阅读说明：本技术 一种智能装修施工计划管理方法和系统 (Intelligent decoration construction plan management method and system ) 是由 祝德兆 于 2021-06-09 设计创作，主要内容包括：本发明提供了一种智能装修施工计划管理方法和系统,其方法,包括：根据模型产品对应的生产厂家生产的产品对装修清单和产品定制清单进行分类归集,获取项目子订单；读取项目子订单,并生成子生产订单；基于子生产订单设定装修流程,生成包含产品安装和组装的实施计划；将子生产订单及所述实施计划发送至目标岗位,安排装修所需产品。通过生产厂家所对应的产品对装修清单以及产品定制清单进行分类归集,准确确定产品的构成组件,并同步公开各个目标岗位对产品的构成组件以及组件的零部件的生产过程,通过并发式垂直化实施装修计划,实现装修全流程的定制化管理。(The invention provides an intelligent decoration construction plan management method and system, wherein the method comprises the following steps: classifying and collecting the decoration list and the product customization list according to the product produced by the manufacturer corresponding to the model product, and acquiring a project sub-order; reading the project sub-orders and generating sub-production orders; setting a decoration process based on the sub-production order, and generating an implementation plan including product installation and assembly; and sending the sub-production order and the implementation plan to a target post, and arranging products required by decoration. The decoration list and the product customization list are classified and collected through products corresponding to manufacturers, the component assembly of the product is accurately determined, the production process of the component assembly of the product and parts of the component by each target post is synchronously disclosed, and the decoration plan is vertically implemented in a concurrent mode, so that the customization management of the whole decoration process is realized.)

1. An intelligent decoration construction plan management method is characterized by comprising the following steps:

step 1: classifying and collecting the decoration list and the product customization list according to the product produced by the manufacturer corresponding to the model product, and acquiring a project sub-order;

step 2: reading the project sub-orders and generating sub-production orders based on the reading result;

and step 3: setting a decoration process based on the sub-production order, and generating an implementation plan containing product installation and assembly;

and 4, step 4: and sending the sub-production order and the implementation plan to a target post, and arranging products required by decoration.

2. The intelligent decoration construction plan management method according to claim 1, wherein in the step 1, the specific process of obtaining the product produced by the manufacturer corresponding to the model product comprises:

obtaining a model product, and carrying out simulation numbering on the model product according to the standard of the product produced by the manufacturer;

taking the simulation number as a product label of the model product, matching the product label with a product in a preset manufacturer database, and obtaining a matching result;

acquiring one or more sub-products corresponding to the product labels based on the matching result;

acquiring attribute characteristics of a model product, and acquiring a first attribute value corresponding to the attribute characteristics of the model product;

meanwhile, a second attribute value corresponding to the attribute feature of the sub-product is obtained, wherein the second attribute value comprises one or more values;

acquiring a target value equal to the first attribute value in the second attribute value, and acquiring a corresponding sub-target product in the sub-products based on the target value;

wherein, the sub-target product is the product produced by the manufacturer corresponding to the model product.

3. The intelligent decoration and construction plan management method of claim 2, wherein the simulation numbering of the model product according to the standard of the product produced by the manufacturer comprises:

extracting target conditions in the standards of the products produced by the manufacturers, and dividing the target conditions into a plurality of target dimensions;

sequencing the target dimensions according to a preset sequence, and numbering the model products based on a sequencing result;

and performing binary digitization on the serial number, and acquiring a final analog serial number based on a binary digitization result.

4. The intelligent decoration construction plan management method of claim 1, wherein in the step 1, the work process of classifying and collecting decoration lists and product customization lists and obtaining project sub-orders comprises the following steps:

taking a product produced by a manufacturer corresponding to the model product as a target product;

acquiring target product information corresponding to the target product, preprocessing the target product information, and acquiring a product information base corresponding to the target product information;

analyzing and processing the target product information based on the product information base, and determining an information vocabulary of the target product information;

extracting information attributes corresponding to each information vocabulary according to the information vocabularies, and simultaneously generating information nodes corresponding to the target product information based on the information attributes;

acquiring node characteristics of the information nodes, and matching corresponding information trees based on the node characteristics;

generating a corresponding matching network according to the information nodes based on the information tree;

reading list information nodes in the decoration list and the product customization list, and placing the list information nodes in the matching network;

and automatically classifying and collecting the list information nodes based on the matching network to obtain the project sub-production orders.

5. The intelligent decoration and construction plan management method according to claim 1, wherein in the step 2, the specific work process of reading the project sub-orders and generating sub-production orders based on the reading result comprises:

acquiring order keywords of the project sub-orders, and determining project composition original included in the project sub-orders based on the order keywords;

classifying the item composition original according to a preset structure classification rule, and setting a class name identifier for each type of item composition original;

determining the number of the original composed of each type of item based on the class name identification, and establishing a corresponding relation table between the class name identification and the number of the original composed of each type of item;

and generating a sub-production order based on the corresponding relation table.

6. The intelligent decoration construction plan management method of claim 1, wherein in step 3, the decoration process is set based on the sub-production order, and after generating the implementation plan including product installation and assembly, the method further comprises:

performing product arrangement and decoration simulation on the implementation plan, and acquiring a simulation result;

reading the simulation result, and obtaining the efficiency of arranging and decorating the product and the quality evaluation coefficient of the product after arranging and decorating;

calculating a reasonable degree value of the implementation plan based on the efficiency of arranging and decorating the product and the quality evaluation coefficient of the product after arranging and decorating;

wherein Z represents a goodness value of the implementation plan; eta represents the efficiency of arranging and decorating the product; q represents the amount of work required to install and assemble the product; t represents the simulation time of the implementation plan for arranging and finishing the product; v represents the desired speed of installation and assembly of the product; mu represents a qualified factor for installing and assembling the product, and the value range of the qualified factor is (0.805, 0.998); rho represents a quality evaluation coefficient of the mounted and assembled product, rho belongs to Z, Z represents a positive integer and takes the value of 1, 3 or 5;

comparing the reasonable degree value of the implementation plan with a preset reasonable degree range;

when the reasonable degree value of the implementation plan is equal to or larger than the preset reasonable degree range, judging that the implementation plan is reasonable in design;

and when the reasonable degree value of the implementation plan is smaller than the preset reasonable degree range, judging that the implementation plan is unreasonable, and regenerating the implementation plan containing product installation and assembly.

7. The intelligent decoration construction plan management method of claim 1, wherein in the step 4, the sub-production order and the implementation plan are sent to a target post, and the specific work process of arranging the products required for decoration comprises:

acquiring data corresponding to the sub-production orders and the implementation plan, and constructing transmission links between a management terminal and the target posts, wherein the number of the transmission links is multiple;

the management terminal sends a data transmission notice to a target station on the basis of the transmission link and receives feedback information made by the target station aiming at the transmission notice;

determining a post identifier of the target post based on the feedback information, and matching the target post with the sub-production order and the implementation plan based on the post identifier;

determining a sub-production order and an implementation plan corresponding to a target post based on a matching result, and simultaneously determining a target format of the target post receiving data;

carrying out format conversion on the sub-production order and the implementation plan based on the target format, and transmitting the converted sub-production order and the implementation plan to a target post through the transmission link;

and arranging products required by decoration according to the received sub-production orders and the implementation plan by the target posts.

8. The intelligent decoration construction plan management method of claim 1, wherein in step 4, the sub-production order and the implementation plan are sent to a target post, and after arranging products required for decoration, the method further comprises:

the target post respectively processes the sub-production orders, calculates the total workload of the target post based on the processing result, obtains the working speed of each target sub-post, and calculates the total time for arranging products required by decoration based on the total workload and the working speed of each target sub-post, wherein the specific working process comprises the following steps:

processing the sub-production order and acquiring a processing result;

calculating the total workload of the target post according to the processing result;

wherein L represents the total workload of the target post; f represents the complexity value of the product required by the arrangement and assembly; delta represents a weight factor of the products required by the arrangement and assembly, and the value range is (0.96, 0.98); i represents the current target sub-position, and i is 1, 2, … n; n represents the total number of the target posts; r is_iRepresenting the task quantity of the ith target sub-post; eta_iRepresenting the instrument guarantee rate of the ith target sub-post;

acquiring the average working speed of a target post, and calculating the first total time of products required by arrangement decoration based on the total workload of the target post;

wherein, T₁Representing a first total time for said arranging a desired product for finishing; v represents the average working speed of the target position;

acquiring the working speed of each target post, and calculating a second total time for arranging products required for decoration based on the working speed of each target post and the workload of each target post;

wherein v is_iRepresenting the working speed of the ith target sub-station; r is₁Representing the task quantity of the 1 st target sub-post; eta₁Representing the instrument guarantee rate of the 1 st target sub-post; r is₁*η₁Representing the workload of 1 target sub-post; r is₂*η₂Representing the workload of the 2 nd target sub-post; r is_n*η_nRepresenting the workload of the nth target sub-post;

averaging the first total time and the second total time to obtain target time, wherein the target time is the final delivery time of the product;

and the final delivery time of the product is delivered to the client side, and the delivery date of the final production order is perfected.

9. The utility model provides an intelligence fitment construction plan management system which characterized in that includes:

item sub-order acquisition module: the system comprises a model product, a decoration list, a product customization list, a product order list and a product order list, wherein the decoration list and the product customization list are classified and collected according to the product produced by a manufacturer corresponding to the model product, and a project sub-order is obtained;

a sub-production order acquisition module: the system is used for reading the project sub-orders and generating sub-production orders based on the reading result;

an implementation plan acquisition module: the system is used for setting a decoration process based on the sub-production order and acquiring an implementation plan including product installation and assembly;

an order transmission module: and the system is used for sending the sub-production order and the implementation plan to a target post and arranging and decorating the model product.

Technical Field

The invention relates to the technical field of decoration construction project management, in particular to an intelligent decoration construction plan management method and system.

Background

At present, decoration construction products well known to the public generally determine a decoration effect diagram by acquiring a scheme and budget established by a decoration company, provide a bill of product materials independently and realize the production of the products by layer-by-layer departments;

however, the project management of the decoration construction product does not accurately acquire the specific structure of the product, and does not synchronously disclose how each department and factory end accurately produce the product, so the invention provides an intelligent decoration construction plan management method and system, and the customized management of the whole decoration process is realized by implementing the decoration plan vertically in a concurrent manner.

Disclosure of Invention

The invention provides an intelligent decoration construction plan management method and system, which are used for classifying and collecting decoration lists and product customization lists through products corresponding to manufacturers, accurately determining component assemblies of the products, synchronously disclosing the component assemblies of the products and the production processes of components of the components by each target post, and implementing a decoration plan in a concurrent vertical mode to realize the customization management of the whole decoration process.

An intelligent decoration construction plan management method comprises the following steps:

step 1: classifying and collecting the decoration list and the product customization list according to the product produced by the manufacturer corresponding to the model product, and acquiring a project sub-order;

step 2: reading the project sub-orders and generating sub-production orders based on the reading result;

and step 3: setting a decoration process based on the sub-production order, and generating an implementation plan containing product installation and assembly;

and 4, step 4: and sending the sub-production order and the implementation plan to a target post, and arranging products required by decoration.

Preferably, in the step 1, the specific process of obtaining the product produced by the manufacturer corresponding to the model product includes:

obtaining a model product, and carrying out simulation numbering on the model product according to the standard of the product produced by the manufacturer;

taking the simulation number as a product label of the model product, matching the product label with a product in a preset manufacturer database, and obtaining a matching result;

acquiring one or more sub-products corresponding to the product labels based on the matching result;

acquiring attribute characteristics of a model product, and acquiring a first attribute value corresponding to the attribute characteristics of the model product;

meanwhile, a second attribute value corresponding to the attribute feature of the sub-product is obtained, wherein the second attribute value comprises one or more values;

acquiring a target value equal to the first attribute value in the second attribute value, and acquiring a corresponding sub-target product in the sub-products based on the target value;

wherein, the sub-target product is the product produced by the manufacturer corresponding to the model product.

Preferably, the intelligent decoration construction plan management method is a working process of simulating numbering of the model product according to the standard of the product produced by the manufacturer, and comprises the following steps:

extracting target conditions in the standards of the products produced by the manufacturers, and dividing the target conditions into a plurality of target dimensions;

sequencing the target dimensions according to a preset sequence, and numbering the model products based on a sequencing result;

and performing binary digitization on the serial number, and acquiring a final analog serial number based on a binary digitization result.

Preferably, in step 1, the working process of classifying and collecting the decoration list and the product customization list and acquiring the project sub-order includes:

taking a product produced by a manufacturer corresponding to the model product as a target product;

acquiring target product information corresponding to the target product, preprocessing the target product information, and acquiring a product information base corresponding to the target product information;

analyzing and processing the target product information based on the product information base, and determining an information vocabulary of the target product information;

extracting information attributes corresponding to each information vocabulary according to the information vocabularies, and simultaneously generating information nodes corresponding to the target product information based on the information attributes;

acquiring node characteristics of the information nodes, and matching corresponding information trees based on the node characteristics;

generating a corresponding matching network according to the information nodes based on the information tree;

reading list information nodes in the decoration list and the product customization list, and placing the list information nodes in the matching network;

and automatically classifying and collecting the list information nodes based on the matching network to obtain the project sub-production orders.

Preferably, in step 2, the method for managing the intelligent decoration construction plan reads the project sub-order and generates a specific working process of the sub-production order based on the read result, and includes:

acquiring order keywords of the project sub-orders, and determining project composition original included in the project sub-orders based on the order keywords;

classifying the item composition original according to a preset structure classification rule, and setting a class name identifier for each type of item composition original;

determining the number of the original composed of each type of item based on the class name identification, and establishing a corresponding relation table between the class name identification and the number of the original composed of each type of item;

and generating a sub-production order based on the corresponding relation table.

Preferably, in step 3, the method for managing an intelligent decoration construction plan further includes, after setting a decoration process based on the sub-production order and generating an implementation plan including product installation and assembly:

performing product arrangement and decoration simulation on the implementation plan, and acquiring a simulation result;

reading the simulation result, and obtaining the efficiency of arranging and decorating the product and the quality evaluation coefficient of the product after arranging and decorating;

calculating a reasonable degree value of the implementation plan based on the efficiency of arranging and decorating the product and the quality evaluation coefficient of the product after arranging and decorating;

wherein Z represents a goodness value of the implementation plan; eta represents the efficiency of arranging and decorating the product; q represents the amount of work required to install and assemble the product; t represents the simulation time of the implementation plan for arranging and finishing the product; v represents the desired speed of installation and assembly of the product; mu represents a qualified factor for installing and assembling the product, and the value range of the qualified factor is (0.805, 0.998); rho represents a quality evaluation coefficient of the mounted and assembled product, rho belongs to Z, Z represents a positive integer and takes the value of 1, 3 or 5;

comparing the reasonable degree value of the implementation plan with a preset reasonable degree range;

when the reasonable degree value of the implementation plan is equal to or larger than the preset reasonable degree range, judging that the implementation plan is reasonable in design;

and when the reasonable degree value of the implementation plan is smaller than the preset reasonable degree range, judging that the implementation plan is unreasonable, and regenerating the implementation plan containing product installation and assembly.

Preferably, in step 4, the sub-production order and the implementation plan are sent to a target post, and the specific working process of arranging the products required for decoration includes:

acquiring data corresponding to the sub-production orders and the implementation plan, and constructing transmission links between a management terminal and the target posts, wherein the number of the transmission links is multiple;

the management terminal sends a data transmission notice to a target station on the basis of the transmission link and receives feedback information made by the target station aiming at the transmission notice;

determining a post identifier of the target post based on the feedback information, and matching the target post with the sub-production order and the implementation plan based on the post identifier;

determining a sub-production order and an implementation plan corresponding to a target post based on a matching result, and simultaneously determining a target format of the target post receiving data;

carrying out format conversion on the sub-production order and the implementation plan based on the target format, and transmitting the converted sub-production order and the implementation plan to a target post through the transmission link;

and arranging products required by decoration according to the received sub-production orders and the implementation plan by the target posts.

Preferably, in step 4, the method for managing an intelligent decoration construction plan further includes, after the sub-production order and the implementation plan are sent to a target post and a product required for decoration is arranged:

the target post respectively processes the sub-production orders, calculates the total workload of the target post based on the processing result, obtains the working speed of each target sub-post, and calculates the total time for arranging products required by decoration based on the total workload and the working speed of each target sub-post, wherein the specific working process comprises the following steps:

processing the sub-production order and acquiring a processing result;

calculating the total workload of the target post according to the processing result;

wherein L represents the total workload of the target post; f represents the complexity value of the product required by the arrangement and assembly; delta represents a weight factor of the products required by the arrangement and assembly, and the value range is (0.96, 0.98); i represents the current target sub-position, and i is 1, 2, … n; n represents the total number of the target posts; r is_iRepresenting the task quantity of the ith target sub-post; eta_iRepresenting the instrument guarantee rate of the ith target sub-post;

acquiring the average working speed of a target post, and calculating the first total time of products required by arrangement decoration based on the total workload of the target post;

wherein, T₁Representing a first total time for said arranging a desired product for finishing; v represents the average working speed of the target position;

acquiring the working speed of each target post, and calculating a second total time for arranging products required for decoration based on the working speed of each target post and the workload of each target post;

wherein v is_iRepresenting the working speed of the ith target sub-station; r is₁Representing the task quantity of the 1 st target sub-post; eta₁Representing the instrument guarantee rate of the 1 st target sub-post; r is₁*η₁Representing the workload of 1 target sub-post; r is₂*η₂Representing the workload of the 2 nd target sub-post; r is_n*η_nRepresenting the workload of the nth target sub-post;

averaging the first total time and the second total time to obtain target time, wherein the target time is the final delivery time of the product;

and the final delivery time of the product is delivered to the client side, and the delivery date of the final production order is perfected.

An intelligent finishing construction plan management system, comprising:

item sub-order acquisition module: the system comprises a model product, a decoration list, a product customization list, a product order list and a product order list, wherein the decoration list and the product customization list are classified and collected according to the product produced by a manufacturer corresponding to the model product, and a project sub-order is obtained;

a sub-production order acquisition module: the system is used for reading the project sub-orders and generating sub-production orders based on the reading result;

an implementation plan acquisition module: the system is used for setting a decoration process based on the sub-production order and acquiring an implementation plan including product installation and assembly;

an order transmission module: and the system is used for sending the sub-production order and the implementation plan to a target post and arranging and decorating the model product.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a flow chart of an intelligent decoration construction plan management method in an embodiment of the present invention;

fig. 2 is a structural diagram of an intelligent decoration construction plan management system in the embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example 1:

the embodiment provides an intelligent decoration construction plan management method, as shown in fig. 1, including:

step 1: classifying and collecting the decoration list and the product customization list according to the product produced by the manufacturer corresponding to the model product, and acquiring a project sub-order;

step 2: reading the project sub-orders and generating sub-production orders based on the reading result;

and step 3: setting a decoration process based on the sub-production order, and generating an implementation plan containing product installation and assembly;

and 4, step 4: and sending the sub-production order and the implementation plan to a target post, and arranging products required by decoration.

In this embodiment, the model product may be a product that a user needs to refer to as a reference for production.

In this embodiment, the item sub-order may be a list that determines specific constituent components of the produced product by classifying the decoration list and the product customization list, where one component corresponds to one item sub-order;

the sub-production orders may be that each component contains a plurality of parts, wherein each part corresponds to a sub-production order;

for example, the decoration list and the product customization list are general orders about office decoration, and the item sub-orders include specific furniture of the office, such as: tables, doors, chairs, etc.; the sub-production order is an order for the parts corresponding to each piece of furniture, for example: the door includes: glass, wood, door handle, hinge etc. each spare part corresponds a sub-production order.

In this embodiment, the target station includes: supervision, project manager, material trader, worker, etc.

The beneficial effects of the above technical scheme are: the decoration list and the product customization list are classified and collected through products corresponding to manufacturers, the component assembly of the product is accurately determined, the production process of the component assembly of the product and parts of the component by each target post is synchronously disclosed, and the decoration plan is vertically implemented in a concurrent mode, so that the customization management of the whole decoration process is realized.

Example 2:

on the basis of embodiment 1, this embodiment provides an intelligent decoration construction plan management method, which is characterized in that, in step 1, the specific process of obtaining a product produced by a manufacturer corresponding to the model product includes:

obtaining a model product, and carrying out simulation numbering on the model product according to the standard of the product produced by the manufacturer;

taking the simulation number as a product label of the model product, matching the product label with a preset manufacturer database, and obtaining a matching result;

acquiring one or more sub-products corresponding to the product labels based on the matching result;

acquiring attribute characteristics of a model product, and acquiring a first attribute value corresponding to the attribute characteristics of the model product;

meanwhile, a second attribute value corresponding to the attribute feature of the sub-product is obtained, wherein the second attribute value comprises one or more values;

acquiring a target value equal to the first attribute value in the second attribute value, and acquiring a corresponding sub-target product in the sub-products based on the target value;

wherein, the sub-target product is the product produced by the manufacturer corresponding to the model product.

In this embodiment, the standard of the product produced by the manufacturer may be, for example, a standard determined by a type corresponding to the model product, for example, when the type of the model product is furniture, the standard of the product produced by the manufacturer is a first standard, and when the type of the model product is electrical appliance, the standard of the product produced by the manufacturer is a second standard.

In this embodiment, the product label may be a product label that is a serial number of the model product and is used to determine a sub-product corresponding to the model product.

In this embodiment, acquiring one or more sub-products corresponding to the product label may be, for example: the product label is furniture, and the subsidiary products are tables, chairs, stools, beds and the like.

In this embodiment, the attribute feature of the model product may be a category to which the model product belongs, for example, the attribute of the model product is a table or the like.

In this embodiment, the first characteristic value may be a value determined for a characteristic of an attribute of the model product, for example, the attribute of the model product is a table, the attribute of the table is wood, and a value corresponding to the attribute is customized to be 1.

In this embodiment, the second characteristic value is one or more.

In this embodiment, the sub-target product belongs to a sub-product.

The beneficial effects of the above technical scheme are: the sub-products corresponding to the preset manufacturer database can be effectively determined by obtaining the serial numbers of the model products, and the sub-target products corresponding to the values with the first attribute values equal to the second attribute values are determined by obtaining the first attribute values of the model products and comparing the first attribute values with a plurality of second attribute values corresponding to the sub-products, so that the final products manufactured by the manufacturer are determined, and the accuracy of product obtaining is improved.

Example 3:

on the basis of embodiment 2, this embodiment provides an intelligent decoration and construction plan management method, which is a working process of performing simulation numbering on the model product according to the standard of the product produced by the manufacturer, and includes:

extracting target conditions in the standards of the products produced by the manufacturers, and dividing the target conditions into a plurality of target dimensions;

sequencing the target dimensions according to a preset sequence, and numbering the model products based on a sequencing result;

and performing binary digitization on the serial number, and acquiring a final analog serial number based on a binary digitization result.

In this embodiment, the target condition may be, for example, a production date, a production temperature, a furniture material, and the like when the manufacturer produces furniture as the product.

In this embodiment, the target dimension corresponds to a target condition, for example, if the target condition is a production date of furniture, the target dimension corresponds to a time dimension.

In this embodiment, the preset sequence may be numbering according to the production date, the production temperature, and the furniture material of the product, where the production temperature is high temperature, moderate temperature, and low temperature, and the corresponding numbers are 1, 2, and 3, respectively, and the furniture material includes: wood corresponds to a number of 4, glass corresponds to a number of 5, rubber corresponds to a number of 6, etc., for example: the production date of a certain model product is 2021.05.08, the production temperature is high temperature and the material is wood, then the model product is numbered 2021050814 according to the preset sequence.

In this embodiment, the simulation serial number is to convert the code of the model product into a binary system, for example, the serial number of the model product is 2021050814, and the converted serial number is 0010000000100001000001010000100000010100.

The beneficial effects of the above technical scheme are: through obtaining the target dimension to sort according to the target dimension and can effectively number the model product, can effectively discern the machine through converting the serial number into the simulation serial number, improved the accurate nature of product production.

Example 4:

on the basis of embodiment 1, this embodiment provides an intelligent decoration construction plan management method, and in step 1, the working process of classifying and collecting a decoration list and a product customization list and acquiring a project sub-order includes:

taking a product produced by a manufacturer corresponding to the model product as a target product;

acquiring target product information corresponding to the target product, preprocessing the target product information, and acquiring a product information base corresponding to the target product information;

analyzing and processing the target product information based on the product information base, and determining an information vocabulary of the target product information;

according to the information vocabularies, extracting information attributes corresponding to each information vocabulary, and meanwhile, generating information nodes corresponding to the target product information based on the information attributes;

acquiring node characteristics of the information nodes, and matching corresponding information trees based on the node characteristics;

generating a corresponding matching network according to the information nodes based on the information tree, reading list information nodes in the decoration list and the product customization list, and placing the list information nodes in the matching network;

and automatically classifying and collecting the list information nodes based on the matching network to obtain the project sub-production orders.

In this embodiment, the target product information may be, for example, tables, chairs, parts of tables and chairs, and the like.

In this embodiment, the preprocessing of the target product information may be to decode the target product, obtain information content of the target product, and determine a corresponding product information base.

In this embodiment, the information attribute may be an attribute determined for the information vocabulary, for example, if the information vocabulary is a desk desktop, the information attribute is a property reflecting the desk desktop.

In this embodiment, the information node is generated according to the information attribute and used for saving the information attribute.

In the embodiment, the information tree is generated by the information nodes, each information node represents a target product, and when the list information nodes in the decoration list and the product customization list are obtained, the information nodes in the information tree can be effectively and accurately identified through automatic matching of the system, so that the project sub-order of the target product is determined.

The beneficial effects of the above technical scheme are: the information tree can be effectively obtained by obtaining the information of the target product and generating the information tree, and automatic matching can be carried out in the information tree by reading the information nodes of the decoration list and the product customization list, so that the target product is effectively determined, and the efficiency of obtaining the project sub-order is improved.

Example 5:

on the basis of embodiment 1, this embodiment provides an intelligent decoration construction plan management method, and in step 2, a specific working process of reading the project sub-order and generating a sub-production order based on a reading result includes:

acquiring order keywords of the project sub-orders, and determining project composition original included in the project sub-orders based on the order keywords;

classifying the item composition original according to a preset structure classification rule, and setting a class name identifier for each type of item composition original;

determining the number of the original composed of each type of item based on the class name identification, and establishing a corresponding relation table between the class name identification and the number of the original composed of each type of item;

and generating a sub-production order based on the corresponding relation table.

In this embodiment, the order keyword refers to a word or words that can indicate the category to which the item sub-order belongs, for example, the order keyword may be a table, a door, a chair, etc.

In this embodiment, the item component original refers to a component corresponding to the main body included in each item sub-order, for example, a door includes a door handle, a lock, a hinge, a door leaf, and the like.

In this embodiment, the preset structure classification rule is set in advance, and for a door, a hinge, a door frame, a handle, and the like are respectively set as one category.

In this embodiment, the class name identifier is set by itself, and is used to mark the category of the original document of the item composition, so as to play a role of prompting guidance.

The beneficial effects of the above technical scheme are: the method comprises the steps of determining the category of the project sub-order by determining keywords of the project sub-order, determining corresponding project composition original documents according to the category of the project sub-order, and determining the number of the corresponding original documents, so that the accuracy of determining the sub-order is improved, and the accuracy of producing products at a target post is improved.

Example 6:

on the basis of embodiment 1, this embodiment provides an intelligent decoration construction plan management method, and in step 3, after setting a decoration flow based on the sub-production order, generating an implementation plan including product installation and assembly, the method further includes:

performing product arrangement and decoration simulation on the implementation plan, and acquiring a simulation result;

reading the simulation result, and obtaining the efficiency of arranging and decorating the product and the quality evaluation coefficient of the product after arranging and decorating;

calculating a reasonable degree value of the implementation plan based on the efficiency of arranging and decorating the product and the quality evaluation coefficient of the product after arranging and decorating;

wherein Z represents a goodness value of the implementation plan; eta represents the efficiency of arranging and decorating the product; q represents the amount of work required to install and assemble the product; t represents the simulation time of the implementation plan for arranging and finishing the product; v represents the desired speed of installation and assembly of the product; mu represents a qualified factor for installing and assembling the product, and the value range of the qualified factor is (0.805, 0.998); rho represents a quality evaluation coefficient of the mounted and assembled product, rho belongs to Z, Z represents a positive integer and takes the value of 1, 3 or 5;

comparing the reasonable degree value of the implementation plan with a preset reasonable degree range;

when the reasonable degree value of the implementation plan is equal to or larger than the preset reasonable degree range, judging that the implementation plan is reasonable in design;

and when the reasonable degree value of the implementation plan is smaller than the preset reasonable degree range, judging that the implementation plan is unreasonable, and regenerating the implementation plan containing product installation and assembly.

In this embodiment, the reasonable degree value may be a value used to quantify the evaluation of the implementation plan and to determine whether the implementation plan is reasonable.

In this embodiment, the desired speed may be the speed at which the product is simulated to be installed and assembled without any interference.

In this embodiment, the qualification factor may be a qualification parameter for installing and assembling a product, and may affect the reasonable degree of the implementation plan, so that the calculation of the reasonable degree value of the implementation plan has objectivity by taking the qualification factor into consideration.

In this embodiment, the quality evaluation coefficient may be a coefficient for evaluating the quality of the product after the product is subjected to the simulated installation and assembly, and when the quality evaluation coefficient is 5, it indicates that the quality of the product is the first grade; when the quality evaluation coefficient is 3, indicating that the quality of the product is a second grade; when the quality evaluation coefficient is 1, the quality of the product is shown to be a third grade, the higher the quality grade of the product is, the better the quality of the product is, and meanwhile, the higher the reasonable degree value of the implementation plan is.

The beneficial effects of the above technical scheme are: whether the implementation plan including product installation and assembly is reasonable can be effectively judged by obtaining the reasonable degree value of the implementation plan, and the implementation plan is obtained again when the implementation plan is not reasonable, so that reasonable execution of the implementation plan can be effectively ensured, and the efficiency of product installation and assembly is indirectly improved.

Example 7:

on the basis of embodiment 1, this embodiment provides an intelligent decoration construction plan management method, and in step 4, the sub-production order and the implementation plan are sent to a target post, and the specific working process of arranging a product required for decoration includes:

acquiring data corresponding to the sub-production orders and the implementation plan, and constructing transmission links between a management terminal and the target posts, wherein the number of the transmission links is multiple;

the management terminal sends a data transmission notice to a target station on the basis of the transmission link and receives feedback information made by the target station aiming at the transmission notice;

determining a post identifier of the target post based on the feedback information, and matching the target post with the sub-production order and the implementation plan based on the post identifier;

determining a sub-production order and an implementation plan corresponding to a target post based on a matching result, and simultaneously determining a target format of the target post receiving data;

carrying out format conversion on the sub-production order and the implementation plan based on the target format, and transmitting the converted sub-production order and the implementation plan to a target post through the transmission link;

and arranging products required by decoration according to the received sub-production orders and the implementation plan by the target posts.

In this embodiment, the feedback information is sent by the target post and used to notify the management terminal that the sub-production order and the data corresponding to the implementation plan can be sent.

In this embodiment, the target station includes a plurality of stations, which may be, for example, a proctoring station, a project manager station, a material manager station, a worker station, and the like.

In this embodiment, the post identifier is used to distinguish different posts, and it can be quickly determined whether the post belongs to a proctoring or project manager or a material provider according to the post identifier.

In this embodiment, the target format refers to the data format required by the reading data of the target station, for example, the worker station needs to convert the data into drawings.

The beneficial effects of the above technical scheme are: by constructing a transmission link and matching the sub-orders and the implementation plan with the target post, the target post is ensured to receive the corresponding sub-orders and the implementation plan, and the accuracy of data transmission is improved.

Example 8:

on the basis of embodiment 1, this embodiment provides an intelligent decoration construction plan management method, and in step 4, after sending the sub-production order and the implementation plan to a target post and arranging a product required for decoration, the method further includes:

the target post respectively processes the sub-production orders, calculates the total workload of the target post based on the processing result, obtains the working speed of each target sub-post, and calculates the total time for arranging products required by decoration based on the total workload and the working speed of each target sub-post, wherein the specific working process comprises the following steps:

processing the sub-production order and acquiring a processing result;

calculating the total workload of the target post according to the processing result;

wherein L represents the total workload of the target post; f represents the complexity value of the product required by the arrangement and assembly; delta represents a weight factor of the products required by the arrangement and assembly, and the value range is (0.96, 0.98); i represents the current target sub-position, and i is 1, 2, … n; n represents the total number of the target posts; r is_iRepresenting the task quantity of the ith target sub-post; eta_iRepresenting the instrument guarantee rate of the ith target sub-post;

acquiring the average working speed of a target post, and calculating the first total time of products required by arrangement decoration based on the total workload of the target post;

wherein, T₁Representing a first total time for said arranging a desired product for finishing; v represents the average working speed of the target position;

acquiring the working speed of each target post, and calculating a second total time for arranging products required for decoration based on the working speed of each target post and the workload of each target post;

wherein v is_iRepresenting the working speed of the ith target sub-station; r is₁Representing the task quantity of the 1 st target sub-post; eta₁Representing the instrument guarantee rate of the 1 st target sub-post; r is₁*η₁Representing the workload of 1 target sub-post; r is₂*η₂Representing the workload of the 2 nd target sub-post; r is_n*η_nRepresenting the workload of the nth target sub-post;

averaging the first total time and the second total time to obtain target time, wherein the target time is the final delivery time of the product;

and the final delivery time of the product is delivered to the client side, and the delivery date of the final production order is perfected.

In this embodiment, the processing result includes: the complexity of the product, the workload of each target sub-post, etc.

In this embodiment, the complexity value may be a quantification of the complexity of the product arrangement assembly, such as: when the complexity value is 1, the complexity of arranging and assembling the product is easy, when the complexity value is 2, the complexity of arranging and assembling the product is general, and when the complexity value is 3, the complexity of arranging and assembling the product is difficult, so that the complexity value is in direct proportion to the total workload of the target post, and the larger the complexity value is, the higher the total workload of the target post is.

In this embodiment, the weighting factor may be a factor for scoring the difficulty level of the product, and is consistent with the complexity value of the product.

In this embodiment, the instrument guarantee rate indicates the probability of generating work by the instrument in each target sub-station, and when the instrument guarantee rate is lower, the lower the instrument guarantee rate means that the workload of the target sub-station is greater, so that the total workload affecting the target station is greater.

In this embodiment, the purpose of averaging the first total time and the second total time is to calculate the first total time and the second total time in different manners, so as to overcome the phenomenon of calculation errors, and the lead time can be made more objective by averaging.

The beneficial effects of the above technical scheme are: and processing the sub-production orders through the target posts respectively, accurately calculating the total workload of the target posts based on the processing result, acquiring the working speed of each target sub-post, and calculating the total time for arranging products required for decoration according to the total workload and the working speed of each target sub-post, wherein the final delivery time can be effectively determined by averaging the first total time and the second total time, and the accuracy and the objectivity of the delivery time are ensured.

Example 9:

the embodiment provides an intelligent decoration construction plan management system, as shown in fig. 2, including:

item sub-order acquisition module: the system comprises a model product, a decoration list, a product customization list, a product order list and a product order list, wherein the decoration list and the product customization list are classified and collected according to the product produced by a manufacturer corresponding to the model product, and a project sub-order is obtained;

a sub-production order acquisition module: the system is used for reading the project sub-orders and generating sub-production orders based on the reading result;

an implementation plan acquisition module: the system is used for setting a decoration process based on the sub-production order and acquiring an implementation plan including product installation and assembly;

an order transmission module: and the system is used for sending the sub-production order and the implementation plan to a target post and arranging and decorating the model product.

The beneficial effects of the above technical scheme are: the decoration list and the product customization list are classified and collected through products corresponding to manufacturers, the component assembly of the product is accurately determined, the production process of the component assembly of the product and parts of the component by each target post is synchronously disclosed, and the decoration plan is vertically implemented in a concurrent mode, so that the customization management of the whole decoration process is realized.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.