KR102469474B1 - Automatic construction daily report creation system using video input apparatus at the construction site - Google Patents

Abstract

The present invention relates to an automatic preparation system of a daily construction report using an image input device at a construction site. The system comprises: a connection unit connecting an image providing device for obtaining an image of a construction site and a terminal for transmitting information to transmit data; a construction work type classification unit processing the image provided from the image providing device connected to the connection unit to classify the type of construction work performed at the construction site; an input personnel analysis unit processing the image provided from the image providing device connected to the connection unit to analyze the number of personnel input to the construction site; an input material analysis unit processing the image provided from the image providing device connected to the connection unit to analyze a material input to the construction site; an input equipment analysis unit processing the image provided from the image providing device connected to the connection unit to analyze equipment input to the construction site; a report preparing unit substituting the information classified and analyzed by the construction work type classification unit, the input personnel analysis unit, the input material analysis unit, and the input equipment analysis unit into a daily process report form to prepare a daily process report; and a database unit storing the classified and analyzed information and the process daily report to provide the same. According to the present invention, the records of construction content occurring at the construction site can be easily organized and a daily construction report can be automatically prepared from the obtained information.

Description

Automatic construction daily report creation system using video input apparatus at the construction site}

The present invention relates to an automatic construction daily report creation system using a video input device at a construction site, and more particularly, to easily organize records on construction contents occurring at a construction site, and to automatically generate a construction daily report from acquired information. The present invention relates to an automatic construction daily report creation system using a video input device at a construction site, which reduces manpower and time required for preparation of a construction daily report by creating a construction daily report.

In general, the construction daily report is a document that records and manages what kind of work has been carried out according to the construction site by construction content. .

In order to provide the convenience of writing such a construction daily report, a writing program can be used. In this case, it is done in the form of manually entering the relevant contents and reflecting the process performance, so it still takes a lot of effort and time to write the construction daily report. I had problems with it.

As a technology related to the conventional construction daily report, Korea Patent No. 10-1988350 "automatic site process management system through inspection using virtual process module and construction daily AI analysis" has been proposed. and a small process unit 2D or 3D virtual process module (VPM) into which detection information is input, mounted on a virtual construction object, and a VPM linked to actual geographic information, and a process detection device that wirelessly communicates with the VPM And in the automatic field process management system through AI analysis and construction daily report using a virtual process module including a process management server that communicates wirelessly with the process detection device, the automatic field process management system is the process detection device is the VPM A small process information and measurement information storage unit for storing small process information and measurement information transmitted from the small process information and measurement information storage unit, and a display unit connected to the small process information and measurement information storage unit to pop up process information and detection items of the VPM, and the display unit The process management server is connected to the existing process data collection unit for collecting existing process data of each site, and the process data collection unit is connected to the existing process data collection unit to detect the detection items. A big data analysis unit for analyzing big data generated using the existing process data of each site collected by the existing process data collection unit, and the big data analyzed by the big data analysis unit connected to the big data analysis unit includes the location, size, detailed process items, period, and inspection items of each site, and learns using artificial intelligence and includes the location, size, detailed process items, period, and inspection items for each small process unit 2D or 3D VPM An artificial intelligence learning unit that derives a standard process to perform, and VPM standard information including detailed process items, period, detection items, and learning neural network using the standard process derived from the artificial intelligence learning unit in connection with the artificial intelligence learning unit. A VPM standard information generation unit for generating, and connected to the VPM standard information generation unit, from the VPM standard information generation unit A construction model creation unit that creates a construction model by assembling a small process unit 2D or 3D VPM through the generated VPM standard information, and automatically creates a process table and inspection schedule for the construction model in connection with the construction model creation unit A process table automatic creation unit for the process table, a detection and analysis unit connected to the process table automatic creation unit and analyzing the performance of inspection based on the process table automatically created by the process table automatic creation unit, and a detection and analysis unit connected to the detection and analysis unit to detect through the detection and analysis unit Process automatic check unit that automatically checks the process and automatically displays the completion of the process, and is connected to the process automatic check unit to analyze and collect the automatically checked processes by the process automatic check unit to determine the progress of each process to analyze, generate progress information for the entire process using the progress information for each process analyzed and collected, and apply quantitative values to the progress information for the entire process to aggregate the progress rate of the entire process. It includes a process analysis and collection unit, and when a manager with a location tag accesses the VPM in a real site, the process information and detection items for the corresponding VPM in the digital virtual site are interlocked with the actual geographic information of the VPM. The inspection request is automatically displayed on the process detection device, and the inspection request is carried out by the manager for the corresponding process, and the inspection work is completed. Process completion is displayed.

However, this prior art only uses a construction daily report written in advance, but does not perform any support for writing a construction daily report, so it still takes a lot of time and effort to prepare the construction daily report.

In order to solve the problems of the prior art as described above, the present invention makes it easy to organize the records on the construction contents occurring at the construction site, and to automatically create a construction daily report from the information obtained, thereby making the construction daily report The purpose is to increase the efficiency of construction management by reducing the manpower and time required to prepare

Other objects of the present invention will be easily understood through the description of the following embodiments.

In order to achieve the above object, according to one aspect of the present invention, a connection unit for connecting an image providing device for acquiring images of a construction site and a terminal for transmitting information to transmit data; a work type classification unit that processes images provided from an image providing device connected to the connection unit to classify types of construction work performed at the construction site; an input manpower analysis unit for processing an image provided from an image providing device connected to the connection unit to analyze the number of personnel input to the construction site; an input material analysis unit for processing an image provided from an image providing device connected to the connection unit to analyze materials input to the construction site; an input equipment analysis unit for processing an image provided from an image providing device connected to the connection unit to analyze equipment input to the construction site; A report writing unit for creating a daily process report by substituting the information classified and analyzed by the work type classification unit, the input personnel analysis unit, the input material analysis unit, and the input equipment analysis unit into a process daily report form; There is provided an automatic construction daily report creation system using a video input device of a construction site including; and a database unit for storing the classified and analyzed information and the process daily report.

The work type classification unit performs image processing on the previous day's video and today's video provided from the video providing device, extracts the changed part from the previous day by using a machine learning algorithm, and compares the extracted changed part with the construction type reference data It is possible to classify the types of today's work, and to correct the classified types of work from the previously created schedule.

The input material analysis unit image-processes the previous day's video and today's video provided from the video providing device, extracts the changed part from the previous day to today using a machine learning algorithm, and compares the extracted changed part with the material reference data A list of input materials can be extracted by

The input equipment analysis unit performs image processing on the previous day's video and today's video provided from the video providing device, extracts a changed part from the previous day by using a machine learning algorithm, and compares the extracted changed part with the equipment reference data You can extract the list of input equipment by

The input personnel analysis unit classifies the space where the worker stays for a predetermined time from the image-processed image as a work space, and sums the maximum number of workers who stay in each of the work spaces for a set period of time to determine the number of workers. However, if the calculated number of people to be put in is greater than the expected number of people provided from the terminal, the expected number of people may be calculated as the number of people to be put in.

According to the automatic construction daily report creation system using the video input device of the construction site according to the present invention, it is possible to easily organize records on the construction contents occurring at the construction site, and to automatically create a construction daily report from the information obtained. This has the effect of increasing the efficiency of construction management by reducing the manpower and time required to prepare the construction daily report.

1 is a configuration diagram showing an automatic construction daily report creation system using a video input device of a construction site according to an embodiment of the present invention.
2 is a flowchart illustrating the operation of a work classifier in the automatic construction daily report creation system using a video input device at a construction site according to an embodiment of the present invention.
3 is a flowchart illustrating the operation of the input material analysis unit in the automatic construction daily report creation system using a video input device of a construction site according to an embodiment of the present invention.
4 is a flowchart illustrating the operation of an input equipment analysis unit in the automatic construction daily report creation system using a video input device at a construction site according to an embodiment of the present invention.
5 is a flowchart illustrating the operation of a report creation unit in the automatic construction daily report creation system using a video input device at a construction site according to an embodiment of the present invention.

Since the present invention can make various changes and have various embodiments, specific embodiments will be illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to specific embodiments, and should be understood in such a way as to include all changes, equivalents, or substitutes included in the technical spirit and scope of the present invention, and may be modified in various other forms. However, the scope of the present invention is not limited to the following examples.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings, the same reference numerals will be assigned to the same or corresponding components regardless of reference numerals, and redundant descriptions thereof will be omitted.

1 is a configuration diagram showing an automatic construction daily report creation system using a video input device of a construction site according to an embodiment of the present invention.

Referring to FIG. 1, the system 10 for automatically creating a construction daily report using a video input device at a construction site according to an embodiment of the present invention includes a connection unit 11, a work classification unit 12, and a personnel analysis unit 13 , It may include an input material analysis unit 14, an input equipment analysis unit 15, a report preparation unit 16 and a database unit 17.

The connection unit 11 connects the image providing devices 1, 2, 3 for acquiring images of the construction site and the terminal 4 for transmitting information to transmit data. The connection unit 11 connects the video providing devices 1, 2, and 3 for acquiring images of the construction site to transmit data, especially a web server that provides a web page for connection with the terminal 4. can include When connecting the video providing devices 1, 2, 3 and the terminal 4, the connection unit 11 inputs an ID and password to be authenticated as a legitimate user, or uses a public certificate, mobile phone, credit card, etc. Device connection can be performed by an authentication procedure or by inputting a predetermined signal or inputting or outputting an identification code or the like. Here, the image providing devices 1, 2, and 3 are various devices having a shooting function for image acquisition, for example, a mobile phone 1, a CCTV camera 2, and a drone 3, as well as a 360-degree camera and a shooting Functional smart helmets, action cams, etc. may be included, and each communication module is provided to be connected to the connection unit 11 through a communication network, or configured to be connected to the connection unit 11 through a communication network through a separate communication device. It can be. In addition, the terminal 4 performs a process determined by the execution of an application or program for performing the service provided by the present invention, and a smartphone, tablet PC, laptop computer, or PC that communicates with an external device is used. It may correspond to terminals of various construction officials, including terminals of constructors, terminals of ordering parties, terminals of designers, and terminals of supervisors.

The work type classification unit 12 processes images provided from the image providing devices 1, 2, and 3 connected to the connection unit 11 to classify the types of construction work performed at the construction site.

Referring to FIG. 2, the work type classification unit 12, for example, processes the previous day's video and today's video provided from the image providing devices 1, 2, and 3, respectively, and uses a machine learning algorithm to obtain information changed from the previous day to today. By extracting the part, the changed part can be extracted by comparison with the latest data, and the type of today's construction can be classified by comparing the extracted changed part with the construction type reference data (S11), and the classified today's construction The type can be corrected from the pre-created schedule table (S12). Here, the previous day's video is recent input data, and may be data input yesterday. In addition, the machine learning algorithm may be configured to use only a scene having a changed part with recent data as an input value, and various known machine learning techniques may be used for this purpose. In addition, the correction by the work type classification unit 12 is, for example, to finally extract a construction type that coincides in time with a pre-created schedule, to finally extract the corresponding construction type within a set time range, or within a set range In case of deviation, it is possible to perform procedures such as message transmission and review reception so that a review can be received and corrected through the terminal 4, but not limited to this, various corrections can be made based on a pre-written schedule. can

The input personnel analysis unit 13 processes images provided from the video providing devices 1, 2, and 3 connected to the connection unit 11 to analyze the number of personnel input to the construction site.

As an example, the input personnel analysis unit 13 classifies the space where the worker stays for a predetermined time from the image-processed image as a work space, and sums the maximum number of workers staying in each work space for a set period of time. It is calculated as the number of people to be put in, but if the calculated number of people to be put in is greater than the expected number of people provided from the terminal 4, the expected number of people to be put in can be calculated as the number of people to be put in. Here, the predetermined time may be determined as a time to stay in the workspace for work, which may be 0.1 to 5 hours depending on the type of work. Also, the set period may be, for example, 24 hours. Classification of workspaces can be determined based on rooms in the case of indoors, and can be determined based on one outer surface of a building structure in the case of outdoors, and configured to be integrated with the adjacent outer surface in the case of a narrow outer surface. It can be. In order to classify the workspace and calculate the maximum number of workers staying in the workspace, an image processing algorithm is used, but an artificial intelligence algorithm or a machine learning algorithm can be used as needed.

The input material analysis unit 14 processes images provided from the image providing devices 1, 2, and 3 connected to the connection unit 11 to analyze materials input to the construction site.

Referring to FIG. 3, the input material analysis unit 14, as an example, processes the previous day's video and today's video provided from the video providing devices (1, 2, 3), respectively, and uses a machine learning algorithm to determine the current day from the previous day. By extracting the changed part, it is compared with the latest data to check whether there is a change in the corresponding area (S21), and a list of input materials can be extracted by comparing the extracted changed part with the material reference data (S22). Here, the previous day's video is recent input data, and may be data input yesterday. In addition, the machine learning algorithm may be configured to use only a scene having a changed part with recent data as an input value, and various known machine learning techniques may be used for this purpose.

The input equipment analysis unit 15 processes images provided from the video providing devices 1, 2, and 3 connected to the connection unit 11 to analyze the equipment input to the construction site.

Referring to FIG. 4, the input equipment analysis unit 15 processes the video of the previous day and the video of the current day provided from the video providing devices 1, 2, and 3 as an example, respectively, and uses a machine learning algorithm to change the current day from the previous day. By extracting the part (S31), data can be extracted by analyzing newly added equipment and equipment with reduced quantities compared to the latest data (S32), and input equipment by comparing the extracted changed part with equipment reference data A list can be extracted (S33). Here, the previous day's video is recent input data, and may be data input yesterday. In addition, the machine learning algorithm may be configured to use only a scene having a changed part with recent data as an input value, and various known machine learning techniques may be used for this purpose.

The report writing unit 16 substitutes the information classified and analyzed by the work type classification unit 12, input personnel analysis unit 13, input material analysis unit 14, and input equipment analysis unit 15 into the fair daily report form. to write a fair daily report. The report writing unit 16 may obtain text and images necessary for writing a fair daily report using functions such as image processing and text extraction from the classified and analyzed information and images used therein.

For example, the report writing unit 16 may directly receive additional information provided from the terminal 4 of a construction person concerned as needed or upon request, and use it to prepare a fair daily report, and the created fair daily report as a database. It can be uploaded to the unit 17 and provided to the requested terminal 4. The report preparation unit 16 may be configured such that additional information is automatically generated in a predetermined form by filling in the fields of the predetermined contents.

As shown in FIG. 5, the report writing unit 16, for example, extracts from the images of the image providing devices 1, 2, and 3 together with the above classified and analyzed information, or from information provided additionally, details and photos for each type of work. and construction rate, etc., use the details to create construction daily report texts (S41), create construction daily reports using details, photos by work type, and progress rate (S42), and use the progress rate to Process rates for each work type can be displayed (S43), and they can be provided to the requested terminal 4 or the like. The process rate can be extracted by the process rate analysis unit 18. The process rate analysis unit 18 calculates the progress of the construction and the process rate based on the work information provided from the terminal 4 and displays the information to the terminal 4, etc. can provide In addition, the process rate analysis unit 18 receives work information necessary for calculating the process rate, and requests insufficient work information from the terminal 4 of the person in charge of construction by comparing the provided work information with a list of necessary work information predetermined It can be provided, and it can be configured in a way to fill a field for inputting specific content. The process rate calculation method by the process rate analysis unit 18 may be configured to follow a method known in the construction industry or a method determined through expert advice.

The database unit 17 is classified and analyzed by the work type classification unit 12, the input personnel analysis unit 13, the input material analysis unit 14, and the input equipment analysis unit 15, and the report preparation unit 16 It is stored to provide the process daily report prepared by . In addition, the database unit 17 stores various kinds of information necessary for the operation provided by the present invention, information on the authenticated terminal 4 and information of users, and various data or programs necessary for implementing the functions provided by the present invention. can

According to the automatic construction daily report creation system using the video input device of the construction site according to the present invention, it is possible to easily organize the records of the construction contents occurring at the construction site, and automatically generate the construction daily report from the information obtained. Therefore, the efficiency of construction management can be increased by reducing the manpower and time required to prepare the construction daily report.

As described above, the present invention has been described with reference to the accompanying drawings, but various modifications and variations can be made without departing from the technical spirit of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, and should be defined by not only the claims to be described later, but also those equivalent to these claims.

1: mobile phone 2: CCTV camera
3: Drone 4: Terminal
11: connection part 12: work type classification part
13: input personnel analysis unit 14: input material analysis unit
15: input equipment analysis unit 16: report writing unit
17: database unit 18: process rate analysis unit

Claims (5)

A connection unit for connecting an image providing device for acquiring images of a construction site and a terminal for transmitting information to transmit data;
a work type classification unit that processes images provided from an image providing device connected to the connection unit to classify types of construction work performed at the construction site;
an input manpower analysis unit for processing an image provided from an image providing device connected to the connection unit to analyze the number of personnel input to the construction site;
an input material analysis unit for processing an image provided from an image providing device connected to the connection unit to analyze materials input to the construction site;
an input equipment analysis unit for processing an image provided from an image providing device connected to the connection unit to analyze equipment input to the construction site;
A report writing unit for creating a daily process report by substituting the information classified and analyzed by the work type classification unit, the input personnel analysis unit, the input material analysis unit, and the input equipment analysis unit into a process daily report form; and
a database unit for storing the classified and analyzed information and the process daily report;
including,
The existing personnel analysis department,
From the image-processed image, each space where a worker stays for a set time is classified as a work space, and the sum of the maximum number of workers staying in each work space for a set period of time is calculated as the number of inputs. An automatic construction daily report creation system using a video input device at a construction site, which calculates the expected number of people as the number of inputs when the number of people is greater than the expected number provided from the terminal. The method of claim 1,
The classifier,
The previous day's video and today's video provided from the video providing device are image-processed, and a changed part from the previous day is extracted using a machine learning algorithm, and today's construction type is determined by comparing the extracted changed part with the construction type reference data An automatic construction daily report creation system using a video input device at a construction site to classify and correct the classified today's construction type from a pre-created schedule. The method of claim 1,
The input material analysis unit,
Image processing of the previous day's video and today's video provided from the video providing device, extracting the changed part from the previous day to today using a machine learning algorithm, and extracting the input material list by comparing the extracted changed part with the material reference data A construction daily report automatic creation system using a video input device at a construction site. The method of claim 1,
The input equipment analysis unit,
Image processing of the previous day's video and today's video provided from the video providing device, extracting the changed part from the previous day to today using a machine learning algorithm, and extracting a list of input equipment by comparing the extracted changed part with equipment reference data A construction daily report automatic creation system using a video input device at a construction site. delete

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