JP5823796B2 - Construction photo linkage assistance device, construction photo linkage server, construction photo linkage assistance program, and construction photo linkage program - Google Patents

Description

  The present invention relates to a construction photo cooperation auxiliary device, a construction photo cooperation server, a construction photo cooperation auxiliary program, and a construction photo cooperation program. About.

For example, at the site of construction or construction work or civil engineering work, the construction part is photographed with a digital camera or the like as a construction photograph together with a small blackboard describing the construction part. This construction photo is used to record a series of processes and progress from the start of construction to the construction status and completion, and to prove that it has been done properly. In particular, construction photographs of places that cannot be clearly seen from the outside after the completion of construction, such as the arrangement of reinforcing bars and underground processing, will become important evidence photographs later.
Such construction photos will be taken into a personal computer later and organized. However, since arrangement of a large number of construction photos taken is a huge task, Patent Document 1 proposes a technique for reducing such work. Has been.
In this Patent Document 1, construction photo data of a construction site including an explanatory blackboard photographed using a digital camera is transmitted to a center server, and the server sorts and organizes the construction photos and provides photo explanation information for the construction photos. The work is reduced by performing the input work while looking at the description on the explanatory blackboard enlarged on the display unit.

However, the technique described in Patent Document 1 reduces the work for creating a construction photo album. For this reason, it is not possible to link (associate) a construction photograph to a construction drawing.
For this reason, it has been necessary to manually organize the construction photographs and construction drawings displayed on the screen while visually confirming them. In addition, since the association between the construction drawings and the construction photographs is made only by looking at the photographs at a later date, a high level of knowledge, experience, and time are required to organize and organize the construction drawings.
In addition, it may be difficult for the person in charge of the construction to arrange the construction photographs of the places that cannot be clearly seen at a later date.

JP 2004-094605 A

  It is an object of the present invention to be able to easily organize construction photo data in association with drawing data.

(1) In the first aspect of the invention, on the drawing data display screen, the drawing data acquisition means for acquiring the drawing data from the construction photo cooperation server, the drawing data display means for displaying the acquired drawing data, A designation means for designating a shooting point, a designation date and time at which a photography point is designated by at least the designation means, drawing specification information for specifying the displayed drawing data, and designation position information corresponding to the designated position, Shooting point information creating means for creating shooting point information including: conversion means for converting specific information for specifying the created shooting point information into an identifier; identifier display means for displaying the converted identifier; and the created construction photo characterized by comprising output means for outputting a shooting point information to the construction photo connection server, the To provide a mobile auxiliary equipment.
(2) In the invention according to claim 2, the identifier display means converts the set of the drawing specifying information, the specified position information, and the specified date and time into an identifier as specifying information. 1. Provide the construction photograph cooperation auxiliary device described in 1 .
(3) In the invention described in claim 3, the conversion means converts the specific information into a two-dimensional barcode or color barcode encoded as the identifier . Or the construction photograph cooperation assistance apparatus of Claim 2 is provided.
(4) According to the invention described in claim 4, the drawing storage means for storing the drawing data and the construction photo link according to any one of claims 1, 2 or 3 For the auxiliary device, the output means for outputting the drawing data, the shooting point information acquisition means for acquiring the shooting point information output by the construction photograph cooperation auxiliary device, and the specific information for specifying the shooting point information are converted. Construction photo data acquisition means for acquiring imaging data of the identifier and imaging data of the subject as construction photo data from the imaging device, designated date and time included in each acquired shooting point information, and each acquired construction photo data By providing the above, there is provided a construction photo linkage server characterized by comprising linkage means for linking the construction photo data to the drawing data .
(5) In the invention according to claim 5, the linkage means includes a designated date and time included in each acquired shooting point information, and a specified date and time included in the shooting data of the identifier of each acquired construction photo data. The construction photo linkage server according to claim 4, wherein the construction photo data is linked to the drawing data by taking the above action .
(6) In the invention described in claim 6, the information processing apparatus includes specific information extraction means for extracting specific information by inversely converting an identifier included in the acquired construction photo data, and the cooperation means includes the extracted specific information. 6. The construction photo link according to claim 4 or 5, wherein the construction photo data is linked to the drawing data by taking correspondence between each shooting point information and each construction photo data. Provide a server.
(7) In the invention according to claim 7, on the drawing data acquisition function for acquiring drawing data from the construction photo linkage server, the drawing data display function for displaying the acquired drawing data, and the display screen of the drawing data A designation function for designating a shooting point; at least a designation date and time at which a photography point is designated by the designation function; drawing specification information for specifying the displayed drawing data; and designation position information corresponding to the designated position; A shooting point information creation function for creating shooting point information including: a conversion function for converting specific information for specifying the created shooting point information into an identifier; an identifier display function for displaying the converted identifier; and the created An output function for outputting shooting point information to the construction photo linkage server, and a process for realizing the computer. To provide a photographic cooperation auxiliary program.
(8) In the invention described in claim 8 , the drawing data is stored in the construction photograph cooperation auxiliary device described in claim 1, claim 2, or claim 3. An output function for outputting the drawing data from the drawing storage means, a shooting point information acquisition function for acquiring the shooting point information output by the construction photo cooperation auxiliary device, and an identifier obtained by converting specific information for specifying the shooting point information A construction photo data acquisition function for acquiring the imaging data of the subject and the imaging data of the subject as construction photo data from the imaging device, a designated date and time included in each acquired shooting point information, and each of the acquired construction photo data by taking the corresponding, Hisage construction photograph cooperative program for realizing the linking function of linking the construction photograph data to the drawing data, to the computer To.

  According to the present invention, the construction photo data is converted into the drawing data by the identifier obtained by converting the shooting point information including the drawing specifying information for specifying the drawing data and the specified position information corresponding to the specified position on the drawing data display screen. It can be easily organized in cooperation with

It is a schematic diagram of the construction photograph cooperation system for demonstrating the flow which cooperates a construction photograph with drawing data. It is a block diagram of a construction photograph cooperation server. It is a block diagram of a tablet terminal. It is a flowchart showing the procedure which cooperates construction photograph data with drawing data by the construction photograph cooperation system. It is a state explanatory view in processing which cooperates construction photograph data with drawing data. It is another state explanatory drawing in the process which cooperates construction photograph data with drawing data. It is further another state explanatory drawing in the process which cooperates construction photograph data with drawing data. It is a flowchart showing the 1st matching process in a construction photograph cooperation server. It is a flowchart showing the 2nd matching process. It is state explanatory drawing of each information in a 2nd matching process. It is state explanatory drawing of each information in a 3rd matching process. It is the figure which showed the modification regarding designation | designated of the imaging | photography point in a tablet terminal. It is explanatory drawing about the case where imaging | photography point information is converted into a color barcode. It is explanatory drawing about the modification regarding designation | designated of the imaging | photography point by an operator.

(1) Outline of Embodiment As shown in FIG. 1, the construction photograph cooperation system 1 includes a construction photograph cooperation server 2, a tablet terminal 3 that functions as a construction photograph cooperation auxiliary device, and a digital camera 4 that functions as an imaging device. It consists of and.
The tablet terminal 3 displays the drawing data downloaded from the construction photo linkage server 2, and when a shooting point is designated on the screen by the operator, shooting point information for specifying the shooting point is generated to generate a two-dimensional barcode 352. Is displayed.
In the digital camera 4, the two-dimensional barcode 352 is photographed, and then the actual object (subject) is photographed and the construction photograph data is accumulated.
The construction photo linkage server 2 acquires the shooting point information from the tablet terminal 3 and the construction photo data from the digital camera 4, and places the taken construction photo data at the position (designated position) on the drawing data designated as the shooting point. By automatically linking (linking), construction photos can be easily organized.

  More specifically, an operator who takes a construction photo takes the corresponding construction site drawing data from the construction photo cooperation server 2 into the tablet terminal 3 before going to the construction site ((1) in FIG. 1), Bring the tablet terminal 3 and the digital camera 4 to the construction site. Drawing data can be imported by downloading via communication, copying or reading to a storage medium, or the like.

When the worker displays the design drawing 6E on the display device 35 of the tablet terminal 3 and designates the photographing point on the screen by the pointer 351 displayed on the screen ((2)), the designated photographing is performed. A two-dimensional bar code 352 having information as a point is displayed on the display device 35 ((3)). In the tablet terminal 3, the drawing number (drawing specifying information), the specified position information, and the specified date and time of the design drawing in which the shooting point is specified is stored as shooting point information.
First, the operator photographs the two-dimensional barcode 352 displayed on the display device 35 of the tablet terminal 3 with the digital camera 4 ((4)). Subsequently, the operator takes an image of the real object as a subject with the digital camera 4 from the position corresponding to the position designated on the display device 35 ((5)).
Furthermore, if there is another shooting point including the same drawing and another drawing, the operator repeats the shooting position designation, two-dimensional barcode shooting, two-dimensional barcode display, and real shooting (2) to (5). Construction photo data (Photo01, 02, 03...) Is accumulated.

When all the construction photographs have been taken, the construction photograph cooperation server 2 acquires the accumulated shooting point information from the tablet terminal 3 every time the operator designates the drawing on the drawing ((6)), and the digital camera Work photo data is acquired from 4 (same as (7)).
The construction photo linkage server 2 links the two pieces of data by matching the construction photo data with the shooting point information on the time axis (designated date and time, shooting date and time) of both the acquired data.

  As described above, in the construction photo linkage system 1, by specifying the shooting point on the design drawing displayed on the tablet terminal 3, the information on the shooting point is converted into a two-dimensional barcode and displayed on the screen. By shooting the actual object (subject) as a shooting point after shooting the barcode 352, the design drawing and the construction photo are automatically matched via the shooting point information, so the construction photo can be easily organized. become.

(2) Details of Embodiment FIG. 2 is a diagram showing a configuration of the construction photograph cooperation server 2.
The construction photograph cooperation server 2 includes a CPU 21, a ROM 22, a RAM 23, a communication device 24, a display device 25, an input device 26, a storage device 27, and a clock 28.
The CPU 21 is a central processing unit that performs information processing according to various programs such as the drawing / construction photo cooperation program 271 stored in the storage device 27 and controls each part of the construction photo cooperation server 2.
The ROM 22 is a read-only memory that stores basic programs and parameters for operating the construction photograph cooperation server 2.
The RAM 23 is a readable / writable memory that provides a working memory when the CPU 21 performs a drawing management process or the like.

The communication device 24 is an interface for connecting the construction photograph cooperation server 2 to a network such as the Internet. The communication device 24 may be configured to connect to the construction photograph cooperation server 2 directly using a wireless LAN such as Wi-Fi or WiMAX or via the Internet.
The construction photograph cooperation server 2 transmits drawing data corresponding to a construction site to be photographed to the tablet terminal 3 via the communication device 24, or receives photographing point data accumulated in the tablet terminal 3 from the tablet terminal 3. .
Although not shown in the drawings, the drawing data and the photographing point data are not only exchanged between the construction photograph cooperation server 2 and the tablet terminal 3 via a network but also a semiconductor memory such as a USB memory. For example, writing to and reading from various external storage media may be performed. Further, the drawing data and the photographing point data may be transferred by connecting a communication cable such as a USB cable between the construction photograph cooperation server 2 and the tablet terminal 3.

The display device 25 includes a display device such as a liquid crystal display, for example, and displays a design drawing or the like from the drawing data, or displays a construction photograph linked (linked) to the design drawing.
The input device 26 includes an input device such as a keyboard and a mouse, for example, and receives an operation from an operator.

The storage device 27 is composed of a large-capacity storage medium such as a hard disk, and stores a drawing / construction photo cooperation program 271, a drawing DB (database) 272, a cooperation construction photo data 273, and an operator DB 274.
The drawing / construction photo cooperation program 271 is a program for linking the drawing data and the construction photo.
The drawing DB (database) 272 stores drawing data including design drawings for performing various constructions such as construction, building work, and civil engineering work.
The linked construction photo data 273 stores construction photo data linked to (linked to) the various drawing data stored in the drawing DB 272, various types of information such as designated position information on the design drawing indicating the shooting point, and designated date and time. The
The worker DB 274 stores information for authenticating a worker who operates the tablet terminal 3 and the digital camera 4.

  The clock 28 outputs the date and time. In the present embodiment, the clock 38 (described later) of the tablet terminal 3 is used as the designated date and time when the shooting point is designated on the design drawing display screen. The data may be transmitted to the tablet terminal 3, and the received date and time (server) may be used by the tablet terminal 3 to correct the date and time (tablet) measured by its own clock 38 to be designated date and time.

FIG. 3 is a diagram showing the configuration of the tablet terminal 3.
The tablet terminal 3 includes a CPU 31, a ROM 32, a RAM 33, a communication device 34, a display device 35, an input device 36, a storage device 37, a clock 38, and the like.
Note that the tablet terminal 3 may be another portable terminal as long as the tablet terminal 3 has a configuration such as the CPU 31 and can be carried on the construction site. For example, it is possible to use any of a notebook computer, a mobile phone, a smartphone (multifunctional mobile phone), and the like.

The CPU 31 is a central processing unit that performs information processing according to various programs and controls each unit of the tablet terminal 3.
The ROM 32 is a read-only memory that stores basic programs and parameters for operating the tablet terminal 3.
The RAM 33, for example, displays the drawing data on the screen by the CPU 31, photographs the drawing number being displayed, the position information (designated position information) on the display drawing corresponding to the photographing point designated on the display screen, and the designated date and time. It is a readable / writable memory that provides a working memory when it is temporarily stored as point information.

The communication device 34 is an interface that connects the tablet terminal 3 to a network such as the Internet.
The tablet terminal 3 can receive drawing data of a design drawing corresponding to the construction site from the construction photo cooperation server 2 via the communication device 34, and can transmit shooting point information to the construction photo cooperation server 2. .
As described above, the drawing data and the shooting point data are not only exchanged between the tablet terminal 3 and the construction photograph cooperation server 2 via a network but also various external storages such as a semiconductor memory such as a USB memory. It may be performed by writing to or reading from the medium.

The display device 35 includes, for example, a display device such as a liquid crystal display, and displays a design drawing on the screen from drawing data, and also displays a pointer 351 for specifying a shooting point and a two-dimensional barcode 352 by specifying the shooting point. Or display various images such as operation icons.
The input device 36 includes a touch panel and accepts handwritten input from an operator.
The touch panel and the display screen of the display device 35 are associated with each other by coordinate axes, and position information (designated position information) on the display drawing corresponding to the photographing point designated on the display screen is acquired.
The operator can designate a shooting point or operate the tablet terminal 3 by touching the touch panel with a fingertip or a stylus pen.

The storage device 37 includes, for example, a large-capacity storage medium such as a hard disk or an EEPROM (Electrically Erasable Programmable ROM). The storage device 37 according to the present embodiment displays the design drawing on the screen and corresponds to the designation of the shooting pointer. Drawing display program 371 for displaying the barcode 352, drawing data 372 transmitted by requesting the construction photo linkage server 2, and shooting point information 373 accumulated every time a shooting point is designated on the display screen Etc. are memorized. The drawing display program 371 has a function of encoding (converting) specific information into a two-dimensional barcode. However, the encoding function may be converted into a subroutine or stored as another program. Good.
The clock 38 outputs date and time (year / month / day and time). The date and time output from the clock 38 when the shooting point is specified is stored as the specified date and time of the shooting point information 373.

The configuration of the digital camera 4 is not particularly shown, but it has a still image shooting function, an attribute information storage function for knowing the shooting date and time, and a shooting sequence, and a function of outputting the taken construction photograph data to the outside. If so, various imaging devices such as a mobile phone and a video camera may be used.
Regarding the output function of the construction photo data, when outputting via various external storage media such as a semiconductor memory such as a USB memory, when outputting via a communication cable such as a USB cable connected to the construction photo cooperation server 2, Wi- Any output function, such as direct output using a wireless LAN such as Fi or WiMAX or via the Internet, may be provided.
Although there is no need for a display device, it is preferable that the display device is provided for confirming whether the photographing has succeeded or failed (such as out of focus) and to re-take in the case of failure.
Moreover, although it may be provided about the recognition function of the two-dimensional barcode 352, since recognition is performed by the construction photograph cooperation server 2, it does not need to be provided in particular.
In this embodiment, a commercially available general digital camera 4 is used.

Next, the cooperation process of drawing data and construction photograph data by the construction photograph cooperation system 1 configured as described above will be described.
FIG. 4 is a flowchart for explaining a procedure for linking construction photo data to drawing data by the construction photo linkage system 1. 5-7 is a figure for demonstrating the process in each step of the said process procedure.
The following processing is performed for each tablet terminal 3 by the CPU 31 of the tablet terminal 3 according to the drawing display program, and for the construction photo linkage server 2, the CPU 21 performs by the drawing / construction photo linkage program.

First, an operator who takes a construction photo prepares the tablet terminal 3 and the digital camera 4, and before going to the construction site or at the construction site, drawing data corresponding to the construction site from which the construction photo will be taken will be taken as the construction photo. Obtain from the cooperation server 2.
That is, when the drawing approval program of the tablet terminal 3 is activated, the tablet terminal 3 accesses the construction photo cooperation server 2 via the communication device 34 and receives authentication from the construction photo cooperation server 2. This authentication is performed using the worker's ID information and password, and the construction photo linkage server 2 determines whether the ID information and password transmitted from the tablet terminal 3 match those registered in the worker DB 274. When the authentication is successful and the authentication is successful, the construction photo cooperation server 2 accepts access from the tablet terminal 3.

In this authentication, the terminal ID of the tablet terminal 3 to be used may be used in addition to the ID information and the password.
In this case, the tablet terminal 3 reads the stored terminal ID and transmits it to the construction photograph cooperation server 2 together with ID information and the like. The construction photo cooperation server 2 registers a terminal ID in addition to the worker DB 274, and the authentication is successful only when all of the worker ID information, password, and terminal ID match those already registered.

  When the tablet terminal 3 requests a drawing data (design drawing) corresponding to a construction site to be photographed by designating a drawing file name (drawing number) or the like (step 11), the construction photo cooperation server 2 As shown in the process (1) of FIG. 5, the drawing data of the designated drawing file name is read from the drawing DB 272 and transmitted to the tablet terminal 3 (step 12).

When the drawing data is transmitted from the construction photo cooperation server 2, the tablet terminal 3 stores the received drawing data in the storage device 37 as drawing data 372 (step 13).
Then, the tablet terminal 3 displays the design drawing 6E corresponding to the construction photograph to be photographed from the drawing data 372 on the display device 35 by the screen operation of the worker at the construction site photographing the construction photograph (Step 14, (See FIG. 5).
The operator confirms the display screen of the design drawing 6E and the construction site, and designates the position on the design drawing 6E corresponding to the location photographed by the digital camera 4 as the photographing point with the pointer 351 (Step 15, FIG. Process 5 (2)).

When a shooting point is designated by the pointer 351, the tablet terminal 3 recognizes the designated location (designated position), creates shooting point information, and specifies specific information for identifying the created shooting point information as a two-dimensional barcode. The image is converted (encoded) to 352 and displayed on the display device 35 (step 16, process (3) in FIG. 5).
The shooting point information to be created includes designated date and time (date and time when the shooting point is designated by the pointer 351), drawing number (No) of the design drawing displayed at the time of designation, and designated position information (displayed on the display device 35). (Coordinate coordinates on the screen with respect to the design drawing), and in the drawing / construction photo link processing at a later date, the construction photo is linked (linked) to the specified position on the drawing data by the drawing number and the specified position information. .
On the other hand, the specific information for specifying the shooting point information to be converted into the two-dimensional barcode 352 is any one of the specified date and time, the drawing No. and the specified position information, and the identification number for distinguishing each shooting point information. One or a plurality of combinations may be used, but in the present embodiment, an example will be described in which shooting point information is converted into two-dimensional barcode 352 as specific information. Therefore, unless specifically required, it will be described as specific information = shooting point information, and conversion of shooting point information into a two-dimensional barcode 352 means conversion of specific information.

Here, when displaying the two-dimensional barcode 352, as shown in FIG. 5, the tablet terminal 3 superimposes and displays it on the display screen (design drawing 6E) displayed when the photographing point is designated. . The two-dimensional barcode 352 is displayed at the shooting point (designated position) designated by the pointer 351. When the two-dimensional bar code 352 is displayed at the designated position, when the two-dimensional barcode 352 protrudes from the screen, the display is shifted to a position where it does not protrude.
In this way, by displaying the two-dimensional barcode 352 at the designated photographing point, the relationship between the design drawing 6E and the photographing point can be confirmed on the display device 35 when the operator subsequently takes a construction photograph. preferable.
However, since the necessary information regarding the shooting point is contained in the two-dimensional barcode 352 to be displayed, it is not always necessary to display it at the shooting point. For example, the two-dimensional barcode 352 may be displayed at the center of the screen of the display device 35 from the viewpoint of ease of shooting with the digital camera 4. In this case, the two-dimensional barcode 352 may be overlaid on the design drawing 6E while being displayed. In order to further increase the recognition rate, only the two-dimensional barcode 352 may be displayed at the center of the screen without displaying the design diagram 6E.

  The tablet terminal 3 stores the above-described two-dimensional barcode 352 on the screen and the created shooting point information in the storage device 37 (step 17).

On the other hand, the operator photographs the two-dimensional barcode 352 displayed on the display device 35 with the digital camera 4 (step 18, process (4) in FIG. 6), and continues to photograph the actual object 5 (step). 19. Process (5) in FIG.
Furthermore, when shooting of the construction photo corresponding to the designated shooting point is completed, the operator checks the tablet terminal 3, and if there is another shooting point corresponding to the currently displayed design drawing 6E, the operator operates the screen. The display of the two-dimensional barcode 352 is returned to the pointer 351, and another shooting point is designated.
When another shooting point is designated (step 20; Y), the tablet terminal 3 returns to step 16, and displays the two-dimensional barcode 352 (step 16) and stores and stores shooting point information (step 17). Do.
On the other hand, when the operator designates another shooting point (step 20; Y, step 21; Y), the process returns to step 18, and shooting of the two-dimensional barcode 352 (step 18) and shooting of the actual object (step). 19) is repeated.

When the construction photograph corresponding to the design drawing 6E displayed on the display device 35 has been photographed and there is no other photographing point (step 20; N), the drawing data acquired in step 13 and stored in the drawing data 372 In addition, there is another drawing (design drawing) (step 22; Y), and when display processing of another drawing is instructed by the operator's operation, the tablet terminal 3 (worker) returns to step 14 The selected design drawing is displayed on the display screen, and the subsequent processing is repeated.
Similarly, in the digital camera 4 (operator), when there are other drawings (step 22; Y), it is determined that there is another photographing (step 21), and the displayed two-dimensional barcode 352 is photographed. (Step 18) and photographing of the real object 5 (Step 19) are repeated.
As described above, in the digital camera 4, the construction photo data is sequentially accumulated as shown in FIG. 6 by repeatedly capturing the two-dimensional barcode 352 and the real object 5. The construction photo data includes construction date and time (photo attribute information) and construction photo data stored as “file name Photoxxx.jpg”.
Although it cannot be distinguished on the construction photo data, in the example shown in FIG. 6, Photo01.jpg (hereinafter abbreviated as P01; the same applies to others) is a photographed image of the two-dimensional barcode 352, which follows it. P02 and P03 are actual construction photographs. In this case, shooting is performed twice for the shooting point. P04 is a two-dimensional barcode 352, and P05 following this is a real construction photograph.

If all the construction photographs corresponding to the drawing data acquired from the construction photograph cooperation server 2 have been photographed and there is no other drawing to be displayed (step 22; N), the tablet terminal 3 captures the photographing points stored in the storage device 37. Information 373 is transmitted to the construction photo linkage server 2 (step 23, process (6) in FIG. 7), and the process is terminated.
In this case, since the digital camera 4 can determine that there is no other shooting (step 21; N), the photographed construction photo data is transmitted to the construction photo linkage server 2 (step 24, process (7) in FIG. 7). ), The process is terminated. Note that the transmission of the construction photo data is performed by the function of the digital camera 4. For example, when performing various cable connections such as a USB cable, performing via various semiconductor memories such as a USB memory and an SD card memory, performing via wireless communication and the Internet.

Upon receiving the received shooting point information 373 and construction photo data, the construction photo linkage server 2 performs matching processing between them (step 25, processing (8) in FIG. 7). The matching process is performed by any one of a first matching process to a third matching process described below.
FIG. 8 is a flowchart showing the contents of the first matching process in the construction photo cooperation server 2.
As a premise, as shown in FIG. 7, it is assumed that the received shooting point information is sorted in the order of the specified date and time, and the construction photo data is sorted in the order of the shooting date and time. Shall be sorted when received, and will be acquired in order from the earliest date. Further, in FIG. 7, the symbols “a”, “b”, and “c” are attached to the shooting point information and the construction photo data, respectively, for convenience of explanation, and the tablet terminal 3 and the digital camera 4. It does not constitute shooting point information and construction photo data received from
The same applies to the second and third matching processes described later.

The construction photograph cooperation server 2 acquires two pieces of shooting point information (step 31). In the example of FIG. 7, shooting point information a and b are acquired.
Further, the construction photo cooperation server 2 acquires one piece of construction photo data (step 32). In the example of FIG. 7, construction photo data a is acquired.

Then, the construction photo linkage server 2 compares the designated dates and times t1 and t2 of the two shooting point information with the shooting date and time t3 of the construction photo data (step 33).
In the example of FIG. 7, on the date t1 (= 2011/07/14 / 15:20:45) of the previous shooting point information a, specifies the next photographing point information b date t2 (= 2011/07/14 /15 : 27: 00 ) and the shooting date and time t3 (= 2011/07/14/15 : 21: 50 ) of the construction photo data a are compared.

When the shooting date and time t3 is between the specified dates and times t1 and t2 (step 34; Y), the construction photo linkage server 2 links (links) the construction photo data to the shooting point information with the specified date and time and stores them. It is stored in the linked construction photo data 273 of the device 27 (step 35).
In the example of FIG. 7, the shooting date and time t3 of the construction photo data a, b, and c are between both the specified dates and times t1 and t2, so the construction photo data a, b, Link c. In this case, the construction photograph data a first linked to the photographing point information corresponds to a photograph obtained by photographing the two-dimensional barcode 352, and the construction photograph data b and c linked thereafter are photographed for the actual object 5. It corresponds to the photograph.
Thereafter, the construction photo linkage server 2 determines whether or not there is the next construction photo data (step 36). If there is (step 36; Y), the construction photo linkage server 2 returns to step 32 to perform the construction. Acquire and link photo data.

In FIG. 7, as shown in the linked construction photo data 273, not all construction photo data is linked to the shooting point information (designated date, drawing No, designated position information), but the file name (Photo01.jpg). Etc.), but all construction photo data may be linked.
Further, the image data itself of the file name (Photo01.jpg, etc.) may be taken in as the contents of the shooting point information, or all construction photo data including the shooting date and time may be taken into the shooting point information. (same as below).
Further, in FIG. 7, the case where the photograph of the two-dimensional barcode 352 (Photo01.jpg, Photo04.jpg, etc.) is also stored in the linked construction photograph data 273 is displayed, but the photograph of the two-dimensional barcode 352 is to be stored. It may be outside. In this case, step 37 to be described later is not necessary, and the determination of step 38 is performed following step 34; N.

On the other hand, when the shooting date / time t3 is not between the specified date / time t1 and t2 (step 34; N), the construction photo linkage server 2 links the construction photo data to the shooting point information with the specified date / time later. The linked construction photo data 273 is stored (step 37).
In the example of FIG. 7, since the shooting date / time t3 of the construction photo data d is not between the specified date / time t1, t2 of the shooting point information a, b, the construction photo data d is linked to the subsequent shooting point information b. In this way, the construction photo data to be linked to the subsequent shooting point information in step 37 is a photo of the two-dimensional barcode 352.

  In this embodiment, the construction photo data is linked to the shooting point information with the specified date and time on the condition that the shooting date and time t3 is not between the specified dates and times t1 and t2. You may make it do. In other words, the construction photo linkage server 2 can perform two-dimensional barcode decoding (reverse conversion) processing on the construction photo data to recognize the shooting point information, and the recognized shooting point information is designated. When the date coincides with later shooting point information, the construction photo data may be linked.

When the construction photo data is linked to later shooting point information, the construction photo linkage server 2 determines whether or not there is next shooting point information (step 38).
When there is the next shooting point information (step 38; Y), the construction photo linkage server 2 acquires the next shooting point information and changes the shooting point information to be compared (step 39).
In the example of FIG. 7, when the construction photo data d is linked to the subsequent shooting point information b among the shooting point information a and b, the next shooting point information c is acquired, and the comparison target is the shooting point information a, b is changed to shooting point information b and c. As a result, for the designated dates and times t1 and t2, the designated date and time of the shooting point information b after the change is changed to t1, and the designated date and time of the shooting point information c is changed to t2.

After changing the shooting point information to be compared (step 39), the construction photo cooperation server 2 proceeds to step 36 and determines whether there is next construction photo data.
When there is no next construction photo data (step 36; Y), this is when the shooting point is designated on the tablet terminal 3, but the work is finished without shooting the two-dimensional barcode 352 and the corresponding real object 5. In this case, since all of the photographed construction photo data has been stored in the linked construction photo data 273 by the link, the process returns to the main routine.
On the other hand, if there is the next construction photo data (step 36; Y), the construction photo linkage server 2 returns to step 32 and determines the link destination of the next construction photo data and stores it by the link.

In step 38, when there is no next shooting point information (step 38; N), the construction photo linkage server 2 links all the remaining construction photo data to the subsequent shooting point information and saves them in the linked construction photo data 273. (Step 40), the process returns to the main routine.
With the above processing, as shown in processing (8) in FIG. 7, the link between the shooting point information and the construction photo data is completed, and the linked construction photo data 273 is stored in the storage device 27.
With this linked construction photo data 273, the drawing data (each design drawing) and each construction photo data (or the file name of the construction photo) are linked (linked) via the drawing No. and the designated position information. .

Therefore, when drawing data (design drawing) is displayed on the display device, a construction photo icon indicating that the construction photo data is linked is displayed at a position on the display screen designated by the designated position information. Good.
When the construction photo icon is clicked (selected), the construction photo data linked to the construction photo icon is read and displayed on the screen.
The display of the construction photo icon on the drawing data and the display processing of the linked construction photo data are not only performed by the construction photo linkage server 2 but also in a terminal device such as a personal computer or a tablet terminal. It can be carried out. In this case, in addition to the drawing data requested from the terminal device, the construction photo linkage server 2 also transmits linked construction photo data linked to the drawing data.
In the construction photo linkage server 2 and the terminal device, the drawing data is displayed, and the construction photo icon is displayed overlaid from the drawing number and the specified position information of the linkage construction photo data, and the construction photo icon is selected. In some cases, a drawing and construction photo display program for displaying linked construction photo data is provided.

Next, the second matching process will be described with reference to the flowchart of FIG. 9 and the state explanatory diagram of each information of FIG.
In the first matching process, the case where the shooting point information and the construction photo data are linked from the relationship between the designated dates and times t1 and t2 and the shooting date and time t3 has been described.
On the other hand, in the second matching process, the entire construction photo data is decoded to recognize the two-dimensional barcode 352 and extract the specified date and time, and the shooting point information having the specified date and time that matches the extracted specified date and time. To be linked to.

In the case of the first matching process, since the matching is performed by comparing the designated dates and times t1 and t2 received from the tablet terminal 3 with the shooting date and time t3 of the construction photo data, the clock 38 of the tablet terminal 3 and the digital camera 4 If the clock for acquiring the shooting date / time is greatly deviated, a matching error will occur.
On the other hand, in the second matching process, since the specified date and time extracted by recognizing the two-dimensional barcode 352 is compared with the specified date and time of the shooting point information, the clock of the tablet terminal 3 and the digital camera 4 are compared. Even if the clock is greatly deviated, the matching process can be performed accurately. For each construction photo data, the shooting time is recorded in the order of shooting regardless of the deviation of the clock of the digital camera 4 (even if the absolute date and time are off, they are recorded correctly in the order of shooting). Therefore, it is possible to accurately link the construction photo data that could not be recognized.
The same applies to the third matching process described later.

The construction photo cooperation server 2 acquires one construction photo data in the order of the shooting time axis from the construction photo data obtained from the digital camera 4 (step 41), decodes the construction photo data, and generates a two-dimensional barcode 352. Recognize (step 42).
When the construction photo linkage server 2 succeeds in recognizing the two-dimensional barcode 352 (step 43; Y), the designated date and time are extracted from the recognized information (step 44, extraction of process (8-1) in FIG. 10). .
Furthermore, the construction photo linkage server 2 specifies shooting point information having a specified date and time that matches the extracted specified date and time by matching the extracted specified date and time with the specified date and time of the shooting point information (step 45, processing in FIG. 10). 8-2) Matching).
Then, the construction photo link server 2 links the construction photo data (actually the photo of the two-dimensional barcode 352) that has been successfully recognized to the matching (identified) shooting point information (step 46).

The construction photo linking server 2 determines whether or not there is the next (not yet recognized) construction photo data (step 47). If there is (step 47; Y), the process returns to step 41 and the next construction is performed. Photo data is acquired and the two-dimensional barcode 352 is recognized (step 42).
If the recognition of the two-dimensional barcode 352 fails (step 43; N), the construction photo data is linked to the same shooting point information as the construction photo data that has been recognized immediately before (step 48). Migrate to
When there is no next construction photo data, that is, when the link processing for all construction photo data is completed (step 47; N), the construction photo cooperation server 2 returns to the main routine.
With the above processing, as shown in processing (8) in FIG. 10, the link between the shooting point information and the construction photo data is completed, and the linked construction photo data 273 is stored in the storage device 27.

In the second matching process described above, the specified date and time are extracted from the two-dimensional barcode 352, but other information may be used as long as the information can identify the correspondence with the shooting point information. For example, a set of drawing No. and designated position information may be extracted and matched with shooting point information.
In the tablet terminal 3, the specific information for specifying the shooting point information is set as shooting point information, and the designated date and time, the drawing No., and the designated position information are all converted into the two-dimensional barcode 352. In the case of the process and the above-described modification, it is sufficient that only information that can specify any one of the shooting point information is converted into a two-dimensional barcode as the specifying information. For example, only the specified date and time and only the combination of the drawing No. and the specified position information may be converted into the two-dimensional barcode 352 as the specific information.
Further, the photographing point information including the distinguishing information for distinguishing each photographing point information, for example, a, b, c... Shown in FIGS. You may make it convert into 352. In this case, in the matching processing (drawing / construction photo cooperation processing) in the construction photo linkage server 2, the discrimination information recognized by decoding the construction photo data is compared with the discrimination information of the shooting point information, thereby corresponding shooting point information. Identify and link.

Next, the third matching process will be described.
In the first and second matching processes, the case where the shooting point information received from the tablet terminal 3 is matched with the construction photo data received from the digital camera 4 has been described.
On the other hand, in the third matching process, the construction photo data is matched by extracting the photography point information from the construction photo data received from the digital camera 4 without receiving the photography point information from the tablet terminal 3. Is.
When the third matching process is employed, all of the shooting point information (designated date, drawing No, designated position information) is converted into a two-dimensional barcode 352.

FIG. 11 is a diagram showing the state of each information in the third matching process.
As shown in FIG. 11, the construction photo cooperation server 2 acquires construction photo data one by one and recognizes the two-dimensional barcode 352 in the same manner as steps 41 and 42 in the second matching process.
When the two-dimensional barcode 352 can be recognized, the construction photo linkage server 2 extracts all of the shooting point information (designated date, drawing No, designated position information) (processing (8-1) extraction in FIG. 11). ).
On the other hand, when the two-dimensional barcode 352 cannot be recognized, the construction photograph cooperation server 2 links to the shooting point information extracted by the previous successful recognition.
By performing the above processing on all construction photo data, as shown in processing (8) in FIG. 11, the link between the shooting point information and the construction photo data is completed, and the linked construction photo data 273 is stored in the storage device 27. Saved in.
When the third matching process is employed, the process of saving the shooting point information in the storage device 37 (step 17 in FIG. 4) in the tablet terminal 3 and the shooting point information 373 are transmitted to the construction photo cooperation server 2. The process (step 23) is not necessary.

Next, a modification example regarding the designation of the shooting point in the tablet terminal 3 will be described with reference to FIG.
In the described embodiment, the position on the drawing data (design drawing) being displayed is designated position information by designating a shooting point with the pointer 351. In this case, the designated position information is not determined for the shooting direction, and is the direction of the design drawing (for example, the design drawing 6E) displayed on the screen.
On the other hand, in the present modification, the relationship between the drawing data and the construction photo data can be defined in more detail by adding the shooting direction to the shooting point information in addition to the shooting position information.

That is, as shown in FIG. 12A, when a shooting point is designated on the screen by the pointer 351 or when the touch panel is pressed for a long time at the shooting point, the tablet terminal 3 is as shown in FIG. Then, eight direction designation arrows 353 for selecting the photographing direction are displayed at the designated positions.
The operator can determine the shooting direction by selecting one of the eight displayed direction designation arrows 353.
When any one of the direction designation arrows 353 is selected, the tablet terminal 3 displays a two-dimensional barcode 352 corresponding to the shooting point in an overlapping manner as shown in FIG.
Further, the tablet terminal 3 accumulates the selected shooting direction in the shooting point information 373 as shooting direction information in addition to the specified date and time, the drawing No., and the specified position information. As the shooting direction information, in accordance with the direction designation arrow 353 in FIG. 12B, clockwise, 0 degrees (upward on the screen), 45 degrees, 90 degrees (rightward on the screen), 135 degrees, 180 degrees (screen) Any of 225 degrees, 270 degrees (left direction of the screen), and 315 degrees is accumulated in the shooting point information 373. However, instead of accumulating the actual angle as the shooting direction information, information indicating which one of the eight directions shown in FIG. 12B has been selected (for example, clockwise on the screen as A) B, C,... H) may be stored in the shooting point information 373 as shooting direction information.
Note that the conversion (encoding) to the two-dimensional barcode 352 may be performed on all of the shooting point information including the shooting direction information, and a part of the conversion is performed as described in the modification in the second matching process. In the case of a target, a set of drawing No, designated position information, and shooting direction is set as a conversion target.

In addition to specifying the shooting direction by displaying and selecting the direction specifying arrow 353 on the screen, the direction may be specified by specifying two points as a further modification to this modification. In this case, the tablet terminal 3 uses the position of the first designated point as the designated position information, and obtains an angle when the on-screen direction is 0 degree corresponding to the direction from the first designated point to the next designated point. Let it be direction information.
Also, the tablet terminal 3 may obtain the angle when the screen upper direction is 0 degree from the direction in which the pointer 351 is dragged (moved on the screen) from the shooting point designated by the pointer 351, and may obtain the shooting direction information. .
In this case, since an arbitrary direction can be specified, the tablet terminal 3 accumulates the actually calculated angle in the shooting point information 373 as shooting information, not information corresponding to the direction.

Next, a modified example in the case where the shooting point information is converted into a code in the tablet terminal 3 will be described.
In the embodiment and the modification described above, shooting point information is created from the shooting point specified as information for linking the construction photo data to the drawing data in the tablet terminal 3, and this is converted into a two-dimensional barcode 352. Explained the case.
On the other hand, depending on the amount of shooting point information desired to be acquired by the digital camera 4 by shooting, for example, it may be coded by another expression method such as a one-dimensional barcode.

FIG. 13 is an explanatory diagram in the case where a color barcode (chameleon code) is used as another method for encoding shooting point information.
When the shooting point is designated by the pointer 351 on the screen displaying the design drawing (see FIG. 12A), the tablet terminal 3 has the same shooting point information as described above. , And necessary shooting point information is converted into a color barcode and displayed on the entire display screen of the display device 35 as shown in FIG.
This color barcode is formed by arranging each color element of light blue, purple, yellow, green, red, blue, orange, etc. in a two-dimensional color arrangement. In the example of FIG. Are arranged in 4 rows and 8 columns, and combinations of about 15 Kyo 94 trillion patterns are possible.
In the case of this color barcode, unlike the case of the two-dimensional barcode 352, for example, an image of 1.9 million pixels can be authenticated if the code is included in a size of about 0.1%.
Therefore, the operator places the tablet terminal 3 on which the color barcode is displayed on the entire display device 35 at the shooting location of the actual object 5 as in the conventional case where the actual object as a subject is photographed together with the small blackboard. Take a picture together.
FIG. 13B shows a photographed image (construction photo data) obtained by copying the tablet terminal 3 together with the actual object 5. The actual image 500 of the actual object 5 and the color barcode image 300 of the tablet terminal 3 are displayed together. It is copied.

In this way, by including the color barcode image 300 in the photographed image, the construction photograph data including the photographing point information can be obtained.
Accordingly, in the case of the described embodiment or modification, at least two shootings (two-dimensional barcode 352 and construction photo data) are required for one shooting point, but the color barcode is copied together. As a result, since one shooting is completed for one shooting point, the shooting operation can be made more efficient.
When a color barcode is used, what is to be converted into a color barcode as specific information and what is to be subjected to matching processing in the shooting point information is the same as in the above-described case of the two-dimensional barcode 352. can do.

Next, a modified example relating to the designation of the shooting point by the operator will be described with reference to FIG.
In the described embodiment and each modified example, the case where the design drawing is displayed on the display device 35 of the tablet terminal 3 and the operator designates the shooting point on the display screen has been described.
In this modification, the tablet terminal 3 does not specify the shooting point, but the tablet terminal 3 uses the shooting point information in which the shooting position and the shooting direction are specified in advance together with the drawing data or the drawing data using the shooting point information as attribute information. Is acquired from the construction photo linkage server 2.
Then, as shown in FIG. 14, the tablet terminal 3 displays a shooting point icon 355 indicated by an arrow on the display device 35 together with the design drawing 2A.

The operator selects a shooting point icon 355 corresponding to the displayed shooting point, and the tablet terminal 3 converts shooting point information corresponding to the selected shooting point icon 355 into a two-dimensional barcode 352 or a color barcode. .
Here, among the shooting point information, the drawing No., shooting position information, and shooting direction are acquired from the construction photo linkage server 2, so the date and time when the shooting point icon 355 is selected is added and stored as the specified date and time. The construction photograph cooperation server 2 converts all or a part of the shooting point information into a color barcode.
Note that, as shown by the selected shooting point icon 356 (see FIG. 14), the tablet terminal 3 changes the color or changes the density (lightens the selected one) with the unselected shooting point icon 355. To make it identifiable. Note that the selected shooting point icon 356 cannot be selected again, but there may be a case where it is desired to shoot again, so that it is displayed that it has been selected but can be selected again. Also good.

1 Construction photo linkage system 2 Construction photo linkage server 21 CPU
22 ROM
23 RAM
24 Communication Device 25 Display Device 26 Input Device 27 Storage Device 271 Drawing / Construction Photo Linkage Program 272 Drawing DB
273 Cooperative construction photo data 274 Worker DB
28 Clock 3 Tablet terminal (construction photo cooperation auxiliary device)
31 CPU
32 ROM
33 RAM
34 Communication device 35 Display device 351 Pointer 352 Two-dimensional barcode 355 Shooting point icon (unselected)
356 Shooting point icon (selected)
36 Input device 37 Storage device 38 Clock 4 Digital camera (imaging device)

Claims (8)

Drawing data acquisition means for acquiring drawing data from the construction photo link server;
Drawing data display means for displaying the acquired drawing data;
On the drawing data display screen, designation means for designating a shooting point;
A shooting point for creating shooting point information including at least a specified date and time when a shooting point is specified by the specifying means, drawing specifying information for specifying the displayed drawing data, and specified position information corresponding to the specified position Information creation means;
Conversion means for converting specific information for specifying the created shooting point information into an identifier;
Identifier display means for displaying the converted identifier;
Output means for outputting the created shooting point information to the construction photo linkage server;
A construction photo cooperation auxiliary device characterized by comprising: The identifier display means converts the pair of the drawing specifying information, the specified position information, and the specified date and time into an identifier as specific information.
The construction photograph cooperation assisting apparatus according to claim 1, wherein: The conversion means converts the specific information into a two-dimensional barcode encoded as the identifier or a color barcode.
The construction photograph cooperation auxiliary device according to claim 1 or claim 2, wherein Drawing storage means for storing drawing data;
Output means for outputting the drawing data to the construction photo cooperation auxiliary device according to claim 1 , claim 2, or claim 3 ,
Shooting point information acquisition means for acquiring shooting point information output by the construction photo cooperation auxiliary device;
Construction photo data acquisition means for acquiring imaging data of an identifier obtained by converting specific information for specifying the shooting point information and imaging data of a subject as construction photo data; and included in each acquired shooting point information Linking means for linking the construction photo data to the drawing data by taking correspondence between the designated date and time and each acquired construction photo data;
A construction photo linkage server characterized by comprising: The cooperation means takes the correspondence between the designated date and time included in the acquired shooting point information and the specified date and time included in the shooting data of the identifier of the acquired construction photo data, to the drawing data. Link photo data,
The construction photograph linkage server according to claim 4 . Specific information extracting means for extracting specific information by reversely converting the identifier included in the acquired construction photo data;
The linkage means links the construction photo data to the drawing data by taking a correspondence between each shooting point information and each construction photo data according to the extracted specific information.
The construction photograph cooperation server according to claim 4 or claim 5 , wherein A drawing data acquisition function for acquiring drawing data from the construction photo link server;
A drawing data display function for displaying the acquired drawing data;
On the display screen of the drawing data, a designation function for designating a shooting point;
And at least the specified date and time the function specified in the photographic point is designated, photographic point of creating a photographic point information including the drawing identification information identifying the drawing data to which the display was, and the designated position information corresponding to the specified position Information creation function,
A conversion function for converting specific information for identifying the created shooting point information into an identifier;
An identifier display function for displaying the converted identifier;
An output function for outputting the created shooting point information to the construction photo linkage server;
Construction photo cooperation assistance program to make computer realize. Output for outputting the drawing data from drawing storage means for storing drawing data to the construction photo cooperation auxiliary device according to claim 1 , claim 2, or claim 3. Function and
A shooting point information acquisition function for acquiring shooting point information output by the construction photo cooperation auxiliary device;
Included in each of the acquired shooting point information is a construction photo data acquisition function that acquires shooting data of an identifier obtained by converting specific information for specifying the shooting point information and imaging data of a subject as construction photo data from the imaging device A linkage function for linking the construction photo data to the drawing data by taking the correspondence between the designated date and time and each acquired construction photo data,
A construction photo link program that enables computers to realize this.

Images