KR20220074998A - A Building process management system and method of providing building process management service using the same - Google Patents

Abstract

The present invention provides a method for providing a building process management service using a building process management system including a manager device, a server, and a construction company device, based on a login to the server of the manager device, stored in the server, identifying manager information of the manager device including initial subscription information and past construction history; Transmitting construction status information periodically from each of the construction company devices to the manager device while the construction is in progress; And based on the construction status information and the construction histories of the construction companies, comprising the step of transmitting the real-time process progress status and cost information about the construction from the server to the manager device, The real-time process progress status, Information on the progress status indicating the ratio of the current construction progress to the target construction period, and information on the need for extension of the deadline indicating whether the construction period should be extended based on the construction histories of the construction companies and the progress status and the cost information, When it is determined that the construction period does not need to be extended, information on the cost of the construction progressed to date and the ratio of the cost to the target budget of the construction is included, When it is determined that the construction period should be extended, it relates to a method for providing a construction process management service, characterized in that it further includes information on additional construction costs estimated in consideration of the extended construction period.

Description

A building process management system and a method for providing a building process management service using the same {A Building process management system and method of providing building process management service using the same}

The present invention relates to a building process management system and a method for providing a building process management service using the same.

For a construction company (or a client), various technologies are being developed for selecting a company for requesting construction and managing the construction situation. Currently, it is common for a construction company (or a building owner) to receive an estimate from each of the construction companies, directly review the estimate, select a construction company, and provide information on the current construction progress.

Therefore, it is not possible to select a construction company for each of the numerous types of construction work performed during construction at one time, and in order to reflect the construction-related standards that the construction company (or the client) focuses on when selecting a construction company, the construction companies must There is a problem in that it is cumbersome to select a construction company as all submitted quotations must be reviewed.

In addition, if the construction period is extended and additional costs are incurred due to the delay in construction progress, unlike described in the estimate, it is difficult to immediately confirm information on whether to extend or not, and information about the extension period and cost is uncertain. There is a possibility that it will be produced.

The present invention has been devised to solve the above-described problems in the prior art, and it is to predict whether the construction period is extended and additional construction costs, and to provide real-time construction progress information including information related thereto.

In addition, there is an object to enable the optimal combination of construction companies for various types of construction work to be selected at once in consideration of various factors.

According to some embodiments of the present invention, in a process management system including a manager device, a server, and a construction company device, the method for providing a building process management service by the server is based on a login to the server of the manager device To, stored in the server, identifying the manager information of the manager device, including the initial subscription information and past construction history of the manager; Receiving, from the manager device, the construction target data regarding the construction and the priority setting status for the construction company selection criteria; determining priorities with respect to the construction company selection criteria based on the priority setting state and the manager information through machine learning; extracting candidate construction companies by construction type from among the construction companies whose construction histories are stored in the server, based on one of the priority and the construction company selection criteria through the machine learning; extracting a final construction company combination from among the candidate construction companies for each construction type, based on the remaining criteria among the priority and the construction company selection criteria through the machine learning; and transmitting the extracted final construction company combination to the manager device.

According to some embodiments of the present invention, in a process management system including a manager device, a server, and a construction company device, the server for selecting and managing construction companies includes: a memory; and at least one processor, wherein the at least one processor is: Based on the login to the server of the manager device, the manager device including initial subscription information and past construction history of the manager stored in the server Identifies manager information, and receives, from the manager device, the construction target data regarding the construction and the priority setting state for the construction company selection criteria, and through machine learning, the priority setting state and the manager information Based on the priorities for the construction company selection criteria, and through the machine learning, based on one of the priority and the construction company selection criteria, the construction histories are stored in the server Extracting candidate construction companies by construction type from among construction companies, and extracting the final construction company combination from the candidate construction companies by construction type based on the remaining criteria among the priority and the construction company selection criteria through the machine learning, , may be configured to transmit the extracted final construction company combination to the manager device.

The present invention is to select construction companies as subcontractors in consideration of various factors that are considered important from the point of view of a construction company (or owner) as a manager, such as construction period, profit rate or profit, and construction quality, such as construction quality. do.

In addition, the present invention makes it possible to select an optimal combination of construction companies for the various types of construction works at once without the need to separately select a construction company for each of various types of construction works required for building construction. .

In addition, the present invention considers whether the priority of the construction company (or the building owner) with respect to the construction company selection criteria is set, and by grasping the preference of the construction company (or the building owner) for the selection criteria, the optimum for the construction company (or the building owner) Allow them to recommend a combination of contractors.

In addition, the present invention makes it possible to predict whether or not to extend the construction period and additional construction cost and provide information on it based on the construction progress status and construction histories of construction companies grasped in real time after the start of construction.

1 illustrates a process management system in accordance with some embodiments of the present invention.
2 illustrates a configuration of a server according to some embodiments of the present invention.
3 is a flowchart illustrating selection of construction companies and management of construction by the process management system according to some embodiments of the present invention.
4 shows a flowchart for selecting a construction company combination by the server of the process management system according to some embodiments.
5 illustrates a flowchart for managing a construction situation by a server of a process management system according to some embodiments.
6 illustrates a construction target data input page of a manager device of a process management system according to some embodiments.
7A illustrates an example of a priority setting page for selection criteria of a construction company of a manager device of a process management system according to some embodiments.
7B illustrates another example of a priority setting page for the selection criteria of the construction company of the manager device of the process management system according to some embodiments.
8 illustrates a construction company combination recommendation page of a manager device of a process management system according to some embodiments.
9 illustrates a construction status management page of a manager device of a process management system according to some embodiments.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments according to the present invention will be described in detail with reference to the drawings. The description below is only for specifying the embodiments, and is not intended to limit or limit the scope of rights according to the present invention. What a person of ordinary skill in the art can easily infer from the detailed description and embodiments of the present invention should be construed as belonging to the scope of the present invention.

Although the terms used in the present invention have been described as general terms widely used in the technical field of the present invention, the meaning of the terms used in the present invention may vary depending on the intention, precedent, or emergence of new technology of those skilled in the art. have. Some terms may be arbitrarily selected by the applicant, and in this case, the meaning of the terms will be explained in detail. Terms used in the present invention should be interpreted as meanings according to the overall context of the specification, not just dictionary meanings.

Terms such as 'consisting of' or 'comprising' used in the present invention should not be construed as necessarily including all of the components or steps described in the specification, and when some components or steps are not included and If additional components or steps are further included, it should also be interpreted as intended from the term.

Terms including an ordinal number such as 'first' or 'second' used in the present invention may be used to describe various components or steps, but the components or steps should not be limited by the ordinal number. . Terms containing an ordinal number should only be interpreted for the purpose of distinguishing one element or step from other elements or steps.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments according to the present invention will be described in detail with reference to the drawings. Detailed descriptions of matters widely known to those of ordinary skill in the art will be omitted.

1 illustrates a process management system 100 in accordance with some embodiments of the present invention. The process management system 100 of FIG. 1 includes a server 110 , a manager device 120 , and construction company devices 130 - 1 to 130 -N.

The server 110 transmits and receives information through wired or wireless communication with the manager device 120 and the construction company devices 130-1 to 130-N, and by storing it, an optimal construction company for the manager device 120 A combination may be selected, and a series of operations may be performed to provide information on the overall situation of the construction to the manager device 120 . Specific operations performed by the server 110 will be described in detail below based on FIGS. 3 to 5 .

The manager device 120 refers to a device that can be operated by all subjects who want to request construction related to construction, such as a building owner or a client, and is optimal for performing various construction tasks for construction from the server 110 . A construction company association may be recommended, and a service for managing the progress of construction performed by the optimal construction company association may be provided from the server 110 from 110 .

Construction company devices (130-1 to 130-N) refer to devices operated by construction companies that can be managed by the process management system of the present invention, and information such as bidding details and construction details are stored on the server ( 110 ), and information on the progress of the construction work requested from the manager device 120 may be periodically provided to the server 110 .

In addition, the manager device 120 and the construction company devices 130 - 1 to 130 -N may be connectable to the server 110 through wired or wireless communication. In particular, the manager device 120 and the construction company devices 130-1 to 130-N may include a terminal capable of transmitting and receiving information through a wired or wireless Internet network, and broadly a keyboard for inputting various data. , input devices such as mice, output devices such as monitors and printers, transceivers such as modems and LANs, processing devices such as microprocessors or graphic cards, and storage devices equipped with various programs to operate or control them. allow access to the network. As an example, the manager device 120 and the contractor devices 130-1 to 130-N may include a Personal Communication System (PCS), a Global System for Mobile communications (GSM) terminal, and a personal digital cellular terminal ( Personal Digital Cellular (PDC), PHS (Personal Handyphone System) terminal, Personal Digital Assistant (PDA), smart phone, telematics, wireless data communication terminal and/or portable Internet terminal, personal It may include at least one of a computer (Personal Computer) and a notebook (Notebook).

Hereinafter, FIG. 2 shows the configuration of the server 110 according to some embodiments of the present invention. Hereinafter used '… wealth', '… The term 'group' means a unit that processes at least one function or operation, which may be implemented as hardware or software, or a combination of hardware and software. Referring to FIG. 2 , the server 110 includes a communication unit 210 , a control unit 220 , and a storage unit 230 .

The communication unit 210 may perform functions for transmitting and receiving information. Specifically, the communication unit 210 may provide an interface for performing communication with other devices in the system. The communication unit 210 may perform functions for transmitting and receiving signals in a wireless or wired communication environment. Also, the communication unit 210 may include a plurality of transmission/reception paths. The communication unit 210 transmits and receives signals as described above. Accordingly, the communication unit 210 may be referred to as a 'transmitter', 'receiver', or 'transceiver'. In addition, in the following description, transmission and reception are used in the meaning including the process as described above being performed by the communication unit 210 .

The controller 220 controls overall operations of the server 110 . For example, the control unit 220 transmits and receives signals through the communication unit 210 . In addition, the control unit 220 writes and reads data in the storage unit 230 . To this end, the controller 220 may be implemented as an array of a plurality of logic gates or a general-purpose microprocessor. The controller 220 may include at least one processor. The control unit 220 may be configured integrally with the storage unit 330 instead of being separate from the storage unit 230 for storing a program or the like. The controller 220 may be at least one of a central processing unit (CPU), a graphics processing unit (GPU), or an application processor (AP) provided in the server 110 , but this is only an example, and the controller 220 It may be implemented in other various forms.

The storage unit 230 stores data such as a basic program, an application program, and setting information for the operation of the server 110 . The storage unit 230 may be configured as a volatile memory, a non-volatile memory, or a combination of a volatile memory and a non-volatile memory. In addition, the storage unit 230 provides stored data according to the request of the control unit 220 .

3 is a flowchart illustrating selection of construction companies and management of construction by the process management system according to some embodiments of the present invention. 3 illustrates a flowchart of signal exchange between the server 110 , the manager device 120 , and the construction company devices 130 - 1 to 130 -N of the process management system.

Referring to FIG. 3 , in step 301 , the construction company devices 130 - 1 to 130 -N may transmit bid details and construction history information to the server 110 . That is, for each type of construction, such as reinforced concrete construction, insulation construction, masonry construction, stone construction, tile construction, and the like, past bid details and construction history information of construction companies may be transmitted to and stored in the server 110 .

In step 302 , the manager device 120 can access the server 110 by logging in 302 to the process management system, and in step 303 , the server 110 is configured to log in by the manager device 120 . Based on the manager information, the manager information corresponding to the manager device 120 may be identified. That is, the server 110 stores the manager information of each of the manager devices subscribed to the process management system, and based on this, the initial subscription information of the manager of the logged-in manager device 120 and information about the past construction history can be identified.

In step 304 , the manager device 120 may transmit a construction company selection request to the server 110 . That is, the manager device 120 may transmit a message to the server 110 for initiating the selection process of construction companies to perform the construction.

In step 305 , the server 110 may transmit, to the manager device 120 , a request for setting priorities for input of construction target data and criteria for selecting a construction company. The server 110 may request input of construction target data including one of a target budget, a target profit rate, or a target profit amount, a target construction start date, a target construction deadline, and building information. In addition, the server 110 may request to set priorities for each of the construction company selection criteria including the construction deadline criterion, the construction profit criterion, and the construction quality.

In step 306 , the manager device 120 may transmit to the server 110 information on the priority setting status for the construction company selection criteria. In this case, the manager device 120 may input a high priority to one of the construction deadline criterion, the construction profit criterion, and the construction quality. Alternatively, the manager device 120 may input a setting that does not give high priority to any of the construction deadline criterion, construction profit criterion, and construction quality, that is, does not indicate preference for a predetermined construction company selection criterion. .

In step 307 , the server 110 may select an optimal construction company combination from among the construction companies corresponding to the construction company devices 130 - 1 to 130 -N. Specifically, the server 110 may determine a priority for each of the construction company selection criteria based on the priority setting state and manager information, and after extracting candidate construction companies for each construction type in consideration of the determined priority, , it is possible to extract the optimal combination of contractors. For example, the server 110 extracts candidate construction companies for each of reinforced concrete construction, insulation construction, masonry construction, and tile construction, and then a final one for each of the reinforced concrete construction, insulation construction, masonry construction, and tile construction. By selecting a construction company of Specific details regarding the selection of the optimal construction company combination will be described in more detail in FIG. 4 below.

In step 308 , the server 110 may transmit the selection result regarding the optimal construction company combination to the manager device 120 , and in step 309 , the manager device 120 is recommended by the server 110 . It is possible to select an optimal construction company combination and notify the server 110 of this. Although not shown in FIG. 3 , the manager device 120 may request a re-recommendation without selecting the recommended optimal construction company combination. It is also possible to extract other combinations among them.

In step 310 , the server 110 may notify the construction company devices corresponding to the construction companies included in the optimal construction company combination that it has been selected by the manager device 120 .

Thereafter, the construction is performed by the construction companies selected as the optimal construction company combination, and the process management system may perform steps 311 to 313 for managing the construction situation.

In step 311 , the final construction company devices performing construction may periodically transmit construction status information to the server 110 . For example, the final construction company devices may transmit construction status information such as a construction daily report, material usage status, and construction cost details on a daily basis.

In step 312, the server 110 manages the process progress including real-time process progress status and cost information based on the received construction status information and construction histories of final construction companies, and in step 313, the server 110 may transmit real-time process progress status and cost information to the manager device 120 . For example, the server 110 may check the current construction progress status and determine whether an extension of the construction deadline is necessary to determine the real-time process progress status, and provide the real-time process progress status to the manager device 120 . In addition, the server 110 may determine the currently required construction cost, additionally determine the additional construction cost depending on whether an extension of the construction period is required, and provide it to the manager device 120 . More specific details regarding the method for managing process progress will be described in detail with reference to FIG. 5 below.

4 shows a flowchart for selecting a construction company combination by the server of the process management system according to some embodiments. 4 illustrates an operation by the server 110 of the process management system. Referring to FIG. 4 , a method for selecting a construction company combination by the server 110 may include steps 401 to 411 . However, the present invention is not limited thereto, and general steps other than the steps shown in FIG. 4 may be further included in the method of FIG. 4 .

4, in step 401, the server 110, based on the login to the server 110 of the manager device 120, stored in the server 110, the administrator's initial subscription information and past construction Manager information of the manager device 120 including the history may be identified. That is, the server 110 can identify the initial subscription information entered by the administrator of the logged-in administrator device 120 at the time of registration, and also can identify information about the past construction history that the administrator has performed through the process management system. can In this case, the initial subscription information may include information indicating at least one selection criterion selected by the manager as important among construction company selection criteria. In addition, the information about the past construction history may include various information about the past construction, such as the cost of the construction requested by the manager, the construction period, and selected construction companies.

In step 403 , the server 110 may receive, from the manager device 120 , construction target data regarding construction and a priority setting state for construction company selection criteria. According to some embodiments, the construction target data regarding the construction may include one of a target budget, a target profit rate, or a target profit amount, a target start date, a target construction period, and building information, and the construction company selection criteria are the construction deadline. criteria, construction profit criteria, and construction quality criteria. In this case, the manager device 120 may input a target profit rate when it wants to achieve a predetermined profit rate based on the target budget, and input a target profit amount when only a predetermined cost is spent based on the target budget. .

Referring to FIG. 6 , the manager device 120 transmits the construction target data to the server 110 through the construction target data input page 600 provided by a web/application executed on the manager device 120 . can Specifically, the construction target data input page 600 includes an area 610 for inputting a target budget, an area 620 for entering a target profit rate or target profit, and an area for inputting a target construction start date ( 630), an area 640 in which a target construction deadline can be input, an area 650 in which building information can be input, and an area 660 in which confirmation or cancellation can be selected. In this case, through selection of the arrow mark 625 in the area 620 , the manager may input a desired selection among the target profit rate and the target profit amount into the manager device 120 . In addition, by selecting the arrow mark 655 in the area 650 , a screen for inputting various building information such as the total building area, the area per building floor, the number of building floors, etc. may be displayed. When the input of the construction target data is completed and confirmation is selected in the area 660 , the input construction target data may be transmitted to the server 110 .

According to some embodiments, the priority setting state is a first state in which the initial priority is not input for the construction company selection criteria by the manager device 120 and the construction company selection criteria by the manager device 120 It may include a second state in which an initial priority is input with respect to . That is, the manager device 120 will not provide information about the manager's preference by not assigning a high priority to any one of the construction deadline criterion, the construction profit criterion, and the construction quality criterion (ie, the first state). Alternatively, by assigning a priority to each of the construction deadline criteria, the construction profit criteria, and the construction quality (i.e., the second state), information about criteria that may be considered more important in the selection of a contractor may be provided. .

Referring to FIG. 7A , through the priority setting page 700 provided by the web/application executed on the manager device 120 , the second status for the construction company selection criteria can be transmitted to the server 110 . have. Specifically, the priority setting page 700 is an area 710 for selecting whether to set priorities for selection criteria, an area for setting priorities for each of the construction deadline, construction profit, and construction quality ( 720) through 740, and an area 750 where you can select OK or Cancel. If it is selected in the area 710 to set the priority through the area 712, a priority may be assigned to each of the construction deadline, the construction profit, and the construction quality, and the priority input in this way is the area 722 to It can be indicated through (742).

Referring to FIG. 7B , through the priority setting page 705 provided by the web/application executed on the manager device 120 , the first status for the construction company selection criteria may be transmitted to the server 110 . have. Specifically, the priority setting page 705 may include areas 710 to 750 as shown in FIG. 7A . When 'no selection' is input from the area 710 through the area 714 to not set a priority, an area indicating that 'no selection' is automatically set for the priority for the construction deadline, construction profit, and construction quality (714) to (744) may be indicated.

In step 405, the server 110, through machine learning, based on the priority setting state and manager information, may determine the priority with respect to the construction company selection criteria. That is, the server 110 reflects whether the initial priority is input for one of the construction company selection criteria by the manager device 120 to determine the final priority to be used to select the construction company combination. have.

According to some embodiments, when the priority setting state is the first state, the server 110 estimates the manager's preference for the construction company selection criteria from the manager's initial subscription information and the past construction history to give priority can decide The first state is a state in which current information regarding which of the construction company selection criteria the manager is focusing on is not provided to the server 110 . In this case, the server 110 predicts the selection criteria that the manager mainly considers from the initial subscription information and the information about the past construction history identified at the time of login of the manager device 120, so that each of the construction company selection criteria priority can be given. For example, when it is predicted that the manager considers compliance with the construction deadline as the most important from the initial subscription information and information about the past construction history, the server 110 sets the highest You can give priority.

According to some embodiments, when the priority setting state is the second state, the server 110 prioritizes by adjusting the initial priority based on the manager's preference estimated from the manager's initial subscription information and the past construction history. can be decided The second state is a state in which current information regarding which of the construction company selection criteria is being considered by the manager is provided to the server 110 . In this case, the server 110 selects the selection criteria that the manager focuses on, which can be predicted from the initial subscription information identified at the time of logging in the manager device 120 and information about the past construction history, the received initial priority. can be reflected in For example, when the highest priority is assigned to the construction deadline standard by the manager device 120 (initial priority), the manager makes it important to observe the construction deadline from the initial subscription information and information about the past construction history If it is predicted to be considered, the initial priority can be maintained, and when it is predicted that the manager values construction quality from the initial subscription information and information about the past construction history, a high priority is given to the construction deadline standard and construction quality criterion. Priority may be adjusted to be granted.

Through the determination of priorities as described above, in the selection of a company association, even if information on which selection criteria the manager places importance on is not provided, a selection that can be considered more important to select the optimal construction company combination Criteria can be identified. In addition, when information on the selection criteria valued by the manager is provided, the selection criteria that can be considered more important to select the optimal construction company combination through additional information can be more accurately identified.

In step 407 , the server 110, through machine learning, based on one of priority and construction company selection criteria, is a candidate for each construction type among construction companies whose construction histories are stored in the server 110 . You can extract contractors. Specifically, the server 110 is, based on whether the expected construction period for each construction type of the construction companies by construction type meets the construction deadline criterion in which the threshold value that can be changed according to the priority is reflected, the candidate construction company by construction type among construction companies by construction type can be extracted. In addition, the expected construction period for each construction type may be obtained from construction histories stored in the server 110 .

For example, in the target construction period calculated from the construction target data input by the manager device 120 , the server 110 reflects the threshold value according to the priority of the construction deadline criterion determined in step 405 based on the period As a result, it is possible to calculate the target construction period for each type of construction work, such as reinforced concrete construction, insulation construction, masonry construction, stone construction, and tile construction. For example, when the target construction period is one year, as the priority of the construction deadline standard increases, the construction period in which the threshold value is reflected may be set to be shortened, such as one year, 11 months, or 10 months. In addition, the server 110 may calculate the expected construction period of each of the construction companies performing the reinforced concrete construction, and perform the same process for other construction types (obtaining the expected construction period for each construction type of the construction companies by construction type). Also, the server 110 may extract, as candidate construction companies for each work type, construction companies by construction type having an expected construction period for each construction type that satisfy the target construction period for each construction type calculated based on the period in which the threshold value is reflected.

In step 409, the server 110, through machine learning, based on the remaining criteria among the priority and construction company selection criteria, may extract a final construction company combination from among the candidate construction companies for each work type. To this end, the server 110 may calculate a construction cost grade and a construction quality score for the candidate construction companies for each construction type, based on the construction histories. In addition, the server 110 selects a construction cost class corresponding to the priority, considers the construction quality score of the construction companies belonging to the selected construction cost class, and extracts the final construction company combination from the candidate construction companies by construction type. have. In addition, the construction quality score may be changeable based on the evaluation score input from the manager device 120 after the construction is completed.

For example, the server 110 may obtain information on the construction cost of each candidate construction company by construction type based on the bidding details and construction histories, and classify the candidate construction companies into a plurality of groups according to the construction cost. Can (given construction cost rating). In addition, the server 110 compares the priority of the construction profit standard and the priority of the construction quality standard, and reflects the threshold value according to the priority of the construction profit standard to the target profit rate or target profit amount. It is possible to select the final construction companies for each type of construction in consideration of the construction quality scores of the construction companies to which they belong. That is, when the priority of the construction profit criterion is higher than the priority of the construction quality criterion, a construction cost class capable of lower construction cost expenditure may be selected.

In step 411 , the server 110 may transmit the final construction company combination extracted in step 409 to the manager device 120 . Referring to FIG. 8 , the final construction company combination extracted by the server 110 may be displayed on a construction company combination recommendation page 800 provided by a web/application executed on the manager device 120 . Specifically, the construction company combination recommendation page 800 includes areas 805 to 830 that display the final recommended companies selected by construction type, that is, each construction type, and an area 835 where a recommended combination can be selected or re-recommendation can be requested. may include In each of the areas 805 to 830, a 'More' area in which information of each final recommendation company can be checked may be displayed. In addition, when 'recommended combination selection' is selected in the area 835, the server 110 may notify the construction company devices selected from among the construction company devices 130-1 to 130-N of the fact of selection, , when 're-recommend' is selected in the area 835 , the server 110 may extract a different combination of candidate construction companies for each work type extracted in step 408 .

Among the above-described steps of FIG. 4 , steps 405 to 407 may be performed based on machine learning. That is, the server 110 processes and learns data about the bidding details and construction histories of construction companies, the initial subscription information of the manager, and the past construction history, so that the model generated for selection of the construction company combination by machine learning. Based on this, it is possible to perform an operation for the selection of a construction company association.

5 illustrates a flowchart for managing a construction situation by a server of a process management system according to some embodiments. 5 illustrates an operation by the server 110 of the process management system. Referring to FIG. 4 , the method for managing the construction situation by the server 110 may include steps 501 to 507 . However, the present invention is not limited thereto, and general steps other than the steps shown in FIG. 5 may be further included in the method of FIG. 5 .

Referring to FIG. 5 , in step 501 , the server 110 may periodically receive construction status information from each of the construction company devices. Specifically, the server 110 may periodically transmit the construction status information from the final construction company devices selected as the final construction company combination. For example, construction status information such as a daily construction report, material usage status, and construction cost details may be received from devices of the final construction company.

In step 503, the server 110 may determine the current construction progress status and the need to extend the construction period. Specifically, the server 110 may determine the progress rate compared to the target construction period based on the construction status information periodically reported from the construction company devices. In addition, the server 110 may predict the completion date by comparing the current construction speed with the construction speed determined based on the construction histories of the final construction companies, and considering the progress rate compared to the target construction period. In this case, based on whether the predicted completion date arrives earlier or later than the target construction period or a date, the necessity of extending the construction period may be determined.

In step 505 , the server 110 may calculate the construction cost according to the determination that the extension of the construction period is necessary. Specifically, the server 110, based on the construction status information periodically reported from the construction company devices, the total construction cost to date, construction cost breakdown by construction type, construction cost breakdown by company, construction cost breakdown by site, etc. can be calculated. . In addition, if it is determined in step 503 that the extension of the construction period is necessary, the server 110 may calculate the estimated daily expenditure construction cost based on the construction histories of the final construction companies and the current construction progress, and predict based on this It is possible to calculate the additional cost of construction that will occur during the difference between the completion date and the target construction period.

In step 507 , the server 110 may transmit the real-time process progress status and cost information to the manager device 120 . Referring to FIG. 9 , the real-time process progress status and cost information transmitted by the server 110 may be displayed on a construction status management page 900 provided to a web/application executed in the manager device 120 . Specifically, the construction status management page 900 includes an area 905 indicating the current construction progress status, an area 910 indicating the predicted completion date, an area 915 indicating current construction cost information, and an area 920 indicating additional construction cost information. ) may be included. In the area 905, based on the current date, the total status of the construction progress status and a part of the progress status by construction type may be displayed, and the overall progress status by construction type may be confirmed by selecting the 'More' area. In addition, each construction progress state may be provided in a visual form using a bar graph and color information as well as a numerical form. That is, the percentage of construction completed in the bar graph may be displayed as a colored part, and information about the goodness of the ratio of currently completed construction compared to the target construction rate calculated based on the target construction period through color information may be visually displayed. .

In addition, in the area 915 , the total construction cost expenditure to date, the construction cost breakdown by construction type, the construction cost breakdown by company, and the construction cost breakdown by site may be provided. In addition, in the area 910 , the predicted completion date is displayed so that it can be immediately compared with the target construction deadline. In addition, in the area 920, when it is determined that the extension of the construction period is necessary, the total construction cost that is additionally expected to occur, the construction cost for each construction type, the construction cost for each company, the construction cost for each site, etc. may be provided.

Through this, based on the construction progress and construction histories of construction companies grasped in real time after the start of construction, whether the construction period will be extended and additional construction costs can be predicted, and information on this can be specifically provided.

In addition, although not described in FIG. 5 , a step of transmitting and receiving additional information by the server 110 and the manager device 120 to manage the construction situation may be additionally performed. That is, the manager device 120 may transmit information enabling the server 110 to more accurately determine and predict the construction progress and cost information prior to the start of construction. For example, information about the site and the person in charge, including site purchase contract information, information about the site, site agent information, interior information, personal information of an architect, and civil design information, may be input by the manager device 120 . . In addition, drawing information including an approval plan drawing, a permit drawing, an interior drawing, and a building plan may be input by the manager device 120 . In addition, material information including the selected material list may be input by the manager device 120 . In addition, documents related to subcontracts with final construction companies may be input by the manager device 120 . The above-described information has been described as an example, and additional information that can be input to the manager device 120 is not limited thereto.

Methods according to the embodiments described in the claims or specifications of the present disclosure may be implemented in the form of hardware, software, or a combination of hardware and software.

When implemented in software, a computer-readable storage medium storing one or more programs (software modules) may be provided. One or more programs stored in the computer-readable storage medium are configured to be executable by one or more processors in an electronic device (device). One or more programs include instructions for causing an electronic device to execute methods according to embodiments described in a claim or specification of the present disclosure.

Such programs (software modules, software) include random access memory, non-volatile memory including flash memory, read only memory (ROM), electrically erasable programmable ROM (electrically erasable programmable read only memory, EEPROM), magnetic disc storage device, compact disc-ROM (CD-ROM), digital versatile discs (DVDs), or other It may be stored in an optical storage device or a magnetic cassette. Alternatively, it may be stored in a memory composed of a combination of some or all thereof. In addition, each configuration memory may be included in plurality.

In addition, the program is transmitted through a communication network consisting of a communication network such as the Internet, an intranet, a local area network (LAN), a wide area network (WAN), or a storage area network (SAN), or a combination thereof. It may be stored on an attachable storage device that can be accessed. Such a storage device may be connected to a device implementing an embodiment of the present disclosure through an external port. In addition, a separate storage device on the communication network may be connected to the device implementing the embodiment of the present disclosure.

In the specific embodiments of the present disclosure described above, elements included in the disclosure are expressed in the singular or plural according to the specific embodiments presented. However, the singular or plural expression is appropriately selected for the context presented for convenience of description, and the present disclosure is not limited to the singular or plural component, and even if the component is expressed in plural, it is composed of the singular or singular. Even an expressed component may be composed of a plurality of components.

Meanwhile, although specific embodiments have been described in the detailed description of the present disclosure, various modifications are possible without departing from the scope of the present disclosure. Therefore, the scope of the present disclosure should not be limited to the described embodiments and should be defined by the claims described below as well as the claims and equivalents.

110: server, 120: manager device, 130-1 to 130-N: construction company devices, 210: communication unit, 220: control unit, 230: storage unit

Claims (10)

In the method of providing a building process management service using a building process management system including a manager device, a server, and a construction company device,
Based on the login to the server of the manager device, the step of identifying the manager information of the manager device, including the initial subscription information and the past construction history of the manager, stored in the server;
Transmitting construction status information periodically from each of the construction company devices to the manager device while the construction is in progress; and
Transmitting the real-time process progress status and cost information regarding the construction from the server to the manager device based on the construction status information and the construction histories of the construction companies,
The real-time process progress is
information about progress, representing the ratio of the current construction progress to the target construction deadline; and
Based on the construction histories of the construction companies and the progress status, including information on the need for extension of the period indicating whether the construction period should be extended,
The cost information is
When it is determined that the construction period does not need to be extended, information on the cost of the construction progressed to date and the ratio of the cost to the target budget of the construction is included,
When it is determined that the construction period should be extended, information on additional construction costs predicted in consideration of the extended construction period is further included
How to provide building process management services. The method of claim 1,
The cost information is
Characterized in that it further comprises at least one of construction cost breakdown by construction type, construction cost breakdown by company, and construction cost breakdown by site
How to provide building process management services. The method of claim 1,
transmitting, from the manager device to the server, the construction target data regarding the construction and the priority setting status for the construction company selection criteria;
determining, in the management device, a priority for the construction company selection criteria based on the priority setting state and the manager information;
In the server, through machine learning, based on one of the priority and the construction company selection criteria, extracting candidate construction companies by construction type from among the construction companies whose construction histories are stored in the server;
extracting, in the server, a final construction company combination from among the candidate construction companies for each construction type, based on the remaining criteria among the priority and the construction company selection criteria; and
Including; from the server to the manager device, the extracted final construction company combination is transmitted;
The construction target data for the above construction is
including a target budget, one of target profit margin or target profit, target start date, target construction deadline, and building information;
The criteria for selecting a contractor are
including construction deadline criteria, construction profit criteria, and construction quality criteria;
A method of providing a building process management service by the server. 4. The method of claim 3,
The priority setting state is a first state in which the initial priority is not input for the construction company selection criteria by the manager device, and the initial priority is input for the construction company selection criteria by the manager device comprising a second state;
A method of providing a building process management service by the server. 5. The method of claim 4,
The step of determining the priority with respect to the construction company selection criteria,
When the priority setting state is the first state, determining the priority by estimating the manager's preference for the construction company selection criteria from the manager's initial subscription information and past construction history doing
A method of providing a building process management service by the server. 6. The method of claim 5,
The step of determining the priority with respect to the construction company selection criteria,
If the priority setting state is the second state, based on the manager's preference estimated from the manager's initial subscription information and past construction history, determining the priority by adjusting the initial priority Including, a method of providing a building process management service by the server. 5. The method of claim 4,
The step of extracting candidate construction companies by construction type from among the construction companies whose construction histories are stored in the server,
Based on whether the expected construction period for each construction type of the construction companies by construction type meets the construction deadline criterion, which reflects the threshold value that can be changed according to the priority, the step of extracting the candidate construction companies by construction type from among the construction companies by construction type including,
The expected construction period for each construction type is obtained from the construction histories stored in the server, a method of providing a construction process management service by the server. 5. The method of claim 4,
The step of extracting the final construction company combination from among the candidate construction companies by construction type,
calculating a construction cost grade and a construction quality score for the candidate construction companies by construction type based on the construction histories; and
Selecting a construction cost class corresponding to the priority and taking into account the construction quality scores of construction companies belonging to the construction cost class, extracting the final construction company combination from among the candidate construction companies for each construction type, the server By providing construction process management services. 9. The method of claim 8,
The construction quality score is changeable based on the evaluation score input from the manager device after the completion of the construction, the construction process management service providing method by the server. The construction process management system to which the process management service providing method of claim 1 is applied.

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