CN114819926A - Target layering iteration method and device and electronic equipment - Google Patents

Abstract

The application relates to a target layering iteration method, a target layering iteration device and electronic equipment, wherein the method comprises the steps of obtaining a project task and fixed construction requirement information corresponding to the project task; generating a project preliminary construction scheme according to the project task and the fixed construction requirement information based on a preset generation rule; based on a preset calling sequence, calling first target data according to a pre-stored first demand model, generating first result information according to the first target data, and sending the first target data and the first result information to corresponding user intelligent terminals; acquiring a first supplement requirement input by a user; forming a project second construction scheme according to the first supplement requirement and the fixed construction requirement information; the project construction scheme is gradually perfected by adopting the mode, and a final project construction scheme is formed. The method and the device have the effect of reducing the condition of temporarily modifying the final project construction scheme in the construction process.

Description

Target layering iteration method and device and electronic equipment

Technical Field

The application relates to the field of airport construction, in particular to a target hierarchical iteration method, a target hierarchical iteration device and electronic equipment.

Background

Airport construction projects are often large and complex projects requiring multiple parties to coordinate and leverage information processing techniques to more efficiently accomplish airport construction tasks. The airport construction project management system for uniformly managing the airport construction projects can be built through an information processing technology, and cooperation can be conveniently carried out on the work of each project department and each construction party, so that the airport construction is perfected.

At present, when an airport is built, a project construction flow of the airport is planned in advance according to requirements of multiple parties, and then the project construction scheme needs to be adjusted temporarily when problems occur in the building process, and multiple parties need to negotiate in the adjusting process, so that the construction period is delayed.

In view of the above-mentioned related technologies, the inventor considers that there is a defect that the project construction scheme pre-drawn according to the requirements needs to be modified for many times in the construction process to affect the working efficiency.

Disclosure of Invention

In order to reduce the situation that the final construction scheme of a project is temporarily modified in the construction process, the application provides a target layering iteration method, a target layering iteration device and electronic equipment.

In a first aspect of the present application, a target hierarchical iteration method is provided, which adopts the following technical solutions:

a method of target layered iteration, the method comprising:

acquiring a project task and fixed construction requirement information corresponding to the project task, wherein the fixed construction requirement information comprises a constructor requirement, a investor requirement, an operator requirement and a manager requirement;

generating a project preliminary construction scheme according to the project task and the fixed construction requirement information based on a preset generation rule;

based on a preset calling sequence, calling first target data according to a pre-stored first demand model, generating first result information according to the first target data, and sending the first target data and the first result information to corresponding user intelligent terminals;

acquiring a first supplement requirement input by a user;

forming a project second construction scheme according to the first supplement requirement and the fixed construction requirement information;

based on a preset calling sequence, calling second target data according to a pre-stored second demand model, generating second result information according to the second target data, and sending the second target data and the second result information to corresponding user intelligent terminals;

acquiring a second supplement requirement input by a user;

forming a project third construction scheme according to the second supplement requirement, the first supplement requirement and the fixed construction requirement information;

……;

based on a preset calling sequence, calling Nth target data according to a prestored Nth demand model, and sending the Nth target data to a corresponding user intelligent terminal, wherein N is a positive integer;

acquiring an Nth supplement requirement input by a user;

and forming a project final construction scheme according to the first supplement requirement, the second supplement requirement, … …, the Nth supplement requirement and the fixed construction requirement information.

By adopting the technical scheme, the project task and the fixed construction requirement corresponding to the project task are obtained, a project preliminary construction scheme is generated according to the project task and the fixed construction requirement information based on a preset generation rule, then first target data are called according to a first requirement model based on a preset calling sequence, first result data are generated according to the first target data, the first target data and the first result data are sent to corresponding user intelligent terminals, a user checks the first target data and the first result data through the intelligent terminals, meanwhile, a first supplement requirement can be input through the mobile terminal, the project preliminary construction scheme is perfected according to the first supplement requirement and the fixed construction requirement information, and a project second construction scheme is generated; then, based on a preset calling sequence, calling second target data according to a second demand model, generating second result data according to the second target data, sending the second result data of the second target data to a corresponding user intelligent terminal, checking the second target data and the second result data through the intelligent terminal by a user, inputting a second supplement requirement through the user intelligent terminal, perfecting a project preliminary construction scheme according to the first supplement requirement, the second supplement requirement and fixed construction requirement information, and generating a project third construction scheme; the project construction scheme is gradually improved by adopting the mode until the project construction scheme meets the requirements of all parties, the project construction scheme is determined to be a project final construction scheme, and the project final construction scheme balances the requirements of all parties, so that the probability of contradiction generated by all parties during construction is reduced, the condition that the project final construction scheme is temporarily modified in the construction process is reduced, and the working efficiency is improved.

Optionally, before the construction, the project task and the construction requirement information corresponding to the project task are manually input, and the method for acquiring the project task and the fixed construction requirement information corresponding to the project task specifically includes:

storing the project task and the fixed construction requirement information corresponding to the project task into a database;

and calling the project task and the fixed construction requirement information corresponding to the project task.

Optionally, the method for generating the project construction scheme according to the project task and the fixed construction requirement information based on the preset generation rule specifically includes:

determining a plurality of stage projects according to the project tasks, wherein the stage projects are stage tasks in the whole construction process;

generating an engineering scheme corresponding to the stage project according to the stage project and the fixed construction requirement information;

determining the flow sequence of a plurality of the phase projects based on a construction rule;

and generating a project preliminary construction scheme according to the flow sequence of the plurality of stage projects and the engineering scheme corresponding to each stage project.

Optionally, the method is applied to a constructor, an investor, an operator and a manager involved in the airport construction process, the constructor, the investor, the operator and the manager all have a calling weight, and the preset calling sequence is as follows:

sorting the calling weights corresponding to each party from high to low;

and sequentially and circularly calling the target data from high to low according to the calling weight according to the requirement models corresponding to all parties until a final project construction scheme is generated, and finishing calling.

Optionally, the method further includes:

acquiring fixed supplementary information input by a user according to the contradiction between supplementary requirements or the contradiction between the supplementary requirements and the fixed construction requirement information;

and adding the fixed supplementary information to the fixed construction requirement information.

Optionally, the method further includes:

generating a key node decomposition instruction according to the project scheme corresponding to the stage project, wherein the key node decomposition instruction is used for decomposing the project scheme to obtain a plurality of work progress problem nodes, and the work progress problem nodes are all key nodes of project construction;

acquiring a sub-project completion node, wherein the sub-project completion node corresponds to a work progress problem node;

and sending the sub-project completion node to an intelligent terminal of a user.

By adopting the technical scheme, the engineering scheme corresponding to the stage project is decomposed to obtain a plurality of work progress problem nodes, the work progress problem nodes are all key nodes of project construction, sub-project completion nodes corresponding to the work progress problem nodes are planned and generated according to the work progress problem nodes, and all the sub-project completion nodes are pushed to the intelligent terminal of the user, so that the user can visually know all the sub-project nodes of the newly-built project of the airport.

In a second aspect of the present application, the present application provides a target hierarchical iterative apparatus, which adopts the following technical solutions:

a target layered iteration apparatus, comprising:

the system comprises a first acquisition module, a second acquisition module and a third acquisition module, wherein the first acquisition module is used for acquiring a project task and fixed construction requirement information corresponding to the project task;

the preliminary scheme generating module is used for generating a project preliminary construction scheme according to the project task and the fixed construction requirement information based on a preset generating rule;

the first data calling module is used for calling first target data according to a pre-stored first demand model based on a preset calling sequence, generating first result information according to the first target data, and sending the first target data and the first result information to corresponding user intelligent terminals;

the second acquisition module is used for acquiring a first supplement requirement input by a user;

the second scheme generation module is used for forming a project second construction scheme according to the first supplement requirement and the fixed construction requirement information;

the second data calling module is used for calling second target data according to a pre-stored second demand model based on a preset calling sequence, generating second result information according to the second target data, and sending the second target data and the second result information to corresponding user intelligent terminals;

the third acquisition module is used for acquiring a second supplement requirement input by the user;

the third scheme generation module is used for forming a project third construction scheme according to the second supplement requirement, the first supplement requirement and the fixed construction requirement information;

……;

the Nth data calling module is used for calling Nth target data according to a pre-stored Nth demand model based on a preset calling sequence and sending the Nth target data to a corresponding user intelligent terminal, wherein N is a positive integer;

the (N + 1) th acquisition module is used for acquiring the Nth supplement requirement input by the user;

and the final scheme generating module is used for forming a project final construction scheme according to the first supplement requirement, the second supplement requirement, … …, the Nth supplement requirement and the fixed construction requirement information.

Optionally, the method further includes:

the decomposition instruction generation module is used for generating a key node decomposition instruction according to the engineering scheme corresponding to the stage project;

the node acquisition module is used for acquiring a sub-project completion node, and the sub-project completion node corresponds to a work progress problem node;

and the information pushing module is used for sending the sub-project completion node to an intelligent terminal of a user.

In a third aspect of the present application, an electronic device is provided. The electronic device includes: a memory having a computer program stored thereon and a processor implementing the method as described above when executing the program.

It should be understood that what is described in this summary section is not intended to limit key or critical features of the embodiments of the application, nor is it intended to limit the scope of the application. Other features of the present application will become apparent from the following description.

To sum up, the application comprises the following beneficial technical effects:

the method comprises the steps of obtaining project tasks and fixed construction requirements corresponding to the project tasks, generating a project preliminary construction scheme according to the project tasks and the fixed construction requirement information based on preset generation rules, then calling first target data according to a first requirement model based on a preset calling sequence, generating first result data according to the first target data, sending the first target data and the first result data to corresponding user intelligent terminals, checking the first target data and the first result data through the intelligent terminals by users, inputting first supplement requirements through mobile terminals, perfecting the project preliminary construction scheme according to the first supplement requirements and the fixed construction requirement information, and generating a project second construction scheme; then, based on a preset calling sequence, calling second target data according to a second demand model, generating second result data according to the second target data, sending the second result data of the second target data to a corresponding user intelligent terminal, checking the second target data and the second result data through the intelligent terminal by a user, inputting a second supplement requirement through the user intelligent terminal, perfecting a project preliminary construction scheme according to the first supplement requirement, the second supplement requirement and fixed construction requirement information, and generating a project third construction scheme; the project construction scheme is gradually improved by adopting the mode until the project construction scheme meets the requirements of all parties, the project construction scheme is determined to be a project final construction scheme, and the project final construction scheme balances the requirements of all parties, so that the probability of contradiction generated by all parties during construction is reduced, the condition that the project final construction scheme is temporarily modified in the construction process is reduced, and the working efficiency is improved.

Drawings

FIG. 1 is a flow chart of a targeted hierarchical iterative method provided herein.

Fig. 2 is a schematic structural diagram of a target hierarchical iterative apparatus provided in the present application.

Fig. 3 is a schematic structural diagram of an electronic device provided in the present application.

Description of reference numerals: 200. a target layered iteration means; 201. a first acquisition module; 202. a preliminary scheme generation module; 203. a first data retrieval module; 204. a second acquisition module; 205. a second scheme generation module; 206. a second data retrieval module; 207. a third obtaining module; 208. a third scheme generation module; 209. an Nth data calling module; 210. an (N + 1) th acquisition module; 220. a final scheme generation module; 301. a CPU; 302. a ROM; 303. a RAM; 304. an I/O interface; 305. an input section; 306. an output section; 307. a storage section; 308. a communication section; 309. a driver; 310. a removable media.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to fig. 1-3 and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The embodiment of the application discloses a target layering iteration method. Referring to fig. 1, a target hierarchical iterative method, which is based on a case base and applied to airport construction, includes:

s101: and acquiring the project task and the fixed construction requirement information of the corresponding project task.

Specifically, before a new airport needs to be constructed, a user firstly inputs a project task, wherein the project task is a project name to be constructed in the construction, and the project task input by the user is stored in a database; in this embodiment, the airport construction needs to involve a constructor, a supplier, an operator and a manager, so that the fixed construction requirement information includes a constructor requirement, a supplier requirement, an operator requirement and a manager requirement, and is stored in a database, and if necessary, a project task and fixed construction requirement information corresponding to the project task are retrieved.

S102: and generating a project preliminary construction scheme according to the project task and the fixed construction requirement information based on a preset generation rule.

Specifically, in the airport construction process, each project task is composed of a plurality of different stage projects, the stage projects are stage tasks in the whole construction process, after the project tasks are determined, a plurality of stage projects included in the project tasks can be determined according to the project tasks by contrasting an airport construction flow chart, a construction scheme meeting requirements is called from a case base according to the determined stage projects and combining fixed construction requirement information, and an engineering scheme corresponding to the stage projects is generated; when an airport is built, a fixed flow sequence exists among a plurality of stage projects, the construction sequence among the engineering schemes corresponding to different stage projects can be determined according to the fixed flow sequence existing among the plurality of stage projects, and the plurality of engineering schemes are combined according to a certain construction sequence to form a project preliminary construction scheme.

S103: based on a preset calling sequence, calling first target data according to a pre-stored first demand model, generating first result information according to the first target data, and sending the first target data and the first result information to corresponding user intelligent terminals.

S104: a first supplemental requirement input by a user is obtained.

S105: and forming a second construction scheme of the project according to the first supplement requirement and the fixed construction requirement information.

S106: and based on a preset calling sequence, calling second target data according to a pre-stored second demand model, generating second result information according to the second target data, and sending the second target data and the second result information to corresponding user intelligent terminals.

S107: and acquiring a second supplementary requirement input by the user.

S108: and forming a third construction scheme of the project according to the second supplement requirement, the first supplement requirement and the fixed construction requirement information.

……；

S109: based on a preset calling sequence, calling Nth target data according to a prestored Nth demand model, and sending the Nth target data to a corresponding user intelligent terminal;

s110: acquiring an Nth supplement requirement input by a user;

s120: and forming a project final construction scheme according to the first supplement requirement, the second supplement requirement, … …, the Nth supplement requirement and the fixed construction requirement information.

Specifically, the construction work of the airport in this embodiment relates to a constructor, an investor, an operator and a manager, each of which is provided with different retrieval weights according to the speaking right in the construction process, wherein if the retrieval weight of the investor is 50%, the retrieval weight of the operator is 25%, the retrieval weight of the manager is 15% and the retrieval weight of the constructor is 10%; the database is prestored with a first demand model corresponding to a sponsor, a second demand model corresponding to an operator, a third demand model corresponding to a manager and a fourth demand model corresponding to a constructor, wherein each demand model comprises target data concerned by one party corresponding to the demand model and can calculate specific result information according to the target data.

According to the calling weight of each party involved in the airport building process, sequencing is sequentially carried out from high to low according to the calling weight, target data corresponding to a demand model are called according to a sequencing result according to the demand model corresponding to each party, result information is calculated according to the demand model and the target data, after the primary project construction scheme is built, first target data are called from the primary project construction scheme according to a first demand model corresponding to a investor, the first target data are input to the first demand model to obtain first result information, and the first result information and the first target data are sent to a user mobile terminal of the investor.

For example: in the airport building process, the important point of concern of the supplier is the cost of funds, and the data of concern of the supplier in this embodiment includes: the capital spent on the project at each stage in the construction process and the total capital required for completing the project, the first target data is as follows: the fund spent in each stage project in the construction process, the first result information is the total fund required for completing the project, and the total fund = the sum of the fund spent in each stage project; after the first target data and the first result information are determined, a first demand model is established according to the first target data and the first result information, after the first demand model is established, the first demand model is stored in a database, the first demand model is called as required, the first target data in the project preliminary construction scheme is called according to the first demand model, and the first result information is calculated according to the first target data.

After the investor obtains the first target data and the first result data, a first supplement requirement is put forward according to the first target data, the first result data and the preliminary project construction scheme, the first supplement requirement is input through a user mobile terminal corresponding to the investor, the first supplement requirement put forward by the investor is obtained, and a second project construction scheme is generated according to the first supplement requirement and the fixed construction requirement information and based on a preset generation rule.

And after a project second construction scheme is generated, second target data are called from the project second construction scheme according to a second demand model corresponding to the operator, the second target data are input into the second demand model to calculate second result information, and the second target data and the second result information are sent to a user intelligent terminal corresponding to the operator.

And after the operator acquires the second target data and the second result information, a second supplement requirement is provided according to the second target data, the second result information and the project second construction scheme, the second supplement requirement is input through a user mobile terminal corresponding to the operator, the second supplement requirement provided by the operator is acquired, and a project third construction scheme is generated based on a preset generation rule according to the first supplement requirement, the second supplement requirement and the fixed construction requirement information.

For example: in the airport building process, the points concerned by the investor are the operation cost and the manpower required by the operation, and the operation cost and the manpower required by the operation can be calculated based on a certain operation rule through the equipment number and the maintenance frequency, so that the second target data is as follows: the number of devices and the maintenance frequency; the result data is operation cost and manpower needed by operation; the number of the personnel required by the single operation and maintenance of each device is A, the number of the devices is B, and the maintenance frequency is: once per week, single operation maintenance: the labor cost is C, and the equipment cost capital is D; the number of people required for a single operational maintenance = a × B; single operational cost = C + D.

And after a third construction scheme of the project is generated, third target data are called from the third construction scheme of the project according to a third requirement model corresponding to the management party, the third target data are input into the third requirement model to calculate third result information, and the third target data and the third result information are sent to the user intelligent terminal corresponding to the management party.

And after the management party acquires the third target data and the third result information, a third supplement requirement is proposed according to the third target data, the third result information and the project third construction scheme, the third supplement requirement is input through a user mobile terminal corresponding to the management party, the third supplement requirement proposed by the management party is acquired, and the project fourth construction scheme is generated based on a preset generation rule according to the first supplement requirement, the second supplement requirement, the third supplement requirement and the fixed construction requirement information. The retrieval of the third target data and the calculation of the third result information of the management party can be similar to the retrieval of the second target data and the calculation of the second result information of the operator, and will not be described herein again.

And after a fourth construction scheme of the project is generated, according to a fourth requirement model corresponding to the constructor, fourth target data are called from the fourth construction scheme of the project, the fourth target data are input into the fourth requirement model to calculate fourth result information, and the fourth target data and the fourth result information are sent to a user intelligent terminal corresponding to the constructor.

And after the constructor acquires the fourth target data and the fourth result information, a fourth supplement requirement is provided according to the fourth target data, the fourth result information and the project fourth construction scheme, the fourth supplement requirement is input through the user mobile terminal corresponding to the manager, the fourth supplement requirement provided by the constructor is acquired, and the project fifth construction scheme is generated based on a preset generation rule according to the first supplement requirement, the second supplement requirement, the third supplement requirement, the fourth supplement requirement and the fixed construction requirement information.

By adopting the mode, the investor, the operator, the manager and the constructor circularly and sequentially call the target data to obtain the corresponding target data and result information, provide corresponding supplementary information and gradually complete the project construction scheme, and after all parties do not provide the supplementary data, the current project construction scheme is determined to be the final project construction scheme.

In this embodiment, only the investor, the operator, the manager and the constructor are involved, and therefore, in this embodiment, the first demand model, the fifth demand model, the ninth demand model, … …, and the [1+4 (n-1) ] demand model are all the same; the second demand model, the sixth demand model, the tenth demand model, … …, and the [2+4 (n-1) ] demand model are all the same; the third demand model, the seventh demand model, the eleventh demand model, … …, and the [3+4 (n-1) ] demand model are all the same; the fourth demand model, the eighth demand model, the twelfth demand model, … … and the (4 n) th demand model are all the same; n is a positive integer.

When each party puts forward the supplement requirements, contradictions may exist between the proposed supplement requirements or between the supplement requirements and the fixed construction requirement information, namely the requirements of the parties cannot be met simultaneously, at the moment, the contradictory supplement requirements or the contradictory supplement requirements and the fixed construction requirement information are sent to user intelligent terminals of an investor, an operator, a manager and a constructor, the fixed supplement requirements are determined through four-party negotiation, and the fixed supplement requirements are added to the fixed construction requirement information, so that the requirements of the parties are balanced.

After determining the project final construction plan, the method further comprises:

generating a key node decomposition instruction according to the final project construction scheme; specifically, the key node decomposition instruction is used for decomposing the engineering scheme corresponding to the phase project to obtain a plurality of work progress problem nodes, the work progress problem nodes are all key nodes of project construction, and some key nodes needing to be controlled can be determined after the engineering scheme corresponding to the phase project is decomposed.

Acquiring a sub-project completion node; specifically, the sub-project completion nodes correspond to the work progress problem nodes, the sub-project completion nodes corresponding to the work progress problem nodes are planned and generated according to the work progress problem nodes, the stage project is decomposed into a plurality of corresponding sub-projects, and then the user can conveniently carry out corresponding distributed construction operation on the airport. In this embodiment, the sub-project is each of the staged works included in the phase project.

And sending the sub-project completion nodes to the intelligent terminals of the users corresponding to all the parties.

The embodiment of the present application discloses a target layered iteration apparatus, and referring to fig. 2, the target layered iteration apparatus 200 includes:

a first obtaining module 201, configured to obtain a project task and fixed construction requirement information corresponding to the project task;

the preliminary scheme generating module 202 is configured to generate a project preliminary construction scheme according to the project task and the fixed construction requirement information based on a preset generating rule;

the first data calling module 203 is configured to, based on a preset calling sequence, call first target data according to a pre-stored first demand model, generate first result information according to the first target data, and send the first target data and the first result information to corresponding user intelligent terminals;

a second obtaining module 204, configured to obtain a first supplement requirement input by a user;

a second scheme generation module 205, configured to form a project second construction scheme according to the first supplement requirement and the fixed construction requirement information;

the second data calling module 206 is configured to, based on a preset calling sequence, call second target data according to a pre-stored second demand model, generate second result information according to the second target data, and send the second target data and the second result information to corresponding user intelligent terminals;

a third obtaining module 207, configured to obtain a second supplement requirement input by the user;

a third scheme generation module 208, configured to form a third construction scheme according to the second supplement requirement, the first supplement requirement, and the fixed construction requirement information;

……;

the Nth data calling module 209 is used for calling Nth target data according to a prestored Nth demand model based on a preset calling sequence and sending the Nth target data to a corresponding user intelligent terminal;

an (N + 1) th obtaining module 210, configured to obtain an nth supplement requirement input by the user;

and the final scheme generating module 220 is used for forming a project final construction scheme according to the first supplement requirement, the second supplement requirement, … …, the Nth supplement requirement and the fixed construction requirement information.

The decomposition instruction generation module is used for generating a key node decomposition instruction according to the engineering scheme corresponding to the stage project;

the node acquisition module is used for acquiring a sub-project completion node, and the sub-project completion node corresponds to a work progress problem node;

and the information pushing module is used for sending the sub-project completion node to an intelligent terminal of a user.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working process of the described module may refer to the corresponding process in the foregoing method embodiment, and is not described herein again.

The embodiment of the application discloses an electronic device. Referring to fig. 3, the electronic device includes a Central Processing Unit (CPU)301 that can perform various appropriate actions and processes according to a program stored in a Read Only Memory (ROM)302 or a program loaded from a storage section 308 into a Random Access Memory (RAM) 303. In the RAM 303, various programs and data necessary for the operation of the system 300 are also stored. The CPU 301, ROM 302, and RAM 303 are connected to each other via a bus. An input/output (I/O) interface 304 is also connected to the bus.

The following components are connected to the I/O interface 304: an input section 305 including a keyboard, a mouse, and the like; an output section 306 including a display such as a Cathode Ray Tube (CRT), a Liquid Crystal Display (LCD), and the like, and a speaker; a storage portion 307 including a hard disk and the like; and a communication section 308 including a network interface card such as a LAN card, a modem, or the like. The communication section 308 performs communication processing via a network such as the internet. Drivers 309 are also connected to the I/O interface 304 as needed. A removable medium 310 such as a magnetic disk, an optical disk, a magneto-optical disk, a semiconductor memory, or the like is mounted on the drive 309 as necessary, so that the computer program read out therefrom is mounted into the storage section 307 as necessary.

In particular, according to embodiments of the present application, the process described above with reference to the flowchart fig. 1 may be implemented as a computer software program. For example, embodiments of the present application include a computer program product comprising a computer program embodied on a machine-readable medium, the computer program comprising program code for performing the method illustrated in the flow chart. In such embodiments, the computer program may be downloaded and installed from a network via the communication section 308 and/or installed from the removable media 310. The computer program, when executed by the Central Processing Unit (CPU)301, performs the above-described functions defined in the apparatus of the present application.

It should be noted that the computer readable medium shown in the present application may be a computer readable signal medium or a computer readable storage medium or any combination of the two. A computer readable storage medium may be, for example, but not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or any combination of the foregoing. More specific examples of the computer readable storage medium may include, but are not limited to: an electrical connection having one or more wires, a portable computer diskette, a hard disk, a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or flash memory), an optical fiber, a portable compact disc read-only memory (CD-ROM), an optical storage device, a magnetic storage device, or any suitable combination of the foregoing. In the present application, a computer readable storage medium may be any tangible medium that can contain, or store a program for use by or in connection with an instruction execution system, apparatus, or device. In this application, however, a computer readable signal medium may include a propagated data signal with computer readable program code embodied therein, for example, in baseband or as part of a carrier wave. Such a propagated data signal may take many forms, including, but not limited to, electro-magnetic, optical, or any suitable combination thereof. A computer readable signal medium may also be any computer readable medium that is not a computer readable storage medium and that can communicate, propagate, or transport a program for use by or in connection with an instruction execution system, apparatus, or device. Program code embodied on a computer readable medium may be transmitted using any appropriate medium, including but not limited to: wireless, wire, fiber optic cable, RF, etc., or any suitable combination of the foregoing.

The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be appreciated by those skilled in the art that the scope of the application referred to in the present application is not limited to the embodiments with a particular combination of the above-mentioned features, but also encompasses other embodiments with any combination of the above-mentioned features or their equivalents without departing from the spirit of the application. For example, the above features may be replaced with (but not limited to) features having similar functions as those described in this application.

Claims (9)

1. A method of target layered iteration, characterized by: the method comprises the following steps:

acquiring a project task and fixed construction requirement information corresponding to the project task, wherein the fixed construction requirement information comprises a constructor requirement, a investor requirement, an operator requirement and a manager requirement;

generating a project preliminary construction scheme according to the project task and the fixed construction requirement information based on a preset generation rule;

based on a preset calling sequence, calling first target data according to a pre-stored first demand model, generating first result information according to the first target data, and sending the first target data and the first result information to corresponding user intelligent terminals;

acquiring a first supplement requirement input by a user;

forming a project second construction scheme according to the first supplement requirement and the fixed construction requirement information;

based on a preset calling sequence, calling second target data according to a pre-stored second demand model, generating second result information according to the second target data, and sending the second target data and the second result information to corresponding user intelligent terminals;

acquiring a second supplement requirement input by a user;

forming a project third construction scheme according to the second supplement requirement, the first supplement requirement and the fixed construction requirement information;

……;

based on a preset calling sequence, calling Nth target data according to a prestored Nth demand model, and sending the Nth target data to a corresponding user intelligent terminal, wherein N is a positive integer;

acquiring an Nth supplement requirement input by a user;

and forming a project final construction scheme according to the first supplement requirement, the second supplement requirement, … …, the Nth supplement requirement and the fixed construction requirement information.

2. The target hierarchical iterative method of claim 1, wherein: before construction, manually inputting a project task and construction requirement information corresponding to the project task, wherein the method for acquiring the project task and the fixed construction requirement information corresponding to the project task specifically comprises the following steps:

storing the project task and the fixed construction requirement information corresponding to the project task into a database;

and calling the project task and the fixed construction requirement information corresponding to the project task.

3. The target hierarchical iterative method of claim 1, wherein: the method for generating the project construction scheme according to the project task and the fixed construction requirement information based on the preset generation rule specifically comprises the following steps:

determining a plurality of stage projects according to the project tasks, wherein the stage projects are stage tasks in the whole construction process;

generating an engineering scheme corresponding to the stage project according to the stage project and the fixed construction requirement information;

determining the flow sequence of a plurality of the phase projects based on a construction rule;

and generating a project preliminary construction scheme according to the flow sequence of the plurality of stage projects and the engineering scheme corresponding to each stage project.

4. The target hierarchical iterative method of claim 1, wherein: the method is applied to a constructor, an investor, an operator and a manager involved in the airport construction process, wherein the constructor, the investor, the operator and the manager all have a calling weight correspondingly, and the preset calling sequence is as follows:

sorting the calling weights corresponding to each party from high to low;

and sequentially and circularly calling the target data from high to low according to the calling weight according to the requirement models corresponding to all parties until a final project construction scheme is generated, and finishing calling.

5. The target hierarchical iterative method of claim 1, wherein: the method further comprises the following steps:

acquiring fixed supplementary information input by a user according to contradiction between supplementary requirements or contradiction between the supplementary requirements and the fixed construction requirement information;

and adding the fixed supplementary information to the fixed construction requirement information.

6. The target hierarchical iterative method of claim 3, wherein: the scheme also comprises the following steps:

generating a key node decomposition instruction according to the project scheme corresponding to the stage project, wherein the key node decomposition instruction is used for decomposing the project scheme to obtain a plurality of work progress problem nodes, and the work progress problem nodes are all key nodes of project construction;

acquiring a sub-project completion node, wherein the sub-project completion node corresponds to a work progress problem node;

and sending the sub-project completion node to an intelligent terminal of a user.

7. An object-layered iteration apparatus, characterized by: the method comprises the following steps:

the system comprises a first acquisition module (201) for acquiring a project task and fixed construction requirement information corresponding to the project task;

the preliminary scheme generation module (202) is used for generating a project preliminary construction scheme according to the project task and the fixed construction requirement information based on a preset generation rule;

the first data calling module (203) is used for calling first target data according to a pre-stored first demand model based on a preset calling sequence, generating first result information according to the first target data, and sending the first target data and the first result information to corresponding user intelligent terminals;

a second obtaining module (204) for obtaining a first supplement requirement input by a user;

a second scheme generation module (205) for forming a project second construction scheme according to the first supplement requirement and the fixed construction requirement information;

the second data calling module (206) is used for calling second target data according to a pre-stored second demand model and generating second result information according to the second target data based on a preset calling sequence, and sending the second target data and the second result information to corresponding user intelligent terminals;

a third obtaining module (207) for obtaining a second supplement requirement input by the user;

a third scheme generation module (208) for forming a third construction scheme of the project according to the second supplement requirement, the first supplement requirement and the fixed construction requirement information;

……;

the Nth data calling module (209) is used for calling Nth target data according to a pre-stored Nth demand model based on a preset calling sequence and sending the Nth target data to a corresponding user intelligent terminal, wherein N is a positive integer;

the (N + 1) th acquisition module (210) is used for acquiring the Nth supplement requirement input by the user;

and the final scheme generating module (220) is used for forming a project final construction scheme according to the first supplement requirement, the second supplement requirement, … …, the Nth supplement requirement and the fixed construction requirement information.

8. The target hierarchical iterating means of claim 7, wherein: further comprising:

the decomposition instruction generation module is used for generating a key node decomposition instruction according to the engineering scheme corresponding to the stage project;

the node acquisition module is used for acquiring a sub-project completion node, and the sub-project completion node corresponds to a work progress problem node;

and the information pushing module is used for sending the sub-project completion node to an intelligent terminal of a user.

9. An electronic device comprising a memory and a processor, the memory having stored thereon a computer program, characterized in that the processor, when executing the program, implements the method according to any of claims 1-6.

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