CN118095784A - Project management method, system and storage medium - Google Patents

Abstract

The invention provides an engineering project management method, an engineering project management system and a storage medium, which belong to the technical field of project management and specifically comprise the following steps: the method comprises the steps of determining screening construction items according to the types of the construction items of the engineering items, determining weather similarity between the current date and different construction dates and reference construction dates based on weather conditions of the current date, determining environment-friendly risks of different screening construction items based on construction scales and construction time lengths of the different screening construction items, construction data of different reference construction dates and weather similarity, and determining environment-friendly prediction data at different moments according to construction plan time periods of different screening construction items when environment-friendly risks of the current date are determined to exist, wherein environment-friendly prediction data of the surrounding environment are determined based on the environment-friendly prediction data, so that environment-friendly influence of construction on the surrounding environment is reduced.

Description

Project management method, system and storage medium

Technical Field

The invention belongs to the technical field of project management, and particularly relates to an engineering project management method, an engineering project management system and a storage medium.

Background

Along with the rapid development of digital and informatization technologies, management of construction projects is gradually changed from original project materials depending on paper to an intelligent project management system, and on the basis of reducing management difficulty of project management staff, the reliability and refinement of project management are greatly improved, and meanwhile, a foundation is laid for project environment-friendly reliable management of project.

In order to solve the technical problems, the prior invention patent CN202311529341.3 provides monitoring of environmental protection influencing factors such as dust, atmospheric pollution, water quality and the like of a construction project in an engineering project construction environmental protection supervision and management system, so that the environmental protection influencing of the engineering project is reliably managed, but the following technical problems are found through analysis:

once the dust or water quality exceeds the standard, the follow-up of the environmental protection control measures is carried out, so that the influence on the air or the water quality to a certain extent is unavoidable, meanwhile, the follow-up input time of the environmental protection control measures does not meet the requirements, and the environmental protection control efficiency of the construction project is difficult to meet the requirements.

The invention provides an engineering project management method, an engineering project management system and a storage medium aiming at the technical problems.

Disclosure of Invention

In order to achieve the purpose of the invention, the invention adopts the following technical scheme:

according to one aspect of the present invention, an engineering project management method is provided.

The engineering project management method is characterized by comprising the following steps of:

S1, determining screening construction items according to the types of the construction items of the engineering items, determining weather similarity and reference construction dates of the current date and different construction dates based on weather conditions of the current date, and determining environmental protection risks of different screening construction items based on construction scales and construction time periods of different screening construction items, construction data of different reference construction dates and weather similarity;

S2, determining whether environmental protection risks exist in the current date or not based on environmental protection risks of different screening construction projects of the current date, if so, entering a step S4, and if not, entering a step S3;

S3, determining cross construction projects and adjacent construction projects in screening construction projects of the current date, and entering a next step when determining that the environment-friendly management risk exists in the current date according to the cross construction data and the environment-friendly risk of the cross construction projects of the current date and the construction data and the environment-friendly risk of the adjacent construction projects;

and S4, determining environmental protection prediction data at different moments according to construction plan time periods of different screening construction projects, and determining environmental protection control measures based on the environmental protection prediction data.

The invention has the beneficial effects that:

1. the environmental protection risks of different screening construction projects are determined based on construction scales and construction time lengths of the different screening construction projects, construction data of different reference construction dates and weather similarity, the difference of the environmental protection risks caused by the difference of the construction scales and the time lengths of the screening construction projects is considered, meanwhile, the environmental protection risks of the screening construction projects are accurately estimated from the perspective of historical data through further comparison with weather conditions and the construction data of the reference construction dates, and a foundation is laid for further accurate estimation of environmental protection risks of the current date.

2. The method and the device have the advantages that whether the environmental protection management and control risk exists in the current date or not is determined through the cross construction data and the environmental protection risk of the cross construction project on the current date, the construction data and the environmental protection risk of the adjacent construction project, so that the consideration of the construction project with the overlapping environmental protection influence from the two angles of the cross construction project and the adjacent construction project with shorter interval time is realized, and the technical problem that the evaluation result of the environmental protection management and control risk caused by the original single consideration of a certain construction project is inaccurate is solved.

3. The environmental protection prediction data is used for determining environmental protection control measures, so that the environmental protection control measures are timely accessed from the angle of the prediction data, the influence on the surrounding environment caused by too late intervention time of the original environmental protection control measures is avoided, and the environmental protection influence on the surrounding environment due to construction is further reduced.

The further technical scheme is that the screening construction project is determined according to the construction project with environmental protection influence.

Further technical solutions are that the weather conditions include, but are not limited to, temperature, humidity, wind speed and wind direction.

The further technical scheme is that the method for determining the weather similarity comprises the following steps:

And respectively obtaining the temperature deviation amount, the humidity deviation amount, the wind speed deviation amount and the wind direction deviation amount of the current date and different construction dates based on the weather conditions, and determining the weather similarity of the current date and different construction dates through the weights of the temperature deviation amount, the humidity deviation amount, the wind speed deviation amount and the wind direction deviation amount.

The further technical scheme is that when the weather similarity between the construction date and the current date is greater than the preset similarity, the construction date is determined to be the reference construction date.

The construction scale is determined according to the number of constructors screening construction projects.

The further technical scheme is that when the construction time interval between the screening construction projects is smaller than the preset duration, the screening construction projects are determined to be adjacent construction projects.

The further technical scheme is that when the construction time between the screening construction projects is crossed, the screening construction projects are determined to be adjacent construction projects.

The further technical scheme is that the method for determining the environmental protection management and control measures comprises the following steps:

when the environmental protection prediction data at the moment does not meet the requirement of environmental protection indexes, determining corresponding environmental protection control equipment and the opening moment of the environmental protection control equipment based on the environmental protection prediction data at the moment;

When the environmental protection prediction data at the moment meets the requirement of environmental protection indexes, the output of environmental protection control measures is not needed.

In a second aspect, the present invention provides a computer system comprising: a communicatively coupled memory and processor, and a computer program stored on the memory and capable of running on the processor, characterized by: the processor executes an engineering project management method as described above when running the computer program.

In a third aspect, the present invention provides a computer storage medium having stored thereon a computer program which, when executed in a computer, causes the computer to perform an engineering project management method as described above.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the invention as set forth hereinafter.

In order to make the above objects, features and advantages of the present invention more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

The above and other features and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings;

FIG. 1 is a flow chart of a method of project management;

FIG. 2 is a flow chart of a method of screening a construction project for a determination of environmental risk;

FIG. 3 is a flow chart of a particular method of determining whether there is a risk of environmental control on the current date;

FIG. 4 is a flow chart of a particular method of determining that there is a risk of environmental control on the current date;

Fig. 5 is a frame diagram of a computer storage medium.

Detailed Description

In order to make the technical solutions in the present specification better understood by those skilled in the art, the technical solutions in the embodiments of the present specification will be clearly and completely described below with reference to the drawings in the embodiments of the present specification, and it is obvious that the described embodiments are only some embodiments of the present specification, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, shall fall within the scope of the present disclosure.

In order to realize the environment-friendly control of construction of engineering projects, in the prior art, after dust or water quality exceeding standard is generally found, environment-friendly control measures are carried out, so that the influence on air or water quality to a certain extent is unavoidable, and meanwhile, the environment-friendly control efficiency of the engineering projects is also difficult to meet the requirement.

According to the construction plan of the engineering project, the environment-friendly data in a certain time period in the future is predicted, and intervention of environment-friendly control measures is performed in advance according to the prediction result, so that the environment-friendly control requirement of the engineering project is met.

Specifically, the following technical scheme is adopted:

The method comprises the steps of taking environmental risks existing in construction projects of engineering projects as screening construction projects, determining reference construction dates which are similar to weather conditions of the current date based on the weather conditions of the current date, determining environmental risks of different screening construction projects based on construction scales and construction time lengths of different screening construction projects, construction data of different reference construction dates and weather similarity, specifically carrying out similar construction dates according to the similar conditions of the construction data of the reference construction dates and the screening construction projects, and determining environmental risks of the screening construction projects according to the proportion of dates with environmental risks in the similar Shi Gongri period;

Determining environmental protection management and control risks of the current date according to environmental protection risks of different screening construction projects of the current date, specifically determining environmental protection management and control risks of the current date according to the weight of the environmental protection risks of the screening construction projects, and entering the next step when the environmental protection management and control risks are smaller;

Then taking screening construction projects which are constructed simultaneously as cross construction projects, taking construction projects with shorter time intervals between the construction projects as adjacent construction projects, further determining that the comprehensive environmental protection risk on the current date is large through the cross construction data and the environmental protection risk of the cross construction projects on the current date, the construction data of the adjacent construction projects and the environmental protection risk, entering the next step, specifically, determining the weight of the overlapping value of the environmental protection risk through the cross construction projects and the overlapping value of the environmental protection risk of the adjacent construction projects and determining the current comprehensive environmental protection risk;

And determining environmental protection prediction data at different moments according to construction plan time periods of different screening construction projects, determining corresponding environmental protection control equipment and opening moments of the environmental protection control equipment based on the environmental protection prediction data at the moments when the environmental protection prediction data at the moments does not meet the requirement of environmental protection indexes, and outputting environmental protection control measures when the environmental protection prediction data at the moments meets the requirement of the environmental protection indexes.

The following will further illustrate from three perspectives of a method class embodiment, a system class embodiment, and a media class embodiment.

In order to solve the above-mentioned problems, according to an aspect of the present invention, as shown in fig. 1, there is provided an engineering project management method, which is characterized by comprising:

S1, determining screening construction items according to the types of the construction items of the engineering items, determining weather similarity and reference construction dates of the current date and different construction dates based on weather conditions of the current date, and determining environmental protection risks of different screening construction items based on construction scales and construction time periods of different screening construction items, construction data of different reference construction dates and weather similarity;

Specifically, the screening construction project is determined according to the construction project with environmental protection influence.

Further, the weather conditions include, but are not limited to, temperature, humidity, wind speed, and wind direction.

Specifically, the method for determining the weather similarity includes:

And respectively obtaining the temperature deviation amount, the humidity deviation amount, the wind speed deviation amount and the wind direction deviation amount of the current date and different construction dates based on the weather conditions, and determining the weather similarity of the current date and different construction dates through the weights of the temperature deviation amount, the humidity deviation amount, the wind speed deviation amount and the wind direction deviation amount.

Further, when the weather similarity between the construction date and the current date is greater than a preset similarity, determining that the construction date is the reference construction date.

The construction scale is determined according to the number of constructors who screen the construction project.

In one possible embodiment, as shown in fig. 2, the method for determining the environmental risk of screening the construction project in the above step is as follows:

Determining the similarity of the construction data of the screening construction project on different reference construction dates according to the construction scale and construction time of the screening construction project on the current date and the construction data of different reference construction dates;

determining comprehensive date similarity of different reference construction dates based on the construction data similarity of the screening construction projects on different reference construction dates and the weather similarity;

dividing the reference construction date into different date similarity intervals through comprehensive date similarity of different reference construction dates, and determining environmental protection risks of screening construction projects according to environmental protection influence data of the screening construction projects in the different date similarity intervals.

Further, the environmental protection risk of the screening construction project is within a range of 0 to 1, wherein the greater the environmental protection risk of the screening construction project is, the greater the risk of environmental protection problems generated by the screening construction project is.

It can be appreciated that the environmental impact data includes an exceeding impact duration of the environmental indicator and an exceeding condition of the environmental indicator.

In another possible embodiment, the method for determining the environmental risk of screening the construction project in the above steps is as follows:

s11, determining environmental protection abnormal dates based on environmental protection influence data of the screening construction projects on different reference construction dates, and determining construction complexity of different reference construction dates through construction data of the screening construction projects on different reference construction dates;

S12, determining the construction complexity of the screening construction project on the current date according to the construction scale and the construction time of the screening construction project, judging whether an environment-friendly abnormal date smaller than the construction complexity on the current date exists or not, if yes, entering a step S14, and if not, entering a next step;

s13, judging whether an environment-friendly abnormal date with the deviation of the construction complexity on the same day within a preset deviation range exists or not, if so, entering a next step S14, and if not, determining the environment-friendly risk of the screening construction project through a preset risk;

S14, determining the construction data similarity of the screening construction project on different reference construction dates according to the construction scale and construction time of the screening construction project on the current date and the construction data of different reference construction dates, and determining the comprehensive date similarity of the different reference construction dates based on the construction data similarity and weather similarity of the screening construction project on the different reference construction dates;

S15, dividing the reference construction date into different date similarity intervals through comprehensive date similarity of different reference construction dates, and determining environmental protection risks of the screening construction projects according to the duty ratio of the environmental protection abnormal date of the screening construction projects in the different date similarity intervals and the deviation amount of the environmental protection abnormal date and the construction complexity of the current day.

In another possible embodiment, the method for determining the environmental risk of screening the construction project in the above steps is as follows:

Determining environmental protection abnormal date based on environmental protection influence data of the screening construction project on different reference construction dates, determining construction complexity of different reference construction dates through construction data of the screening construction project on different reference construction dates, determining the current day construction complexity of the screening construction project according to construction scale and construction duration of the screening construction project on the current date, and when no environmental protection abnormal date smaller than the current day construction complexity and environmental protection abnormal date with the deviation of the current day construction complexity in a preset deviation range exist:

determining the environmental protection risk of the screening construction project through preset risks;

when there is an environmental protection abnormal date smaller than the construction complexity of the same day or an environmental protection abnormal date within a preset deviation range from the deviation amount of the construction complexity of the same day:

Taking the environment-friendly abnormal date smaller than the construction complexity of the current day and the environment-friendly abnormal date with the deviation amount of the construction complexity of the current day within a preset deviation range as screening abnormal dates, and determining the environment-friendly risk of the screening construction project through the preset environment-friendly risk when the number of the screening abnormal dates is larger than the number of the preset dates;

When the number of the screening abnormal dates is not greater than the number of the preset dates, determining the comprehensive abnormal value of the screening abnormal dates according to the number of the screening abnormal dates, the deviation amount of different screening abnormal dates and the construction complexity on the same day and the weather similarity, and when the comprehensive abnormal value does not meet the requirement, determining the environmental protection risk of the screening construction project through the comprehensive abnormal value;

When the comprehensive abnormal value meets the requirement, determining the construction data similarity of the screening construction project on different reference construction dates according to the construction scale and construction time of the screening construction project on the current date and the construction data of different reference construction dates, and determining the comprehensive date similarity of the different reference construction dates based on the construction data similarity and weather similarity of the screening construction project on the different reference construction dates;

Dividing the reference construction date into different date similarity intervals through comprehensive date similarity of different reference construction dates, and determining the environment protection risk of the screening construction project according to the duty ratio of the environment protection abnormal date of the screening construction project in the different date similarity intervals and the deviation amount of the environment protection abnormal date and the construction complexity of the current day.

S2, determining whether environmental protection risks exist in the current date or not based on environmental protection risks of different screening construction projects of the current date, if so, entering a step S4, and if not, entering a step S3;

In one possible embodiment, as shown in fig. 3, the determining whether the current date has a risk of environmental protection and control in the above steps specifically includes:

Determining a risk construction project and a suspected risk construction project on the current date through preset risk limit values and environmental protection risks of different screening construction projects;

determining the comprehensive environmental protection risks of the risk construction projects on the current date according to the environmental protection risks of the risk construction projects on the current date and the number of the risk construction projects, and determining the comprehensive environmental protection risks of the suspected risk construction projects on the current date according to the environmental protection risks of the suspected risk construction projects on the current date and the number of the suspected risk construction projects;

And determining the date environmental protection risk of the current date based on the comprehensive environmental protection risk of the risk construction project of the current date and the comprehensive environmental protection risk of the suspected risk construction project, and determining whether the environmental protection risk exists in the current date or not according to the date environmental protection risk.

Further, when the environmental protection risk of the screening construction project on the current date is greater than the preset risk limit value, determining that the screening construction project is a risk construction project.

Specifically, when the deviation between the preset risk limit value and the environmental protection risk of the screening construction item on the current date is within a preset range and the environmental protection risk of the screening construction item is not greater than the preset risk limit value, determining that the screening construction item is a suspected risk construction item.

In another possible embodiment, the determining whether the current date has a risk of environmental control in the above steps specifically includes:

Determining a risk construction project and a suspected risk construction project on the current date through preset risk limiting values and environmental protection risks of different screening construction projects, judging whether the risk construction project or the suspected risk construction project exists on the current date, if so, entering the next step, and if not, determining that the environmental protection control risk does not exist on the current date;

judging whether the sum of the environmental protection risks of the risk construction project and the suspected risk construction project of the current date meets the requirements, if not, entering the next step, and if so, determining that the environmental protection risks do not exist in the current date;

Determining the comprehensive environmental protection risk of the risk construction project on the current date according to the environmental protection risk of the risk construction project on the current date and the number of the risk construction projects, judging whether the comprehensive environmental protection risk of the risk construction project on the current date meets the requirement, if so, entering the next step, and if not, determining that the environmental protection risk does not exist on the current date;

Determining the comprehensive environmental protection risks of the suspected risk construction items on the current date according to the environmental protection risks of the suspected risk construction items on the current date and the number of the suspected risk construction items, determining the environmental protection risks on the current date based on the comprehensive environmental protection risks of the risk construction items on the current date and the comprehensive environmental protection risks of the suspected risk construction items, and determining whether environmental protection risks exist on the current date or not according to the environmental protection risks on the date.

In another possible embodiment, the determining whether the current date has a risk of environmental control in the above steps specifically includes:

Determining a risk construction project and a suspected risk construction project on the current date through preset risk limiting values and environmental protection risks of different screening construction projects, and determining that the environment-friendly management and control risks do not exist on the current date when the risk construction project and the suspected risk construction project do not exist on the current date;

When a risk construction project or a suspected risk construction project exists on the current date, determining that a ring-kept control risk exists on the current date when the weight sum of the risk construction project and the suspected risk construction project on the current date does not meet the requirements;

When the weights of the risk construction projects and the suspected risk construction projects on the current date meet the requirements, determining the comprehensive environmental protection risks of the risk construction projects on the current date according to the environmental protection risks of the risk construction projects on the current date and the number of the risk construction projects, and determining the comprehensive environmental protection risks of the suspected risk construction projects on the current date according to the environmental protection risks of the suspected risk construction projects on the current date and the number of the suspected risk construction projects;

when any one of the comprehensive environmental protection risks of the risk construction project on the current date and the comprehensive environmental protection risks of the suspected risk construction project on the current date does not meet the requirements, determining that the environmental protection control risks exist on the current date;

When the comprehensive environmental protection risks of the risk construction items on the current date and the comprehensive environmental protection risks of the suspected risk construction items on the current date meet requirements, determining the comprehensive environmental protection risks of the suspected risk construction items on the current date according to the environmental protection risks of the suspected risk construction items on the current date and the number of the suspected risk construction items, determining the date environmental protection risks on the current date based on the comprehensive environmental protection risks of the risk construction items on the current date and the comprehensive environmental protection risks of the suspected risk construction items, and determining whether environmental protection risks exist on the current date or not according to the date environmental protection risks.

S3, determining cross construction projects and adjacent construction projects in screening construction projects of the current date, and entering a next step when determining that the environment-friendly management risk exists in the current date according to the cross construction data and the environment-friendly risk of the cross construction projects of the current date and the construction data and the environment-friendly risk of the adjacent construction projects;

specifically, when the construction time interval between the screening construction projects is smaller than the preset duration, determining that the screening construction projects are adjacent construction projects.

Further, when the construction time between the screening construction projects is crossed, determining that the screening construction projects are adjacent construction projects.

In one possible embodiment, as shown in fig. 4, the determining that the current date exists a risk of environmental control in the above steps specifically includes:

Determining the cross environmental protection risk of the current date according to the number of the cross construction projects, the cross time of different cross construction projects and the environmental protection risk;

determining the adjacent environmental protection risk of the current date based on the number of the adjacent construction projects, the construction time intervals of different adjacent construction projects and the environmental protection risk;

And determining an environmental protection risk assessment value of the current date according to the cross environmental protection risk and the adjacent environmental protection risk of the current date, and determining whether the environmental protection risk exists in the current date or not based on the environmental protection risk assessment value.

It can be understood that the environmental protection risk evaluation value of the current date is determined according to the weight sum of the cross environmental protection risk and the adjacent environmental protection risk of the current date, specifically, the weight value of the cross construction item and the weight value of the adjacent construction item of the current date are performed according to the number of the cross construction items and the number of the adjacent construction items of the current date, and the weight sum of the cross environmental protection risk and the adjacent environmental protection risk of the current date is determined by combining the cross environmental protection risk and the adjacent environmental protection risk of the current date.

In another possible embodiment, the determining that the current date has a risk of environmental control in the above steps specifically includes:

Judging whether a cross construction project or an adjacent construction project exists on the current date, if so, entering the next step, and if not, determining that the environmental protection risk does not exist on the current date;

determining the cross environmental protection risk of the current date according to the number of the cross construction projects, the cross time of different cross construction projects and the environmental protection risk, determining whether the environmental protection risk exists in the current date or not based on the cross environmental protection risk, if so, determining that the environmental protection risk exists in the current date, and if not, entering the next step;

Determining the adjacent environmental protection risks of the current date based on the number of the adjacent construction projects, the construction time intervals of different adjacent construction projects and the environmental protection risks, determining whether the environmental protection risks exist in the current date based on the adjacent environmental protection risks, if so, determining that the environmental protection risks exist in the current date, and if not, entering the next step;

And determining an environmental protection risk assessment value of the current date according to the cross environmental protection risk and the adjacent environmental protection risk of the current date, and determining whether the environmental protection risk exists in the current date or not based on the environmental protection risk assessment value.

And S4, determining environmental protection prediction data at different moments according to construction plan time periods of different screening construction projects, and determining environmental protection control measures based on the environmental protection prediction data.

In one possible embodiment, the method for determining the environmental protection prediction data in the above steps is:

And determining screening construction projects in different time periods before different time periods according to the construction plan time periods of different screening construction projects before different time periods, and determining environmental protection prediction data in different time periods by combining weather conditions of the current date.

Specifically, the method for determining the environmental protection management and control measures comprises the following steps:

when the environmental protection prediction data at the moment does not meet the requirement of environmental protection indexes, determining corresponding environmental protection control equipment and the opening moment of the environmental protection control equipment based on the environmental protection prediction data at the moment;

When the environmental protection prediction data at the moment meets the requirement of environmental protection indexes, the output of environmental protection control measures is not needed.

It should be noted that, when the current date does not have the risk of environmental protection and control, the environmental protection prediction data at different moments does not need to be determined.

System class embodiment

In another aspect, the present invention provides a computer system comprising: a communicatively coupled memory and processor, and a computer program stored on the memory and capable of running on the processor, characterized by: the processor executes an engineering project management method as described above when running the computer program.

The engineering project management method specifically comprises the following steps:

Determining screening construction items according to the types of the construction items of the engineering items, determining weather similarity between the current date and different construction dates and reference construction dates based on weather conditions of the current date, and determining environmental protection risks of different screening construction items based on construction scales and construction time periods of different screening construction items, construction data of different reference construction dates and weather similarity;

Determining a risk construction project and a suspected risk construction project on the current date through preset risk limiting values and environmental protection risks of different screening construction projects, and determining that the environment-friendly management and control risks do not exist on the current date when the risk construction project and the suspected risk construction project do not exist on the current date;

When a risk construction project or a suspected risk construction project exists on the current date, determining that a ring-kept control risk exists on the current date when the weight sum of the risk construction project and the suspected risk construction project on the current date does not meet the requirements;

When the weights of the risk construction projects and the suspected risk construction projects on the current date meet the requirements, determining the comprehensive environmental protection risks of the risk construction projects on the current date according to the environmental protection risks of the risk construction projects on the current date and the number of the risk construction projects, and determining the comprehensive environmental protection risks of the suspected risk construction projects on the current date according to the environmental protection risks of the suspected risk construction projects on the current date and the number of the suspected risk construction projects;

when any one of the comprehensive environmental protection risks of the risk construction project on the current date and the comprehensive environmental protection risks of the suspected risk construction project on the current date does not meet the requirements, determining that the environmental protection control risks exist on the current date;

When the comprehensive environmental protection risks of the risk construction items on the current date and the comprehensive environmental protection risks of the suspected risk construction items on the current date meet the requirements, determining the comprehensive environmental protection risks of the suspected risk construction items on the current date according to the environmental protection risks of the suspected risk construction items on the current date and the number of the suspected risk construction items, determining the environmental protection risks on the current date based on the comprehensive environmental protection risks of the risk construction items on the current date and the comprehensive environmental protection risks of the suspected risk construction items, determining whether the environmental protection risks exist on the current date or not through the environmental protection risks on the date, and entering the next step when determining that the environmental protection risks exist on the current date;

And determining environmental protection prediction data at different moments according to construction plan time periods of different screening construction projects, and determining environmental protection control measures based on the environmental protection prediction data.

Media class embodiments

In another aspect, as shown in fig. 5, the present invention provides a computer storage medium having a computer program stored thereon, which when executed in a computer, causes the computer to perform an engineering project management method as described above.

The engineering project management method specifically comprises the following steps:

Determining screening construction items according to the types of the construction items of the engineering items, determining weather similarity between the current date and different construction dates and reference construction dates based on weather conditions of the current date, and determining environmental protection risks of different screening construction items based on construction scales and construction time periods of different screening construction items, construction data of different reference construction dates and weather similarity;

Judging whether a cross construction project or an adjacent construction project exists on the current date, if so, entering the next step, and if not, determining that the environmental protection risk does not exist on the current date;

determining the cross environmental protection risk of the current date according to the number of the cross construction projects, the cross time of different cross construction projects and the environmental protection risk, determining whether the environmental protection risk exists in the current date or not based on the cross environmental protection risk, if so, determining that the environmental protection risk exists in the current date, and if not, entering the next step;

Determining the adjacent environmental protection risks of the current date based on the number of the adjacent construction projects, the construction time intervals of different adjacent construction projects and the environmental protection risks, determining whether the environmental protection risks exist in the current date based on the adjacent environmental protection risks, if so, determining that the environmental protection risks exist in the current date, and if not, entering the next step;

determining an environmental protection risk assessment value of the current date according to the cross environmental protection risk and the adjacent environmental protection risk of the current date, determining whether the environmental protection risk exists in the current date or not based on the environmental protection risk assessment value, and entering the next step when the environmental protection risk exists in the current date;

And determining environmental protection prediction data at different moments according to construction plan time periods of different screening construction projects, and determining environmental protection control measures based on the environmental protection prediction data.

Through the above embodiments, the present invention has the following beneficial effects:

1. the environmental protection risks of different screening construction projects are determined based on construction scales and construction time lengths of the different screening construction projects, construction data of different reference construction dates and weather similarity, the difference of the environmental protection risks caused by the difference of the construction scales and the time lengths of the screening construction projects is considered, meanwhile, the environmental protection risks of the screening construction projects are accurately estimated from the perspective of historical data through further comparison with weather conditions and the construction data of the reference construction dates, and a foundation is laid for further accurate estimation of environmental protection risks of the current date.

2. The method and the device have the advantages that whether the environmental protection management and control risk exists in the current date or not is determined through the cross construction data and the environmental protection risk of the cross construction project on the current date, the construction data and the environmental protection risk of the adjacent construction project, so that the consideration of the construction project with the overlapping environmental protection influence from the two angles of the cross construction project and the adjacent construction project with shorter interval time is realized, and the technical problem that the evaluation result of the environmental protection management and control risk caused by the original single consideration of a certain construction project is inaccurate is solved.

3. The environmental protection prediction data is used for determining environmental protection control measures, so that the environmental protection control measures are timely accessed from the angle of the prediction data, the influence on the surrounding environment caused by too late intervention time of the original environmental protection control measures is avoided, and the environmental protection influence on the surrounding environment due to construction is further reduced.

In this specification, each embodiment is described in a progressive manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments. In particular, for apparatus, devices, non-volatile computer storage medium embodiments, the description is relatively simple, as it is substantially similar to method embodiments, with reference to the section of the method embodiments being relevant.

The foregoing describes specific embodiments of the present disclosure. Other embodiments are within the scope of the following claims. In some cases, the actions or steps recited in the claims can be performed in a different order than in the embodiments and still achieve desirable results. In addition, the processes depicted in the accompanying figures do not necessarily require the particular order shown, or sequential order, to achieve desirable results. In some embodiments, multitasking and parallel processing are also possible or may be advantageous.

The foregoing is merely one or more embodiments of the present description and is not intended to limit the present description. Various modifications and alterations to one or more embodiments of this description will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, or the like, which is within the spirit and principles of one or more embodiments of the present description, is intended to be included within the scope of the claims of the present description.

Claims (11)

1. The engineering project management method is characterized by comprising the following steps of:

S1, determining screening construction items according to the types of the construction items of the engineering items, determining weather similarity and reference construction dates of the current date and different construction dates based on weather conditions of the current date, and determining environmental protection risks of different screening construction items based on construction scales and construction time periods of different screening construction items, construction data of different reference construction dates and weather similarity;

S2, determining whether environmental protection risks exist in the current date or not based on environmental protection risks of different screening construction projects of the current date, if so, entering a step S4, and if not, entering a step S3;

S3, determining cross construction projects and adjacent construction projects in screening construction projects of the current date, and entering a next step when determining that the environment-friendly management risk exists in the current date according to the cross construction data and the environment-friendly risk of the cross construction projects of the current date and the construction data and the environment-friendly risk of the adjacent construction projects;

and S4, determining environmental protection prediction data at different moments according to construction plan time periods of different screening construction projects, and determining environmental protection control measures based on the environmental protection prediction data.

2. The engineering project management method according to claim 1, wherein the screening construction project is determined based on construction projects having environmental impact.

3. The engineering project management method of claim 1, wherein the weather conditions include, but are not limited to, temperature, humidity, wind speed, and wind direction.

4. The engineering project management method according to claim 1, wherein the method for determining the weather similarity is as follows:

And respectively obtaining the temperature deviation amount, the humidity deviation amount, the wind speed deviation amount and the wind direction deviation amount of the current date and different construction dates based on the weather conditions, and determining the weather similarity of the current date and different construction dates through the weights of the temperature deviation amount, the humidity deviation amount, the wind speed deviation amount and the wind direction deviation amount.

5. The engineering project management method according to claim 1, wherein the method for determining the environmental risk of screening the construction project is as follows:

Determining the similarity of the construction data of the screening construction project on different reference construction dates according to the construction scale and construction time of the screening construction project on the current date and the construction data of different reference construction dates;

determining comprehensive date similarity of different reference construction dates based on the construction data similarity of the screening construction projects on different reference construction dates and the weather similarity;

dividing the reference construction date into different date similarity intervals through comprehensive date similarity of different reference construction dates, and determining environmental protection risks of screening construction projects according to environmental protection influence data of the screening construction projects in the different date similarity intervals.

6. The engineering project management method according to claim 1, wherein the environmental risk of the screening construction project has a value ranging from 0 to 1, and wherein the greater the environmental risk of the screening construction project, the greater the risk of environmental problems generated by the screening construction project.

7. The engineering project management method of claim 1, wherein determining whether the current date has a risk of environmental regulations, in particular, comprises:

Determining a risk construction project and a suspected risk construction project on the current date through preset risk limit values and environmental protection risks of different screening construction projects;

determining the comprehensive environmental protection risks of the risk construction projects on the current date according to the environmental protection risks of the risk construction projects on the current date and the number of the risk construction projects, and determining the comprehensive environmental protection risks of the suspected risk construction projects on the current date according to the environmental protection risks of the suspected risk construction projects on the current date and the number of the suspected risk construction projects;

And determining the date environmental protection risk of the current date based on the comprehensive environmental protection risk of the risk construction project of the current date and the comprehensive environmental protection risk of the suspected risk construction project, and determining whether the environmental protection risk exists in the current date or not according to the date environmental protection risk.

8. The engineering project management method according to claim 7, wherein when the environmental risk of the screening construction project on the current date is greater than the preset risk limit value, the screening construction project is determined to be a risk construction project.

9. The engineering project management method of claim 1, wherein determining that there is a risk of environmental control on the current date, specifically comprises:

Judging whether a cross construction project or an adjacent construction project exists on the current date, if so, entering the next step, and if not, determining that the environmental protection risk does not exist on the current date;

determining the cross environmental protection risk of the current date according to the number of the cross construction projects, the cross time of different cross construction projects and the environmental protection risk, determining whether the environmental protection risk exists in the current date or not based on the cross environmental protection risk, if so, determining that the environmental protection risk exists in the current date, and if not, entering the next step;

Determining the adjacent environmental protection risks of the current date based on the number of the adjacent construction projects, the construction time intervals of different adjacent construction projects and the environmental protection risks, determining whether the environmental protection risks exist in the current date based on the adjacent environmental protection risks, if so, determining that the environmental protection risks exist in the current date, and if not, entering the next step;

And determining an environmental protection risk assessment value of the current date according to the cross environmental protection risk and the adjacent environmental protection risk of the current date, and determining whether the environmental protection risk exists in the current date or not based on the environmental protection risk assessment value.

10. A computer system, comprising: a communicatively coupled memory and processor, and a computer program stored on the memory and capable of running on the processor, characterized by: the processor, when running the computer program, performs an engineering project management method according to any one of claims 1-9.

11. A computer storage medium having stored thereon a computer program which, when executed in a computer, causes the computer to perform an engineering project management method as claimed in any one of claims 1 to 9.