mark on the basic map Mb. The latitude and longitude at which 44 is located are acquired as the center coordinates. Then, the instruction data including the central coordinates and the type code indicating the type of the selected ground information (ground map) is transmitted to the server 2 ((1) in FIG. 11A).

  The server 2 that has received the instruction data searches the database 10 for a predetermined seismic intensity distribution map Mg1 based on the instruction data. Specifically, image data including latitude and longitude of the central coordinates is read out from the seismic intensity distribution map Mg1 corresponding to the type code with the hypocenter in the northern part of Tokyo Bay. Next, correction processing is performed on the read image data so that the position corresponding to the center coordinates is the center. Then, the corrected image data is transmitted to the client 4 ((2) in FIG. 11A).

  The client 4 that has received the image data displays the received image data in the map display area 42 instead of the basic map Mb that was previously displayed. As described above, as shown in FIG. 10A, the map display area 42 of the map display page 41 has a seismic intensity distribution in a state in which the latitude and longitude of the center match the previously displayed basic map Mb. The figure Mg1 is displayed.

  As described above, the seismic intensity distribution chart Mg1 is displayed in color, and different colors are given according to the seismic intensity (level). When the user wants to know the meaning of these colors, he selects the “Legend Display” button 46 on the map display page 41. Thereby, as shown in FIG. 10B, the legend display page 51 of the seismic intensity distribution diagram Mg1 is popped up.

  As shown in the figure, in the legend display page 51, the colors are displayed in the legend column in a state where the colors are arranged in the vertical direction, and the seismic intensity is described in the explanation column on the right side thereof. By the way, each color in the legend column is displayed in red, orange, yellow, and green in order from the top. These colors are “Seismic intensity 7”, “Seismic intensity” as described in the explanation column. 6 strong, seismic intensity 6 weak, and seismic intensity 5 strong.

  Further, in this legend display page 51, the seismic intensity at the center of the seismic intensity distribution map Mg1 displayed in the map display area 42 is automatically determined and displayed, and the displayed determination result can be corrected by the user himself / herself. ing.

  For automatic seismic intensity determination, the color at the center of the seismic intensity distribution chart Mg1 displayed in the map display area 42 is compared with each color of the legend of the seismic intensity distribution chart Mg1, so that the color closest to the candidate rank column is displayed. “1” and “2” are displayed in order. This automatic determination is performed as follows.

  That is, when the “Legend Display” button 46 is selected in the state shown in FIG. 10A, the client 4 displays the latitude / longitude at which the center position mark 44 on the seismic intensity distribution map Mg1 displayed in the map display area 42 is located. Is obtained as the center coordinates. Then, the instruction data including the central coordinates and the type code of the seismic intensity distribution chart Mg1 is transmitted to the server 2 ((1) in FIG. 11B).

  In the server 2 that has received the instruction data, the image data of the seismic intensity distribution map Mg1 corresponding to the type code is retrieved from the database 10 based on the type code and the center coordinates included in the instruction data, and the latitude and longitude of the center coordinates are obtained. The color at the corresponding position is acquired as pixel information. Next, the obtained pixel information is compared with the pixel information of each color of the legend of the seismic intensity distribution chart Mg1 registered in the database 10, and “1” and Set “2”. Then, the legend data corresponding to the type code is transmitted to the client 4 together with the candidate rank set as described above ((2) in FIG. 11B).

  In the client 4 that has received the above-described legend data, the legend is displayed on the legend display page 51 together with the above-described candidate ranking by the automatic determination as shown in FIG. Therefore, the user can easily know the seismic intensity at the center of the seismic intensity distribution chart Mg1, that is, the position specified by the user himself.

  In the automatic determination described above, since determination is made based on pixel information at a predetermined position in the image data of the seismic intensity distribution map Mg1, a determination error may occur depending on the seismic intensity distribution chart Mg1 registered in the database 10. For example, depending on the seismic intensity distribution map, a hatching pattern may be written in addition to the color for each seismic intensity. When pixel information at a position with such a hatching pattern is acquired, This is because there is a possibility of obtaining pixel information different from the color of the pixel. Therefore, when the user himself / herself wants to correct the above automatic determination result, the user checks the check box 52 by pointing the check box 52 in the selection column with the mouse pointer P and clicking the mouse 8a. Then, the “selection end” button 53 is selected. Thereby, the color of the legend with the check and the longitude / latitude of the center coordinates are transmitted to the server 2 and registered (reflected) in the database 10. As a result, when the “Legend Display” button 46 is selected in the state where the same position is designated next time, when the legend display page 51 is displayed, the color of the above-described legend with a check mark is “1” in the candidate ranking. "Is displayed.

  Next, a case where a type of ground information other than the seismic intensity distribution is selected will be described. FIGS. 12 (a), 13 (a), and 14 (a) each show a state in which a landslide hazard point, an assumed inundation area, and a boring position map are selected as ground information.

  For example, a state where the basic map Mb shown in FIG. 9 is displayed in the map display area 42 of the map display page 41 or a state where another ground map Mg is displayed (for example, the seismic intensity distribution map Mg1 shown in FIG. 10A). When a landslide hazard area is selected in the ground information selection field 45, a landslide hazard area diagram Mg2 is displayed in the map display area 42 as shown in FIG. 12 (a). The Moreover, when the inundation assumption area or the boring position figure is selected in the ground information selection column 45, as shown in FIG. 13 (a) or FIG. 14 (a), the inundation assumption area figure Mg3 or the boring position figure is a map. It is displayed in the display area 42. These earth and sand disaster danger spot map Mg2, inundation assumption area map Mg3, and boring position map are all displayed in a state where the center coincides with the previously displayed basic map Mb or other ground map Mg.

  Also, when the “Legend Display” button 46 shown in FIGS. 12 and 13 (a) is selected, as shown in FIGS. 12 and 13 (b), the earth and sand disaster hazard map Mg2 displayed in the map display area 42 is displayed. And a legend display page 51 corresponding to the assumed inundation area diagram Mg3 is displayed in a pop-up.

  In addition, in the earth and sand disaster hazard map Mg2 shown in FIG. 12 (a), based on the ground information, as shown in the legend display page 51 in FIG. "Location", "Steep slope collapse risk location", "Landslide risk location", etc. are written using mutually different colors. On the other hand, in the assumed inundation area diagram Mg3 shown in FIG. 13A, based on the ground information, as shown in a plurality of levels and divisions, specifically, the legend display page 51 of FIG. .2-0.5m "or" 0.5-1.0m "level at the time of flooding, and categories such as" target area "and" basin boundary "are expressed using different colors .

  The internal processing of the server 2 and the client 4 and the transmission / reception of data between the two and the four in the case of performing the display of the earth and sand disaster risk location map Mg2 and the assumed inundation zone diagram Mg3 and the legend display of each are described above. This is the same as when the seismic intensity distribution chart Mg1 and its legend are displayed.

  Further, in the boring position diagram shown in FIG. 14A, the place where the boring survey is performed is displayed on the basic map Mb displayed in the map display area 42 in a superimposed state. Specifically, based on the latitude and longitude of the boring position, a circular ◯ icon 60 with a predetermined color is displayed at a position on the basic map Mb. Further, by selecting each circle icon 60, a boring survey result display page 61 including a boring columnar diagram is popped up as shown in FIG. 14B.

  It is also possible to display the above-described ○ icon 60 in different colors (for example, ○ icon 60A is red and 60B is blue), and whether or not the borehole survey result can be viewed can be set according to the user ID. .

  As described above in detail, according to the ground risk evaluation support system 1 of the present embodiment, the user can specify a desired position of the basic map Mb and select a desired type of ground information with a simple operation. Various kinds of ground information in a desired position and the surrounding area can be quickly provided to the user. As a result, it is possible to effectively support the ground risk evaluation for the user who uses the system 1. Conventionally, since the ground map Mg including various ground information provided by the country and local governments on its own website is accumulated in the database 10, the website provided by the server 2 of the system 1 is It can be used as an information portal site.

  Moreover, although illustration is abbreviate | omitted, this system 1 is provided with the function to perform the evaluation regarding the ground of the position designated by the user. As described above, the server 2 determines the level and classification at the position specified by the user of the local map Mg based on the color attached to the position. Based on the determination result, the specified position Evaluation on the ground of Specifically, for example, based on the determination result in the seismic intensity distribution chart Mg1, the degree of danger due to shaking at the time of the earthquake is evaluated, or based on the determination result in the landslide disaster risk location chart Mg2, the degree of risk of occurrence of landslide disaster is evaluated. Further, based on the determination result in the assumed inundation area map Mg3, the degree of risk of inundation when a flood occurs is evaluated. In addition, comprehensive evaluation is performed based on each evaluation result.

  When the user wants to obtain the evaluation of the ground at the specified position, the evaluation result as described above is transmitted from the server 2 to the client 4 by selecting a predetermined button on the map display page 41 or the like. Sent and popped up. Thereby, the user can easily obtain the evaluation regarding the ground at the designated position.

  In addition, this invention can be implemented in various aspects, without being limited to the said embodiment described. For example, in the embodiment, as the ground map Mg to be displayed in the map display area 42 of the map display page 41, the seismic intensity distribution map Mg1, the landslide disaster hazard map Mg2, and the assumed inundation zone map Mg3 have been exemplified. In other words, topographic classification map, liquefaction risk map, ground shaking probability map, building collapse risk map, fire risk map, comprehensive risk map, active fault map, land subsidence risk registered in database 10 Of course, maps, soil / groundwater contamination areas, cultural property reserves, and ancient maps can also be displayed. Further, by registering a ground map other than the above in the database 10, the ground map can be displayed in the map display area 42. Further, the detailed configuration of the ground risk assessment support system 1 shown in the embodiment and the design of each Web page such as the map display page 41 and the legend display page 51 are merely examples, and are within the scope of the present invention. It can be changed as appropriate.

It is a figure which shows the outline | summary of the hardware constitutions of the ground risk evaluation assistance system to which the ground information provision apparatus by one Embodiment of this invention is applied. It is a block diagram for demonstrating the software integrated in the server and the client. It is a figure which shows the login page displayed by the window on the display part of the client. It is a figure which shows the prefecture selection page displayed by the window on the display part of the client. It is a figure which shows the address search page popup-displayed on the prefecture selection page. It is a state when “Tokyo” is selected on the prefecture selection page, and is an enlarged view of Tokyo and surrounding prefectures. It is a figure which shows the state by which the basic map was displayed on the map display area in the map display page. It is a figure for demonstrating the change of the center position of the map displayed on the map display area, (a) is the state which moved the mouse pointer to the position different from the center of the displayed basic map, (b) is a basic map. The center position of is changed. In the map display page, the ground information is displayed as a list. (A) shows a state where a seismic intensity distribution map is displayed in the map display area on the map display page, and (b) shows a state where a legend of the seismic intensity distribution map is pop-up displayed. (A) is a figure for demonstrating transmission / reception of the data between a server and a client when a ground map is displayed on a map display area, (b) is a server when a legend display page is displayed, It is a figure for demonstrating transmission / reception of the data between clients. (A) shows a state in which a landslide hazard map is displayed in the map display area on the map display page, and (b) shows a state in which a legend of the landslide hazard map is displayed in a pop-up. (A) shows a state in which an assumed inundation zone diagram is displayed in the map display area on the map display page, and (b) shows a state in which a legend of the inundation assumption zone diagram is pop-up displayed. (A) shows a state where a boring position diagram is displayed in the map display area on the map display page, and (b) shows a state where a boring survey result including a boring columnar diagram is displayed in a pop-up manner.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Ground risk evaluation support system 2 Server 3 Communication network 4 Client 7 Display part (Map display means, legend display means, judgment result display means, evaluation result display means)
8 Selection part (position designation means, ground information selection means, legend display instruction means)
10 Database (Ground map storage means, legend storage means, level / division color storage means)
11 Server data transmission / reception function (server side transmission means and server side reception means)
12 Map search function (map reading means)
13 Map correction processing function (map correction means)
14 Legend search function (Legend reading means)
15 Color acquisition function (color acquisition means)
16 Color comparison function (color comparison means)
17 Level / category judgment function (level / category judgment means)
18 Ground evaluation function (ground evaluation means)
19 Web browser (client side transmission means, client side reception means, central
Coordinate acquisition means)
41 Map Display Page 42 Map Display Area 44 Center Position Mark 45 Ground Information Selection Field 51 Legend Display Page Mb Basic Map Mg Ground Map

Claims (2)

The server is composed of a server and a client connected to the server via a communication network. The server transmits an electronic map in response to a request from the client, and the client receives the transmitted electronic map. And a ground information providing device for providing information on the ground by displaying,
The server
A ground map storage means for storing each of a plurality of electronic maps associated with latitude / longitude and each including a plurality of predetermined types of ground information as a ground map;
Server-side receiving means for receiving instruction data based on a request from the client;
In accordance with the received instruction data, map reading means for reading out the ground map from the ground map storage means,
Map correction means for correcting the read ground map according to the received instruction data;
Server-side transmission means for transmitting the corrected ground map to the client,
The client
Client-side receiving means for receiving the ground map transmitted from the server;
In order to display a basic map that is an electronic map in which longitude and latitude are associated, a position specifying means for specifying a desired position of the basic map;
Map display means having a map display area for displaying the received ground map or the basic map, and displaying the designated position at the center of the map display area when the basic map is displayed. When,
Ground information selection means for selecting a desired type from the plurality of types of ground information;
In the basic map or the ground map displayed in the map display area, center coordinate acquisition means for acquiring the latitude and longitude corresponding to the center of the map display area as center coordinates,
Client-side transmission means for transmitting the instruction data including the selected ground information type and the acquired center coordinates to the server;
The map reading means of the server reads the ground map including the selected type of ground information included in the instruction data when the instruction data is received,
The map correction means of the server corrects the read ground map so that a position corresponding to the center coordinates included in the instruction data is centered,
When the corrected ground map is received, the map display means of the client replaces the basic map or the ground map displayed in the map display area with the received ground map. Displayed in the map display area ,
According to the predetermined multiple levels and / or divisions based on the ground information of the ground map, a plurality of different colors are attached to the local map.
The server
Legend storage means for storing, as a legend, a list representing a plurality of colors attached to the ground map and the plurality of levels and / or divisions corresponding to the plurality of colors for each of the ground maps;
A legend reading means for reading the legend from the legend storage means in accordance with the received instruction data;
The client
Legend display instruction means for instructing legend display;
A legend display means for displaying the legend, and
The client-side transmission means transmits the instruction data including the type of the ground map displayed by the map display means to the server when a legend display instruction is given by the legend display instruction means.
The legend reading means of the server reads the legend corresponding to the type of the ground map included in the instruction data when the instruction data is received,
The server-side transmission means transmits the read legend, and the client-side reception means receives the transmitted legend,
The legend display means of the client displays the received legend when the legend is received,
The server
Level / division color storage means for storing a plurality of colors attached to the ground map in association with the corresponding plurality of levels and / or divisions for each of the ground maps;
In the ground map of the type included in the instruction data, color acquisition means for acquiring a color at a position corresponding to the center coordinates included in the instruction data;
Color comparison means for comparing the acquired color with the color stored in the level / division color storage means;
In accordance with the comparison result by the color comparison means, further comprising a level / section determination means for determining the level or section at a position corresponding to the center coordinates of the ground map,
The server side transmission means transmits the determination result by the level / category determination means, and the client side reception means receives the transmitted determination result,
The ground information providing apparatus , wherein the client further includes a determination result display means for displaying the received determination result . The server
Based on the determination result, further comprising a ground evaluation means for evaluating the ground at a position corresponding to the center coordinates,
The server-side transmission means transmits the evaluation result by the ground evaluation means, and the client-side reception means receives the transmitted evaluation result,
The ground information providing apparatus according to claim 1, wherein the client further includes evaluation result display means for displaying the received evaluation result .

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