CN116151771A - Construction project management and control method and system under multi-configuration heterogeneous Internet of things - Google Patents

Abstract

The invention discloses a construction project management and control method and system under a multi-configuration heterogeneous internet of things, and relates to the field of data processing, wherein the method comprises the following steps: acquiring management and control data information of a target construction project through a data acquisition unit; acquiring management and control data integration information and visually presenting the management and control data integration information; constructing a construction project BIM analysis model of a target construction project; inputting the management and control data integration information into a construction project BIM analysis model through an analysis unit for simulation, and obtaining a model output result; obtaining a project comparison result through a prompting unit, and prompting the project comparison result to a user; and managing and controlling the target construction project based on the project comparison result. The accuracy and the accuracy of the management and control of the construction project are improved, and the efficiency and the quality of the management and control of the construction project are further improved; the construction site of the construction project is effectively controlled, and the technical effect of the construction site condition of the construction project is improved.

Description

Construction project management and control method and system under multi-configuration heterogeneous Internet of things

Technical Field

The invention relates to the field of data processing, in particular to a method and a system for managing and controlling a construction project under a multi-configuration heterogeneous Internet of things.

Background

As the number of construction projects increases dramatically, the complexity of construction projects continues to increase, presenting greater challenges to the management of construction projects. The management and control of the construction project are to effectively plan, decide, organize, coordinate, control and the like the construction project by adopting scientific theory, viewpoint and method in the construction period of the construction project, thereby realizing the construction target of the construction project. The internet of things is an information carrier based on the internet, a traditional telecommunication network, etc. The internet of things can acquire information required by management and control of construction items in real time through various devices and technologies such as an information sensor, a radio frequency identification technology and the like, and intelligently perceives, identifies and manages the information. The Internet of things is combined with construction project management and control, and the method for optimizing construction project management and control is designed, so that the method has important practical significance.

In the prior art, the control accuracy of the construction project is not high, and the control effect of the construction project is poor, so that the technical problem that the construction site of the construction project can not be effectively controlled is solved.

Disclosure of Invention

The application provides a construction project management and control method and system under a multi-configuration heterogeneous internet of things, which solve the technical problems that in the prior art, the management and control accuracy of construction projects is not high, and further the management and control effect of the construction projects is poor, so that the construction sites of the construction projects cannot be effectively managed and controlled.

In view of the above problems, the present application provides a method and a system for controlling a construction project under a multi-configuration heterogeneous internet of things.

In a first aspect, the present application provides a method for controlling a construction project under a multi-configuration heterogeneous internet of things, where the method is applied to a construction project control system under a multi-configuration heterogeneous internet of things, the method includes: the construction project management and control system is a multi-configuration heterogeneous system formed by combining different types of servers and comprises a data acquisition unit, an analysis unit and a prompt unit; acquiring management and control data information of a target construction project through the data acquisition unit, wherein the management and control data information of the target construction project comprises video monitoring data, hidden danger investigation data, monitoring and control data, scheduling management data and personnel positioning data; integrating the video monitoring data, the hidden danger investigation data, the monitoring data and the personnel positioning data based on a data application level to obtain management and control data integration information, and visually presenting the management and control data integration information; constructing a construction project BIM analysis model of the target construction project according to project construction resources and project site arrangement schemes; inputting the management and control data integration information into the construction project BIM analysis model through the analysis unit for simulation to obtain a model output result, wherein the model output result comprises a construction project management and control analysis result; comparing the project management and control plan target with the construction project management and control analysis result through the prompting unit to obtain a project comparison result, and prompting the project comparison result to a user; and managing the target construction project based on the project comparison result.

In a second aspect, the present application also provides a system for controlling a construction project under a multi-configuration heterogeneous internet of things, wherein the system comprises: the construction module is used for the construction project management and control system to be a multi-configuration heterogeneous system formed by combining different types of servers and comprises a data acquisition unit, an analysis unit and a prompt unit; the data acquisition module is used for acquiring management and control data information of a target construction project through the data acquisition unit, wherein the management and control data information of the target construction project comprises video monitoring data, hidden danger investigation data, monitoring and control data, scheduling management data and personnel positioning data; the presentation module is used for integrating the video monitoring data, the hidden danger investigation data, the monitoring data and the personnel positioning data based on a data application level to obtain management and control data integration information, and visually presenting the management and control data integration information;

the construction module is used for constructing a construction project BIM analysis model of the target construction project according to project construction resources and project site arrangement schemes; the output module is used for inputting the management and control data integration information into the construction project BIM analysis model through the analysis unit to simulate, and obtaining a model output result, wherein the model output result comprises a construction project management and control analysis result; the comparison module is used for comparing the project management and control plan target with the construction project management and control analysis result through the prompting unit, obtaining a project comparison result and prompting the project comparison result to a user; and the management and control module is used for managing and controlling the target construction project based on the project comparison result.

One or more technical solutions provided in the present application have at least the following technical effects or advantages:

acquiring management and control data information of a target construction project through a data acquisition unit, integrating the management and control data information based on a data application level, acquiring management and control data integration information, and visually presenting the management and control data integration information; constructing a construction project BIM analysis model of a target construction project according to project construction resources and project site arrangement schemes; inputting the management and control data integration information into a construction project BIM analysis model by using an analysis unit to simulate, and obtaining a construction project management and control analysis result; and comparing the project management and control plan target with the construction project management and control analysis result through the prompting unit, determining a project comparison result, and further managing and controlling the target construction project. The accuracy and the accuracy of the management and control of the construction project are improved, and the efficiency and the quality of the management and control of the construction project are further improved; the construction site of the construction project is effectively controlled, and the technical effect of the construction site condition of the construction project is improved.

Drawings

FIG. 1 is a schematic flow chart of a method for controlling construction projects under a multi-configuration heterogeneous Internet of things;

FIG. 2 is a schematic flow chart of a method for controlling construction projects under a multi-configuration heterogeneous Internet of things, wherein the method outputs a control analysis result of the construction projects;

FIG. 3 is a schematic flow chart of optimizing configuration of a target construction project in a method for managing and controlling construction projects under a multi-configuration heterogeneous Internet of things;

fig. 4 is a schematic structural diagram of a construction project management and control system under a multi-configuration heterogeneous internet of things.

Reference numerals illustrate: the system comprises a module 11, a data acquisition module 12, a presentation module 13, a construction module 14, an output module 15, a comparison module 16 and a management and control module 17.

Detailed Description

The method and the system for controlling the construction project under the multi-configuration heterogeneous internet of things solve the technical problems that in the prior art, the control accuracy of the construction project is low, and further the control effect of the construction project is poor, so that the construction site of the construction project cannot be effectively controlled. The accuracy and the accuracy of the management and control of the construction project are improved, and the efficiency and the quality of the management and control of the construction project are further improved; the construction site of the construction project is effectively controlled, and the technical effect of the construction site condition of the construction project is improved.

Examples

Referring to fig. 1, the present application provides a method for controlling a construction project under a multi-configuration heterogeneous internet, wherein the method is applied to a construction project control system under a multi-configuration heterogeneous internet, and the method specifically includes the following steps:

step S100: the construction project management and control system is a multi-configuration heterogeneous system formed by combining different types of servers and comprises a data acquisition unit, an analysis unit and a prompt unit;

step S200: acquiring management and control data information of a target construction project through the data acquisition unit, wherein the management and control data information of the target construction project comprises video monitoring data, hidden danger investigation data, monitoring and control data, scheduling management data and personnel positioning data;

specifically, the construction project management and control system under the multi-configuration heterogeneous Internet of things comprises a data acquisition unit, an analysis unit and a prompt unit. The construction project management and control system is an intelligent multi-configuration heterogeneous system formed by combining different types of servers such as BIM servers, GIS servers and the like. By way of example, the data acquisition unit can acquire data and update synchronous data of the target construction project, and control data information of the target construction project is obtained. The analysis unit can receive hidden trouble investigation data, monitoring and monitoring data, personnel positioning data and other data information collected by different types of servers, and performs calculation and analysis on the hidden trouble investigation data, the monitoring and monitoring data, the personnel positioning data and other aspects of time planning, resource allocation, cost approval, material management and control and the like, so that accurate management and control of target construction projects are realized. The planning data of the target construction project can be compared with the real-time on-site data through the prompting unit, and the user is adaptively prompted according to the comparison result. The management and control data information of the target construction project comprises video monitoring data, hidden danger investigation data, monitoring and control data, scheduling management data and personnel positioning data. The target construction project can be any construction project which uses the construction project management and control system under the multi-component heterogeneous internet of things to conduct intelligent project management and control. For example, the target construction project may be a railway station improvement project, a teaching building construction project, or the like. The multi-configuration heterogeneous composition of the construction project management and control system is determined, and the more reliable management and control data information of the target construction project is obtained through the data acquisition unit, so that the technical effect of providing data support for follow-up intelligent project management and control is achieved.

Further, step S200 of the present application further includes:

step S210: acquiring basic information of project constructors, wherein the basic information of the project constructors comprises names, personnel numbers, identity card numbers, addresses, on-duty certificates and personnel close-up;

step S220: distributing a safety helmet to the project constructor based on the basic information, wherein the safety helmet comprises a personnel identification chip, and the personnel identification chip is associated with the basic information of the project constructor;

step S230: installing safety helmet positioning equipment and face recognition equipment on a construction site of the target construction project, and acquiring personnel positioning track information and face access control identification information through the safety helmet positioning equipment and the face recognition equipment;

step S240: uploading the personnel positioning track information and the face access control identification information to a cloud platform for data analysis to obtain constructor monitoring data information;

step S250: and when the monitoring data information of the constructors is abnormal, an early warning instruction is sent out, and personnel safety risks are prompted according to the early warning instruction.

Specifically, when personnel positioning data is obtained, safety helmets are distributed to project constructors according to basic information of the project constructors. Furthermore, the safety helmet positioning equipment and the face recognition equipment are installed on the construction site of the target construction project, and the safety helmet positioning equipment and the face recognition equipment are in data butt joint with the cloud platform. Meanwhile, based on the actual conditions of the construction site of the target construction project, the safety helmet positioning equipment and the face recognition equipment can be in communication connection with the cloud platform by adopting a 4G network (or a 5G network and the like), so that the maintenance cost of the network is reduced. And then, carrying out data acquisition by using the safety helmet positioning equipment and the face recognition equipment, determining personnel positioning track information and face access control recognition information, and transmitting the personnel positioning track information and the face access control recognition information to a cloud platform for data analysis to obtain constructor monitoring data information.

In addition, the cloud platform can be utilized to query specific position information, distribution area information, all-day movement tracks and the like of project constructors in real time. Safety management of project constructors can be achieved through constructor monitoring data information, and if the constructor monitoring data information is abnormal, early warning instructions are utilized to prompt personnel safety risks. When a project constructor enters a dangerous area of a construction site, an early warning instruction can be sent to a safety helmet of the project constructor through a cloud platform to prompt the project constructor to have safety risks, so that the project constructor is informed of timely evacuating the dangerous area; when the cloud platform displays that project constructors stay at a certain position of the construction site for a long time, an early warning instruction can be sent to the manager of the construction site, and the manager of the construction site is reminded to enter the construction site in time to check whether abnormality occurs.

The basic information of the project constructors comprises names, personnel numbers, identity card numbers, addresses, on-duty certificates and personnel close-up. For example, when a constructor first enters a construction site of a target construction project, a handheld real-name registration device can be used for scanning the identity card of the constructor of the project, inputting information such as personnel name, identity card number, address and the like, and scanning an on-duty certificate and collecting and retaining close-up of personnel. The on-duty certificate can provide reference information for the distribution of special work types in a construction site, and personnel can collect close-up images for subsequent face recognition equipment. In addition, each safety helmet is provided with a unique personnel identification chip, and the personnel identification chip is associated with basic information (name, personnel number, identity card number and the like) of project constructors, so that the unification of the project constructors and the safety helmet is realized. The construction site of the target construction project is the actual construction site of the target construction project. The safety helmet positioning equipment can be an intelligent positioning safety helmet, a GPS positioning safety helmet and the like in the prior art. The face recognition device can be face recognition devices such as face recognition gates in the prior art. The personnel positioning track information comprises real-time position information, actual activity track and other data information of project constructors, which are obtained through the safety helmet positioning equipment. The face access control identification information comprises data information such as face identification results, face identification time and the like of project constructors obtained through face identification equipment. The constructor monitoring data information comprises data information after intelligent analysis of personnel positioning track information and face access control identification information by utilizing a cloud platform. The personnel positioning data comprises construction personnel monitoring data information. The intelligent data analysis of personnel identification chips, safety helmet positioning equipment, face recognition equipment and a cloud platform of the safety helmet is achieved, accurate data acquisition is achieved, and the technical effect of high-accuracy personnel positioning data is achieved.

Step S300: integrating the video monitoring data, the hidden danger investigation data, the monitoring data and the personnel positioning data based on a data application level to obtain management and control data integration information, and visually presenting the management and control data integration information;

further, step S300 of the present application further includes:

step S310: the functional modules of the construction project management and control system comprise an on-line management and control module, a comprehensive statistics module, an auxiliary functional module and a data reporting module;

specifically, the construction project management and control system under the multi-configuration heterogeneous Internet of things further comprises a data application level functional module composed of an on-line management and control module, a comprehensive statistics module, an auxiliary functional module and a data reporting module, and the on-line management and control module, the comprehensive statistics module, the auxiliary functional module and the data reporting module are intelligently scheduled to perform cooperative work through the functional module, so that management and control data information of a target construction project can be accurately and efficiently integrated, displayed, recorded, reported and the like, and the efficiency and quality of management and control of the target construction project are effectively improved.

Step S320: the on-line management and control module comprises a three-dimensional display module based on GIS (geographic information system) and a two-dimensional display module based on GIS map, the on-line management and control module is used for integrally acquiring the management and control data integration information, and the management and control data integration information is visually presented based on the three-dimensional display module and the two-dimensional display module;

Further, step S320 of the present application further includes:

step S321: the online management and control module further comprises a scheduling management sub-module, a video monitoring sub-module and a monitoring measurement sub-module;

step S322: acquiring scheduling data information of the target construction project through the scheduling management sub-module;

step S323: counting the scheduling data information according to a preset summarizing period to obtain summarized period scheduling data information, and outputting the summarized period scheduling data information according to a scheduling template rule to obtain the scheduling management data;

step S324: the video monitoring data and the monitoring data are respectively obtained through the video monitoring sub-module and the monitoring measurement sub-module;

step S325: and acquiring the management and control data integration information based on the scheduling management data, the video monitoring data and the monitoring and control data.

Specifically, in the functional module of the construction project management and control system under the multi-configuration heterogeneous internet of things in the application, the on-line management and control module is composed of a two-dimensional display module based on a GIS map, a scheduling management sub-module, a video monitoring sub-module and a monitoring measurement sub-module based on a GIS+BIM three-dimensional display module. And determining the scheduling data information of the target construction project by using a scheduling management sub-module, counting the scheduling data information according to a preset summarizing period to obtain the scheduling data information of the summarizing period, and reporting and outputting the scheduling data information of the summarizing period by using a scheduling template rule to determine scheduling management data. Further, video monitoring data are obtained through the video monitoring sub-module, monitoring data are obtained through the monitoring sub-module, and management data are combined with scheduling management data to determine management data integration information. And furthermore, the management and control data integration information is visually presented through a three-dimensional display module based on GIS and BIM and a two-dimensional display module based on a GIS map. By way of example, the three-dimensional display module and the two-dimensional display module can be utilized to convert the management and control data integration information into a visual engineering drawing, so that the image display and inquiry of the management and control data integration information are realized, the technical effects of remote monitoring and visual monitoring are achieved, and the management and control quality of a target construction project is improved.

The scheduling data information comprises data information such as construction yield values, actual construction progress, construction plan progress and the like of a target construction project. The preset summarization period can be adaptively set by the scheduling management submodule according to actual conditions. For example, the preset summary period may be week, month, season, year. The schedule data information in the summarization period comprises a plurality of schedule data information in a preset summarization period. The dispatching template rule comprises template information preset by a dispatching management submodule and a summarization analysis rule of dispatching management data. For example, the scheduling template rule may be a specific chart format or a data collection rule of scheduling management data, etc. And the scheduling management data comprises scheduling data information in a summary period corresponding to the scheduling template rule. Illustratively, the scheduling management sub-module may analyze the scheduling data information during the summary period according to the scheduling template rule, and output the scheduling management data required by the construction site of the target construction project. The monitoring and monitoring data comprises monitoring and monitoring data information obtained by comprehensively monitoring the construction site of a target construction project by adopting the technologies such as an internet technology, a Bluetooth communication technology, a database technology, a two-dimensional code technology, a GPS positioning technology and the like through a monitoring and monitoring sub-module. The management and control data integration information comprises scheduling management data, video monitoring data and monitoring data. The method achieves the technical effect of obtaining more accurate management and control data integration information and laying a foundation for obtaining management and control analysis results of construction projects subsequently.

Further, step S324 of the present application further includes:

step S3241: acquiring construction map information of the target construction project;

step S3242: performing safety influence evaluation on each construction part in the construction map information to obtain a construction part safety level;

step S3243: monitoring each construction part through the video monitoring sub-module to obtain construction part monitoring video information, and integrating the construction part monitoring video information to obtain the video monitoring data;

step S3244: uploading the video surveillance data to the construction project management and control system based on the construction site security level.

Specifically, video monitoring has important significance for safety precaution, management and control and the like of a construction site of a target construction project. The video monitoring submodule in the application can be used for directly monitoring the construction condition of the important construction part related to safety in the construction site of the target construction project. And acquiring construction map information of the target construction project by utilizing the video monitoring submodule, evaluating the safety influence of each construction part in the construction map information, and determining the safety level of the construction part. Further, each construction part in the construction map information is monitored by utilizing the video monitoring sub-module, the construction part monitoring video information is determined, and video monitoring data are obtained after integration. And then uploading the video monitoring data to the construction project management and control system according to the construction site security level. The video monitoring submodule comprises a video camera, a site monitoring room, a line command part and the like of a construction site of a target construction project. The construction map information of the target construction project comprises data information such as real-time construction conditions, construction building progress, positions of construction parts and the like of a construction site of the target construction project. The construction site security level is data information for characterizing the security of each construction site in the construction map information. The construction site monitoring video information comprises video monitoring data information of each construction site. The video monitoring data comprises video monitoring data information of all construction parts. The video monitoring data with higher accuracy are obtained, the control accuracy of the target construction project is improved, the safety quality management level of the construction site of the target construction project is further improved, and the technical effect of safe civilized construction is achieved.

Step S330: based on the management and control data integration information, the comprehensive statistics module performs data statistics display according to management and control project requirements;

step S340: the enterprise project user uploads and inputs data through the auxiliary function module according to the management authority level;

step S350: and reporting the input data by the enterprise project user based on the data reporting module.

Specifically, the comprehensive statistics module in the functional module can carry out integrated unified management on the obtained management and control data integration information, and the comprehensive statistics module can rapidly display the management and control data integration information in a chart form according to the management and control project requirement, so that all levels of managers of the target construction project can timely and comprehensively master the overall situation of the target construction project. Furthermore, auxiliary functions such as document transmission, drawing sharing, quick report inquiry and the like can be realized through auxiliary functional modules in the functional modules. Meanwhile, the enterprise project users can upload and input data such as quick report information, investigation data, design data, construction data, address book and the like to the auxiliary function module according to the management authority level, so that other users can conveniently inquire and read the data. Furthermore, the enterprise project user can report the recorded data through the data reporting module in the functional module. The control project needs can be adaptively set by the comprehensive statistics module according to the actual control situation of the target construction project. The enterprise project users include any enterprise users that use the building project management and control system under the multi-modal heterogeneous internet of things to conduct intelligent building project management and control. The management authority level is the preset use authority of the auxiliary functional module according to the positions of all staff in the enterprise project user. The technical effects of accurately managing data through the comprehensive statistics module, the auxiliary function module and the data reporting module and improving the management and control quality of the target construction project are achieved.

Step S400: constructing a construction project BIM analysis model of the target construction project according to project construction resources and project site arrangement schemes;

specifically, based on project construction resources and project site arrangement schemes, BIM modeling software such as Rhino, sketchup, form Z and the like can be adopted to construct a construction project BIM analysis model of a target construction project. The project construction resources comprise data information such as human resources, material resources, mechanical equipment resources and the like of the target construction project. The project site layout scheme comprises data information such as site positions, site layout conditions, site structure compositions and the like of construction sites of each construction stage of a target construction project. The technical effect of creating a construction project BIM analysis model and providing data support for simulating management and control data integration information by using the construction project BIM analysis model is achieved.

Step S500: inputting the management and control data integration information into the construction project BIM analysis model through the analysis unit for simulation to obtain a model output result, wherein the model output result comprises a construction project management and control analysis result;

further, as shown in fig. 2, step S500 of the present application further includes:

Step S510: the construction project BIM analysis model is a three-dimensional project analysis model and comprises a project cost management analysis model, a project progress management analysis model and a project construction safety analysis model;

step S520: inputting the management and control data integration information into the construction project BIM analysis model, and respectively obtaining a project cost management analysis result, a project progress management analysis result and a project construction safety analysis result according to the construction project BIM analysis model;

step S530: and outputting the construction project management and control analysis result according to the project cost management analysis result, the project progress management analysis result and the project construction safety analysis result.

Specifically, the obtained management and control data integration information is transmitted to a construction project BIM analysis model by an analysis unit for simulation, the construction project BIM analysis model is a three-dimensional project analysis model consisting of a project cost management analysis model, a project progress management analysis model and a project construction safety analysis model, the project cost management analysis model, the project progress management analysis model and the project construction safety analysis model can respectively carry out complex and efficient calculation on the management and control data integration information to obtain a project cost management analysis result, a project progress management analysis result and a project construction safety analysis result, and then the construction project management and control analysis result is determined. The construction project management analysis results comprise project cost management analysis results, project progress management analysis results and project construction safety analysis results. The project cost management analysis result comprises project cost management quality, project cost management efficiency and other data information corresponding to management and control data integration information output by the project cost management analysis model. The project progress management analysis result comprises parameter information such as adaptability and rationality of the project progress corresponding to the management and control data integration information. The project construction safety analysis result comprises project construction safety corresponding to management and control data integration information, whether potential safety hazards exist or not and other data information. The technical effects of obtaining construction project management and control analysis results with higher accuracy and reliability by using the construction project BIM analysis model and further improving management and control accuracy of target construction projects are achieved.

Further, as shown in fig. 3, step S500 of the present application further includes:

step S540: based on the construction project management and control analysis result, obtaining construction influence factors;

step S550: performing grade evaluation on the construction influence factors to obtain construction influence grades;

step S560: determining construction influence parameters according to the construction influence factors and the construction influence grades, and formulating project management and control optimization schemes based on the construction influence parameters;

step S570: and optimizing and configuring the target construction project based on the project management and control optimizing scheme.

Specifically, after the construction project management analysis result is obtained, the analysis unit can intelligently analyze the construction project management analysis result to determine construction influence factors, and perform grade evaluation on the construction influence factors to determine construction influence grades. Based on the construction influence parameters, project management and control optimization schemes are designed according to the construction influence parameters. The project management and control optimization scheme is used for optimizing and configuring the target construction project, and the target construction project can be further managed and controlled, so that the effective management and control of the construction site of the target construction project is realized. The construction influence factors comprise data information which influences the actual construction progress of the target construction project, such as personnel management, weather factors, construction materials and the like. The construction influence level is parameter information for characterizing the importance degree of the construction influence factor. Illustratively, the higher the construction impact level corresponding to a construction impact factor, the higher the importance of the construction impact factor. The construction influence parameters comprise construction influence factors and construction influence grades. The project management and control optimization scheme comprises a specific method, steps and the like for optimizing construction influence parameters. The technical effect of adaptively optimizing and configuring the target construction project through the project management and control optimizing scheme and improving the management and control quality of the construction site of the target construction project is achieved.

Step S600: comparing the project management and control plan target with the construction project management and control analysis result through the prompting unit to obtain a project comparison result, and prompting the project comparison result to a user;

step S700: and managing the target construction project based on the project comparison result.

Specifically, the construction project management and control analysis result is transmitted to the prompting unit, the project comparison result is determined through comparison between the construction project management and control analysis result and the project management and control plan target, the user is prompted, and the target construction project is managed and controlled through the project comparison result. The project management and control plan target is determined by a construction project management and control system under the multi-configuration heterogeneous internet of things according to the management and control requirement of the target construction project. The project management and control plan target comprises data information such as time plan, resource allocation, material management and control, cost management and control and the like of a target construction project. The project comparison result comprises data information which is different from a project management and control plan target in a construction project management and control analysis result. The technical effect of managing and controlling the target construction project with higher adaptation degree according to the project comparison result is achieved, and the accuracy of managing and controlling the target construction project is improved.

In summary, the construction project management and control method under the multi-configuration heterogeneous internet of things provided by the application has the following technical effects:

acquiring management and control data information of a target construction project through a data acquisition unit, integrating the management and control data information based on a data application level, acquiring management and control data integration information, and visually presenting the management and control data integration information; constructing a construction project BIM analysis model of a target construction project according to project construction resources and project site arrangement schemes; inputting the management and control data integration information into a construction project BIM analysis model by using an analysis unit to simulate, and obtaining a construction project management and control analysis result; and comparing the project management and control plan target with the construction project management and control analysis result through the prompting unit, determining a project comparison result, and further managing and controlling the target construction project. The accuracy and the accuracy of the management and control of the construction project are improved, and the efficiency and the quality of the management and control of the construction project are further improved; the construction site of the construction project is effectively controlled, and the technical effect of the construction site condition of the construction project is improved.

Examples

Based on the same inventive concept as the method for controlling a construction project under a multi-configuration heterogeneous internet of things in the foregoing embodiment, the present invention further provides a system for controlling a construction project under a multi-configuration heterogeneous internet of things, referring to fig. 4, where the system includes:

The construction module 11 is used for the construction project management and control system, is a multi-configuration heterogeneous system formed by combining different types of servers, and comprises a data acquisition unit, an analysis unit and a prompt unit;

the data acquisition module 12 is used for acquiring management and control data information of the target construction project through the data acquisition unit, wherein the management and control data information of the target construction project comprises video monitoring data, hidden danger investigation data, monitoring data, scheduling management data and personnel positioning data;

the presentation module 13 is configured to integrate the video monitoring data, the hidden danger investigation data, the monitoring data, and the personnel positioning data based on a data application level, obtain management and control data integration information, and visually present the management and control data integration information;

a construction module 14, wherein the construction module 14 is used for constructing a construction project BIM analysis model of the target construction project according to project construction resources and project site arrangement schemes;

the output module 15 is configured to input the control data integration information into the construction project BIM analysis model through the analysis unit to perform simulation, so as to obtain a model output result, where the model output result includes a construction project control analysis result;

The comparison module 16 is configured to compare, by using the prompting unit, a project management and control plan target with the construction project management and control analysis result, obtain a project comparison result, and prompt a user for the project comparison result;

and the management and control module 17 is used for managing and controlling the target construction project based on the project comparison result.

Further, the system further comprises:

the basic information determining module is used for acquiring basic information of project constructors, wherein the basic information of the project constructors comprises names, personnel numbers, identity card numbers, addresses, on-duty certificates and personnel close-up;

the distributing module is used for distributing safety helmets to project construction personnel based on the basic information, the safety helmets comprise personnel identification chips, and the personnel identification chips are associated with the basic information of the project construction personnel;

the installation module is used for installing safety helmet positioning equipment and face recognition equipment on a construction site of the target construction project, and acquiring personnel positioning track information and face access control identification information through the safety helmet positioning equipment and the face recognition equipment;

The uploading module is used for uploading the personnel positioning track information and the face access control identification information to a cloud platform for data analysis to obtain constructor monitoring data information;

and the early warning module is used for sending an early warning instruction when the monitoring data information of the constructor is abnormal, and prompting personnel safety risk according to the early warning instruction.

Further, the system further comprises:

the functional composition module is used for building the functional module of the project management and control system and comprises an on-line management and control module, a comprehensive statistics module, an auxiliary functional module and a data reporting module;

the visualization module is used for the on-line management and control module to comprise a three-dimensional display module based on GIS+BIM and a two-dimensional display module based on GIS map, the management and control data integration information is obtained through the on-line management and control module integration, and the management and control data integration information is visually presented based on the three-dimensional display module and the two-dimensional display module;

the statistics display module is used for integrating information based on the control data, and the comprehensive statistics module performs data statistics display according to the control project requirement;

The input module is used for uploading and inputting data of enterprise project users through the auxiliary function module according to the management authority level;

and the reporting module is used for reporting the input data of the enterprise project users based on the data reporting module.

Further, the system further comprises:

the management and control composition module is used for the online management and control module and further comprises a scheduling management sub-module, a video monitoring sub-module and a monitoring measurement sub-module;

the scheduling module is used for acquiring scheduling data information of the target construction project through the scheduling management sub-module;

the scheduling management data determining module is used for counting the scheduling data information according to a preset summarizing period to obtain summarized period scheduling data information, and reporting and outputting the summarized period scheduling data information according to a scheduling template rule to obtain the scheduling management data;

the monitoring data determining module is used for respectively acquiring the video monitoring data and the monitoring data through the video monitoring sub-module and the monitoring measurement sub-module;

And the coordinate information determining module is used for obtaining the management and control data integration information based on the scheduling management data, the video monitoring data and the monitoring and control data.

Further, the system further comprises:

the construction map determining module is used for obtaining construction map information of the target construction project;

the safety influence evaluation module is used for evaluating the safety influence of each construction part in the construction map information to obtain a construction part safety level;

the monitoring module is used for monitoring each construction part through the video monitoring sub-module to obtain construction part monitoring video information, and integrating the construction part monitoring video information to obtain the video monitoring data;

and the data uploading module is used for uploading the video monitoring data to the construction project management and control system based on the construction site security level.

Further, the system further comprises:

the analysis model composition module is used for the construction project BIM analysis model to be a three-dimensional project analysis model and comprises a project cost management analysis model, a project progress management analysis model and a project construction safety analysis model;

The analysis result determining module is used for inputting the management and control data integration information into the construction project BIM analysis model, and respectively obtaining a project cost management analysis result, a project progress management analysis result and a project construction safety analysis result according to the construction project BIM analysis model;

and the management and control analysis result determining module is used for outputting the construction project management and control analysis result according to the project cost management analysis result, the project progress management analysis result and the project construction safety analysis result.

Further, the system further comprises:

the construction influence factor determining module is used for obtaining construction influence factors based on the construction project management and control analysis result;

the grade evaluation module is used for carrying out grade evaluation on the construction influence factors to obtain construction influence grades;

the optimization scheme determining module is used for determining construction influence parameters according to the construction influence factors and the construction influence grades, and formulating project management and control optimization schemes based on the construction influence parameters;

And the optimal configuration module is used for optimally configuring the target construction project based on the project management and control optimization scheme.

The application provides a construction project management and control method under a multi-configuration heterogeneous internet of things, wherein the method is applied to a construction project management and control system under the multi-configuration heterogeneous internet of things, and the method comprises the following steps: acquiring management and control data information of a target construction project through a data acquisition unit, integrating the management and control data information based on a data application level, acquiring management and control data integration information, and visually presenting the management and control data integration information; constructing a construction project BIM analysis model of a target construction project according to project construction resources and project site arrangement schemes; inputting the management and control data integration information into a construction project BIM analysis model by using an analysis unit to simulate, and obtaining a construction project management and control analysis result; and comparing the project management and control plan target with the construction project management and control analysis result through the prompting unit, determining a project comparison result, and further managing and controlling the target construction project. The technical problems that in the prior art, the control accuracy of the construction project is not high, and the control effect of the construction project is poor, so that the construction site of the construction project cannot be effectively controlled are solved. The accuracy and the accuracy of the management and control of the construction project are improved, and the efficiency and the quality of the management and control of the construction project are further improved; the construction site of the construction project is effectively controlled, and the technical effect of the construction site condition of the construction project is improved.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The specification and drawings are merely exemplary illustrations of the present application, and the present invention is intended to cover such modifications and variations if they fall within the scope of the invention and its equivalents.

Claims (8)

1. A method for controlling a construction project under a multi-configuration heterogeneous internet of things, the method being applied to a construction project control system, the method comprising:

the construction project management and control system is a multi-configuration heterogeneous system formed by combining different types of servers and comprises a data acquisition unit, an analysis unit and a prompt unit;

acquiring management and control data information of a target construction project through the data acquisition unit, wherein the management and control data information of the target construction project comprises video monitoring data, hidden danger investigation data, monitoring and control data, scheduling management data and personnel positioning data;

Integrating the video monitoring data, the hidden danger investigation data, the monitoring data and the personnel positioning data based on a data application level to obtain management and control data integration information, and visually presenting the management and control data integration information;

constructing a construction project BIM analysis model of the target construction project according to project construction resources and project site arrangement schemes;

inputting the management and control data integration information into the construction project BIM analysis model through the analysis unit for simulation to obtain a model output result, wherein the model output result comprises a construction project management and control analysis result;

comparing the project management and control plan target with the construction project management and control analysis result through the prompting unit to obtain a project comparison result, and prompting the project comparison result to a user;

and managing the target construction project based on the project comparison result.

2. The method of claim 1, wherein the personnel location data further comprises:

acquiring basic information of project constructors, wherein the basic information of the project constructors comprises names, personnel numbers, identity card numbers, addresses, on-duty certificates and personnel close-up;

Distributing a safety helmet to the project constructor based on the basic information, wherein the safety helmet comprises a personnel identification chip, and the personnel identification chip is associated with the basic information of the project constructor;

installing safety helmet positioning equipment and face recognition equipment on a construction site of the target construction project, and acquiring personnel positioning track information and face access control identification information through the safety helmet positioning equipment and the face recognition equipment;

uploading the personnel positioning track information and the face access control identification information to a cloud platform for data analysis to obtain constructor monitoring data information;

and when the monitoring data information of the constructors is abnormal, an early warning instruction is sent out, and personnel safety risks are prompted according to the early warning instruction.

3. The method of claim 1, wherein the method comprises:

the functional modules of the construction project management and control system comprise an on-line management and control module, a comprehensive statistics module, an auxiliary functional module and a data reporting module;

the on-line management and control module comprises a three-dimensional display module based on GIS (geographic information system) and a two-dimensional display module based on GIS map, the on-line management and control module is used for integrally acquiring the management and control data integration information, and the management and control data integration information is visually presented based on the three-dimensional display module and the two-dimensional display module;

Based on the management and control data integration information, the comprehensive statistics module performs data statistics display according to management and control project requirements;

the enterprise project user uploads and inputs data through the auxiliary function module according to the management authority level;

and reporting the input data by the enterprise project user based on the data reporting module.

4. A method according to claim 3, wherein the method comprises:

the online management and control module further comprises a scheduling management sub-module, a video monitoring sub-module and a monitoring measurement sub-module;

acquiring scheduling data information of the target construction project through the scheduling management sub-module;

counting the scheduling data information according to a preset summarizing period to obtain summarized period scheduling data information, and outputting the summarized period scheduling data information according to a scheduling template rule to obtain the scheduling management data;

the video monitoring data and the monitoring data are respectively obtained through the video monitoring sub-module and the monitoring measurement sub-module;

and acquiring the management and control data integration information based on the scheduling management data, the video monitoring data and the monitoring and control data.

5. The method of claim 4, wherein the video surveillance data further comprises:

acquiring construction map information of the target construction project;

performing safety influence evaluation on each construction part in the construction map information to obtain a construction part safety level;

monitoring each construction part through the video monitoring sub-module to obtain construction part monitoring video information, and integrating the construction part monitoring video information to obtain the video monitoring data;

uploading the video surveillance data to the construction project management and control system based on the construction site security level.

6. The method of claim 1, wherein the method comprises:

the construction project BIM analysis model is a three-dimensional project analysis model and comprises a project cost management analysis model, a project progress management analysis model and a project construction safety analysis model;

inputting the management and control data integration information into the construction project BIM analysis model, and respectively obtaining a project cost management analysis result, a project progress management analysis result and a project construction safety analysis result according to the construction project BIM analysis model;

And outputting the construction project management and control analysis result according to the project cost management analysis result, the project progress management analysis result and the project construction safety analysis result.

7. The method of claim 1, wherein the method comprises:

based on the construction project management and control analysis result, obtaining construction influence factors;

performing grade evaluation on the construction influence factors to obtain construction influence grades;

determining construction influence parameters according to the construction influence factors and the construction influence grades, and formulating project management and control optimization schemes based on the construction influence parameters;

and optimizing and configuring the target construction project based on the project management and control optimizing scheme.

8. A system for controlling a construction project under a multi-modal heterogeneous internet of things, the system comprising:

the construction module is used for the construction project management and control system to be a multi-configuration heterogeneous system formed by combining different types of servers and comprises a data acquisition unit, an analysis unit and a prompt unit;

the data acquisition module is used for acquiring management and control data information of a target construction project through the data acquisition unit, wherein the management and control data information of the target construction project comprises video monitoring data, hidden danger investigation data, monitoring and control data, scheduling management data and personnel positioning data;

The presentation module is used for integrating the video monitoring data, the hidden danger investigation data, the monitoring data and the personnel positioning data based on a data application level to obtain management and control data integration information, and visually presenting the management and control data integration information;

the construction module is used for constructing a construction project BIM analysis model of the target construction project according to project construction resources and project site arrangement schemes;

the output module is used for inputting the management and control data integration information into the construction project BIM analysis model through the analysis unit to simulate, and obtaining a model output result, wherein the model output result comprises a construction project management and control analysis result;

the comparison module is used for comparing the project management and control plan target with the construction project management and control analysis result through the prompting unit, obtaining a project comparison result and prompting the project comparison result to a user;

and the management and control module is used for managing and controlling the target construction project based on the project comparison result.

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