Background
Building decoration is a short for building decoration project. The architectural decoration is a variety of processes for the interior and exterior surfaces and spaces of buildings by using decorative materials or ornaments in order to protect the main structure of the buildings, improve the physical properties and use functions of the buildings and beautify the buildings. Architectural decoration is an indispensable part of people's life.
The building decoration material includes various kinds such as solid materials, plates, sheets, profiles and wires. In the actual building decoration construction process, a user may adaptively modify or adjust the building decoration base layer data according to the requirement of the user, but the modification or adjustment may cause safety accidents in some construction environments, so how to ensure the safety of the building decoration construction process on the premise of meeting the requirement of the user is a technical problem to be solved at the present stage.
Disclosure of Invention
In order to solve the technical problems in the related art, the invention provides a building decoration base layer industrialized data processing method and system based on building engineering and big data.
The invention firstly provides an industrialized data processing method of a building decoration base layer, which is applied to a system and comprises the following steps:
acquiring material information of current decoration base layer data and decoration configuration data;
on the premise that the current decoration base layer data contains the modifiable configuration identifier based on the material information, determining correlation coefficients between decoration configuration data under the modifiable configuration identifier of the current decoration base layer data and decoration configuration data under the modifiable configuration identifier of the current decoration base layer data according to decoration configuration data under the modifiable configuration identifier of historical decoration base layer data of a plurality of user identifiers and configuration coding information thereof, and configuring decoration configuration data under the modifiable configuration identifier of the current decoration base layer data and related to the decoration configuration data under the modifiable configuration identifier to the corresponding modifiable configuration identifier;
on the premise that a plurality of decoration configuration data are contained under the current non-modifiable configuration identifier of the current decoration base layer data, determining correlation coefficients among the decoration configuration data under the current non-modifiable configuration identifier of the current decoration base layer data according to the decoration configuration data under the modifiable configuration identifier of the historical decoration base layer data of a plurality of user identifiers and configuration coding information thereof, and splicing the decoration configuration data under the current non-modifiable configuration identifier according to the correlation coefficients among the decoration configuration data; setting a configuration path directing value for target decoration configuration data obtained by splicing according to decoration configuration data and configuration coding information under modifiable configuration identifications of historical decoration base layer data of a plurality of user identifications, and configuring the target decoration configuration data under the modifiable configuration identifications pointed by the configuration path directing value;
and determining evaluation data of the service demand information corresponding to the current decoration base layer data and outputting the evaluation data based on the material information corresponding to the current decoration base layer data, the first decoration configuration data under the current non-modifiable configuration identifier of the current decoration base layer data and the second decoration configuration data under the current modifiable configuration identifier of the current decoration base layer data.
Optionally, the determining, according to the decoration configuration data under the modifiable configuration identifier of the historical decoration base layer data of the plurality of user identifiers and the configuration encoding information thereof, a correlation coefficient between each decoration configuration data under the non-modifiable configuration identifier of the current decoration base layer data and each decoration configuration data under the modifiable configuration identifier of the current decoration base layer data, and configuring the decoration configuration data under the non-modifiable configuration identifier of the current decoration base layer data and related to the decoration configuration data under the modifiable configuration identifier to the corresponding modifiable configuration identifier includes:
calculating the correlation weight between each decoration configuration data under the non-modifiable configuration identifier of the current decoration base layer data and the configuration data label of each decoration configuration data under the modifiable configuration identifier of the current decoration base layer data;
respectively judging whether the correlation weights reach first preset weights, and configuring the decoration configuration data under the non-modifiable configuration identifier of which the correlation weights reach the first preset weights to the corresponding modifiable configuration identifiers; wherein the configuration data tag of the decoration configuration data is: and the decoration configuration data counted according to the decoration configuration data under the modifiable configuration identification of the historical decoration base layer data of the plurality of user identifications and the configuration coding information thereof corresponds to the corresponding label of the configuration path pointing value.
Optionally, the determining, according to the decoration configuration data under the modifiable configuration identifier of the historical decoration base layer data of the multiple user identifiers and the configuration coding information thereof, a correlation coefficient between the decoration configuration data under the current non-modifiable configuration identifier of the current decoration base layer data, and splicing the decoration configuration data under the current non-modifiable configuration identifier according to the correlation coefficient between the decoration configuration data includes:
calculating the correlation weight among the configuration data labels of the decoration configuration data under the current non-modifiable configuration identification of the current decoration base layer data;
for a decoration configuration data under the current non-modifiable configuration identifier of the current decoration base layer data, splicing the decoration configuration data and all decoration configuration data with the correlation weight reaching a second preset weight between the decoration configuration data and the configuration data labels thereof into a group of target decoration configuration data; wherein the configuration data tag of the decoration configuration data is: and the decoration configuration data counted according to the decoration configuration data under the modifiable configuration identification of the historical decoration base layer data of the plurality of user identifications and the configuration coding information thereof belongs to the corresponding label of the configuration path pointing value.
Optionally, the plurality of user identities comprises: associating user identification and non-associating user identification; and the configuration data label of the decoration configuration data is: on the premise that the identification recognition degree of the modifiable configuration identification of the historical decoration base layer data of the associated user identification is higher than that of the modifiable configuration identification of the historical decoration base layer data of the non-associated user identification, the counted decoration configuration data belong to corresponding labels of configuration path direction values; the associated user identification refers to the user identification which verifies the authentication information of the decoration configuration data in the historical decoration base layer data to meet the preset requirement.
Optionally, the setting, according to the decoration configuration data and the configuration encoding information thereof under the modifiable configuration identifier of the historical decoration base layer data of the plurality of user identifiers, a configuration path direction value for the target decoration configuration data obtained by the splicing includes:
for a group of spliced target decoration configuration data, determining a corresponding label of a configuration path direction value to which each decoration configuration data in the group of target decoration configuration data belongs according to the decoration configuration data under the modifiable configuration identifier of the historical decoration base layer data of the plurality of user identifiers, and setting the configuration path direction value for the group of target decoration configuration data according to the corresponding label.
Optionally, the plurality of user identities comprises: the method comprises the steps of associating user identification and non-associating user identification, wherein the associating user identification refers to the user identification which verifies the authentication information of decoration configuration data in historical decoration base layer data of the associating user identification to meet the preset requirement;
and the determining of the corresponding label of the configuration path direction value to which each decoration configuration data in the set of target decoration configuration data belongs includes:
and determining a corresponding label of a configuration path pointing value to which each decoration configuration data in the group of target decoration configuration data belongs on the premise that the identification recognition degree of the modifiable configuration identification of the historical decoration base layer data of the associated user identification is higher than the identification recognition degree of the modifiable configuration identification of the historical decoration base layer data of the non-associated user identification.
Optionally, the determining, based on the material information corresponding to the current decoration base layer data, the first decoration configuration data under the current non-modifiable configuration identifier of the current decoration base layer data, and the second decoration configuration data under the current modifiable configuration identifier of the current decoration base layer data, and outputting evaluation data of the service demand information corresponding to the current decoration base layer data, includes:
determining first decoration deviation data between a first configuration priority distribution corresponding to the first decoration configuration data and a material category distribution corresponding to the material information and second decoration deviation data between the material category distribution corresponding to the material information and a second configuration priority distribution corresponding to the second decoration configuration data; for the first decoration configuration data, performing configuration logic correction on the first decoration configuration data according to the first decoration deviation data by taking the first configuration priority distribution as a current distribution index to obtain first correction configuration data; for the material information, performing configuration logic correction on the material information according to the second decoration deviation data by taking the material category distribution as a current distribution index to obtain second correction configuration data;
respectively carrying out decoration structural analysis on the first decoration configuration data and the material information, the first decoration configuration data and the first correction configuration data, the material information and the second decoration configuration data, and the material information and the second correction configuration data to obtain first decoration structural diagram data, second decoration structural diagram data, third decoration structural diagram data and fourth decoration structural diagram data; calculating a first graph data similarity between the first decoration structure graph data and the second decoration structure graph data and a second graph data similarity between the third decoration structure graph data and the fourth decoration structure graph data;
judging whether the similarity of the first graph data and the similarity of the second graph data are both within a preset similarity grading interval; if yes, determining an integrated logic list for integrating service demand information according to the first decoration structural diagram data and the third decoration structural diagram data, and integrating the first decoration configuration data, the material information and the second decoration configuration data according to the integrated logic list corresponding to the service demand information to obtain the service demand information; if not, respectively determining the similarity of the first graph data and the second graph data as well as a first difference value and a second difference value of the preset similarity grading interval; comparing the magnitude of the first difference value and the second difference value; when the first difference value is smaller than the second difference value, determining an integrated logic list for integrating service demand information according to the first decoration structural diagram data and the second decoration structural diagram data, and integrating the first decoration configuration data, the material information and the second decoration configuration data according to the integrated logic list corresponding to the service demand information to obtain the service demand information; when the first difference value is larger than the second difference value, determining an integrated logic list for integrating service demand information according to the third decoration structure diagram data and the fourth decoration structure diagram data, and integrating the first decoration configuration data, the material information and the second decoration configuration data according to the integrated logic list corresponding to the service demand information to obtain the service demand information;
and extracting evaluation data corresponding to the service demand information, and displaying the evaluation messages in the evaluation data according to the time sequence.
The present invention secondly provides a system comprising:
the acquisition module is used for acquiring material information of current decoration base layer data and decoration configuration data;
a configuration module, configured to, on the premise that the current decoration base layer data includes a modifiable configuration identifier based on the material information, determine correlation coefficients between decoration configuration data under the modifiable configuration identifier of the current decoration base layer data and decoration configuration data under the modifiable configuration identifier of the current decoration base layer data according to decoration configuration data under the modifiable configuration identifier of historical decoration base layer data of multiple user identifiers and configuration coding information thereof, and configure decoration configuration data under the modifiable configuration identifier of the current decoration base layer data, which is related to the decoration configuration data under the modifiable configuration identifier, to a corresponding modifiable configuration identifier;
the splicing module is used for determining a correlation coefficient between decoration configuration data under the current non-modifiable configuration identifier of the current decoration base layer data according to the decoration configuration data under the modifiable configuration identifier of the historical decoration base layer data of a plurality of user identifiers and configuration coding information thereof on the premise that the decoration configuration data under the current non-modifiable configuration identifier of the current decoration base layer data contains a plurality of decoration configuration data, and splicing the decoration configuration data under the current non-modifiable configuration identifier according to the correlation coefficient between the decoration configuration data; setting a configuration path directing value for target decoration configuration data obtained by splicing according to decoration configuration data and configuration coding information under modifiable configuration identifications of historical decoration base layer data of a plurality of user identifications, and configuring the target decoration configuration data under the modifiable configuration identifications pointed by the configuration path directing value;
and the output module is used for determining evaluation data of the service demand information corresponding to the current decoration base layer data and outputting the evaluation data based on the material information corresponding to the current decoration base layer data, the first decoration configuration data under the current non-modifiable configuration identifier of the current decoration base layer data and the second decoration configuration data under the current modifiable configuration identifier of the current decoration base layer data.
The invention then provides a system comprising a processor and a memory communicating with each other, the processor implementing the above-described method by executing a computer program read from the memory.
The invention finally provides a storage medium which is computer-readable and on which a computer program is stored which, when executed, implements the method described above.
According to the building engineering and big data-based building decoration base layer industrialized data processing method and system, firstly, correlation analysis is carried out on different decoration configuration data under a modifiable configuration identifier of historical decoration base layer data of a plurality of user identifiers and under an unchangeable configuration identifier of the current decoration base layer data according to material information of the current decoration base layer data, so that correlation analysis can be carried out on the current decoration base layer data and the historical decoration base layer data, and construction record data of the historical decoration base layer data are fully mined. And further carrying out secondary configuration on the decoration configuration data under the configuration identifier capable of being modified and the decoration configuration data under the configuration identifier not capable of being modified, so that the modification requirement and the adjustment requirement of a user can be met. And finally, determining evaluation data of the service requirement information through the material information and the decoration configuration data under different configuration identifications and outputting the evaluation data, so that construction evaluation data can be provided for a constructor, and the safety of the construction process of architectural decoration is ensured on the premise of meeting the requirements of users.
Detailed Description
Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.
In order to ensure the safety of the construction process of architectural decoration on the premise of meeting the requirements of users, the embodiment of the invention provides an architectural decoration basic layer industrialized data processing method and system based on architectural engineering and big data. Referring first to fig. 1, a flow chart of an industrial data processing method for an architectural decoration substrate is shown, which can be applied to a system, and can be implemented by the method described in the following steps S110 to S140.
And step S110, acquiring material information of the current decoration base layer data and decoration configuration data.
For example, the current decoration base layer data may be the latest decoration base layer data. The material information may be material information corresponding to the construction process. The decoration configuration data is used for representing construction data when building decoration is constructed.
Step S120, on the premise that the current decoration base layer data contains the modifiable configuration identifier based on the material information, determining correlation coefficients between decoration configuration data under the modifiable configuration identifier of the current decoration base layer data and decoration configuration data under the modifiable configuration identifier of the current decoration base layer data according to decoration configuration data under the modifiable configuration identifier of historical decoration base layer data of a plurality of user identifiers and configuration coding information thereof, and configuring decoration configuration data under the modifiable configuration identifier of the current decoration base layer data and decoration configuration data under the modifiable configuration identifier to the corresponding modifiable configuration identifier.
For example, the configuration encoding information is used to characterize the encoding priority of the decoration configuration data. The modifiable configuration identification is modifiable for characterizing the decorative configuration data. The non-modifiable configuration identification is used to characterize the decoration configuration data as being non-modifiable. The decoration configuration data corresponding to the non-modifiable configuration identification has a lower risk resistance coefficient. The risk resistance coefficient is used for representing the safety accident resistance coefficient in the construction process. The correlation coefficient is used to characterize the data correlations of the different decoration configuration data.
Step S130, on the premise that the current non-modifiable configuration identifier of the current decoration base layer data contains a plurality of decoration configuration data, determining correlation coefficients among the decoration configuration data under the current non-modifiable configuration identifier of the current decoration base layer data according to the decoration configuration data under the modifiable configuration identifier of the historical decoration base layer data of a plurality of user identifiers and configuration coding information thereof, and splicing the decoration configuration data under the current non-modifiable configuration identifier according to the correlation coefficients among the decoration configuration data; and setting a configuration path pointing value for the spliced target decoration configuration data according to the decoration configuration data and the configuration coding information under the modifiable configuration identification of the historical decoration base layer data of the plurality of user identifications, and configuring the target decoration configuration data under the modifiable configuration identification pointed by the configuration path pointing value.
For example, the configuration path pointing value is used to indicate the configuration path of the target decoration configuration data.
Step S140, determining evaluation data of the service demand information corresponding to the current decoration base layer data based on the material information corresponding to the current decoration base layer data, the first decoration configuration data under the current non-modifiable configuration identifier of the current decoration base layer data, and the second decoration configuration data under the current modifiable configuration identifier of the current decoration base layer data, and outputting the evaluation data.
For example, the service requirement information is used for representing the latest modification information of the user on the current decoration base layer data, and the evaluation data is used for evaluating the safety of building decoration construction.
It can be understood that based on the descriptions in the foregoing steps S110 to S140, correlation analysis is first performed on different decoration configuration data under the modifiable configuration identifier of the historical decoration base layer data of multiple user identifiers and under the non-modifiable configuration identifier of the current decoration base layer data according to the material information of the current decoration base layer data, so that correlation analysis can be performed on the current decoration base layer data and the historical decoration base layer data, and construction record data of the historical decoration base layer data can be fully mined. And further carrying out secondary configuration on the decoration configuration data under the configuration identifier capable of being modified and the decoration configuration data under the configuration identifier not capable of being modified, so that the modification requirement and the adjustment requirement of a user can be met. And finally, determining evaluation data of the service requirement information through the material information and the decoration configuration data under different configuration identifications and outputting the evaluation data, so that construction evaluation data can be provided for a constructor, and the safety of the construction process of architectural decoration is ensured on the premise of meeting the requirements of users.
In one example, the step S120 of determining a correlation coefficient between decoration configuration data under the modifiable configuration identifier of the current decoration base layer data and decoration configuration data under the modifiable configuration identifier of the current decoration base layer data according to decoration configuration data under the modifiable configuration identifier of the plurality of user-identified historical decoration base layer data and the configuration encoding information thereof, and configuring decoration configuration data under the non-modifiable configuration identifier of the current decoration base layer data and decoration configuration data under the modifiable configuration identifier to the corresponding modifiable configuration identifier, can be implemented by the following steps S121 and S122.
Step S121, calculating a correlation weight between each decoration configuration data under the non-modifiable configuration identifier of the current decoration base layer data and the configuration data tag of each decoration configuration data under the modifiable configuration identifier of the current decoration base layer data.
Step S122, respectively determining whether each correlation weight reaches a first preset weight, and configuring the decoration configuration data under the non-modifiable configuration identifier whose correlation weight reaches the first preset weight to the corresponding modifiable configuration identifier.
In step S121 and step S122, the configuration data tag of the decoration configuration data is: and the decoration configuration data counted according to the decoration configuration data under the modifiable configuration identification of the historical decoration base layer data of the plurality of user identifications and the configuration coding information thereof corresponds to the corresponding label of the configuration path pointing value.
By such design, based on the above steps S121 to S122, the correlation weight between the configuration data tags can be fully considered when performing secondary configuration on the decoration configuration data, so as to ensure that no deviation occurs during the secondary configuration, and avoid the loss of the decoration configuration data during the secondary configuration.
In one embodiment, the determining step S130 determines a correlation coefficient between decoration configuration data under the modifiable configuration identifier of the current decoration base layer data according to decoration configuration data under the modifiable configuration identifier of the historical decoration base layer data of a plurality of user identifiers and the configuration encoding information thereof, and concatenates decoration configuration data under the current non-modifiable configuration identifier according to the correlation coefficient between the decoration configuration data, which may exemplarily include the following steps S131 and S132.
Step S131, calculating the correlation weight between the configuration data labels of the decoration configuration data under the current non-modifiable configuration identifier of the current decoration base layer data.
Step S132, for a decoration configuration data under the current non-modifiable configuration identifier of the current decoration base layer data, concatenating the decoration configuration data and all decoration configuration data whose correlation weight between the decoration configuration data and the configuration data tag thereof reaches a second preset weight into a set of target decoration configuration data.
In step S131 and step S132, the configuration data tag of the decoration configuration data is: and the decoration configuration data counted according to the decoration configuration data under the modifiable configuration identification of the historical decoration base layer data of the plurality of user identifications and the configuration coding information thereof belongs to the corresponding label of the configuration path pointing value. It is understood that based on the above steps S131 and S132, it is possible to ensure correlation between the decoration configuration data when splicing the decoration configuration data, thereby ensuring that the target decoration configuration data is matched with the construction process data when actually constructing the architectural decoration, so that deviation of guidance of the target decoration configuration data on the construction process can be avoided.
In steps S121 and S122, and in steps S131 and S132, the plurality of user identities include: associating user identification and non-associating user identification; and the configuration data label of the decoration configuration data is: on the premise that the identification recognition degree of the modifiable configuration identification of the historical decoration base layer data of the associated user identification is higher than that of the modifiable configuration identification of the historical decoration base layer data of the non-associated user identification, the counted decoration configuration data belong to corresponding labels of configuration path direction values; the associated user identification refers to the user identification which verifies the authentication information of the decoration configuration data in the historical decoration base layer data to meet the preset requirement.
Further, the step S130 of setting configuration path pointing values for the spliced target decoration configuration data according to the decoration configuration data under the modifiable configuration identifier of the historical decoration base layer data of multiple user identifiers and the configuration encoding information thereof includes: for a group of spliced target decoration configuration data, determining a corresponding label of a configuration path direction value to which each decoration configuration data in the group of target decoration configuration data belongs according to the decoration configuration data under the modifiable configuration identifier of the historical decoration base layer data of the plurality of user identifiers, and setting the configuration path direction value for the group of target decoration configuration data according to the corresponding label.
Still further, the plurality of user identities comprises: the method comprises the steps of associating user identification and non-associating user identification, wherein the associating user identification refers to the user identification which verifies the authentication information of decoration configuration data in historical decoration base layer data of the associating user identification to meet the preset requirement; and the determining of the corresponding label of the configuration path direction value to which each decoration configuration data in the set of target decoration configuration data belongs includes: and determining a corresponding label of a configuration path pointing value to which each decoration configuration data in the group of target decoration configuration data belongs on the premise that the identification recognition degree of the modifiable configuration identification of the historical decoration base layer data of the associated user identification is higher than the identification recognition degree of the modifiable configuration identification of the historical decoration base layer data of the non-associated user identification.
In this way, based on the method for setting the configuration path index value, the orderliness of the secondary configuration can be ensured when the secondary configuration of the decoration configuration data is carried out, and the secondary configuration deviation caused by the disorder of the configuration path index value can be avoided.
In an alternative embodiment, in order to ensure a balance between the modification requirement of the user and the safety of the construction process, the evaluation data of the business requirement information corresponding to the current decoration base layer data is determined and output based on the material information corresponding to the current decoration base layer data, the first decoration configuration data under the current non-modifiable configuration identification of the current decoration base layer data and the second decoration configuration data under the current modifiable configuration identification of the current decoration base layer data, which is described in step S140, and the evaluation data may exemplarily include the contents described in the following steps S141 to S144.
Step S141, determining first decoration deviation data between a first configuration priority distribution corresponding to the first decoration configuration data and a material category distribution corresponding to the material information and second decoration deviation data between the material category distribution corresponding to the material information and a second configuration priority distribution corresponding to the second decoration configuration data; for the first decoration configuration data, performing configuration logic correction on the first decoration configuration data according to the first decoration deviation data by taking the first configuration priority distribution as a current distribution index to obtain first correction configuration data; and for the material information, performing configuration logic correction on the material information according to the second decoration deviation data by taking the material category distribution as a current distribution index to obtain second correction configuration data.
Step S142, respectively performing decoration structural analysis on the first decoration configuration data and the material information, the first decoration configuration data and the first correction configuration data, the material information and the second decoration configuration data, and the material information and the second correction configuration data to obtain first decoration structural diagram data, second decoration structural diagram data, third decoration structural diagram data, and fourth decoration structural diagram data; calculating a first graph data similarity between the first decoration structure graph data and the second decoration structure graph data and a second graph data similarity between the third decoration structure graph data and the fourth decoration structure graph data.
Step S143, judging whether the similarity of the first graph data and the similarity of the second graph data are both within a preset similarity grading interval; if yes, determining an integrated logic list for integrating service demand information according to the first decoration structural diagram data and the third decoration structural diagram data, and integrating the first decoration configuration data, the material information and the second decoration configuration data according to the integrated logic list corresponding to the service demand information to obtain the service demand information; if not, respectively determining the similarity of the first graph data and the second graph data as well as a first difference value and a second difference value of the preset similarity grading interval; comparing the magnitude of the first difference value and the second difference value; when the first difference value is smaller than the second difference value, determining an integrated logic list for integrating service demand information according to the first decoration structural diagram data and the second decoration structural diagram data, and integrating the first decoration configuration data, the material information and the second decoration configuration data according to the integrated logic list corresponding to the service demand information to obtain the service demand information; when the first difference value is larger than the second difference value, an integrated logic list for integrating service demand information is determined according to the third decoration structure diagram data and the fourth decoration structure diagram data, and the first decoration configuration data, the material information and the second decoration configuration data are integrated according to the integrated logic list corresponding to the service demand information to obtain the service demand information.
And step S144, extracting the evaluation data corresponding to the service demand information, and displaying the evaluation messages in the evaluation data according to the time sequence order.
It can be understood that based on the above steps S141 to S144, the decoration deviation data can be analyzed for the material information, the first decoration configuration data, and the second decoration configuration data, so that the business requirement information can be obtained by integrating the first decoration configuration data, the material information, and the second decoration configuration data according to different analysis results, and thus the modification requirement of the user for the building device can be met to the maximum extent. In addition, the evaluation data corresponding to the service demand information is extracted, and the evaluation messages in the evaluation data are displayed according to the time sequence, so that the condition that the field construction is indicated through the evaluation messages can be ensured, and the balance between the modification demand of a user and the safety of the construction process is ensured.
Based on the same inventive concept as above, please refer to fig. 2, which shows a system 200, which includes the following functional modules:
an obtaining module 210, configured to obtain material information of current decoration base layer data and decoration configuration data;
a configuration module 220, configured to, on the premise that the current decoration base layer data includes a modifiable configuration identifier based on the material information, determine, according to decoration configuration data under the modifiable configuration identifier of the historical decoration base layer data of multiple user identifiers and configuration coding information thereof, a correlation coefficient between each decoration configuration data under the non-modifiable configuration identifier of the current decoration base layer data and each decoration configuration data under the modifiable configuration identifier of the current decoration base layer data, and configure decoration configuration data under the non-modifiable configuration identifier of the current decoration base layer data, which is related to the decoration configuration data under the modifiable configuration identifier, under a corresponding modifiable configuration identifier;
a splicing module 230, configured to, on the premise that the current non-modifiable configuration identifier of the current decoration base layer data includes multiple decoration configuration data, determine, according to the decoration configuration data and configuration coding information thereof under the modifiable configuration identifier of the historical decoration base layer data of multiple user identifiers, a correlation coefficient between decoration configuration data under the current non-modifiable configuration identifier of the current decoration base layer data, and splice decoration configuration data under the current non-modifiable configuration identifier according to the correlation coefficient between the decoration configuration data; setting a configuration path directing value for target decoration configuration data obtained by splicing according to decoration configuration data and configuration coding information under modifiable configuration identifications of historical decoration base layer data of a plurality of user identifications, and configuring the target decoration configuration data under the modifiable configuration identifications pointed by the configuration path directing value;
an output module 240, configured to determine evaluation data of the service demand information corresponding to the current decoration base layer data based on the material information corresponding to the current decoration base layer data, the first decoration configuration data under the current non-modifiable configuration identifier of the current decoration base layer data, and the second decoration configuration data under the current modifiable configuration identifier of the current decoration base layer data, and output the evaluation data.
For the description of the functional modules, please refer to the description of the method shown in fig. 1, which is not described herein again.
Based on the above solution, please refer to fig. 3, which shows a hardware structure diagram of a system 200, the system 200 may include a processor 250 and a memory 260, which are communicated with each other, and the processor 250 implements the method shown in fig. 1 by running the computer program read from the memory 260. Further, a storage medium is also provided, which is a computer-readable storage medium having stored thereon a computer program, which when executed implements the method shown in fig. 1.
In summary, according to the method and system for processing industrial data of architectural decoration base layer based on architectural engineering and big data provided by the embodiments of the present invention, firstly, correlation analysis is performed on different decoration configuration data under a modifiable configuration identifier of historical decoration base layer data of a plurality of user identifiers and under an un-modifiable configuration identifier of the current decoration base layer data according to material information of the current decoration base layer data, so that correlation analysis can be performed on the current decoration base layer data and the historical decoration base layer data, and construction record data of the historical decoration base layer data can be fully mined. And further carrying out secondary configuration on the decoration configuration data under the configuration identifier capable of being modified and the decoration configuration data under the configuration identifier not capable of being modified, so that the modification requirement and the adjustment requirement of a user can be met. And finally, determining evaluation data of the service requirement information through the material information and the decoration configuration data under different configuration identifications and outputting the evaluation data, so that construction evaluation data can be provided for a constructor, and the safety of the construction process of architectural decoration is ensured on the premise of meeting the requirements of users.
The various technical features in the above embodiments can be arbitrarily combined, so long as there is no conflict or contradiction between the combinations of the features, but the combination is limited by the space and is not described one by one, and therefore, any combination of the various technical features in the above embodiments also belongs to the scope disclosed in the present specification.
It will be understood that the invention is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the invention is limited only by the appended claims.