CN115857393A - Building automatic control system design method and design device based on shared development - Google Patents

Abstract

The embodiment of the invention discloses a building automatic control system design method and a design device based on shared development, relating to the technical field of system design, wherein the method comprises the following steps: acquiring initial design information of a current building; performing decoupling operation on the preliminary design information to generate a plurality of sub-design links; obtaining a plurality of sharing operations aiming at the plurality of sub-design links, wherein each sharing operation corresponds to a corresponding sub-design link; generating sub-design information corresponding to each sub-design link based on the plurality of sharing operations; and executing information fusion operation on the sub-design information to generate the design information of the automatic control system of the current building. By improving the traditional building automatic control system design method and adopting an online sharing design mode, the design accuracy and the working efficiency of technicians are effectively improved.

Description

Building automatic control system design method and design device based on shared development

Technical Field

The invention relates to the technical field of system design, in particular to a building automatic control system design method based on shared development and a building automatic control system design device based on shared development.

Background

With the continuous development of building technology, the building scale is continuously increased, on the basis, the functions required to be possessed in the building are continuously increased, the traditional building design mode cannot meet the actual requirements, and therefore the building automation control technology appears.

In the existing building automation control technology, corresponding functions need to be designed according to actual requirements of a current building, for example, the functions need to be designed and implemented in multiple professional fields such as heating ventilation, electrical, water supply and drainage, fire fighting and the like, and in the design and implementation process, as the above contents relate to multiple professional skills, general maintenance personnel cannot meet technical requirements, and the automatic control system suppliers responsible for implementation often carry out secondary deepening design.

In the existing design work, a technician mainly performs entry and arrangement of design information by using a tool, such as an EXCEL tool or a CAD tool, in combination with some template formats of prior design arrangement. However, in the practical application process, the skilled person finds that the prior art has at least the following technical problems:

on one hand, the design work needs to have better professional ability, so the requirement on the professional skill of a designer is too high; secondly, because the related working procedures are more, the technical problems of complicated working procedures, incapability of dividing labor and low working efficiency exist; finally, since different design data cannot be multiplexed, the technical problems of large workload and low working efficiency exist.

Disclosure of Invention

In order to overcome the technical problems in the prior art, the embodiment of the invention provides a building automatic control system design method and a building automatic control system design device based on shared development.

In order to achieve the above object, an embodiment of the present invention provides a building automation system design method based on shared development, where the method includes: acquiring initial design information of a current building; performing decoupling operation on the preliminary design information to generate a plurality of sub-design links; obtaining a plurality of sharing operations aiming at the plurality of sub-design links, wherein each sharing operation corresponds to a corresponding sub-design link; generating sub-design information corresponding to each sub-design link based on the plurality of sharing operations; and executing information fusion operation on the sub-design information to generate the design information of the automatic control system of the current building.

Preferably, the decoupling operation is performed on the preliminary design information to generate a plurality of sub-design links, including: determining the automatic control process of the current building based on the preliminary design information; performing decoupling operation on the automatic control flow to generate a plurality of sub-control flows; determining attribute information of each sub-control flow; and generating a plurality of sub-design links based on the plurality of sub-control flows and the corresponding attribute information.

Preferably, the generating sub-design information corresponding to each sub-design link based on the plurality of sharing operations includes: acquiring control elements of the current sub-design link based on the sharing operation; acquiring control process relation information associated with all control elements; acquiring a control association operation for each control element based on the sharing operation; and generating sub-design information of the current sub-design link based on the control element, the control process relation information and the control correlation operation.

Preferably, the generating of the sub-design information of the current sub-design link based on the control element, the control process relation information, and the control correlation operation includes: acquiring current scene information; determining specific control relation information corresponding to the control elements in the control process relation information based on current scene information; judging whether the control correlation operation meets the control correlation operation; if so, generating sub-design information of the current sub-design link based on the control correlation operation; otherwise, displaying recommendation relation information, acquiring feedback information aiming at the recommendation relation information, determining new control association operation based on the feedback information, and generating sub-design information of the current sub-design link based on the new control association operation.

Preferably, the method further comprises: traversing all control elements after determining a control correlation operation that satisfies the control correlation operation; judging whether the control correlation operation meets a batch processing rule in all control elements; if so, generating sub-design information of the current sub-design link based on the control correlation operation and the batch processing rule; otherwise, generating the sub-design information of the current sub-design link based on the control correlation operation.

Correspondingly, the invention also provides a building automatic control system design device based on shared development, which comprises: the information acquisition unit is used for acquiring the initial design information of the current building; the decoupling unit is used for performing decoupling operation on the preliminary design information to generate a plurality of sub-design links; an operation unit, configured to acquire a plurality of sharing operations for the plurality of sub-design links, where each sharing operation corresponds to a corresponding sub-design link; a design information generation unit configured to generate sub-design information corresponding to each sub-design link based on the plurality of sharing operations; and the fusion unit is used for executing information fusion operation on the sub-design information and generating the design information of the automatic control system of the current building.

Preferably, the decoupling unit comprises: the flow determining module is used for determining the automatic control flow of the current building based on the preliminary design information; the decoupling module is used for performing decoupling operation on the automatic control flow to generate a plurality of sub-control flows; the attribute determining module is used for determining the attribute information of each sub-control flow; and the design link determining module is used for generating a plurality of sub-design links based on the plurality of sub-control flows and the corresponding attribute information.

Preferably, the design information generation unit includes: the element acquisition module is used for acquiring the control elements of the current sub-design link based on the sharing operation; the relation acquisition module is used for acquiring control process relation information associated with all the control elements; the association module is used for acquiring control association operation aiming at each control element based on the sharing operation; and the design information generation module is used for generating the sub-design information of the current sub-design link based on the control element, the control process relation information and the control correlation operation.

Preferably, the design information generating module is specifically configured to: acquiring current scene information; determining specific control relation information corresponding to the control elements in the control process relation information based on current scene information; judging whether the control correlation operation meets the control correlation operation; if so, generating sub-design information of the current sub-design link based on the control correlation operation; otherwise, displaying recommendation relation information, acquiring feedback information aiming at the recommendation relation information, determining new control association operation based on the feedback information, and generating sub-design information of the current sub-design link based on the new control association operation.

Preferably, the design information generating unit further includes a batch processing module, and the batch processing module is specifically configured to: traversing all control elements after determining a control correlation operation that satisfies the control correlation operation; judging whether the control correlation operation meets a batch processing rule in all control elements; if so, generating sub-design information of the current sub-design link based on the control correlation operation and the batch processing rule; otherwise, generating the sub-design information of the current sub-design link based on the control correlation operation.

Through the technical scheme provided by the invention, the invention at least has the following technical effects:

by improving the traditional building automatic control system design method, on one hand, an on-line platform design mode is adopted to provide accurate and rich basic data models and product information bases for technicians, so that the design accuracy and the working efficiency of the technicians are greatly improved; on the other hand, the shared operation platform allows technicians to perform shared design simultaneously, so that the design work efficiency of the technicians is further improved, and the actual requirements of enterprises are met.

Additional features and advantages of embodiments of the invention will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments 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 embodiments of the invention without limiting the embodiments of the invention. In the drawings:

fig. 1 is a flowchart of a specific implementation of a building automation system design method based on shared development according to an embodiment of the present invention;

fig. 2 is a flowchart of a specific implementation of a sub-design link generated in the building automation control system design method based on shared development according to the embodiment of the present invention;

fig. 3 is a flowchart illustrating a specific implementation of generating sub-design information in a building automation system design method based on shared development according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a building automation system design device based on shared development according to an embodiment of the present invention.

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating embodiments of the invention, are given by way of illustration and explanation only, not limitation.

The terms "system" and "network" in embodiments of the present invention may be used interchangeably. The "plurality" means two or more, and in view of this, the "plurality" may also be understood as "at least two" in the embodiments of the present invention. "and/or" describes the association relationship of the associated objects, meaning that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" generally indicates that the preceding and following related objects are in an "or" relationship, unless otherwise specified. In addition, it should be understood that the terms first, second, etc. in the description of the embodiments of the invention are used for distinguishing between the descriptions and are not intended to indicate or imply relative importance or order to be construed.

The background of the invention is first described below.

In the design process of the traditional building automatic control system, after the building information of a building is determined, the design work aiming at the building is determined by related technical personnel, and in the current design process, each design link relates to the design work with strong specialty, so that on one hand, the requirement on the specialty of the design personnel is high, and the design work difficulty is high by one single technical personnel or a few technical personnel; on the other hand, if a plurality of technicians perform design work, the previous technician often needs to complete corresponding work before handing over to the subsequent technician to perform design work, so the work efficiency is low.

In order to solve the above technical problem, please refer to fig. 1, an embodiment of the present invention provides a building automation system design method based on shared development, where the method includes:

s10) acquiring initial design information of the current building;

s20) decoupling operation is carried out on the preliminary design information to generate a plurality of sub-design links;

s30) obtaining a plurality of sharing operations aiming at the plurality of sub-design links, wherein each sharing operation corresponds to a corresponding sub-design link;

s40) generating sub-design information corresponding to each sub-design link based on the plurality of sharing operations;

s50) performing information fusion operation on the sub-design information to generate the design information of the automatic control system of the current building.

In a possible embodiment, first, preliminary design information of the current building is obtained, for example, the preliminary design information is a design scheme of the current building automatic control system preliminarily determined by a technician according to the building information of the current building, and the design scheme only includes an overall control framework, for example, which functional blocks need to be subjected to automatic control system design and the like, wherein the functional blocks include, but are not limited to, heating ventilation, water supply and drainage, electrical and the like. And then, decoupling operation is carried out on the preliminary design information to generate a plurality of sub-design links so as to facilitate subsequent design division and design sharing.

Referring to fig. 2, in the embodiment of the present invention, the decoupling operation is performed on the preliminary design information to generate a plurality of sub-design links, including:

s21) determining the automatic control process of the current building based on the preliminary design information;

s22) decoupling operation is carried out on the automatic control flow to generate a plurality of sub-control flows;

s23) determining attribute information of each sub-control flow;

s24) generating a plurality of sub-design links based on the plurality of sub-control flows and the corresponding attribute information.

In a possible implementation manner, firstly, the automatic control process of the current building is determined based on the preliminary design information, for example, the overall control framework is analyzed to determine the automatic control process of the current building, for example, in an embodiment, during the starting process of the automatic control system of the current building, the relevant electrical equipment needs to be started firstly, then the water supply and drainage equipment is started, and finally the heating and ventilation equipment can be started according to the actual requirement; in another embodiment, during the use process, the user can determine whether to turn off the water supply and drainage device and the heating and ventilation device according to the actual requirement, and when to turn off the devices, such as at a certain time (for example, the off duty time of an office building), the user turns off the water supply and drainage device and the heating and ventilation device at the same time. The automatic control process of the current building can be determined according to the specific use conditions of the different functional blocks, and then the automatic control process is further decoupled, for example, in the decoupling process of the automatic control process for the water supply and drainage equipment, the processes such as the starting process, the closing process, the emergency use process and the like of the water supply and drainage equipment can be determined, including the equipment/devices required to be controlled or involved in the plurality of processes, and a plurality of corresponding sub-control processes are generated. Further, the attribute information of each sub-control process is determined according to the devices/apparatuses to be controlled or involved in the process, for example, the attribute information includes, but is not limited to, the device name, the device number, the device location, the distribution box number for supplying power to the devices, the distribution box location, the I/O point, and the like of the devices/apparatuses, and finally, a plurality of sub-design links are generated based on the plurality of sub-control processes and the corresponding attribute information.

In order to improve the prior art and achieve the technical effect of designing by multiple technicians together, a platform for performing sharing operation is provided, for example, a web page and a UI interface supporting the sharing operation are developed, so that multiple technicians (for example, multiple technicians with different professional abilities) are allowed to perform simultaneous sharing operation on the platform for performing sharing operation. After decoupling operation is performed on the initial design information of the current building and a plurality of sub-design links are determined, a plurality of sharing operations for the plurality of sub-design links are obtained through the sharing operation platform, for example, an independent interface can be generated for the content related to each sub-design link and displayed to a corresponding technician, and the technician performs corresponding operation on the interface to input the sharing operation corresponding to the current sub-design link to the sharing operation platform.

Referring to fig. 3, in the embodiment of the present invention, the generating sub-design information corresponding to each sub-design link based on the plurality of sharing operations includes:

s41) acquiring control elements of the current sub-design link based on the sharing operation;

s42) acquiring control process relation information associated with all control elements;

s43) acquiring a control associated operation for each control element based on the sharing operation;

s44) generating sub-design information of the current sub-design link based on the control element, the control process relation information and the control correlation operation.

In a possible implementation manner, after obtaining the common operation of a technician for a sub-design link, first, the control operation of the current sub-design link is obtained based on the common operation, for example, in the embodiment of the present invention, a shared operation platform uses a digital modeling manner to model all products related to the system, including a controller, an instrument sensor, a driving device, and the like, and provides the models to the technician for selection in the design process of the technician.

Then, control process relation information associated with all control elements is obtained, for example, in the embodiment of the present invention, the control process relation information associated with all products/control elements may be stored in a server or a database in advance, specifically, various control objects of a building automation system may be analyzed, a database digital modeling may be performed, control process relation information of objects (including a relation between a control process and an IO point, a relation between IO points, how an instrument and a driving device are solved to form a set of IO points, and the like) may be extracted, a plurality of basic data function tables may be established in the database, and a corresponding association relation may be established between the basic data function tables and the control processes.

After the control process relation information is obtained, the control-related operation for each control element in the sharing operation is further obtained, for example, in an embodiment, a technician connects the water supply and drainage equipment a with the power supply B (specifically, the connection may be performed by a manual connection). And connecting the water supply and drainage equipment C with the power supply D to input control associated operations aiming at different control elements, and generating sub-design information of the current sub-design link by the shared operation platform according to the control elements determined by the shared operations input by technicians and the control associated operations in combination with the control process relation information in the design process.

Specifically, in the embodiment of the present invention, the generating sub-design information of the current sub-design link based on the control element, the control process relationship information, and the control correlation operation includes: acquiring current scene information; determining specific control relation information corresponding to the control elements in the control process relation information based on current scene information; judging whether the control correlation operation meets the specific control relation information or not; if so, generating sub-design information of the current sub-design link based on the control correlation operation; otherwise, displaying recommendation relation information, acquiring feedback information aiming at the recommendation relation information, determining new control association operation based on the feedback information, and generating sub-design information of the current sub-design link based on the new control association operation.

For example, in one possible implementation, in the process of displaying different control elements, current scene information is first acquired, for example, the scene information includes office building scene information, residential scene information, market scene information, and the like, and in order to improve the accuracy of the control relationship recommended to the technician, the control process relationship information is screened according to the acquired current scene information, so as to screen out specific control relationship information of the control elements that meet the current scene information, so as to reduce the workload of manual screening by the technician, reduce working errors, and improve the design accuracy.

After determining specific control relationship information corresponding to a control element in a current scene, comparing the control association operation with the specific control relationship information to determine whether the control association operation satisfies the specific control relationship information, where it is to be noted that the specific control relationship information includes at least one control relationship, and specifically, determining whether the control association operation satisfies any one of the at least one control relationship, for example, in an embodiment, a technician desires to connect an X heating and ventilation device with a Y power supply, but finds that the Y power supply does not support the power supply capability of the X heating and ventilation device according to the specific control relationship information, so that the control association operation may be determined not satisfy the specific control relationship information, so as to display the recommendation relationship information, for example, a recommendation relationship information that a connectable power supply can be recommended for the X heating and ventilation device and visualized can be generated and displayed to a technician, and then obtain feedback information of a receiving person for the recommendation relationship information, for example, the technician may select one connection relationship from a plurality of recommended connection information to implement a fast and accurate control association operation, and at this time, after determining that all control association operations are accurate, generate all control association operation design sub-links based on current design association information.

Based on the principle, after different technicians perform sharing operation on different sub-design links, corresponding sub-design information is generated, at the moment, information fusion operation is performed on the sub-design information, for example, after fusion processing or optimization processing is automatically performed on connection relations in equipment control flows of different functional blocks, design information of an automatic control system of the current building is generated.

In the embodiment of the invention, the workload of technical personnel in the design process is greatly optimized, the working efficiency is improved, and the design accuracy is improved by providing the shared operation platform and providing abundant basic data models and product information bases on the shared operation platform; on the other hand, by adopting a sharing operation mode, technicians running different professionals can synchronously design different functional plates of the automatic control system of the current building, so that the working efficiency of the technicians is further improved, and the actual requirements of enterprises are met.

However, in the actual application process, in the design work of the building automation system, a large number of identical devices exist in different floors, so that the control relationship of the building automation system also has a large number of repeatability, and in the prior art, technicians need to repeatedly perform corresponding design work in the design process, thereby reducing the work efficiency of the technicians.

In order to solve the above technical problem, in an embodiment of the present invention, the method further includes: traversing all control elements before generating the sub-design information; judging whether the control correlation operation meets a batch processing rule in all control elements; if so, generating sub-design information of the current sub-design link based on the control correlation operation and the batch processing rule; otherwise, generating the sub-design information of the current sub-design link based on the control correlation operation.

In a possible embodiment, after comparing the control-related operation with the specific control-related information, it is determined that the control-related operation satisfies the specific control-related information, at this time, design information corresponding to the control-related operation is not immediately generated, but all the control elements are further traversed, and it is determined whether the control-related operation satisfies the batch processing rule among all the control elements, for example, after a designer inputs the control-related operation between a certain power socket and a power supply, the shared operation platform automatically traverses all the control elements, and determines that the power sockets in all the control elements all satisfy the batch processing rule, that is, the same control-related operation (for example, to connect the power socket with the power supply closest to the power supply) can be used for processing, so in the design process, corresponding design information is automatically generated according to the control-related operation and the batch processing rule, and for the control-related operation that does not satisfy the batch processing rule, corresponding design information is directly generated, and after the design information of all the control-related operations is generated, the sub-design information of the current sub-design link is generated.

In the embodiment of the invention, in the design process of the building automatic control system, the design actions capable of being processed in batches are automatically processed in batches according to the batch processing rules in the scene, so that the workload of technical personnel is further reduced, the working efficiency of calculation personnel is improved, and the user experience is improved.

The building automatic control system design device based on sharing development provided by the embodiment of the invention is explained with reference to the attached drawings.

Referring to fig. 4, based on the same inventive concept, an embodiment of the present invention provides a building automation system design apparatus based on shared development, where the apparatus includes: the information acquisition unit is used for acquiring the initial design information of the current building; the decoupling unit is used for performing decoupling operation on the preliminary design information to generate a plurality of sub-design links; an operation unit, configured to acquire a plurality of sharing operations for the plurality of sub-design links, where each sharing operation corresponds to a corresponding sub-design link; a design information generation unit configured to generate sub-design information corresponding to each sub-design link based on the plurality of sharing operations; and the fusion unit is used for executing information fusion operation on the sub-design information and generating the design information of the automatic control system of the current building.

In an embodiment of the invention, the decoupling unit comprises: the flow determining module is used for determining the automatic control flow of the current building based on the preliminary design information; the decoupling module is used for performing decoupling operation on the automatic control flow to generate a plurality of sub-control flows; the attribute determining module is used for determining the attribute information of each sub-control flow; and the design link determining module is used for generating a plurality of sub-design links based on the plurality of sub-control flows and the corresponding attribute information.

In an embodiment of the present invention, the design information generating unit includes: the element acquisition module is used for acquiring the control elements of the current sub-design link based on the sharing operation; the relation acquisition module is used for acquiring control process relation information associated with all the control elements; the association module is used for acquiring control association operation aiming at each control element based on the sharing operation; and the design information generation module is used for generating the sub-design information of the current sub-design link based on the control element, the control process relation information and the control correlation operation.

In an embodiment of the present invention, the design information generating module is specifically configured to: acquiring current scene information; determining specific control relation information corresponding to the control elements in the control process relation information based on current scene information; judging whether the control correlation operation meets the control correlation operation; if so, generating sub-design information of the current sub-design link based on the control correlation operation; otherwise, displaying recommendation relation information, acquiring feedback information aiming at the recommendation relation information, determining new control association operation based on the feedback information, and generating sub-design information of the current sub-design link based on the new control association operation.

In an embodiment of the present invention, the design information generating unit further includes a batch processing module, and the batch processing module is specifically configured to: traversing all control elements after determining a control correlation operation that satisfies the control correlation operation; judging whether the control correlation operation meets a batch processing rule in all control elements; if so, generating sub-design information of the current sub-design link based on the control correlation operation and the batch processing rule; otherwise, generating the sub-design information of the current sub-design link based on the control correlation operation.

Although the embodiments of the present invention have been described in detail with reference to the accompanying drawings, the embodiments of the present invention are not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solutions of the embodiments of the present invention within the technical idea of the embodiments of the present invention, and these simple modifications all belong to the protection scope of the embodiments of the present invention.

It should be noted that the various features described in the above embodiments may be combined in any suitable manner without departing from the scope of the invention. In order to avoid unnecessary repetition, the embodiments of the present invention do not describe every possible combination.

Those skilled in the art will understand that all or part of the steps in the method according to the above embodiments may be implemented by a program, which is stored in a storage medium and includes several instructions to enable a single chip, a chip, or a processor (processor) to execute all or part of the steps in the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

In addition, any combination of various different implementation manners of the embodiments of the present invention is also possible, and the embodiments of the present invention should be considered as disclosed in the embodiments of the present invention as long as the combination does not depart from the spirit of the embodiments of the present invention.

Claims (10)

1. A building automatic control system design method based on shared development is characterized by comprising the following steps:

acquiring initial design information of a current building;

performing decoupling operation on the preliminary design information to generate a plurality of sub-design links;

obtaining a plurality of sharing operations aiming at the plurality of sub-design links, wherein each sharing operation corresponds to a corresponding sub-design link;

generating sub-design information corresponding to each sub-design link based on the plurality of sharing operations;

and executing information fusion operation on the sub-design information to generate the design information of the automatic control system of the current building.

2. The method of claim 1, wherein the decoupling the preliminary design information to generate a plurality of sub-design links comprises:

determining the automatic control process of the current building based on the preliminary design information;

performing decoupling operation on the automatic control flow to generate a plurality of sub-control flows;

determining attribute information of each sub-control flow;

and generating a plurality of sub-design links based on the plurality of sub-control flows and the corresponding attribute information.

3. The method of claim 1, wherein generating sub-design information corresponding to each sub-design link based on the plurality of sharing operations comprises:

acquiring control elements of the current sub-design link based on the sharing operation;

acquiring control process relation information associated with all control elements;

acquiring a control association operation for each control element based on the sharing operation;

and generating sub-design information of the current sub-design link based on the control element, the control process relation information and the control correlation operation.

4. The method of claim 3, wherein generating sub-design information for a current sub-design link based on the control elements, the control process relationship information, and the control correlation operation comprises:

acquiring current scene information;

determining specific control relation information corresponding to the control elements in the control process relation information based on current scene information;

judging whether the control correlation operation meets the control correlation operation or not;

if so, generating sub-design information of the current sub-design link based on the control correlation operation;

otherwise, displaying recommendation relation information, acquiring feedback information aiming at the recommendation relation information, determining new control association operation based on the feedback information, and generating sub-design information of the current sub-design link based on the new control association operation.

5. The method of claim 4, further comprising:

traversing all control elements after determining a control correlation operation that satisfies the control correlation operation;

judging whether the control correlation operation meets a batch processing rule in all control elements;

if so, generating sub-design information of the current sub-design link based on the control correlation operation and the batch processing rule;

otherwise, generating the sub-design information of the current sub-design link based on the control correlation operation.

6. A building automatic control system design device based on sharing development is characterized in that the device comprises:

the information acquisition unit is used for acquiring the initial design information of the current building;

the decoupling unit is used for performing decoupling operation on the preliminary design information to generate a plurality of sub-design links;

an operation unit configured to acquire a plurality of sharing operations for the plurality of sub-design links, each sharing operation corresponding to a corresponding sub-design link;

a design information generation unit configured to generate sub-design information corresponding to each sub-design link based on the plurality of sharing operations;

and the fusion unit is used for executing information fusion operation on the sub-design information and generating the design information of the automatic control system of the current building.

7. The apparatus of claim 6, wherein the decoupling unit comprises:

the flow determining module is used for determining the automatic control flow of the current building based on the preliminary design information;

the decoupling module is used for performing decoupling operation on the automatic control flow to generate a plurality of sub-control flows;

the attribute determining module is used for determining the attribute information of each sub-control flow;

and the design link determining module is used for generating a plurality of sub-design links based on the plurality of sub-control flows and the corresponding attribute information.

8. The apparatus according to claim 6, wherein the design information generation unit includes:

the element acquisition module is used for acquiring the control elements of the current sub-design link based on the sharing operation;

the relation acquisition module is used for acquiring control process relation information associated with all the control elements;

the association module is used for acquiring control association operation aiming at each control element based on the sharing operation;

and the design information generation module is used for generating the sub-design information of the current sub-design link based on the control element, the control process relation information and the control correlation operation.

9. The apparatus of claim 8, wherein the design information generation module is specifically configured to:

acquiring current scene information;

determining specific control relation information corresponding to the control elements in the control process relation information based on current scene information;

judging whether the control correlation operation meets the control correlation operation;

if so, generating sub-design information of the current sub-design link based on the control correlation operation;

otherwise, displaying recommendation relation information, acquiring feedback information aiming at the recommendation relation information, determining new control association operation based on the feedback information, and generating sub-design information of the current sub-design link based on the new control association operation.

10. The apparatus according to claim 9, wherein the design information generating unit further comprises a batch processing module, the batch processing module being specifically configured to:

traversing all control elements after determining a control correlation operation that satisfies the control correlation operation;

judging whether the control correlation operation meets a batch processing rule in all control elements;

if so, generating sub-design information of the current sub-design link based on the control correlation operation and the batch processing rule;

otherwise, generating the sub-design information of the current sub-design link based on the control correlation operation.

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