CN112529739A - Building quality global detection method and system - Google Patents

Abstract

The embodiment of the application provides a building quality global detection method and a building quality global detection system, for any building engineering group, a target safety operation and maintenance object sequence included in a safety operation and maintenance object set for performing safety operation and maintenance on the building engineering group within a preset duration is determined according to function operation and maintenance information of a safety operation and maintenance object set with the highest priority, if a first target building engineering group and a second target building engineering group including the same target safety operation and maintenance object sequence exist, and the operation and maintenance object difference of the safety operation and maintenance object set corresponding to the same object in the same target safety operation and maintenance object sequence performed by the first target building engineering group and the second target building engineering group is smaller than or equal to a preset difference range, the first target building engineering group and the second target building engineering group are determined to form an integral building engineering group. Therefore, the whole building engineering group which can facilitate subsequent safe operation and maintenance is determined based on the building safety detection result, so that the operation and maintenance efficiency is improved.

Description

Building quality global detection method and system

Technical Field

The application relates to the technical field of safety detection, in particular to a building quality global detection method and system.

Background

In the related art, how to determine an overall building engineering group which can facilitate subsequent safe operation and maintenance based on a building safety detection result in the process of carrying out safety detection on a building so as to improve operation and maintenance efficiency is a technical problem to be solved urgently in the field.

Inventive arrangements

In view of this, an object of the present application is to provide a building quality global detection method and system, which can determine an entire building engineering group that can facilitate subsequent safe operation and maintenance based on a building safety detection result, so as to improve operation and maintenance efficiency.

In a first aspect, the present application provides a building quality global detection method, which is applied to a security detection platform, where the security detection platform is in communication connection with a plurality of monitoring sensor nodes, and the method includes:

building sensing detection information of each building engineering group of each monitoring sensing node is obtained, a safety operation and maintenance object set for performing safety operation and maintenance on each building engineering group within a preset duration is determined according to a target building safety detection result corresponding to the building sensing detection information, and functional operation and maintenance information for performing safety operation and maintenance on each safety operation and maintenance object set is determined;

for any building project group, determining a target safe operation and maintenance object sequence included in a safe operation and maintenance object set for carrying out safe operation and maintenance on the building project group within the preset duration according to the function operation and maintenance information of the safe operation and maintenance object set with the highest priority; the objects of each target safe operation and maintenance object sequence are safe operation and maintenance object sets for the building engineering group to perform safe operation and maintenance within the preset duration, the service sets of the objects in each target safe operation and maintenance object sequence are equal to the functional operation and maintenance information of the safe operation and maintenance object set with the highest priority, and the same safe operation and maintenance object sets for performing safe operation and maintenance on different functional operation and maintenance information of the same building engineering group belong to different objects;

judging whether a first target building engineering group and a second target building engineering group comprising the same target safety operation and maintenance object sequence exist or not, if so, judging whether the operation and maintenance object differences of the safe operation and maintenance object sets corresponding to the same object in the same target safe operation and maintenance object sequence are both smaller than or equal to a preset difference range or not when the first target building engineering group and the second target building engineering group perform safe operation and maintenance, if the operation and maintenance object differences of the safe operation and maintenance object sets corresponding to the same object in the same target safe operation and maintenance object sequence are both smaller than or equal to the preset difference range, determining that the first target group of construction projects and the second target group of construction projects form an integral group of construction projects.

In a possible example of the first aspect, after the step of determining, according to a target building safety detection result corresponding to the building sensing detection information, a safety operation and maintenance object set for performing safety operation and maintenance on each building engineering group within a preset duration, and function operation and maintenance information for performing safety operation and maintenance on each safety operation and maintenance object set, the method further includes:

determining the building engineering group of the functional operation and maintenance information of the safe operation and maintenance object set with the highest priority for the times of operating the safe operation and maintenance object set within the preset duration as a target building engineering group;

the step of determining a target safety operation and maintenance object sequence included in a safety operation and maintenance object set for safety operation and maintenance of any building engineering group within the preset duration according to the function operation and maintenance information of the safety operation and maintenance object set with the highest priority comprises the following steps:

and for any target building engineering group, determining a target safety operation and maintenance object sequence included in the safety operation and maintenance object set for carrying out safety operation and maintenance on the target building engineering group within the preset duration according to the function operation and maintenance information of the safety operation and maintenance object set with the highest priority.

In one possible example of the first aspect, the step of determining whether there are a first target group of construction projects and a second target group of construction projects that include the same sequence of target safety operation and maintenance objects includes:

sequencing the objects included in the target safety operation and maintenance object sequence of each building engineering group according to the function operation and maintenance information sequence of the operation safety operation and maintenance object set;

and if the objects in the target safety operation and maintenance object sequences of different building engineering groups are the same and the sequence of each object is consistent, determining that a first target building engineering group and a second target building engineering group which comprise the same target safety operation and maintenance object sequence exist.

In a possible example of the first aspect, the step of determining whether the operation and maintenance object differences of the safety operation and maintenance object sets corresponding to the same object in the same target safety operation and maintenance object sequence are both less than or equal to a preset difference range includes:

sequentially judging whether the operation and maintenance object difference of the safe operation and maintenance object set corresponding to each same object in the safe operation and maintenance object sequence of the first target building engineering group and the second target building engineering group is less than or equal to a preset difference range according to the function operation and maintenance information sequence of the operation and maintenance safe operation and maintenance object set;

if the operation and maintenance object differences of the safe operation and maintenance object sets corresponding to the same objects in the same target safe operation and maintenance object sequence of the safe operation and maintenance performed by the first target building engineering group and the second target building engineering group are smaller than or equal to a preset difference range, determining that the operation and maintenance object differences of the safe operation and maintenance object sets corresponding to the same objects in the same target safe operation and maintenance object sequence of the first target building engineering group and the second target building engineering group are smaller than or equal to a preset difference range.

In one possible example of the first aspect, the method further comprises:

if the first target building engineering group and the second target building engineering group which comprise the same target safety operation and maintenance object sequence do not exist, determining that an integral building engineering group does not exist; and/or

And if the operation and maintenance object difference of the safety operation and maintenance object set corresponding to at least one same object in the same target safety operation and maintenance object sequence is larger than a preset difference range during the safety operation and maintenance of the first target building engineering group and the second target building engineering group, determining that the first target building engineering group and the second target building engineering group do not form an integral building engineering group.

In a second aspect, an embodiment of the present application further provides a building quality global detection system, where the building quality global detection system includes a security detection platform and a plurality of monitoring sensing nodes communicatively connected to the security detection platform;

the security detection platform is used for:

building sensing detection information of each building engineering group of each monitoring sensing node is obtained, a safety operation and maintenance object set for performing safety operation and maintenance on each building engineering group within a preset duration is determined according to a target building safety detection result corresponding to the building sensing detection information, and functional operation and maintenance information for performing safety operation and maintenance on each safety operation and maintenance object set is determined;

for any building project group, determining a target safe operation and maintenance object sequence included in a safe operation and maintenance object set for carrying out safe operation and maintenance on the building project group within the preset duration according to the function operation and maintenance information of the safe operation and maintenance object set with the highest priority; the objects of each target safe operation and maintenance object sequence are safe operation and maintenance object sets for the building engineering group to perform safe operation and maintenance within the preset duration, the service sets of the objects in each target safe operation and maintenance object sequence are equal to the functional operation and maintenance information of the safe operation and maintenance object set with the highest priority, and the same safe operation and maintenance object sets for performing safe operation and maintenance on different functional operation and maintenance information of the same building engineering group belong to different objects;

judging whether a first target building engineering group and a second target building engineering group comprising the same target safety operation and maintenance object sequence exist or not, if so, judging whether the operation and maintenance object differences of the safe operation and maintenance object sets corresponding to the same object in the same target safe operation and maintenance object sequence are both smaller than or equal to a preset difference range or not when the first target building engineering group and the second target building engineering group perform safe operation and maintenance, if the operation and maintenance object differences of the safe operation and maintenance object sets corresponding to the same object in the same target safe operation and maintenance object sequence are both smaller than or equal to the preset difference range, determining that the first target group of construction projects and the second target group of construction projects form an integral group of construction projects.

In a third aspect, an embodiment of the present application further provides a security detection platform, where the security detection platform includes a processor, a machine-readable storage medium, and a network interface, where the machine-readable storage medium, the network interface, and the processor are connected through a bus system, the network interface is configured to be communicatively connected to at least one monitoring sensor node, the machine-readable storage medium is configured to store a program, an instruction, or code, and the processor is configured to execute the program, the instruction, or the code in the machine-readable storage medium to perform the building quality global detection method in the first aspect or any one of the possible examples in the first aspect.

In a fourth aspect, an embodiment of the present application provides a computer-readable storage medium, in which instructions are stored, and when executed, cause a computer to perform the building quality global detection method in the first aspect or any one of the possible examples of the first aspect.

According to any one of the aspects, for any one of the building engineering groups, the target safety operation and maintenance object sequence included in the safety operation and maintenance object set for performing safety operation and maintenance on the building engineering group within the preset duration is determined according to the function operation and maintenance information of the safety operation and maintenance object set with the highest priority, if a first target building engineering group and a second target building engineering group including the same target safety operation and maintenance object sequence exist, and the operation and maintenance object difference of the safety operation and maintenance object set corresponding to the same object in the same target safety operation and maintenance object sequence performed by the first target building engineering group and the second target building engineering group is smaller than or equal to the preset difference range, the first target building engineering group and the second target building engineering group are determined to form an integral building engineering group. Therefore, the whole building engineering group which can facilitate subsequent safe operation and maintenance is determined based on the building safety detection result, so that the operation and maintenance efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is a schematic view of an application scenario of a building quality global detection system according to an embodiment of the present application;

fig. 2 is a schematic flow chart of a building quality global detection method according to an embodiment of the present application;

fig. 3 is a block diagram illustrating a structure of a security detection platform for implementing the above-mentioned building quality global detection method according to an embodiment of the present application.

Detailed Description

The present application will now be described in detail with reference to the drawings, and the specific operations in the method embodiments may also be applied to the apparatus embodiments or the system embodiments.

Fig. 1 is an interactive schematic diagram of a building quality global detection system 10 provided in an embodiment of the present application. The building quality global detection system 10 may include a security detection platform 100 and a monitoring sensing node 200 communicatively connected to the security detection platform 100 through a network, the building quality global detection system 10 shown in fig. 1 is only one possible example, and in other possible embodiments, the building quality global detection system 10 may include only one of the components shown in fig. 1 or may also include other components.

In order to solve the technical problem in the foregoing background art, fig. 2 is a schematic flow chart of a building quality global detection method provided in an embodiment of the present application, and the building quality global detection method provided in this embodiment may be executed by the security detection platform 100 shown in fig. 1, which is described in detail below.

Step S110, building sensing detection information of each building engineering group of each monitoring sensing node is obtained, a safety operation and maintenance object set for performing safety operation and maintenance on each building engineering group within a preset duration is determined according to a target building safety detection result corresponding to the building sensing detection information, and functional operation and maintenance information for performing safety operation and maintenance on each safety operation and maintenance object set is obtained.

Step S120, for any building project group, determining a target safe operation and maintenance object sequence included in a safe operation and maintenance object set for safe operation and maintenance of the building project group within a preset duration according to the function operation and maintenance information of the safe operation and maintenance object set with the highest priority. The objects of each target safe operation and maintenance object sequence are safe operation and maintenance object sets for the building engineering group to perform safe operation and maintenance within a preset duration, the service set of the objects in each target safe operation and maintenance object sequence is equal to the function operation and maintenance information of the safe operation and maintenance object set with the highest priority, and the same safe operation and maintenance object set for performing safe operation and maintenance on different function operation and maintenance information of the same building engineering group belongs to different objects.

Step S130, judging whether a first target building engineering group and a second target building engineering group which comprise the same target safety operation and maintenance object sequence exist, if so, judging whether the operation and maintenance object differences of the safe operation and maintenance object sets corresponding to the same object in the safe operation and maintenance object sequence of the same object in the first target building engineering group and the second target building engineering group are both smaller than or equal to a preset difference range, if the operation and maintenance object differences of the safe operation and maintenance object sets corresponding to the same object in the safe operation and maintenance object sequence of the first target building engineering group and the second target building engineering group are both smaller than or equal to the preset difference range, it is determined that the first target group of construction projects and the second target group of construction projects form an overall group of construction projects.

Based on the above steps, in this embodiment, for any building engineering group, according to the function operation and maintenance information of the highest-priority safety operation and maintenance object set, a target safety operation and maintenance object sequence included in the safety operation and maintenance object set for performing safety operation and maintenance on the building engineering group within a preset duration is determined, if a first target building engineering group and a second target building engineering group including the same target safety operation and maintenance object sequence exist, and the operation and maintenance object differences of the safety operation and maintenance object sets corresponding to the same object in the same target safety operation and maintenance object sequence performed by the first target building engineering group and the second target building engineering group are both smaller than or equal to a preset difference range, it is determined that the first target building engineering group and the second target building engineering group form an integral building engineering group. Therefore, the whole building engineering group which can facilitate subsequent safe operation and maintenance is determined based on the building safety detection result, so that the operation and maintenance efficiency is improved.

In a possible example, after step S120, the building engineering group of the functional operation and maintenance information of the safety operation and maintenance object set with the number of times of operating the safety operation and maintenance object set within the preset duration time being greater than or equal to the highest priority level may also be determined as the target building engineering group.

In this way, in step S120, for any target building engineering group, the target safety operation and maintenance object sequence included in the safety operation and maintenance object set for performing safety operation and maintenance on the target building engineering group within the preset duration may be determined according to the function operation and maintenance information of the safety operation and maintenance object set with the highest priority.

In step S130, as a possible example, the objects included in the target safety operation and maintenance object sequence of each building engineering group may be sorted according to the functional operation and maintenance information sequence of the operation safety operation and maintenance object set, and if there are the same objects included in the target safety operation and maintenance object sequences of different building engineering groups and the sequences of the objects are consistent, it is determined that there are a first target building engineering group and a second target building engineering group including the same target safety operation and maintenance object sequence.

In step S130, as a possible example, it may be sequentially determined, according to the functional operation and maintenance information sequence of the operation and maintenance object set, whether the operation and maintenance object difference of the safety operation and maintenance object set corresponding to each identical object in the safety operation and maintenance object sequence performed by the first target building engineering group and the second target building engineering group is less than or equal to a preset difference range.

And if the operation and maintenance object difference of the safe operation and maintenance object set corresponding to each same object in the safe operation and maintenance object sequence of the same target is carried out by the first target building engineering group and the second target building engineering group is less than or equal to the preset difference range, determining that the operation and maintenance object difference of the safe operation and maintenance object set corresponding to the same object in the safe operation and maintenance object sequence of the same target is carried out by the first target building engineering group and the second target building engineering group is less than or equal to the preset difference range.

In addition, if the first target building engineering group and the second target building engineering group which comprise the same target safety operation and maintenance object sequence do not exist, determining that the whole building engineering group does not exist, and/or if the operation and maintenance object difference of a safety operation and maintenance object set corresponding to at least one same object in the same target safety operation and maintenance object sequence of the first target building engineering group and the second target building engineering group is larger than a preset difference range, determining that the first target building engineering group and the second target building engineering group do not form the whole building engineering group.

In a possible example, still for step S110, for example, in the process of determining the set of safety operation and maintenance objects for each building engineering group to perform safety operation and maintenance within a preset duration according to the target building safety detection result corresponding to the building sensing detection information, the target building safety detection result corresponding to the building sensing detection information may be determined through the following exemplary sub-steps.

And a substep S101 of obtaining building sensing detection information corresponding to the building object from each monitoring sensing node 200, and extracting safety index data corresponding to the building sensing detection information.

In this embodiment, the building sensing detection information may be obtained by the security detection platform 100 according to the security detection policy information of the monitoring sensing node 200 corresponding to the building object and a security detection feedback manner between the monitoring sensing node 200 and the security detection platform 100. For example, the security detection policy information may be used to represent security detection policies of building objects, and for different security detection policies of users, acquisition policies of building sensing detection information may be different, and may be flexibly adjusted according to actual design requirements, which is not limited herein. For another example, the safety inspection feedback method may refer to a feedback method between the building object and the building quality global inspection platform (safety inspection platform 100), and is not limited in particular herein.

And a substep S102 of obtaining a safety index influence factor of the building quality global detection network of each building object and a safety detection reference parameter corresponding to the safety detection strategy of each building quality global detection network under the corresponding safety index influence factor, and calculating a matching parameter between the building sensing detection information and each building quality global detection network according to an index factor weight corresponding to index factor information in the safety index data, the safety index influence factor of each building quality global detection network and the safety detection reference parameter corresponding to the safety detection strategy under the corresponding safety index influence factor.

In this embodiment, the safety index impact factor may refer to an impact factor label occupied by a specific safety index, and the safety detection strategies corresponding to different safety index impact factors are different, while for different building quality global detection networks, the safety detection reference parameters corresponding to the safety detection strategies corresponding to different safety index impact factors are also different, and may be specifically configured and trained in advance, which is not described in detail herein.

And a substep S103, when a target matching parameter reaching a preset matching parameter threshold value exists in all the determined matching parameters, associating the building object to a first target building quality global detection network corresponding to the target matching parameter, so that the first target building quality global detection network performs security detection on the building object to obtain a first building security detection result.

And a substep S104, when target matching parameters reaching a preset matching parameter threshold value do not exist in all the determined matching parameters, determining a safety detection configuration magnitude of each building quality global detection network relative to the building object, performing data characteristic identification on building sensing detection information of the building object through each corresponding building quality global detection network according to the magnitude sequence of the safety detection configuration magnitude to obtain a plurality of model matching attributes corresponding to the building object and a model attribute node corresponding to the safety detection configuration magnitude of each building quality global detection network in each model matching attribute, determining a safety attribute influence factor corresponding to each model matching attribute from safety index data corresponding to the building object according to each model matching attribute, and associating the safety attribute influence factor corresponding to each model matching attribute with a second target corresponding to the model attribute node loaded in each model matching attribute And in the target building quality global detection network, performing security detection on the building object through each second target building quality global detection network according to the security attribute influence factor to obtain a second building security detection result, and taking the second building security detection result as a target building security detection result.

Based on the above design, in this embodiment, when the absence between the building sensing detection information of the building object and each building quality global detection network reaches the preset matching parameter threshold, the security detection configuration magnitude of each building quality global detection network relative to the building object is combined to match the plurality of model matching attributes corresponding to the building object and the model attribute node loaded in each model matching attribute, so that the security attribute impact factor corresponding to each model matching attribute is associated to the second target building quality global detection network corresponding to the model attribute node loaded in each model matching attribute, and the building object is security detected by each second target building quality global detection network according to the security attribute impact factor, so that the security detection accuracy can be improved in real time, and the problem that the security detection is continuously caused because the parameter configuration process of the building quality global detection network cannot be effectively updated in a short time is avoided The detection accuracy is low.

For example, in a possible example, for step S102, the embodiment may calculate an index factor conversion weight of an index factor weight corresponding to index factor information in the security index data under a security index influence factor of each building quality global detection network, and then calculate an absolute value of a difference value between each index factor conversion weight and a corresponding security detection reference parameter in the security detection policy under the corresponding security index influence factor, so as to add the calculated absolute values of the difference values to obtain a matching parameter between the building sensing detection information and each building quality global detection network.

For example, assuming that the safety index influencing factor of the building quality global detection network Q includes an influencing factor Q1, an influencing factor Q2 and an influencing factor Q3, and the index factor weight corresponding to the index factor information in the safety index data is B, the index factor conversion weight B1, the index factor conversion weight B2 and the index factor conversion weight B3 of the index factor weight B under the influencing factor Q1, the influencing factor Q2 and the influencing factor Q3 respectively can be calculated, and then the matching parameter between the building sensing detection information and the building quality global detection network Q can be calculated to be | Q1-Q2| + | Q1-Q2| + | Q1-Q2 |.

For example, in a possible example, based on the foregoing description, when there is a target matching parameter that reaches a preset matching parameter threshold among all the determined matching parameters, the building object may be associated with a first target building quality global detection network corresponding to the target matching parameter, so that the first target building quality global detection network performs security detection on the building object to obtain a first building security detection result. The key point of the present application is how to improve the security detection accuracy in real time when the target matching parameter that reaches the preset matching parameter threshold does not exist in all the determined matching parameters, so as to avoid a situation that the security detection accuracy is low due to the fact that the parameter configuration process of the building quality global detection network cannot be updated effectively and continuously in a short time, and therefore, the present embodiment will focus on the step S104 described in detail below.

For example, in a possible example, for step S104, in the process of determining the security detection configuration magnitude of each building quality global detection network with respect to the building object, the embodiment may obtain a plurality of network weight units corresponding to each building quality global detection network, and determine a configuration vector list corresponding to the security detection configuration features in each network weight unit and a plurality of configuration reference weights.

It should be noted that the configuration vector list may be used to represent a security detection tendency behavior of the security detection configuration feature in the security detection invoking process, and the configuration reference weight may be used to represent an influence weight of the security detection configuration feature on the security detection invoking process.

On this basis, when it is determined that each network weight unit includes the first index factor dimension vector list according to the configuration vector list, a first matching parameter between each configuration reference weight of each network weight unit under the second index factor dimension vector list and each configuration reference weight of each network weight unit under the first index factor dimension vector list can be determined according to the configuration reference weight and the position information of each network weight unit under the first index factor dimension vector list.

It should be noted that the first index factor dimension vector list may represent a vector list of learning configuration index factors, and the second index factor dimension vector list may represent a vector list of safety indexes.

Therefore, when the fact that each network weight unit comprises the first index factor dimension vector list is determined according to the configuration vector list, a first matching parameter between each configuration reference weight of each network weight unit under the second index factor dimension vector list and each configuration reference weight of each network weight unit under the first index factor dimension vector list can be determined according to the configuration reference weight and the position information of each network weight unit under the first index factor dimension vector list, and then the configuration reference weight of each network weight unit, of which the first matching parameter between the configuration reference weight of each network weight unit under the second index factor dimension vector list and under the first index factor dimension vector list reaches a preset parameter range, is transferred to the first index factor dimension vector list. And then, when each network weight unit contains a plurality of configuration reference weights under the second index factor dimension vector list, determining second matching parameters among the configuration reference weights of each network weight unit under the second index factor dimension vector list according to the configuration reference weights of each network weight unit under the first index factor dimension vector list and position information of each network weight unit, and screening each configuration reference weight under the second index factor dimension vector list according to the second matching parameters among the configuration reference weights.

In this way, the influence node level can be set for the target configuration reference weight obtained by screening according to the configuration reference weight of each network weight unit in the first index factor dimension vector list and the position information thereof, and the target configuration reference weight is transferred to the list section corresponding to the influence node level in the first index factor dimension vector list, so that after weighting processing is respectively performed according to all the configuration reference weights in the first index factor dimension vector list, the matching parameters corresponding to the building quality global detection network corresponding to each network weight unit are weighted, and the safety detection configuration level of the building quality global detection network corresponding to each network weight unit relative to the building object is determined.

For another example, in a possible example, in step S104, in a process of performing data feature identification on the building object according to the magnitude sequence of the security detection configuration levels to obtain a plurality of model matching attributes corresponding to the building object and a model attribute node loaded in each model matching attribute and corresponding to the security detection configuration level of each building quality global detection network, the embodiment may list the security detection configuration nodes corresponding to each security detection configuration level, and establish a building quality global detection network node sequence.

Optionally, the building quality global detection network node sequence may be a itemized processing list, each network element corresponds to one group of list features, each group of list features has at least one security detection configuration node, and each network element of the building quality global detection network node sequence has a progressive relationship from high to low.

Meanwhile, in this embodiment, preset configuration attribute information of the building object may be determined, and the security detection configuration node in at least one building quality global detection network node sequence included in the preset configuration attribute information of the building object may be extracted.

And then, an influence relation between the safety detection configuration node and the building quality global detection network node sequence can be established, and a target safety detection strategy is generated according to the influence relation.

For example, generating the target security detection policy according to the influence relationship may specifically be: converting the corresponding building quality global detection network node sequence into model node data according to each safety detection configuration node, respectively generating at least one safety detection unit of each model node data, then obtaining safety detection units with non-repetition safety detection configuration orders to form a safety detection unit group, and influencing each safety detection unit in the safety detection unit group into the building quality global detection network node sequence to form a target safety detection strategy, wherein each safety detection unit corresponds to one safety detection project configuration.

Therefore, the safety detection configuration nodes contained in the preset configuration attribute information of the building object can be compared with each safety detection configuration node in the target safety detection strategy in a traversing way, in the traversal comparison process, if all the safety detection configuration nodes of one safety detection unit are contained in the preset configuration attribute information of the building object, recording the safety detection unit as the model matching attribute direction of the building object, then determining a plurality of matching positions corresponding to the building object according to the model matching attribute directions of the building object, carrying out data characteristic identification on the building object according to each matching position to obtain a corresponding model matching attribute, and determining the model attribute node of the safety detection configuration magnitude according to at least one safety detection unit of the loaded model node data of the safety detection configuration magnitude included in each model matching attribute.

For example, in a possible example, in the process of determining the preset configuration attribute information of the building object, the present embodiment may perform a itemization process on the building object to obtain a plurality of specification configuration item information based on a plurality of pieces of building specification configuration data information formed by specification configuration nodes of the building object stored in the security inspection platform 100 corresponding to the building object and currently used nodes of the building object, acquire the pre-specification update information and the post-specification update information of each specification configuration item information, and then establish a specification update behavior set of the specification update record corresponding to the building object according to the pre-specification update information and the post-specification update information of each specification configuration item information.

Next, a plurality of specification update units corresponding to the specification update records corresponding to the building object may be acquired, and a target specification update unit in the plurality of specification update units may be counted, where a specification update character feature exists in the target specification update unit.

Therefore, whether the associated specification updating objects exist between two adjacent target specification updating units can be judged, if yes, the number of the associated specification updating objects is counted, and when the number does not exceed a set numerical value, the specification updating behavior set is implanted into the specification configuration data information of each building, when the specification updating behavior set implanted into the specification configuration data information of each building is updated, the updated specification updating behavior set is obtained, and the specification updating operation characteristics and the specification configuration item information deviation information corresponding to each obtained updated specification updating behavior set are counted.

And then, determining the specification updating weight of each updated specification updating behavior set according to the specification updating operation characteristic and the specification configuration item information deviation information corresponding to each updated specification updating behavior set, correcting the updated specification updating behavior set obtained in real time according to the specification updating weight to obtain a building object block specification updating sequence, extracting safety index data in each building specification configuration information according to the list characteristic in the building object block specification updating sequence, and determining preset configuration attribute information of the building object according to the extracted safety index data.

In a possible example, for example, in the process of performing data feature recognition on the building object according to each matching position to obtain the corresponding model matching attribute, the embodiment may obtain the current operating feature of the building object and locate the first matching feature corresponding to each matching position from the current operating feature, and then determine whether the first matching feature corresponding to each matching position in the current operating feature has a matching feature value with respect to the second matching feature in the current operating feature. Wherein the second matching feature is a feature other than the first matching feature in the current operating feature.

If the first matching feature corresponding to each matching position in the current running features has a matched feature value relative to the second matching feature in the current running features, the first matching feature corresponding to each matching position located in the current running features can be determined as an effective matching feature of the current running features, otherwise, the first matching feature corresponding to each matching position located in the current running features and the second matching feature in the current running features are subjected to weighted summation, and the weighted summation result is determined as the effective matching feature of the current running features.

On this basis, for each matching position, a first thread node in a cloud computing control of the security detection platform 100 is extracted from the matching position, partial features in effective matching features of current operating features are fused with the first thread node to obtain a second thread node, and then the first thread node and the second thread node are respectively operated in a mirror thread corresponding to the cloud computing control to obtain first cloud computing information and second cloud computing information which respectively correspond to each other.

Therefore, whether the similarity of the first cloud computing information and the second cloud computing information reaches a preset threshold value or not can be judged, when the similarity of the first cloud computing information and the second cloud computing information reaches the preset threshold value, the matching position is started to operate the second thread node to obtain third cloud computing information corresponding to the second thread node, feature classification information in the third cloud computing information is extracted, model matching attributes corresponding to the matching position are obtained according to the feature classification information, and when the similarity of the first cloud computing information and the second cloud computing information does not reach the preset threshold value, the step of fusing partial features in effective matching features of current operating features and the first thread node to obtain the second thread node is returned.

It should be noted that, on the basis of the above, for example, the inventor of the present application further considers that each second target building quality global detection network may have different security detection methods, in order to avoid the excessive screening experience brought to the building object by the complicated security detection, the embodiment may further obtain the second building security detection result obtained by performing the security detection on the building object by each second target building quality global detection network according to the security attribute influence factor, and then obtain the security detection index factor characteristic of the security detection index factor corresponding to each second building security detection result according to the security detection configuration item of each second building security detection result, so as to screen the range according to the preset security detection index factor of the building object and the security detection index factor characteristic of the security detection index factor corresponding to the second building security detection result, and obtaining a safety detection screening result.

It should be noted that the safety detection screening result may include a plurality of index factor feature sets corresponding to the safety detection index factor features within the feature screening range of the preset safety detection index factor.

Then, screening feature configuration information of any one first screening feature configuration of different index factor features contained in the security detection screening result can be acquired, screening feature configuration attributes of the first screening feature configuration are determined according to the screening feature configuration information of the first screening feature configuration, a target building operation environment corresponding to the first screening feature configuration is determined based on a screening feature configuration scene in the screening feature configuration information of the first screening feature configuration, meanwhile, security detection service information matched with the screening feature configuration attributes of the first screening feature configuration is determined, and security detection services matched with the security detection service information are selected, so that security marks of a plurality of security detection services with the security detection service information in the target building operation environment can be obtained according to the screening feature configuration attributes of the first screening feature configuration, and selecting a target security detection service matched with the first screening feature configuration from the plurality of security detection services with the security detection service information, wherein the target security detection service is also required to be matched with a second screening feature configuration associated with the first screening feature configuration.

Then, the security mark information of the first screening feature configuration included in the screening feature configuration information of the first screening feature configuration may be acquired, and the security mark information of the second screening feature configuration included in the screening feature configuration information of the second screening feature configuration may be acquired, so that a corresponding third building security detection result may be generated according to the security mark information of the first screening feature configuration and the security mark information of the second screening feature configuration.

The third building safety detection result obtained by integrating and screening based on the design can avoid excessive screening experience brought to building objects by too complicated safety detection.

Further, fig. 3 is a schematic structural diagram of a security inspection platform 100 for performing the above-mentioned building quality global inspection method according to an embodiment of the present application. As shown in FIG. 3, the security detection platform 100 may include a network interface 110, a machine-readable storage medium 120, a processor 130, and a bus 140. The processor 130 may be one or more, and one processor 130 is taken as an example in fig. 3. The network interface 110, the machine-readable storage medium 120, and the processor 130 may be connected by a bus 140 or otherwise, as exemplified by the connection by the bus 140 in fig. 3.

The machine-readable storage medium 120 is a computer-readable storage medium, and can be used to store software programs, computer-executable programs, and modules, such as program instructions/modules corresponding to the building quality global detection method in the embodiment of the present application. The processor 130 executes various functional applications and data processing of the terminal device by detecting software programs, instructions and modules stored in the machine-readable storage medium 120, that is, the above-mentioned building quality global detection method is implemented, and details are not described herein.

The machine-readable storage medium 120 may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created according to the use of the terminal, and the like.

The processor 130 may be an integrated circuit chip having signal processing capabilities. In implementation, the steps of the above method embodiments may be performed by integrated logic circuits of hardware or instructions in the form of software in the processor 130.

The security detection platform 100 may interact with other devices (e.g., the monitoring sensing node 200) via the network interface 110. Network interface 110 may be a circuit, bus, transceiver, or any other device that may be used to exchange information. Processor 130 may send and receive information using network interface 110.

In the above embodiments, the implementation may be wholly or partially implemented by software, hardware, firmware, or any pair thereof. When implemented in software, may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. When loaded and executed on a computer, cause the processes or functions described in accordance with the embodiments of the application to occur, in whole or in part. The computer may be a general purpose computer, a special purpose computer, a network of computers, or other programmable device.

Embodiments of the present application are described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

It will be apparent to those skilled in the art that various changes and modifications may be made in the embodiments of the present application without departing from the spirit and scope of the application. Thus, to the extent that such expressions and modifications of the embodiments of the application fall within the scope of the claims and their equivalents, the application is intended to embrace such alterations and modifications.

Claims (6)

1. A building quality global detection method is applied to a safety detection platform which is in communication connection with a plurality of monitoring sensing nodes, and comprises the following steps:

building sensing detection information of each building engineering group of each monitoring sensing node is obtained, a safety operation and maintenance object set for performing safety operation and maintenance on each building engineering group within a preset duration is determined according to a target building safety detection result corresponding to the building sensing detection information, and functional operation and maintenance information for performing safety operation and maintenance on each safety operation and maintenance object set is determined;

for any building project group, determining a target safe operation and maintenance object sequence included in a safe operation and maintenance object set for carrying out safe operation and maintenance on the building project group within the preset duration according to the function operation and maintenance information of the safe operation and maintenance object set with the highest priority; the objects of each target safe operation and maintenance object sequence are safe operation and maintenance object sets for the building engineering group to perform safe operation and maintenance within the preset duration, the service sets of the objects in each target safe operation and maintenance object sequence are equal to the functional operation and maintenance information of the safe operation and maintenance object set with the highest priority, and the same safe operation and maintenance object sets for performing safe operation and maintenance on different functional operation and maintenance information of the same building engineering group belong to different objects;

judging whether a first target building engineering group and a second target building engineering group comprising the same target safety operation and maintenance object sequence exist or not, if so, judging whether the operation and maintenance object differences of the safe operation and maintenance object sets corresponding to the same object in the same target safe operation and maintenance object sequence are both smaller than or equal to a preset difference range or not when the first target building engineering group and the second target building engineering group perform safe operation and maintenance, if the operation and maintenance object differences of the safe operation and maintenance object sets corresponding to the same object in the same target safe operation and maintenance object sequence are both smaller than or equal to the preset difference range, determining that the first target group of construction projects and the second target group of construction projects form an integral group of construction projects.

2. The building quality global detection method according to claim 1, wherein after the step of determining, according to the target building safety detection result corresponding to the building sensing detection information, a safety operation and maintenance object set for performing safety operation and maintenance in a preset duration for each building engineering group, and the function operation and maintenance information for performing safety operation and maintenance for each safety operation and maintenance object set, the method further comprises:

determining the building engineering group of the functional operation and maintenance information of the safe operation and maintenance object set with the highest priority for the times of operating the safe operation and maintenance object set within the preset duration as a target building engineering group;

the step of determining a target safety operation and maintenance object sequence included in a safety operation and maintenance object set for safety operation and maintenance of any building engineering group within the preset duration according to the function operation and maintenance information of the safety operation and maintenance object set with the highest priority comprises the following steps:

and for any target building engineering group, determining a target safety operation and maintenance object sequence included in the safety operation and maintenance object set for carrying out safety operation and maintenance on the target building engineering group within the preset duration according to the function operation and maintenance information of the safety operation and maintenance object set with the highest priority.

3. The building quality global detection method according to claim 1, wherein the step of determining whether there are a first target building engineering group and a second target building engineering group including the same target safety operation and maintenance object sequence comprises:

sequencing the objects included in the target safety operation and maintenance object sequence of each building engineering group according to the function operation and maintenance information sequence of the operation safety operation and maintenance object set;

and if the objects in the target safety operation and maintenance object sequences of different building engineering groups are the same and the sequence of each object is consistent, determining that a first target building engineering group and a second target building engineering group which comprise the same target safety operation and maintenance object sequence exist.

4. The building quality global detection method according to claim 3, wherein the step of determining whether the operation and maintenance object differences of the operation and maintenance object sets corresponding to the same object in the same target safe operation and maintenance object sequence are both less than or equal to a preset difference range includes:

sequentially judging whether the operation and maintenance object difference of the safe operation and maintenance object set corresponding to each same object in the safe operation and maintenance object sequence of the first target building engineering group and the second target building engineering group is less than or equal to a preset difference range according to the function operation and maintenance information sequence of the operation and maintenance safe operation and maintenance object set;

if the operation and maintenance object differences of the safe operation and maintenance object sets corresponding to the same objects in the same target safe operation and maintenance object sequence of the safe operation and maintenance performed by the first target building engineering group and the second target building engineering group are smaller than or equal to a preset difference range, determining that the operation and maintenance object differences of the safe operation and maintenance object sets corresponding to the same objects in the same target safe operation and maintenance object sequence of the first target building engineering group and the second target building engineering group are smaller than or equal to a preset difference range.

5. The building quality global detection method according to claim 1, further comprising:

if the first target building engineering group and the second target building engineering group which comprise the same target safety operation and maintenance object sequence do not exist, determining that an integral building engineering group does not exist; and/or

And if the operation and maintenance object difference of the safety operation and maintenance object set corresponding to at least one same object in the same target safety operation and maintenance object sequence is larger than a preset difference range during the safety operation and maintenance of the first target building engineering group and the second target building engineering group, determining that the first target building engineering group and the second target building engineering group do not form an integral building engineering group.

6. The building quality global detection system is characterized by comprising a safety detection platform and a plurality of monitoring sensing nodes in communication connection with the safety detection platform;

the security detection platform is used for:

building sensing detection information of each building engineering group of each monitoring sensing node is obtained, a safety operation and maintenance object set for performing safety operation and maintenance on each building engineering group within a preset duration is determined according to a target building safety detection result corresponding to the building sensing detection information, and functional operation and maintenance information for performing safety operation and maintenance on each safety operation and maintenance object set is determined;

for any building project group, determining a target safe operation and maintenance object sequence included in a safe operation and maintenance object set for carrying out safe operation and maintenance on the building project group within the preset duration according to the function operation and maintenance information of the safe operation and maintenance object set with the highest priority; the objects of each target safe operation and maintenance object sequence are safe operation and maintenance object sets for the building engineering group to perform safe operation and maintenance within the preset duration, the service sets of the objects in each target safe operation and maintenance object sequence are equal to the functional operation and maintenance information of the safe operation and maintenance object set with the highest priority, and the same safe operation and maintenance object sets for performing safe operation and maintenance on different functional operation and maintenance information of the same building engineering group belong to different objects;

judging whether a first target building engineering group and a second target building engineering group comprising the same target safety operation and maintenance object sequence exist or not, if so, judging whether the operation and maintenance object differences of the safe operation and maintenance object sets corresponding to the same object in the same target safe operation and maintenance object sequence are both smaller than or equal to a preset difference range or not when the first target building engineering group and the second target building engineering group perform safe operation and maintenance, if the operation and maintenance object differences of the safe operation and maintenance object sets corresponding to the same object in the same target safe operation and maintenance object sequence are both smaller than or equal to the preset difference range, determining that the first target group of construction projects and the second target group of construction projects form an integral group of construction projects.

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