JP2019003310A - Construction site image setting program - Google Patents

Abstract

To provide a construction site image setting program for causing a portable terminal comprising a digital camera and a display and/or a computer in an external server connected thereto to function according to the present invention.SOLUTION: A construction site image setting program according to the present invention comprises: scene display means for displaying a scene input from the digital camera on a display; blackboard information setting means for previously setting and recording blackboard information including a construction name, a construction kind and a measurement point; blackboard image display means for displaying a blackboard image, based upon the blackboard information recorded by the blackboard information setting means, on the display over the scene; image recording means for recording an image, having the blackboard image superposed on the scene, as an image file related to the blackboard information; and blackboard information output means for reading in and outputting the blackboard information when a position of a portable terminal determined by a GPS is determined as a measurement point of the blackboard information previously set by the blackboard image display means.SELECTED DRAWING: Figure 7

Description

  The present invention relates to a construction site image setting program that significantly reduces the labor of photography at a construction site and prevents mistakes in the contents of a blackboard at the photography site.

  In general, at construction sites, civil engineering sites, etc., take a picture of the status of each stage of the work, submit a photo ledger with the photo attached to the construction owner, such as a government office, and report the work status of the work. Is required. Therefore, it is necessary to add information such as construction name, type of work, measurement point, date, company name to which construction is performed, and work status (hereinafter referred to as “construction information”) to the photo. He wrote on a blackboard and took the picture on the scene. However, this method requires carrying the blackboard, writing information every time a photo is taken, and there may be no suitable place to stand the blackboard depending on the situation at the site. There was a problem.

  In view of such a problem, Patent Document 1 proposes a digital camera that can take a picture of a construction site obtained by combining blackboard images without using an actual blackboard. Even in this technique, the construction information data cannot be recorded in the photographic data, and automatic distribution cannot be performed, and the process is dependent on manual work at the site. In addition, data integrity is inferior, such as inability to perform immediate backup, or inability to backup data when the memory capacity in the digital camera is insufficient, and thus capacity cannot be secured by deleting data.

  On the other hand, in Patent Document 2 already provided by the applicant, photographs taken are automatically classified based on the contents of the construction information input on the electronic blackboard displayed in the application software installed in the smartphone. A system that can store and operate data via the Internet and can centrally manage and share data in real time is provided.

  Using this system, photos taken with a smartphone app can be recorded while holding the construction information data entered on the electronic blackboard or recalled from the memory, and the photographed photos are automatically stored in a folder in the app using the construction information data. Sorting and organizing eliminates the need for manual photo organization, saving labor. Also, with this system, construction photos are immediately backed up to an external server and sorted and saved, so the photos can be reproduced while being organized, and can be deleted even if the smartphone's memory capacity is insufficient. The maintainability is improved. In addition, this system allows you to view and edit photos that have been backed up on an external server from anywhere, and centrally manage and share photo data taken in real time.

  However, construction site managers often manage multiple construction sites at the same time, and when moving the construction site or station, it is very important to write items such as the construction name and station on the blackboard each time. Labor will be required. In addition, when the electronic blackboard provided in Patent Document 2 is used, it is possible to reduce the burden by registering the construction name in advance, but manual input to change the blackboard content at each measurement point at each construction site is possible. There was a great need for further burden reduction. Also, when managing multiple construction sites at the same time, there was a possibility that the name of the electronic blackboard was changed and only the station was changed to take a photo.

JP 2003-55159 A JP 2014-157596 A

  The present invention has been created in view of the above problems, and the present invention greatly reduces the labor of photography at the construction site, and further, construction site image setting that does not cause mistakes in the blackboard content at the photography site The purpose is to provide a program.

  Specifically, the present invention is a construction site image setting program for causing a portable terminal equipped with a digital camera and a display and / or a computer in an external server connected thereto to function as a landscape input from the digital camera. Landscape display means for displaying an image on a display; blackboard information setting means for presetting and recording blackboard information including at least a construction name and a measurement point; and a blackboard image based on the blackboard information recorded by the blackboard information setting means, Blackboard image display means for displaying on the display overlaid on the landscape image, image recording means for recording an image in a state where the blackboard image is overlaid on the landscape image as an image file associated with blackboard information, The position of the mobile terminal determined by GPS or wireless communication from a specific reference point is a black color set in advance by the blackboard image display means. When it is determined that the measurement point in the information, reads the blackboard information, and a blackboard information output means for outputting.

  According to the present invention, blackboard information to be displayed on an electronic blackboard is set and recorded in advance on an external server (for example, a fixed server or a cloud server) or a mobile terminal (for example, a smartphone), and GPS or specific information is actually recorded at a construction site. The blackboard content corresponding to the point that matches the position detected by the short-range wireless device (for example, BLUETOOTH (registered trademark) as well as ZIGBEE (registered trademark), Wifi, etc.) from the reference point is automatically displayed on the display. By outputting, it is possible to reduce the labor of manually inputting the blackboard contents at each construction site. Furthermore, since the blackboard contents at each measurement site at each construction site are automatically output, it is possible to avoid taking a picture of the wrong blackboard contents at the site.

  The blackboard information preset by the blackboard information setting means includes the construction site range for the construction name, and the construction site range is set by setting a desired range on the map display displayed on the display. It is preferred that

  The construction site range for the construction name in the blackboard information set in advance is set by surrounding the range with a map display on the display. Specific examples will be described later.

  Further, the blackboard information setting means sets one or a plurality of measurement points at predetermined intervals within the construction site range on the map display of the display that displays the set construction site range, and corresponds to each measurement point. It is preferable to set blackboard information.

  One or a plurality of measuring points within the construction site range in the construction name are also set for each predetermined interval (an interval of 20 m in the current rule) on the map display of the display. Specific examples will be described later.

  Further, it is preferable that the blackboard information output means reads and outputs blackboard information corresponding to a nearest measurement point among positions of the mobile terminal determined by GPS or wireless communication from a specific reference point.

  As a result, when the position of a user having a mobile terminal is detected, a nearby station is set, and the corresponding appropriate blackboard information is automatically reflected in the blackboard contents (blackboard image), eliminating the labor burden of manual input. This makes it possible to take photos without any mistakes in the contents of the blackboard.

  Further, when the landscape image input from the digital camera includes shooting position information, the image recording unit is configured such that the blackboard image based on the blackboard information corresponding to the shooting position information is superimposed on the landscape image. Is recorded as an image file associated with the blackboard information, and the blackboard information output means has preset the position of the portable terminal determined by GPS or wireless communication from a specific reference point by the blackboard information setting means. When it is determined that the point is blackboard information, it is preferable to output the blackboard information together with an image file associated therewith.

  A landscape image taken with a digital camera may have position information by GPS or the like. Based on this position information, a blackboard with a construction name and station (including company name, blackboard type, and work type) Information can be automatically associated with landscape images. As a result, it is possible to paste a blackboard image on a large number of landscape images taken at a construction site, and easily output a landscape image with a blackboard image at a station corresponding to the user's position. The work on the construction site can be simplified.

  In addition, when there are multiple measuring points to be set, a line that bisects the angle formed by two adjacent line segments connecting the adjacent measuring points on each measuring point is set as the measuring line. can do. In this example, the direction of an angle that is ½ of the angle formed by the two straight lines connecting the measurement points is automatically set as the line of each measurement point.

  According to the construction site image setting program of the present invention, it is advantageous in that the labor of photography at the construction site is greatly reduced, and further, the mistake of the blackboard contents at the photography site is prevented.

It is a figure which shows the hardware constitutions of the smart phone in which the program concerning embodiment of this invention was installed. It is a figure which shows the flowchart of the photography process by the program concerning embodiment of this invention. It is a figure which shows the imaging | photography screen of the program concerning embodiment of this invention. It is a figure which shows the blackboard edit screen of the program concerning embodiment of this invention. It is a figure which shows the image file image | photographed with the program concerning embodiment of this invention. It is a figure which shows a part of hardware constitutions of the smart phone in which the program concerning embodiment of this invention was installed, and / or an external server. It is a figure which shows the flowchart of the method of setting blackboard information previously by the program concerning embodiment of this invention. It is a figure which shows the display screen display which performs the method of setting blackboard information previously by the program concerning embodiment of this invention. It is a figure following FIG. 8 which shows the display screen display which performs the method of setting blackboard information previously by the program concerning embodiment of this invention. It is a figure following FIG. 9 which shows the display screen display which performs the method which sets the blackboard information previously by the program concerning embodiment of this invention. It is a schematic plan view which shows the measuring point in a construction site. It is a schematic diagram of the display which shows the method of determining a construction site range when setting blackboard information beforehand with a smart phone by the program concerning an embodiment of the present invention. It is a schematic diagram of the display which shows the other method of determining a construction site range, when setting blackboard information previously with a smart phone with the program concerning embodiment of this invention. It is a schematic diagram of a display showing a method for determining a measurement point when blackboard information is set in advance on a smartphone by a program according to an embodiment of the present invention. It is a schematic diagram of a display showing a method for determining a measuring point corresponding to the position of a mobile terminal (user) with a smartphone by a program according to an embodiment of the present invention. It is a schematic diagram of a display showing a method for determining a construction site range when blackboard information is set in advance on a website by a program according to an embodiment of the present invention. FIG. 17 is a schematic diagram of a display subsequent to FIG. 16 showing a method of determining a construction site range when blackboard information is set in advance on a website by a program according to an embodiment of the present invention. In (a) and (b), a method for automatically setting a measuring point is illustrated.

  Embodiments of the present invention will be described below with reference to the drawings. The program of this embodiment is provided as a smartphone application and software on a personal computer terminal synchronized with the application on the Internet, and is downloaded and installed.

  First, a hardware configuration of a smartphone in which a program according to the present embodiment is installed will be described with reference to FIG. A method for storing and managing each blackboard information and image file with an external server connected to a computer or a smartphone will be described later.

  In this case, the smartphone includes a CPU 11, a main storage device (main memory) 12, an external storage device (flash memory) 13, a touch screen 14, a physical key 15, a display 16, a digital camera 17, a GPS module (hereinafter “GPS”). 18 is provided. The CPU 11 controls each unit via the bus P according to each program recorded in the external storage device 13.

  In the external storage device 13, an operating system (OS) 13a, a main program 13b, a blackboard information table 13c, a photo table 13d, a photo ledger table 13e, and a process table table 13f are recorded. Although details will be described later, when an image file, blackboard information, or the like is stored and managed by an external computer or the like, the dotted line area in FIG. 1 is changed.

  The touch screen 14 as an input device is provided on the surface of the display 16, and various operations such as selection, determination, enlargement, reduction, and the like are performed by tapping, dragging, pinching out, pinching in, and the like. The operation can be performed. Further, by pressing the physical key 15, operations such as moving to the home screen and ending the program can be performed.

Next, photography by this program will be described with reference to the flowchart of FIG.
When this program is activated, the digital camera 17 and the GPS 18 of the smartphone are activated. The GPS 18 may be activated in advance by the user before the program is activated. When this program is started, a landscape 31 input from the digital camera 17 as shown in FIG. 3 is displayed on the display 16, and a shooting screen is displayed in which a blackboard image 32 is displayed over the landscape 31 (ST1 to ST1). ST3).

  In the blackboard image 32, the GPS 18 determines the user's point of measurement for the user who owns the smartphone, and the blackboard information table 13c is referred to. In the column of construction name, work type, point of measurement, free area, and construction, Information is displayed (setting of blackboard information will be described later). The blackboard image 32 can be moved by dragging, and the blackboard image 32 can be enlarged and reduced by dragging and moving the four corner points 32a, 32b, 32c, and 32d of the blackboard image 32 with a finger. can do. The blackboard image 32 displayed on the display 16 is not an image file such as JPEG, but a blackboard shape called from the blackboard information table 13c or the main storage device 12 and / or blackboard information in an external server (described later). Since the image is drawn based on the color information, the display on the blackboard image 32 does not deteriorate even if the image is enlarged or reduced. Further, a plurality of types of blackboard shapes, ruled lines, and colors are prepared and can be selected as appropriate.

  In this program, either (1) the blackboard information corresponding to the construction site and / or the measuring point is not in the database, or (2) the blackboard information corresponding to the construction site and / or the measuring point is in the blackboard information table 13c (ST2), and the display mode of the blackboard image 32 differs accordingly. First, (1) a case where blackboard information corresponding to a construction site and / or a measurement point is not set in the blackboard information table 13c in advance will be described. In this case, it is possible to set whether or not to display the last used one as it is.

  As shown in the flowchart of FIG. 2, first, the same information as the previous time is set to be displayed and displayed (ST2 to ST3). When changing the displayed blackboard information, the blackboard image 32 itself or the blackboard edit button 33 displayed at the bottom of the display is tapped on the shooting screen to call a blackboard edit screen as shown in FIG. When inputting blackboard information to be changed, the input boxes 41a, 42a, 43a, 44a, 45a, and 46a for each item are selected by tapping and the text is input (ST4 to ST5). Then, when the completion button 47 is tapped (ST6), the blackboard information is confirmed (ST7), and the screen returns to the shooting screen of FIG. At this time, the newly input information is recorded in the blackboard information table 13c and can be selected and used later. If the “Save blackboard after completion” check box 48 is checked, the entire information on the blackboard is saved as it is (ST7).

  The blackboard information table 13c records frequently used words and phrases that have been input in the past. On the blackboard editing screen, the memory call buttons 41b, 42b, 43b, 45b, 46b at the end of the input box are recorded. When is tapped, a list of each word is displayed, from which information to be displayed on the blackboard can be selected (ST8).

  When the completion button 47 on the blackboard editing screen is tapped, the screen returns to the shooting screen and the blackboard image 32 on which the information selected on the blackboard editing screen is displayed is displayed (ST9). When the photographer determines the landscape 31 to be photographed, adjusts the blackboard image 32 to a desired size and position, and then presses the shutter button 34 (ST10), the blackboard image 32 as shown in FIG. An image file (JPEG file) 51 overlaid is created (ST11).

  In this program, when the shutter button 34 is tapped, an image file 51 is created and a photo table 13d for the image file 51 is created (ST12). The photo table 13 d is used to create the image file 51 by referring to the photo ID and file name automatically given to the image file 51 as well as information held on the main storage device 12. Blackboard information (in other words, the blackboard image 32 displayed in the image), shooting date and time, and the like are recorded.

  When the shutter button 34 is tapped, it is determined whether or not a folder as a storage destination of the image file 51 exists on the external storage device 13 (ST13). If the file 51 is saved (ST14) and does not exist, a folder to be saved is automatically created on the external storage device 13 (ST15), and the image file 51 is saved in the folder (ST14).

  In FIG. 2, the processing order is image file creation (ST11), photo table creation (ST12), and save destination folder creation (ST13). However, the present invention is not limited to this, and for example, Processing may be performed in parallel.

  In the configuration example of the smartphone hardware shown in FIG. 1 described above, the blackboard information held in the main storage device 12 is referred to for the creation of the photo table (ST12) and the determination of the presence / absence of the storage folder (ST13). The external storage device 13 includes a blackboard information table 13c, a photo table 13d, a photo ledger table 13e (described later), and a process table table 13f (described later). These are the external storage device 13 in the smartphone. It is not necessary to prepare in (i) It is provided in an external server or a personal computer, or (ii) It is provided in the external storage device 13 in a smart phone, and may synchronize with an external server etc.

  FIG. 6 is a block diagram showing an alternative example of the dotted area in FIG. In FIG. 1, data is managed only in the smartphone, but in the case of (a), the blackboard information table 19a, the photo table 19b, and the photo ledger table in the external server 19 connected wirelessly from the smartphone such as wifi. 19c, stored and managed in the process chart table 19d, accessing the external server 19 from the personal computer 20 or the smartphone, setting blackboard information or the like as will be described later, or reading the data into the smart phone or the personal computer 20 it can. In the case of (b), the data can be managed in the smartphone as shown in FIG. 2, and at the same time, the data and the data in the external server 19 can be synchronized. Therefore, data can be smoothly reflected even in a construction site where the communication environment is not good.

  Next, in this program described above, when it is determined that the blackboard information corresponding to the measurement point is preset in the blackboard information table 13c as the display of the blackboard image 32 displayed at the time of startup, and the blackboard information is read (ST2 to ST16) will be described with reference to FIG. In the case of (1), the description has been made on the assumption of the hardware configuration of FIG. 1, but in the case of (2) below, the description will be made with the hardware configuration of FIG. 6 (b).

  When the program is activated as described above, the digital camera 17 and the GPS 18 of the smartphone are activated, and the landscape 31 input from the digital camera 17 is displayed on the display 16 as shown in FIG. 3 (ST1). At this time, if the blackboard information corresponding to the construction site and / or the measurement point of (1) is not in the blackboard information table 19a, the blackboard image 32 based on the blackboard image 32 previously created or the newly entered blackboard information. Are superimposed on the landscape 31 (ST3 to ST6), but when the blackboard information corresponding to the construction site and / or the measurement point of (2) is in the blackboard information table 19a, different processing is performed.

  First, the GPS 18 determines a user position at which the smartphone is held, and if the user determines that the user is positioned at the construction site and / or the station, the blackboard information table 19a in the external storage device 13 or the external server 19 is used. Referring to the blackboard information set in advance, the respective information corresponding to the measurement point of the user position is displayed in the columns of construction name, type of work, measurement point, free area, and construction (ST16). Here, a method of setting blackboard information in the blackboard information table 19a in advance and determination of a user position measurement point will be described.

  The blackboard information is set in advance by: (a) a method of setting with an application in the smartphone; and (b) a management screen of a dedicated application installed on a personal computer connected to the external server 19 or a web browser. A method of setting from the management screen can be considered. First, as shown in the flowchart of FIG. 7 and the screen display of the smartphone display 16 shown in FIGS. 8 to 10, in the method of setting in the application in the smartphone in (a), the menu screen 50 in the application (FIG. 8A). (Refer to FIG. 8B) is started by tapping the construction site setting 51 from each column to activate the construction site range setting screen 52 (see FIG. 8B) (ST3). In the construction site range setting screen 52, the map display 53 at the user position is performed by the GPS 18 and the general-purpose map application, or the address that the user wants to display is input and displayed by the general-purpose map application. The vicinity of the construction site is displayed on the map display 53, and the user sets the construction site range (ST4).

  FIGS. 12A to 12D and FIGS. 13A to 13C illustrate the method for determining the construction site range (shaded area in FIG. 8B). Specifically, as shown in FIGS. 12 (a) and 8 (b), a map display 53 of the user's position is displayed with the GPS 18, and the map display 53 is enlarged, reduced, and adjusted to a pointer to a desired position. 55 is moved, the button 54 is tapped to set a plurality of points 56, and the enclosed range is set as a construction site (ST4). For example, in FIG. 12A, the pointer 55 is moved in order and set as points 56a, 56b, 56c,... And surrounded by 12 points to generate a construction site (shaded area).

  Next, the method of FIGS. 12B and 12D will be exemplified. In this case, the map 18 of the user's position is displayed by the GPS 18, and the construction site range 57 is set by tracing with the finger on the map display 53 (ST4). In addition, when setting on the web page mentioned later, it sets by tracing with the mouse pointer (not shown) on the map display 53. FIG. In the case of the example of FIG. 12C, the map 18 of the user's position is displayed with the GPS 18, and a straight line from the starting point 58 on the map display 53 to the end point 58 is dragged diagonally with a finger. A rectangular area (diagonal area) as a diagonal line is set as a construction site range (ST4). For example, the construction site range is set by dragging from the start point 58a to the end point 58b.

  In the case of the method of FIG. 13A, for example, a map display 53 is performed from an address input of a construction site using a search function of a map application, and a predetermined centering on a pointer 55 of an address position on the map display 53 is used. A range surrounding the radius αm (shaded area 60) is displayed as a construction site range. If necessary, the user adjusts the position of the pointer 55 and sets it as a desired construction site range (ST4). In the case of the method of FIG. 13B, the map 18 of the user's position is displayed by the GPS 18, and a predetermined radius αm centered on the pointer 55 of the user's position is enclosed as in the method of FIG. 13A. The range (shaded area 63) is displayed as the construction site range, and if necessary, the position is adjusted and set as the desired construction site range (ST4). Further, in the case of the method of FIG. 13C, the user carries a smartphone at the actual construction site, and the GPS 18 displays the user's position on the pointer 55 on the map display 53, and taps the decision button 65 to select a plurality of items. Point 64 is set, and the enclosed range is set as a construction site (ST4). For example, in FIG. 13C, the pointer 64 is sequentially moved to set the points 64a, 64b, 64c, and 64d in order, and a construction site range (shaded area) surrounded by four points is generated.

  When the user confirms the set construction site range (ST5), the blackboard information input screen 66 shown in FIG. 9A is activated, and the blackboard information input screen displays the construction name, contractor name, and blackboard type in the construction site range. Each button 67 on 66 is tapped to input and set each (ST6). The guide sentence in FIG. 9A illustrates a blackboard information input screen 66 by the method in FIG. When the blackboard information in the construction site range is input and set, the station determination screen 68 in FIG. 9B is activated and the map screen is displayed again (ST7). The already set construction site range (shaded area) is displayed on the map display 53, and the candidate stations are displayed and set within this range (ST8). Here, the “measurement point” is a management point No. provided at a predetermined interval (for example, every 20 m) in the construction site range as shown in FIG. 0, No. 1, no. 2, no. 3, no. 4... Each time a picture is taken together with the landscape at each management point, the display on the blackboard is rewritten to the corresponding station name (No. 0, No. 1 etc.). This “station” is set on the station determination screen 68 in FIG. 9B.

  In FIG. 9B, three line segments connecting the two points 69 and 70 in the construction site range are the station Nos. 3 to 3 respectively. A state of setting as 5 is displayed. A specific measuring point setting method (when the construction site is linear) will be described with reference to FIG. In FIG. 14A, the starting point 69 and the ending point 70 are tapped on the map display 53, and the line segment between the two points is set to the station number. A method of setting as 3 is shown. In the method of FIG. 14B, in the case of a smartphone, the start point 69 is set by tapping, and when the finger is traced and released, the released position becomes the end point 70 and the line segment between the two points is measured. Point No. Set as 3 lines. When a plurality of station lines are set as shown in FIG. 9B, the station line closest to the user's position is determined as the current station. When setting on the website described later, click the mouse cursor to one point to set the start point 69, drag the mouse clicked as it is, and release the mouse to become the end point 70, Station No. 3 is set. Further, in the case of FIG. 14C, the center point 69 is set at a desired position on the map display 53, and a range within 10 m radius from the center point 71 is set to the station number. Set to 3. Alternatively, the position of the user is displayed / set as the center point 69 on the map display 31 via the GPS 18, and a range within 10 m radius from the center point 71 is set as the station number. Set to 3.

Based on FIGS. 18 (a) and 18 (b), a description will be given of a method for determining a station when a station is set in a curved construction site range. When measuring points are set as shown in FIG. 18 (a), as shown in FIG. 18 (b), among the setting lines connecting the respective measuring points 76-1 to 76-8, between adjacent setting lines. A line in an angular direction that is ½ of the angle is set on each of the measurement points 76-1 to 76-8. The set line is the line number of each of the measuring points 76-1 to 76-8. 1-No. 8 is set. For example, 1/2 of the angle α formed by the line segment between the station 76-1 and the station 76-2 and the line segment between the station 76-2 and the station 76-3 is the station line No. . 2 is set. Normal lines are set for the measurement points 76-1 and 76-8 at both ends where adjacent setting lines cannot be generated. The measurement line No. closest to the user located within the construction site range (shaded area) is shown. 1-No. Eight measuring points are determined as the current measuring points 71-1 to 76-8.
For the determination of the station where the user is located, refer to the description of FIGS. 15A and 15B described later.

  Returning to FIG. 9B and FIG. 7 again. As described above, each station is set (ST8). When a plurality of stations are set by repeating this, a confirmation screen 72 is displayed as shown in FIG. Are determined, and blackboard information for each station is set (ST8). In this case, the confirmation screen 72 may be displayed for each measurement point, and the blackboard information may be set in the blackboard information table 13c. Then, the set blackboard information is added to and displayed on the construction site setting list 74 as shown in FIG. When another construction site is set (ST11), ST2 to ST11 of FIG. 7 described above are repeated for each site. In this construction site setting list 74, an unnecessary construction name can be deleted, or a desired construction name already set can be tapped and edited.

  Next, a case where the external server 19 is accessed from the personal computer 20 and a measurement point is set in the blackboard information table 19a in advance on the website screen (my page screen of the website) on the display of the personal computer 20 will be described. 16 to 17 exemplify a method for setting a measurement point on a website screen. In addition, here, it demonstrates, referring the measurement point setting in the smart phone mentioned above. The last two digits of the reference numbers in FIGS. 16 to 17 that are the same as the reference numbers in FIGS. 8 to 10 have the same function, and if the functions and setting methods are the same, refer to the above description. The description is omitted.

  First, as shown in FIG. 16A, the My Page of the website is activated by a dedicated application or web browser installed in the personal computer 20, and the menu screen 150 is displayed (ST1). When the construction name setting button 151 on the menu screen 150 is clicked, the construction site range setting screen 152 is activated in the right column of My Page, and the map display 153 (see FIG. 16B) of the construction site is performed, and the user Operates the mouse to set the construction site range (ST4). At the same time, the blackboard information input screen 166 is activated in the left column of the site range setting screen 152, and the construction name, the contractor name, and the blackboard type in the construction site range set in the right column are displayed on the blackboard information input screen 166. Tap the buttons to input and set each (ST6).

  As for the method for determining the construction site range, as shown in FIG. 12A, a range surrounded by clicking a plurality of pointers 156 with a mouse on the map display 153 is set as a construction site range (shaded area). For other method examples, refer to FIGS. 12B, 12C, and 13A. When the blackboard information on the blackboard information input screen 166 (left column) for the construction site range on the construction site range setting screen 152 (right column) is input and set, the station determination screen 168 shown in FIG. The candidate stations are displayed within the construction site range, and the stations are set (ST7 to ST8). For example, as shown in FIG. 14 (a), a start point 69 and an end point 70 are clicked with the mouse within the construction site range, and a line segment between the two points is set as a measurement point. Refer to FIGS. 14B and 14C for other example techniques.

  When each station is set (ST8) and a plurality of stations are set by repeating this, a confirmation screen 172 is displayed as shown in FIG. 17B, and when a confirmation button 173 is clicked, a plurality of stations are displayed. The blackboard information is set in the blackboard information table 19a for each measurement point (ST8) and added to the construction site setting list 174 as shown in FIG. And these information is recorded on the external server 19, and the information input with the personal computer 20 is reflected in the application started with a smart phone by synchronizing with a smart phone.

  Next, a blackboard information output method at the user position detected by the GPS 18 will be described. When taking a picture of a construction site at a predetermined construction site range (construction name), it is necessary to output blackboard information corresponding to the construction site range. Specifically, for example, in the example of FIG. 3 and no. 4 is closer to the station No. 3 is set and station No. The blackboard information corresponding to 3 is read from the blackboard information tables 13c and 19a, output, and displayed on the blackboard image. Specifically, for example, each station No. 3 and no. The distance 20m between the four points is divided into four, and the station numbers Nos. 1/4, 1/2, and 3/4 are obtained. 3 distances from each other, 1/4 point = station No. 3 + 5m, 1/2 point = station No. 3 + 10 m, position of 3/4 point = station No. 3 + 15 m, and when the user is between the 1/4 point and the 1/2 point, the closest station No. 3 is set. Alternatively, for example, when the user is in the vicinity of a quarter point, “No. 3 + 5 m” may be displayed in the side point column of the blackboard image.

  Further, when there are overlapping ranges in a plurality of construction site ranges as shown in FIG. 15B and the user is in the overlapping range, the blackboard information of the construction name set in advance as a priority is displayed. When the priority is not set, the user can select it each time.

  As mentioned above, although embodiment of this invention was described, this invention is not limited to these embodiment, It can change suitably. For example, in the above-described embodiment, when a blackboard information is output at a measurement point in a predetermined construction site range for the blackboard information output method at the position of the user detected by the GPS 18, blackboard information corresponding to the measurement point is output. Based on this, the blackboard image automatically changes, but it is also possible to manually change the blackboard image. For example, the blackboard image is automatically input according to the position information from the GPS 18 only when the button “automatically input the blackboard contents based on the position information” is pressed on the blackboard information input screen 66 shown in FIG.

  Also, as a method for setting the construction site range, select the blackboard type, enter the construction name and implementer name, and press the shutter button while the blackboard is displayed to set the construction site range. It is also possible to configure. In this case, for example, it is set in advance that, for example, a range of a shooting point radius of 100 m is set as a construction site range.

  Furthermore, as a method for setting a station, a method for setting a station from coordinate information (longitude / latitude) of the station is also possible. Furthermore, it is also possible to set a predetermined range including the measurement point as a construction site range.

  The flowchart of FIG. 2 shows the steps of creating an image file including blackboard information (ST11), creating photo tables 13d and 19b (ST12), and saving the image file (ST14). The photo ledger and the process chart are created from the data stored in the photo ledger tables 13e and 19c and the process chart tables 13f and 19d, and the burden on the operator can be greatly reduced.

13 External storage device 13c Blackboard information table 16 Display 17 Digital camera 18 GPS module (GPS)
19 External server 19a Blackboard information table 20 Personal computer 31 Landscape 32 Blackboard image

Claims (6)

A construction site image setting program for causing a portable terminal having a digital camera and a display and / or a computer in an external server connected thereto to function.
Landscape display means for displaying a landscape image input from a digital camera on a display;
Blackboard information setting means for presetting and recording blackboard information including at least a construction name and a measurement point;
A blackboard image display means for displaying a blackboard image based on the blackboard information recorded by the blackboard information setting means on the display so as to overlap the landscape image;
Image recording means for recording an image file in which the blackboard image is superimposed on the landscape image as an image file associated with blackboard information;
When the position of the mobile terminal determined by GPS or wireless communication from a specific reference point is determined to be a measurement point in the blackboard information preset by the blackboard information setting means, the blackboard information is read and output. And a construction site image setting program.   The blackboard information set in advance by the image blackboard information setting means includes the construction site range for the construction name, and the construction site range is set by setting a desired range on the map display displayed on the display. The construction site image setting program according to claim 1, wherein:   The image blackboard information setting means sets one or a plurality of measurement points at predetermined intervals within the construction site range on the map display of the display that displays the set construction site range, and the blackboard corresponding to each measurement point The construction site image setting program according to claim 2, wherein information is set.   The blackboard information output means reads and outputs blackboard information corresponding to a nearest measurement point among positions of the mobile terminal determined by GPS or wireless communication from a specific reference point. The construction site image setting program described in 3. When shooting position information is included in the landscape image input from the digital camera,
The image recording means records an image in a state where a blackboard image based on blackboard information corresponding to shooting position information is superimposed on a landscape image as an image file associated with blackboard information,
When the blackboard information output means determines that the position of the portable terminal determined by GPS or wireless communication from a specific reference point is a measurement point in the blackboard information preset by the blackboard information setting means, the blackboard information The construction site image setting program according to claim 1, wherein the image file is output together with an image file associated therewith. When a plurality of measurement points are set, a line that bisects an angle formed by two adjacent line segments connecting the adjacent measurement points on each measurement point is set as a measurement line. The construction site image setting program according to claim 3.