CN114841672A - Construction scheme determination method and device, electronic equipment and storage medium - Google Patents

Abstract

The invention discloses a method, device, electronic device and storage medium for determining a construction plan, wherein the method includes: acquiring a simulation model to be used corresponding to a target device; retrieving the simulation model to be used in at least one evaluation dimension For each construction scheme to be assessed, according to the scheme-related information of the current construction scheme to be assessed, determine the corresponding evaluation attributes under the corresponding evaluation dimension; A target construction scheme corresponding to the to-be-used simulation model is determined from each of the construction schemes to be evaluated, so as to process the target equipment based on the target construction scheme. The problem of inaccurate determination of the construction scheme based on each equipment in the substation is solved, and the effect of determining the best construction scheme corresponding to the substation is obtained.

Description

A construction plan determination method, device, electronic device and storage medium

technical field

The invention relates to the technical field of power system design, and in particular, to a method, device, electronic device and storage medium for determining a construction plan.

Background technique

In the process of construction of the substation, the optimal construction plan can be determined according to the equipment attributes, correlation, construction safety and construction cost of each equipment in the substation.

At present, when determining the construction plan of the substation, it is usually through the information simulation of each equipment in the substation. This technology can realize the visualization of the drawings of the substation equipment, and determine the construction plan according to the visualization results and the relevant experience of the staff. Although this method can improve the construction efficiency and quality of the substation, and reduce the construction risk and cost, due to the large number of equipment parts and the complex structure of the substation, the method for determining the construction plan of the substation is still in the exploratory stage.

In order to be able to determine the best construction scheme corresponding to the substation, it is necessary to improve the way of determining the existing construction scheme.

SUMMARY OF THE INVENTION

The present invention provides a method, device, electronic equipment and storage medium for determining a construction scheme, so as to solve the problem of insufficient accuracy when determining a construction scheme based on each equipment in a substation.

According to an aspect of the present invention, a method for determining a construction plan is provided, comprising:

Obtain a simulation model to be used corresponding to the target device; wherein, the simulation model to be used is obtained by simulation based on the device geometric size information of the target device;

retrieving the construction plan to be evaluated corresponding to the simulation model to be used under at least one evaluation dimension;

For each construction scheme to be assessed, according to the scheme association information of the current construction scheme to be assessed, the corresponding assessment attributes under the corresponding assessment dimension are determined; wherein, the scheme association information includes construction duration information, construction cost information, and construction safety information. at least one of;

Based on the to-be-evaluated attributes of each to-be-evaluated construction scheme, a target construction scheme corresponding to the to-be-used simulation model is determined from each of the to-be-evaluated construction schemes, so as to process the target equipment based on the target construction scheme.

According to another aspect of the present invention, a construction scheme determination device is provided, comprising:

a simulation model obtaining module, configured to obtain a simulation model to be used corresponding to the target device; wherein, the simulation model to be used is obtained by simulation based on the device geometric dimension information of the target device;

a construction plan retrieval module, used for retrieving the construction plan to be evaluated corresponding to the simulation model to be used under at least one evaluation dimension;

The evaluation attribute determination module is used for each construction scheme to be evaluated, according to the scheme association information of the current construction scheme to be evaluated, to determine the evaluation attribute corresponding to the corresponding evaluation dimension; wherein, the scheme association information includes construction duration information, construction At least one of cost information and construction safety information;

The construction plan determination module is configured to determine a target construction plan corresponding to the to-be-used simulation model from each of the to-be-evaluated construction plans based on the to-be-evaluated attributes of each to-be-evaluated construction plan, so as to determine the target construction plan based on the target construction plan. The target device is processed.

According to another aspect of the present invention, an electronic device is provided, the electronic device comprising:

at least one processor; and

a memory communicatively coupled to the at least one processor; wherein,

The memory stores a computer program executable by the at least one processor, the computer program being executed by the at least one processor to enable the at least one processor to perform any of the embodiments of the present invention. Method for determining the construction plan.

According to another aspect of the present invention, a computer-readable storage medium is provided, where computer instructions are stored in the computer-readable storage medium, and the computer instructions are used to cause a processor to implement any of the embodiments of the present invention when executed. method for determining the construction plan.

The technical solution of this embodiment is to obtain a simulation model to be used corresponding to the target device, simulate the target device according to the device geometric size information of the target device, and store the simulation model corresponding to the target device in the model database. The device identification carried by the target device can retrieve the simulation model to be used corresponding to the model identification from the model database. Retrieve the construction plan to be evaluated corresponding to the simulation model to be used under at least one evaluation dimension, obtain the evaluation dimension combination corresponding to the simulation model to be used under the corresponding evaluation dimension according to the business requirements, and obtain each evaluation dimension combination. The to-be-evaluated construction plans corresponding to the evaluation dimensions are based on the to-be-evaluated attributes corresponding to the to-be-evaluated construction plans. For each construction scheme to be assessed, according to the scheme-related information of the current construction scheme to be assessed, determine the evaluation attributes corresponding to the corresponding evaluation dimensions, according to the to-be-used evaluation attributes of the construction scheme to be evaluated corresponding to each evaluation dimension, and The to-be-used weight corresponding to the to-be-used evaluation attribute determines the evaluation attribute corresponding to the to-be-evaluated construction scheme. Based on the to-be-evaluated attributes of each to-be-evaluated construction plan, a target construction plan corresponding to the to-be-used simulation model is determined from each of the to-be-evaluated construction plans, and the to-be-evaluated construction plan with the highest evaluation attribute is taken as the location of the to-be-used simulation model. A corresponding target construction scheme, to process the target equipment based on the target construction scheme. The problem of inaccurate determination of the construction scheme based on each equipment in the substation is solved, and the effect of determining the best construction scheme corresponding to the substation is obtained.

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

Description of drawings

In order to illustrate the technical solutions in the embodiments of the present invention more clearly, the following briefly introduces the accompanying drawings used in the description of the embodiments. Obviously, the drawings in the following description are only some embodiments of the present invention. , for those of ordinary skill in the art, other drawings can also be obtained based on these drawings without any creative effort.

1 is a flowchart of a method for determining a construction scheme provided according to Embodiment 1 of the present invention;

2 is a schematic diagram of a device encoding provided according to Embodiment 2 of the present invention;

3 is a schematic diagram of a method for determining a construction scheme provided according to Embodiment 2 of the present invention;

4 is a schematic structural diagram of a device for determining a construction plan provided according to Embodiment 3 of the present invention;

FIG. 5 is a schematic structural diagram of an electronic device of the method for determining a construction plan implemented by the present invention.

Detailed ways

In order to make those skilled in the art better understand the solutions of the present invention, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only Embodiments are part of the present invention, but not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

It should be noted that the terms "first", "second" and the like in the description and claims of the present invention and the above drawings are used to distinguish similar objects, and are not necessarily used to describe a specific sequence or sequence. It is to be understood that the data so used may be interchanged under appropriate circumstances such that the embodiments of the invention described herein can be practiced in sequences other than those illustrated or described herein. Furthermore, the terms "comprising" and "having" and any variations thereof, are intended to cover non-exclusive inclusion, for example, a process, method, system, product or device comprising a series of steps or units is not necessarily limited to those expressly listed Rather, those steps or units may include other steps or units not expressly listed or inherent to these processes, methods, products or devices.

Example 1

FIG. 1 is a flowchart of a method for determining a construction scheme according to Embodiment 1 of the present invention. This embodiment can be applied to the situation in which a corresponding optimal construction scheme is determined based on each device in a substation. The method can be determined by the construction scheme. The device for determining the construction scheme can be implemented in the form of hardware and/or software, and the device for determining the construction scheme can be configured in an electronic device in the substation that can be used to execute the method for determining the construction scheme.

As shown in Figure 1, the method includes:

S110. Acquire a simulation model to be used corresponding to the target device.

The target device can be understood as various power devices in the substation, which may include transformers, circuit breakers, arresters, capacitors, and various power devices in the power system. The simulation model to be used can be understood as the simulation modeling of the target device based on the simulation software, and the obtained simulation model corresponding to the target device. For example, the simulation model to be used can be the simulation software to simulate the device geometric dimension information of the target device. , to obtain a simulation model consistent with the size information of the target device, to simulate the actual size information of the target device, so as to be closer to the real situation of the target device.

Specifically, a substation includes multiple power devices. After determining the corresponding power devices according to business requirements, it is necessary to obtain a simulation model corresponding to each power device, and simulate each power device in the substation based on each simulation model. The actual connection relationship of the power equipment is established, and the corresponding connection is established for each simulation model. In practical applications, each power device can be simulated in advance, so that when the simulation model of the target device to be used needs to be obtained, the simulation model corresponding to the target device can be directly retrieved from the pre-established simulation models. That is, the simulation model is to be used.

Optionally, acquiring the simulation model to be used corresponding to the target device includes: based on the device identification carried by the target device, acquiring the simulation model to be used that matches the device identification from a model database.

The model database can be understood as a database for storing simulation models corresponding to each device to be selected, the model database includes a simulation model corresponding to at least one device to be selected, and the device to be selected can be understood as a power device in a substation .

In practical applications, each device to be selected in the substation can be simulated in advance to obtain a simulation model corresponding to each device to be selected, and each simulation model can be stored in the model database, so that the target device can be obtained when the target device needs to be selected. When the simulation model to be used should be used, the simulation model corresponding to the device identification of the target device can be directly obtained from the model database based on the device identification carried by the target device.

The advantage of this setting is that the simulation model to be used corresponding to the target device is directly obtained from the model library, which can improve the efficiency of determining the construction plan based on the target device.

S120. Retrieve the construction plan to be evaluated corresponding to the simulation model to be used under at least one evaluation dimension.

Among them, when determining the construction plan corresponding to the target equipment, it can be evaluated through different evaluation dimensions, and the evaluation dimensions can include construction time, construction cost, and construction safety. The construction plan to be evaluated can be understood as the construction plan that needs to be evaluated corresponding to the target equipment under each evaluation dimension.

Specifically, since the simulation model to be used is obtained by actually simulating the target equipment, the parameters in the simulation model to be used are consistent with the actual parameters of the target equipment. Therefore, when determining the construction plan corresponding to the target equipment, The evaluation of the construction plan can be carried out with the simulation model to be used in place of the target equipment. The advantage of this setting is that the simulation model to be used is a pre-built simulation model. In actual use, the parameters of the simulation model to be used can also be adjusted according to the parameters of the target device, and the simulation model to be used can be maintained with the target device. Data synchronization without the need to determine the construction plan based on the entity of the target equipment can not only improve the efficiency of determining the construction plan, but also make the operation more convenient.

When determining the construction plan corresponding to the target equipment, it can be evaluated from different evaluation dimensions to obtain the best construction plan, such as construction cost, construction time and construction safety. Business needs. It should be noted that the construction plans under each evaluation dimension can be preset, and when the construction plan under a certain evaluation dimension needs to be obtained, the construction plan under the corresponding evaluation dimension can be directly retrieved as the construction plan to be evaluated.

Optionally, retrieving the construction plan to be evaluated corresponding to the simulation model to be used under at least one evaluation dimension includes: determining at least one evaluation dimension combination according to the at least one evaluation dimension; determining a plan database associated with each evaluation dimension combination , and based on the model identification carried by the simulation model to be used, the construction scheme to be evaluated corresponding to the model identification is retrieved from the corresponding scheme database.

The evaluation dimension can be one or more, and the evaluation dimension combination can be understood as the combination between the evaluation dimensions, and the evaluation dimension combination includes at least one evaluation dimension, such as a combination of the construction time dimension and the construction cost dimension. Each assessment dimension combination may correspond to a corresponding scheme database, and each scheme database is used to store the associated information of the construction scheme corresponding to the simulation model to be used under the corresponding assessment dimension combination. The model identification can be understood as identification information corresponding to the simulation model to be used. Based on the model identification, the corresponding construction plan to be evaluated can be retrieved from the corresponding plan database. The construction scheme to be evaluated can be understood as the construction scheme corresponding to the simulation model to be used under the combination of each evaluation dimension.

Specifically, according to business needs, the construction plan can be determined from a single evaluation dimension, or can be evaluated based on the construction plan. After determining the combination of evaluation dimensions to be used, determine the solution database associated with the selected combination of evaluation dimensions, and retrieve the model identifier corresponding to the model identifier from the solution database through the model identifier corresponding to the simulation model to be used The construction plan to be evaluated.

S130. For each construction scheme to be assessed, according to the scheme associated information of the current construction scheme to be assessed, determine the corresponding assessment attribute under the corresponding assessment dimension.

The scheme associated information includes at least one of construction duration information, construction cost information, and construction safety information. The evaluation attribute can be understood as the attribute value obtained after evaluating each construction plan to be evaluated. The higher the evaluation attribute, the more cost-effective the construction plan to be evaluated corresponding to the evaluation attribute. The construction scheme is the preferred construction scheme.

Specifically, after each construction scheme to be assessed is determined, it is necessary to evaluate each construction scheme to be assessed, and an assessment attribute corresponding to each construction scheme to be assessed is obtained. When determining the evaluation attribute corresponding to each construction scheme to be evaluated, the evaluation can be performed according to the scheme associated information associated with each construction scheme to be evaluated.

Optionally, determine the evaluation attributes corresponding to the corresponding evaluation dimensions according to the program association information of the current construction plan to be evaluated, including: if the number of evaluation dimensions in the evaluation dimension combination is multiple, determine the corresponding evaluation attributes under each evaluation dimension. Construction scheme to be assessed; based on the scheme-related information of each construction scheme to be assessed, determine the to-be-used evaluation attributes corresponding to the to-be-evaluated construction scheme under each evaluation dimension, and determine the to-be-used weights corresponding to each to-be-used assessment attribute; The product of each to-be-used evaluation attribute and the corresponding to-be-used weight is obtained to obtain at least one to-be-superimposed evaluation attribute; each to-be-superimposed evaluation attribute is superimposed to obtain the to-be-evaluated attribute corresponding to the to-be-evaluated construction plan.

Wherein, when the evaluation dimension combination includes two or more evaluation dimensions, the construction scheme to be evaluated corresponding to each evaluation dimension can be obtained, and the evaluation attribute corresponding to each construction scheme to be evaluated can be used as the evaluation attribute to be used. The to-be-used weight can be understood as a corresponding weight set for each to-be-used evaluation attribute, which can be used to adjust the proportion of each to-be-used evaluation attribute in the process of determining the final construction plan. That is to say, in the process of determining the construction plan, the proportion of the construction plan to be evaluated corresponding to different evaluation dimensions is different, and the impact on the final construction plan is also different. The greater the impact of the program. The evaluation attribute to be superimposed can be understood as the evaluation attribute corresponding to the construction scheme to be evaluated under each evaluation dimension when multiple evaluation dimensions are included in the evaluation dimension combination.

Specifically, when two or two evaluation dimensions are included in the evaluation dimension combination, the construction plans to be evaluated corresponding to each evaluation dimension are obtained, and each construction plan to be evaluated is determined according to the plan association information associated with each construction plan to be evaluated. The to-be-used evaluation attribute corresponding to the scheme. A corresponding to-be-used weight is set for each to-be-used evaluation attribute, so as to determine the to-be-superimposed evaluation attribute corresponding to the to-be-evaluated construction scheme under each evaluation dimension according to each to-be-used evaluation attribute and the corresponding to-be-used weight. By superimposing the attributes to be superimposed, the attributes to be evaluated corresponding to the construction scheme to be evaluated under the combination of evaluation dimensions can be obtained.

S140. Based on the properties to be assessed of each construction scheme to be assessed, determine a target construction scheme corresponding to the simulation model to be used from each construction scheme to be assessed, so as to process the target equipment based on the target construction scheme.

Among them, the target construction scheme can be understood as the final construction scheme, and can also be understood as the construction scheme to be assessed corresponding to the highest attribute to be assessed.

Optionally, based on the to-be-evaluated attributes of each to-be-evaluated construction plan, determine a target construction plan corresponding to the to-be-evaluated simulation model from each to-be-evaluated construction plan, including: assigning the to-be-evaluated construction plan corresponding to the highest to-be-evaluated attribute As the target construction scheme, the target equipment is processed based on the target construction scheme.

Specifically, after evaluating each construction scheme to be assessed, the attributes to be assessed corresponding to each construction scheme to be assessed are obtained, and the construction scheme to be assessed with the highest attribute to be assessed is used as the target construction scheme corresponding to the simulation model to be used , to deal with the target equipment accordingly based on the target construction plan. Optionally, based on the associated information of the target device, determine the associated information corresponding to the simulation model to be used; perform a visual simulation on the associated information based on the simulation software to obtain a visual model corresponding to the simulation model to be used, so that the target user is based on the simulation model. The visual model is reviewed for the construction plan to be evaluated.

Wherein, the associated information of the target device includes at least one of appearance information, operation and maintenance history information, ledger information, and device monitoring data information corresponding to the model to be used. The visualization model can be understood as a model obtained by visualizing the simulation model to be used based on the associated information, and the information associated with the simulation model to be used can be intuitively seen through the visualization model.

Specifically, after collecting the association information associated with the target device, the association information is associated with the to-be-used simulation model corresponding to the target device. The related information is visualized through the simulation software to obtain the visual model corresponding to the simulation model to be used, so that the target user can view the simulation model to be used according to the visual model, and according to the simulation model to be used under each evaluation dimension combination For the corresponding attributes to be assessed, the construction scheme to be assessed corresponding to each combination of assessment dimensions is reviewed to determine the optimal construction scheme.

Optionally, determining the associated information corresponding to the simulation model to be used based on the associated information of the target device, including: retrieving the simulation model to be used from a pre-established information database based on a graphical import method and/or a file import method associated information.

The graphical import method may be accessing the associated information associated with the target device through a browser, and associating the associated information with the simulation model to be used. The file import method can be understood as importing the associated information associated with the target device into the simulation model to be used in the form of a file, and storing the associated information associated with each model to be simulated in the information database.

Specifically, through on-site collection or data collection, etc., the associated information associated with the target device can be obtained, and the associated information associated with the target device can be stored in a pre-established information database, so that it can be imported graphically and/or Or the file import method can associate the association information associated with the target device with the simulation model to be used.

The technical solution of this embodiment is to obtain a simulation model to be used corresponding to the target device, simulate the target device according to the device geometric size information of the target device, and store the simulation model corresponding to the target device in the model database. The device identification carried by the target device can retrieve the simulation model to be used corresponding to the model identification from the model database. Retrieve the construction plan to be evaluated corresponding to the simulation model to be used under at least one evaluation dimension, obtain the evaluation dimension combination corresponding to the simulation model to be used under the corresponding evaluation dimension according to the business requirements, and obtain each evaluation dimension combination. The to-be-evaluated construction plans corresponding to the evaluation dimensions are based on the to-be-evaluated attributes corresponding to the to-be-evaluated construction plans. For each construction scheme to be assessed, according to the scheme-related information of the current construction scheme to be assessed, determine the evaluation attributes corresponding to the corresponding evaluation dimensions, according to the to-be-used evaluation attributes of the construction scheme to be evaluated corresponding to each evaluation dimension, and The to-be-used weight corresponding to the to-be-used evaluation attribute determines the evaluation attribute corresponding to the to-be-evaluated construction scheme. Based on the to-be-evaluated attributes of each to-be-evaluated construction plan, a target construction plan corresponding to the to-be-used simulation model is determined from each of the to-be-evaluated construction plans, and the to-be-evaluated construction plan with the highest evaluation attribute is taken as the location of the to-be-used simulation model. A corresponding target construction scheme, to process the target equipment based on the target construction scheme. The problem of inaccurate determination of the construction scheme based on each equipment in the substation is solved, and the effect of determining the best construction scheme corresponding to the substation is obtained.

Embodiment 2

In a specific example, the substation includes multiple devices, and when determining the corresponding construction plan based on each device, it needs to be determined according to the associated information of each device. However, such a solution is time-consuming and labor-intensive. Therefore, in order to solve this problem, a simulation model corresponding to each device can be established, and each simulation model can be stored in the model database, so that when the corresponding simulation model needs to be obtained, it can be According to the device identification carried by the target device, the simulation model to be used corresponding to the device identification is obtained from the model database.

When establishing the simulation model to be used corresponding to the target device, it can be constructed according to pre-acquired information associated with the target device. The device performs the construction of the simulation model. In addition, the information associated with the target device can also be obtained through data or on-site collection, and each associated information can be associated with the target device, so that after obtaining the simulation model to be used, the associated information of the target device and the simulation model to be used can be compared. Models are associated. The associated information of the target device includes the appearance and size information of the target device, operation and maintenance history information, ledger information, and device monitoring data information. According to the ledger information, relevant data related to the target equipment can be collected, such as engineering construction drawings, equipment structural drawings, equipment texture photos, equipment signs, equipment use, installation, maintenance instructions and other information. When the relevant information is insufficient, on-the-spot data collection can also be carried out, photographs of buildings, equipment, and landscapes, as well as on-the-spot/physical measurements, can be supplemented. According to the ledger information, it is also possible to build a model library of equipment and components, assign equipment/component ID codes to the South Network, and actually correspond to the equipment components of the substation, and combine the relevant information of the equipment and components to create a mirror model of the equipment and components in the substation. , to realize the corresponding existence of spatial position. On the other hand, organize and structure the collected equipment information, establish and improve the equipment computer information model that can contain geometric information and non-geometric information, and lay a good architectural foundation for the construction of the simulation model to be used.

After acquiring the associated information of the target device, it is also necessary to associate the associated information of the target device with the simulation model to be used. The association method can be based on the graphical import method or the file import method. Exemplarily, the process of importing the configuration file corresponding to the asset management system ledger information and the simulation model to be used is: exporting the required equipment ledger information (including: equipment unique identifier, equipment name, equipment full path information from the asset management system) etc.) and then export the required model information data (including: model unique identifier, model name, model full path information, etc.) from the 3D management and control application, and further, according to the matching of the full path information of the equipment and the full path information of the model, complete the unique identification of the equipment The assembly of the corresponding relationship with the unique identification of the model forms a standard import format file, and finally the association information associated with the target device is associated with the simulation model to be used.

It should be noted that, before the related information is associated with the to-be-used simulation model, in order to ensure that each associated information can accurately match the to-be-used simulation model, it is necessary to perform corresponding coding settings for each component in the to-be-used simulation model. Illustratively, linear classification and hierarchical coding methods may be employed. It should be coded according to "equipment code_equipment category_voltage class_equipment model_area_system or interval_function location_part code_component code", and each layer of code is connected with an underscore "_". The code is represented by one or more English letters, Arabic numerals and Roman numerals to form a unique identification of the three-dimensional model (ie, the simulation model to be used).

Exemplarily, as shown in Figure 2, the device code is represented by a multi-digit uppercase alphabet and numbers according to the device code of the ledger. If there is no ledger device code, it is replaced by the device physical ID device; the device category uses multiple capitals. It is indicated by letters, named according to the abbreviation of the name of the ledger category, such as the main transformer, which is indicated by ZBYQ; the voltage level is indicated by 2 capital letters, 4 Arabic numerals and 1 letter, and AC is added before the voltage level to indicate the AC voltage level, and DC is added. Indicates the DC voltage level, such as DC voltage level ±500kV, which is represented by DC0500k; the equipment model is represented by 1 or more capital letters, Arabic numerals and Roman numerals according to the ledger. If there is no equipment model, it is represented by WXH (WXH represents the equipment No model or model without payment); areas are represented by multiple capital letters and numbers, and are named according to the abbreviations of the area names divided by the ledger, such as conversion area, which is represented by HLQ; systems or intervals are represented by multiple capital letters and Numbers, etc., are named according to the system or interval name abbreviations divided by the ledger, such as #1 main variable interval, which is represented by #1ZBJG; functional locations are represented by multiple capital letters and numbers, and are named according to the functional location abbreviations divided by the ledger. , such as #1 main transformer, use #1ZBYQ to represent; the part code is represented by 1 or more capital letters and Arabic numerals, and those that cannot be encoded are replaced by BT (body), and the parts are multiple and the same code is represented by 2 Arabic digits Number representation, start coding from 01, sort in ascending order, up to 99. For example, the radiator is represented by SRQ01; the component code is represented by 1 or more capital letters and Arabic numerals. If it cannot be encoded, it is replaced by BT (ontology). If there are multiple components and the same code, they are added by 2 Arabic numerals. 01 to start coding, in ascending order, up to 99. For other codes, please refer to the coding table. Such as a raised seat, use SGZ01 to indicate.

After associating each associated information with the simulation model to be used, as shown in FIG. 3 , the user can select the corresponding evaluation dimension through the display interface, and each evaluation dimension corresponds to the corresponding construction plan to be evaluated. Among them, the evaluation dimensions may include construction time, construction cost, construction safety, and others (that is, a combination of various evaluation dimensions). After the evaluation dimension combination is determined, the construction plan to be evaluated corresponding to the evaluation dimension combination is obtained, and based on the associated information corresponding to the simulation model to be used, the evaluation attribute to be used corresponding to each construction plan to be evaluated is determined. When the number of evaluation dimensions in the evaluation dimension combination is one, the to-be-used evaluation attribute corresponding to the to-be-evaluated construction scheme corresponding to the evaluation dimension is used as the to-be-evaluated attribute of the to-be-evaluated construction scheme. When the number of evaluation dimensions in the evaluation dimension combination is multiple, determine the to-be-used evaluation attributes corresponding to the to-be-evaluated construction plans of each evaluation dimension, and set the to-be-used weights corresponding to the to-be-used evaluation attributes. The evaluation attributes and the corresponding to-be-used weights are used to obtain the to-be-superimposed evaluation attributes corresponding to the construction schemes to be evaluated. Finally, the to-be-superimposed evaluation attributes are superimposed to obtain the to-be-evaluated attributes. From the construction schemes to be assessed, the construction scheme to be assessed with the highest evaluation attribute is taken as the target construction scheme. Further, based on the associated information associated with each construction scheme to be evaluated, three-dimensional simulation simulation can be performed on each simulation model to be used to obtain a visual model, so that the user can carry out each construction scheme to be evaluated using the simulation model according to the visual model. review.

The technical solution of this embodiment is to obtain a simulation model to be used corresponding to the target device, simulate the target device according to the device geometric size information of the target device, and store the simulation model corresponding to the target device in the model database. The device identification carried by the target device can retrieve the simulation model to be used corresponding to the model identification from the model database. Retrieve the construction plan to be evaluated corresponding to the simulation model to be used under at least one evaluation dimension, obtain the evaluation dimension combination corresponding to the simulation model to be used under the corresponding evaluation dimension according to the business requirements, and obtain each evaluation dimension combination. The to-be-evaluated construction plans corresponding to the evaluation dimensions are based on the to-be-evaluated attributes corresponding to the to-be-evaluated construction plans. For each construction scheme to be assessed, according to the scheme-related information of the current construction scheme to be assessed, determine the evaluation attributes corresponding to the corresponding evaluation dimensions, according to the to-be-used evaluation attributes of the construction scheme to be evaluated corresponding to each evaluation dimension, and The to-be-used weight corresponding to the to-be-used evaluation attribute determines the evaluation attribute corresponding to the to-be-evaluated construction scheme. Based on the to-be-evaluated attributes of each to-be-evaluated construction plan, a target construction plan corresponding to the to-be-used simulation model is determined from each of the to-be-evaluated construction plans, and the to-be-evaluated construction plan with the highest evaluation attribute is taken as the location of the to-be-used simulation model. A corresponding target construction scheme, to process the target equipment based on the target construction scheme. The problem of inaccurate determination of the construction scheme based on each equipment in the substation is solved, and the effect of determining the best construction scheme corresponding to the substation is obtained.

Embodiment 3

4 is a schematic structural diagram of a construction scheme determination device provided in Embodiment 3 of the present invention, the device includes: a simulation model acquisition module 210 , a construction scheme retrieval module 220 , an evaluation attribute determination module 230 , and a construction scheme determination module 240 .

Wherein, the simulation model obtaining module 210 is used to obtain the simulation model to be used corresponding to the target device; wherein, the simulation model to be used is obtained by simulation based on the device geometric dimension information of the target device;

The construction scheme retrieval module 220 is used for retrieving the construction scheme to be evaluated corresponding to the simulation model to be used under at least one evaluation dimension;

The evaluation attribute determination module 230 is configured to, for each construction scheme to be evaluated, determine the evaluation attribute corresponding to the corresponding evaluation dimension according to the scheme association information of the current construction scheme to be evaluated; wherein, the scheme association information includes construction duration information, construction cost Information and at least one of construction safety information;

The construction scheme determination module 240 is configured to determine a target construction scheme corresponding to the simulation model to be used from each construction scheme to be assessed based on the to-be-evaluated attributes of each construction scheme to be assessed, so as to process the target equipment based on the target construction scheme.

The technical solution of this embodiment is to obtain a simulation model to be used corresponding to the target device, simulate the target device according to the device geometric size information of the target device, and store the simulation model corresponding to the target device in the model database. The device identification carried by the target device can retrieve the simulation model to be used corresponding to the model identification from the model database. Retrieve the construction plan to be evaluated corresponding to the simulation model to be used under at least one evaluation dimension, obtain the evaluation dimension combination corresponding to the simulation model to be used under the corresponding evaluation dimension according to the business requirements, and obtain each evaluation dimension combination. The to-be-evaluated construction plans corresponding to the evaluation dimensions are based on the to-be-evaluated attributes corresponding to the to-be-evaluated construction plans. For each construction scheme to be assessed, according to the scheme-related information of the current construction scheme to be assessed, determine the evaluation attributes corresponding to the corresponding evaluation dimensions, according to the to-be-used evaluation attributes of the construction scheme to be evaluated corresponding to each evaluation dimension, and The to-be-used weight corresponding to the to-be-used evaluation attribute determines the evaluation attribute corresponding to the to-be-evaluated construction scheme. Based on the to-be-evaluated attributes of each to-be-evaluated construction plan, a target construction plan corresponding to the to-be-used simulation model is determined from each of the to-be-evaluated construction plans, and the to-be-evaluated construction plan with the highest evaluation attribute is taken as the location of the to-be-used simulation model. A corresponding target construction scheme, to process the target equipment based on the target construction scheme. The problem of inaccurate determination of the construction scheme based on each equipment in the substation is solved, and the effect of determining the best construction scheme corresponding to the substation is obtained.

Optionally, a simulation model obtaining module is used to obtain a simulation model to be used that matches the device identification from the model database based on the device identification carried by the target device; wherein, the model database includes at least one corresponding to the device to be selected. Simulation model.

Optionally, the construction plan retrieval module includes:

an evaluation dimension combination determining unit, configured to determine at least one evaluation dimension combination according to at least one evaluation dimension; wherein, the evaluation dimension combination includes at least one evaluation dimension;

The construction scheme retrieval unit is used to determine the scheme database associated with each evaluation dimension combination, and based on the model identification carried by the simulation model to be used, the construction scheme to be evaluated with the model identification is retrieved from the corresponding scheme database.

Optionally, the evaluation attribute determination module includes:

A scheme association information determining unit, configured to determine scheme association information corresponding to the construction scheme to be assessed under each assessment dimension if the number of assessment dimensions in the assessment dimension combination is multiple;

The to-be-used weight determination unit is configured to determine the to-be-used evaluation attributes corresponding to the to-be-evaluated construction scheme under the corresponding evaluation dimension based on the associated information of each plan, and to determine the to-be-used weights corresponding to the to-be-used evaluation attributes;

A to-be-superimposed evaluation attribute determination unit, configured to obtain at least one to-be-superimposed evaluation attribute based on the product of each to-be-used evaluation attribute and the corresponding to-be-used weight;

The to-be-evaluated attribute determination unit is used to superimpose each to-be-superimposed evaluation attribute, the to-be-evaluated attribute corresponding to the to-be-evaluated construction scheme.

Optionally, the construction scheme determination module is configured to use the construction scheme to be assessed corresponding to the highest attribute to be assessed as the target construction scheme, so as to process the target equipment based on the target construction scheme.

Optionally, the device for determining the construction plan further includes:

The associated information determination module is used to determine the associated information corresponding to the simulation model to be used based on the associated information of the target device; wherein the associated information includes appearance information, operation and maintenance history information, ledger information and At least one of equipment monitoring data information;

The visual model determination module is used for visual simulation of the associated information based on the simulation software to obtain a visual model corresponding to the simulation model to be used, so that the user can review the construction plan to be evaluated based on the visual model.

Optionally, the associated information determination module is used to retrieve the associated information of the simulation model to be used from the pre-established information database based on the graphical import method and/or the file import method; Association information associated with the model.

The device for determining a construction plan provided by the embodiment of the present invention can execute the method for determining a construction plan provided by any embodiment of the present invention, and has functional modules and beneficial effects corresponding to the execution method.

Embodiment 4

FIG. 5 shows a schematic structural diagram of an electronic device 10 that can be used to implement embodiments of the present invention. Electronic devices are intended to represent various forms of digital computers, such as laptops, desktops, workstations, personal digital assistants, servers, blade servers, mainframe computers, and other suitable computers. Electronic devices may also represent various forms of mobile devices, such as personal digital processors, cellular phones, smart phones, wearable devices (eg, helmets, glasses, watches, etc.), and other similar computing devices. The components shown herein, their connections and relationships, and their functions are by way of example only, and are not intended to limit implementations of the inventions described and/or claimed herein.

As shown in FIG. 5, the electronic device 10 includes at least one processor 11, and a memory, such as a read only memory (ROM) 12, a random access memory (RAM) 13, etc., connected in communication with the at least one processor 11, wherein the memory stores There is a computer program executable by at least one processor, and the processor 11 can be executed according to a computer program stored in a read only memory (ROM) 12 or loaded from a storage unit 18 into a random access memory (RAM) 13. Various appropriate actions and processes are performed. In the RAM 13, various programs and data necessary for the operation of the electronic device 10 can also be stored. The processor 11 , the ROM 12 and the RAM 13 are connected to each other through a bus 14 . An input/output (I/O) interface 15 is also connected to the bus 14 .

Various components in the electronic device 10 are connected to the I/O interface 15, including: an input unit 16, such as a keyboard, a mouse, etc.; an output unit 17, such as various types of displays, speakers, etc.; a storage unit 18, such as a magnetic disk, an optical disk, etc. etc.; and a communication unit 19, such as a network card, modem, wireless communication transceiver, and the like. The communication unit 19 allows the electronic device 10 to exchange information/data with other devices through a computer network such as the Internet and/or various telecommunication networks.

The processor 11 may be various general and/or special purpose processing components having processing and computing capabilities. Some examples of processors 11 include, but are not limited to, central processing units (CPUs), graphics processing units (GPUs), various specialized artificial intelligence (AI) computing chips, various processors that run machine learning model algorithms, digital signal processing processor (DSP), and any suitable processor, controller, microcontroller, etc. The processor 11 executes the various methods and processes described above, such as the construction plan determination method.

In some embodiments, the construction plan determination method may be implemented as a computer program tangibly embodied in a computer-readable storage medium, such as storage unit 18 . In some embodiments, part or all of the computer program may be loaded and/or installed on the electronic device 10 via the ROM 12 and/or the communication unit 19 . When a computer program is loaded into RAM 13 and executed by processor 11, one or more steps of the construction plan determination method described above may be performed. Alternatively, in other embodiments, the processor 11 may be configured by any other suitable means (eg, by means of firmware) to perform the construction plan determination method.

Various implementations of the systems and techniques described herein above may be implemented in digital electronic circuitry, integrated circuit systems, field programmable gate arrays (FPGAs), application specific integrated circuits (ASICs), application specific standard products (ASSPs), systems on chips system (SOC), load programmable logic device (CPLD), computer hardware, firmware, software, and/or combinations thereof. These various embodiments may include being implemented in one or more computer programs executable and/or interpretable on a programmable system including at least one programmable processor that The processor, which may be a special purpose or general-purpose programmable processor, may receive data and instructions from a storage system, at least one input device, and at least one output device, and transmit data and instructions to the storage system, the at least one input device, and the at least one output device an output device.

Computer programs for implementing the methods of the present invention may be written in any combination of one or more programming languages. These computer programs may be provided to a processor of a general purpose computer, special purpose computer or other programmable data processing apparatus, such that the computer programs, when executed by the processor, cause the functions/operations specified in the flowcharts and/or block diagrams to be carried out. The computer program may execute entirely on the machine, partly on the machine, as a stand-alone software package partly on the machine and partly on a remote machine or entirely on the remote machine or server.

In the context of the present invention, a computer-readable storage medium may be a tangible medium that may contain or store a computer program for use by or in connection with the instruction execution system, apparatus or device. Computer-readable storage media may include, but are not limited to, electronic, magnetic, optical, electromagnetic, infrared, or semiconductor systems, devices, or devices, or any suitable combination of the foregoing. Alternatively, the computer-readable storage medium may be a machine-readable signal medium. More specific examples of machine-readable storage media would include one or more wire-based electrical connections, portable computer disks, hard disks, random access memory (RAM), read only memory (ROM), erasable programmable read only memory (EPROM or flash memory), fiber optics, compact disk read only memory (CD-ROM), optical storage, magnetic storage, or any suitable combination of the foregoing.

To provide interaction with a user, the systems and techniques described herein may be implemented on an electronic device having a display device (eg, a CRT (cathode ray tube) or an LCD (liquid crystal display)) for displaying information to the user monitor); and a keyboard and pointing device (eg, a mouse or trackball) through which a user can provide input to the electronic device. Other kinds of devices can also be used to provide interaction with the user; for example, the feedback provided to the user can be any form of sensory feedback (eg, visual feedback, auditory feedback, or tactile feedback); and can be in any form (including acoustic input, voice input, or tactile input) to receive input from the user.

The systems and techniques described herein may be implemented on a computing system that includes back-end components (eg, as a data server), or a computing system that includes middleware components (eg, an application server), or a computing system that includes front-end components (eg, a user's computer having a graphical user interface or web browser through which a user may interact with implementations of the systems and techniques described herein), or including such backend components, middleware components, Or any combination of front-end components in a computing system. The components of the system may be interconnected by any form or medium of digital data communication (eg, a communication network). Examples of communication networks include: Local Area Networks (LANs), Wide Area Networks (WANs), blockchain networks, and the Internet.

A computer system can include clients and servers. Clients and servers are generally remote from each other and usually interact through a communication network. The relationship of client and server arises by computer programs running on the respective computers and having a client-server relationship to each other. The server can be a cloud server, also known as a cloud computing server or a cloud host. It is a host product in the cloud computing service system to solve the traditional physical host and VPS services, which are difficult to manage and weak in business scalability. defect.

It should be understood that steps may be reordered, added or deleted using the various forms of flow shown above. For example, the steps described in the present invention can be performed in parallel, sequentially or in different orders, and as long as the desired results of the technical solutions of the present invention can be achieved, no limitation is imposed herein.

The above-mentioned specific embodiments do not constitute a limitation on the protection scope of the present invention. It should be understood by those skilled in the art that various modifications, combinations, sub-combinations and substitutions may occur depending on design requirements and other factors. Any modifications, equivalent replacements and improvements made within the spirit and principle of the present invention shall be included within the protection scope of the present invention.

Claims (10)

1. a construction scheme determination method, is characterized in that, comprises: Obtain a simulation model to be used corresponding to the target device; wherein, the simulation model to be used is obtained by simulation based on the device geometric size information of the target device; retrieving the construction plan to be evaluated corresponding to the simulation model to be used under at least one evaluation dimension; For each construction scheme to be assessed, according to the scheme association information of the current construction scheme to be assessed, the corresponding assessment attributes under the corresponding assessment dimension are determined; wherein, the scheme association information includes construction duration information, construction cost information, and construction safety information. at least one of; Based on the to-be-evaluated attributes of each to-be-evaluated construction scheme, a target construction scheme corresponding to the to-be-used simulation model is determined from each of the to-be-evaluated construction schemes, so as to process the target equipment based on the target construction scheme. 2. The method according to claim 1, wherein the acquiring the simulation model to be used corresponding to the target device comprises: Based on the device identification carried by the target device, a simulation model to be used that matches the device identification is obtained from a model database; wherein the model database includes at least one simulation model corresponding to the device to be selected. 3. The method according to claim 1, wherein the retrieving the construction scheme to be evaluated corresponding to the simulation model to be used under at least one evaluation dimension, comprises: According to at least one evaluation dimension, at least one evaluation dimension combination is determined; wherein, the evaluation dimension combination includes at least one evaluation dimension; A scheme database associated with each combination of evaluation dimensions is determined, and based on the model identification carried by the to-be-used simulation model, the construction scheme to be evaluated with the model identification is retrieved from the corresponding scheme database. 4. The method according to claim 1, characterized in that, determining the evaluation attributes corresponding to the corresponding evaluation dimensions according to the program association information of the current construction program to be evaluated, comprising: If the number of evaluation dimensions in the evaluation dimension combination is multiple, determine the scheme associated information corresponding to the construction scheme to be evaluated under each of the evaluation dimensions; Based on the associated information of each scheme, determine the to-be-used evaluation attributes corresponding to the to-be-evaluated construction plan under the corresponding evaluation dimension, and determine the to-be-used weights corresponding to each to-be-used evaluation attribute; Based on the product of each of the to-be-used evaluation attributes and the corresponding to-be-used weights, at least one to-be-superimposed evaluation attribute is obtained; The attributes to be evaluated are superimposed, and the attributes to be evaluated corresponding to the construction scheme to be evaluated are superimposed. 5 . The method according to claim 1 , wherein the target construction corresponding to the simulation model to be used is determined from each construction scheme to be assessed based on the attributes to be assessed of each construction scheme to be assessed. 6 . programs, including: The to-be-evaluated construction scheme corresponding to the highest to-be-evaluated attribute is used as the target construction scheme, so as to process the target equipment based on the target construction scheme. 6. The method of claim 1, further comprising: Based on the associated information of the target device, determine the associated information corresponding to the to-be-used simulation model; wherein the associated information includes appearance information, operation and maintenance history information, and ledger information corresponding to the to-be-used model and at least one of equipment monitoring data information; Visually simulate the associated information based on simulation software to obtain a visual model corresponding to the to-be-used simulation model, so that the target user can review the to-be-evaluated construction plan based on the visual model. 7. The method according to claim 6, wherein the determining the association information corresponding to the simulation model to be used based on the association information of the target device comprises: Based on the graphical import method and/or the file import method, the associated information of the simulation model to be used is retrieved from a pre-established information database; wherein the information database stores the associated information associated with each to-be-simulated model. 8. A construction plan determination device, characterized in that, comprising: a simulation model obtaining module, configured to obtain a simulation model to be used corresponding to the target device; wherein, the simulation model to be used is obtained by simulation based on the device geometric dimension information of the target device; a construction plan retrieval module, used for retrieving the construction plan to be evaluated corresponding to the simulation model to be used under at least one evaluation dimension; The evaluation attribute determination module is used for each construction scheme to be evaluated, according to the scheme association information of the current construction scheme to be evaluated, to determine the evaluation attribute corresponding to the corresponding evaluation dimension; wherein, the scheme association information includes construction duration information, construction At least one of cost information and construction safety information; The construction plan determination module is configured to determine a target construction plan corresponding to the to-be-used simulation model from each of the to-be-evaluated construction plans based on the to-be-evaluated attributes of each to-be-evaluated construction plan, so as to determine the target construction plan based on the target construction plan. The target device is processed. 9. An electronic device, characterized in that the electronic device comprises: one or more processors; and a memory communicatively coupled to the at least one processor; wherein, the memory stores a computer program executable by the at least one processor, the computer program being executed by the at least one processor to enable the at least one processor to perform any of claims 1-7 The method for determining the construction plan. 10. A computer-readable storage medium, characterized in that, the computer-readable storage medium stores computer instructions, and the computer instructions are used to enable a processor to implement the method described in any one of claims 1-7 when executed. Method for determining the construction plan.

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