CN118037512A - Fire-fighting system policy reconstruction method and device, electronic equipment and storage medium - Google Patents

Abstract

The invention discloses a fire-fighting system policy reconstruction method, a device, electronic equipment and a storage medium, which comprise the steps of obtaining equipment access request information, and receiving newly added fire-fighting equipment information according to the equipment access request information; performing equipment classification on the newly added fire fighting equipment information to obtain a first equipment classification result; traversing the original fire-fighting equipment information, and extracting a second equipment classification result; acquiring fire control environment information, and calculating and correlating the correlation degree between the first equipment classification result and the second equipment classification result according to the fire control environment information and a preset linkage interval to obtain an equipment correlation result; and generating a new fire control strategy based on the equipment association result and a preset linkage rule, and updating the new fire control strategy into the original fire control strategy to complete the reconstruction of the fire control system. The invention realizes the cooperative work of the newly added equipment and the equipment in the original fire-fighting system, optimizes the overall linkage of the fire-fighting system, and improves the overall fire-fighting capability of the fire-fighting system.

Description

Fire-fighting system policy reconstruction method and device, electronic equipment and storage medium

Technical Field

The invention relates to the technical field of fire protection, in particular to a fire protection system policy reconstruction method and device, electronic equipment and a storage medium.

Background

Fire-fighting work is a basic guarantee for urban development, in recent years, the total amount of fire hazards is in an annual growth trend, traditional and non-traditional fire-fighting safety factors are interwoven and interpenetrated, the risk and pressure for maintaining fire situations are continuously increased, and people put forward higher demands and requirements on social management innovation and service optimization including fire-fighting work.

In the construction of commercial facilities, office buildings, hospitals, factories and other places, the fire protection standard of the construction design needs to be referred, and in the construction, the fire protection system meeting the basic standard is installed in a matched mode. However, as the secondary construction of the site or the residence of enterprises such as chemical industry and the like, the fire-fighting system and part of fire-fighting grades of the original site can be changed, for example, a fire-fighting sensing device, a fire-fighting controller and the like are newly added, and a constructor often only associates the fire-fighting sensing device and the fire-fighting device with the newly added fire-fighting controller, so that the newly added fire-fighting device is independent of the original fire-fighting system, the integrity of the site fire-fighting system is damaged, and when a fire disaster occurs, the linkage of the fire-fighting control is cut off, so that the fire-fighting capability of the site self-equipped is weakened, and the prior art lacks a technical path for reconstructing the fire-fighting system.

Disclosure of Invention

In order to solve the problems, the technical scheme provided by the invention is as follows:

a fire protection system policy reconstruction method, comprising:

acquiring equipment access request information, and receiving newly added fire fighting equipment information according to the equipment access request information;

Performing equipment classification on the newly added fire fighting equipment information to obtain a first equipment classification result; traversing the original fire-fighting equipment information, and extracting a second equipment classification result;

Acquiring fire control environment information, calculating vector association degree between the first equipment classification result and the second equipment classification result, classifying and associating, traversing Manhattan distance results between the first equipment classification result vector and the second equipment classification result vector, acquiring fire control weight values of different fire control areas according to the fire control environment information, weighting the Manhattan distance results by adopting the fire control weight values, and acquiring equipment association results according to the weighted results and preset linkage intervals;

and generating a new fire control strategy based on the equipment association result and a preset linkage rule, and updating the new fire control strategy into the original fire control strategy to complete the reconstruction of the fire control system.

The invention is further arranged that the newly added fire fighting equipment information comprises new equipment node information, new equipment type information and new equipment position information, the new equipment position information is subjected to feature coding to obtain a first feature vector, and the first feature vector is mapped with the new equipment node information and the new equipment type information;

The original fire-fighting equipment information comprises original equipment node information, original equipment type information and original equipment position information, the original equipment position information is subjected to feature coding to obtain a second feature vector, and the second feature vector is mapped with the original equipment node information and the original equipment type information.

The invention is further arranged to divide the first feature vector into an input type first feature vector and an output type first feature vector according to the new equipment type information; dividing the second eigenvector into an input type second eigenvector and an output type second eigenvector according to the new equipment type information; and calculating the association degree of the input type first feature vector and the output type second feature vector, and calculating the association degree of the output type first feature vector and the input type second feature vector.

The invention is further arranged to cluster the input type first feature vector and the output type second feature vector and the output type first feature vector and the input type second feature vector before calculating the association degree of the input/output type first feature vector and the output/input type second feature vector.

The invention is further arranged to traverse the Manhattan distance between the input type first feature vector and the output type second feature vector pair by pair to obtain a first Manhattan distance result；

Wherein n is the dimension of the input type first feature vector and the output type second feature vector, 1 is greater than or equal to m is greater than or equal to n, x _a is the a-th input type first feature vector, and y _b is the b-th output type second feature vector;

Traversing Manhattan distance between the output type first feature vector and the input type second feature vector pair by pair to obtain a second Manhattan distance result ；

Wherein n is the dimension of the output type first feature vector and the input type second feature vector, 1 is greater than or equal to m is greater than or equal to n, x _c is the c-th output type first feature vector, and y _d is the d-th input type second feature vector;

According to the fire-fighting environment information, fire-fighting weight values W _i of different fire-fighting areas are obtained, and the first Manhattan distance result is obtained by adopting the fire-fighting weight values W _i And the second Manhattan distance result/>And respectively weighting to obtain a first association degree and a second association degree, carrying out normalization processing on the first association degree and the second association degree, judging whether a normalization processing result belongs to the preset linkage interval, if so, associating the newly added fire-fighting equipment information with the original fire-fighting equipment information, and if not, not associating the newly added fire-fighting equipment information with the original fire-fighting equipment information.

The invention is further arranged to weight the fire-fighting weight value of the fire-fighting zone if the position corresponding to the input type first feature vector and the position corresponding to the output type second feature vector are in the same fire-fighting zone, or if the position corresponding to the output type first feature vector and the position corresponding to the input type second feature vector are in the same fire-fighting zone; and if the position corresponding to the input type first feature vector and the position corresponding to the output type second feature vector are in different fire fighting zones, or if the position corresponding to the output type first feature vector and the position corresponding to the input type second feature vector are in different fire fighting zones, weighting the average value of the fire fighting weight values of the two fire fighting zones.

The invention further provides that the preset linkage rule comprises at least one of linkage illumination, linkage fire extinguishing, linkage alarm and linkage emergency power supply.

The fire-fighting system reconstruction device adopts the fire-fighting system policy reconstruction method, and comprises the following steps:

The new connection equipment acquisition unit is used for receiving the newly added fire fighting equipment information;

the new equipment classification unit is used for classifying equipment of newly added fire fighting equipment information;

The original equipment extracting unit is used for extracting the original fire-fighting equipment information classification result;

the fire control information acquisition unit is used for acquiring fire control environment information;

The equipment association unit calculates and associates the association degree between the first equipment classification result and the second equipment classification result according to the fire control environment information and the preset linkage interval to obtain an equipment association result;

The fire control strategy generation unit is used for generating a newly-added fire control strategy according to the equipment association result and a preset linkage rule;

and the fire control strategy updating unit is used for updating the newly-added fire control strategy into the fire control strategy database.

An electronic device comprising a memory and a processor, wherein the memory stores a computer program, and the processor implements the fire protection system policy reconstruction method when executing the computer program.

A computer readable storage medium having stored thereon a computer program which when executed by a processor implements the fire protection system policy reconstruction method described above.

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:

The technical scheme of the fire protection system policy reconstruction method is applied to the problems of poor overall system linkage and weakened fire protection capability caused by the reconstruction of the fire protection system of the site after the site is subjected to secondary construction or chemical industry and other special enterprises, and the classification result of the original equipment is extracted by acquiring new equipment information and classifying the new equipment, and the new equipment is associated with the original equipment according to the self fire protection environment information of the site and a preset linkage interval, so that the linkage relation between the new equipment and equipment in the original fire protection system is established, and the newly-added fire protection policy is obtained based on the preset linkage rule.

The fire control system strategy reconstruction method of the invention carries out system reconstruction after the fire control system is modified, realizes the cooperative work of newly added equipment and equipment in the original fire control system, optimizes the overall linkage of the fire control system, improves the overall fire control capability of the fire control system, and provides a solving path for carrying out fire control strategy reconstruction after the fire control system is modified.

Drawings

FIG. 1 is a flow chart of a fire protection system policy reconstruction method according to an embodiment of the present invention.

FIG. 2 is a flowchart of a method for reconstructing a fire protection system policy according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a reconstruction device of a fire protection system according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of an electronic device according to an embodiment of the invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

With reference to fig. 1 and fig. 2, the technical scheme of the invention is a fire protection system policy reconstruction method, which comprises the following steps:

S100, acquiring equipment access request information, and receiving newly added fire fighting equipment information according to the equipment access request information;

s200, carrying out equipment classification on the newly added fire fighting equipment information to obtain a first equipment classification result;

s300, traversing original fire-fighting equipment information, and extracting a second equipment classification result;

S400, acquiring fire control environment information, calculating vector association degree between the first equipment classification result and the second equipment classification result, classifying and associating, traversing Manhattan distance results between the first equipment classification result vector and the second equipment classification result vector, acquiring fire control weight values of different fire control zones according to the fire control environment information, weighting the Manhattan distance results by adopting the fire control weight values, and acquiring equipment association results according to the weighted results and preset linkage intervals;

s500, generating a new fire control strategy based on the equipment association result and a preset linkage rule, and updating the new fire control strategy into the original fire control strategy to complete fire control system reconstruction.

In this embodiment, the fire protection system policy reconstruction method is applied to the problems of poor overall system linkage and impaired fire protection capability caused by the reconstruction of the fire protection system of the site after the secondary construction of the site or the entrance of special enterprises such as chemical industry, etc., and the new fire protection policy is obtained based on preset linkage rules by acquiring new equipment information and classifying, extracting the classification result of the original equipment, and associating the new equipment with the original equipment according to the self fire protection environment information and the preset linkage interval of the site.

In this embodiment, the steps S200 and S300 specifically include:

The newly-added fire fighting equipment information includes new equipment node information, new equipment type information and new equipment location information,

S210, carrying out feature coding on the new equipment position information to obtain a first feature vector, and mapping the first feature vector with the new equipment node information and the new equipment type information;

S220, dividing the first feature vector into an input type first feature vector and an output type first feature vector according to the new equipment type information;

the original fire fighting equipment information comprises original equipment node information, original equipment type information and original equipment position information,

And S310, performing feature coding on the original equipment position information to obtain a second feature vector, and mapping the second feature vector with the original equipment node information and the original equipment type information.

S320, dividing the second feature vector into an input type second feature vector and an output type second feature vector according to the new equipment type information;

and calculating the association degree of the input type first feature vector and the output type second feature vector, and calculating the association degree of the output type first feature vector and the input type second feature vector.

In the above embodiment, the equipment node information is a specific identification code of the equipment in the fire protection system, which has uniqueness, and the equipment node information of any new equipment and the original equipment are different.

In the above embodiments, the device type information is the role of the device in the fire protection system, and is generally divided into input type devices and output type devices, wherein the input type devices are various types of sensors, such as smoke alarms, temperature alarms, combustible gas alarms and the like, and the output type devices are various fire-protection response devices, such as fire-protection spraying devices, emergency lamps, audible and visual alarm devices and the like.

In the above embodiment, the device location information is a specific installation location of the device in the field, for example, a specific location of a specific floor of a specific factory, a specific workshop of a specific floor of a specific factory, and is specifically determined according to information filling requirements when the device enters the electronic device, so that the dimension of the feature vector is determined when the device information is filled.

In this embodiment, before calculating the association degree between the input/output type first feature vector and the output/input type second feature vector, S410 is included, where the input type first feature vector and the output type second feature vector, and the output type first feature vector and the input type second feature vector are clustered.

In the above embodiment, in order to reduce the calculation amount of the linkage association degree between the newly added device and the original device, the input type first feature vector and the output type second feature vector are clustered according to the feature vector, and the output type first feature vector and the input type second feature vector are clustered, and the specific clustering rule may be determined according to the specific dimension in the feature vector and the actual situation of the site.

In this embodiment, after the clustering is completed, the method includes:

S420, traversing Manhattan distance between the input type first feature vector and the output type second feature vector pair by pair to obtain a first Manhattan distance result ; The following formula (1),

Formula (1), wherein n is the dimension of the input type first feature vector and the output type second feature vector, 1 is greater than or equal to m is greater than or equal to n, x _a is the a-th input type first feature vector, and y _b is the b-th output type second feature vector;

s430, traversing Manhattan distance between the output type first feature vector and the input type second feature vector pair by pair to obtain a second Manhattan distance result ; The following formula (2),

Formula (2), wherein n is the dimension of the output type first feature vector and the input type second feature vector, 1 is greater than or equal to m is greater than or equal to n, x _c is the c-th output type first feature vector, and y _d is the d-th input type second feature vector;

S440, according to the fire-fighting environment information, obtaining fire-fighting weight values W _i of different fire-fighting areas, and adopting the fire-fighting weight values W _i to obtain the first Manhattan distance result And the second Manhattan distance result/>Respectively weighting to obtain a first association degree and a second association degree, wherein the first association degree and the second association degree are represented by the following formula (3) and the following formula (4), and carrying out normalization processing on the first association degree and the second association degree;

Wherein,

First degree of association(3),

First degree of associationFormula (4);

s450, judging whether the normalization processing result belongs to the preset linkage interval;

s460, if the fire fighting equipment information belongs to the new fire fighting equipment information, associating the new fire fighting equipment information with the original fire fighting equipment information;

and S470, if the fire fighting equipment information does not belong to the new fire fighting equipment information, the new fire fighting equipment information and the original fire fighting equipment information are not associated.

In the above embodiment, when m is greater than 1, it is indicated that a specific dimension in the feature vector is used as a basis for clustering, and is excluded when manhattan distance calculation between feature vectors is performed.

In the above embodiment, the fire-fighting weight value W _i is set according to a specific fire-fighting requirement in the site, and the fire-fighting requirement is used as an influencing factor of the association degree between the newly added equipment and the original equipment.

In this embodiment, if the position corresponding to the input type first feature vector and the position corresponding to the output type second feature vector are in the same fire fighting zone, or if the position corresponding to the output type first feature vector and the position corresponding to the input type second feature vector are in the same fire fighting zone, weighting the fire fighting weight values of the fire fighting zones; and if the position corresponding to the input type first feature vector and the position corresponding to the output type second feature vector are in different fire fighting zones, or if the position corresponding to the output type first feature vector and the position corresponding to the input type second feature vector are in different fire fighting zones, weighting the average value of the fire fighting weight values of the two fire fighting zones.

In the above embodiment, since the fire-fighting area division may cause the newly added device to be located in two adjacent tiles with the original device, the fire-fighting weight value common to the two fire-fighting tiles needs to be considered when calculating the association result, for example, the newly added device is located in 11 th fire-fighting tile, the original device is located in 9 th fire-fighting tile, and the manhattan distance result is weighted by W _i=（W₁₁+W₉)/2.

In this embodiment, the preset linkage rule includes at least one of linkage illumination, linkage fire extinguishing, linkage alarm and linkage emergency power supply.

The fire control system strategy reconstruction method of the embodiment carries out system reconstruction after the fire control system is modified, realizes the cooperative work of newly-added equipment and equipment in the original fire control system, optimizes the overall linkage of the fire control system, improves the overall fire control capability of the fire control system, and provides a solution path for carrying out fire control strategy reconstruction after the fire control system is modified; it should be noted that the present invention focuses on the linkage between the newly added device and the device in the original fire protection system, and the linkage strategy between the newly added input device and the newly added output device is updated to the database before or synchronously with the reconstruction.

Example 2

With reference to fig. 3, the technical scheme of the invention is a fire protection system reconstruction device, and the fire protection system policy reconstruction method described in embodiment 1 is adopted, comprising:

A newly connected equipment acquisition unit 21 for receiving newly added fire fighting equipment information;

a new equipment classification unit 22 for performing equipment classification on newly added fire fighting equipment information;

An original equipment extracting unit 23, configured to extract an original fire fighting equipment information classification result;

A fire control information acquisition unit 24 for acquiring fire control environment information;

the equipment association unit 25 calculates and associates the association degree between the first equipment classification result and the second equipment classification result according to the fire control environment information and the preset linkage interval to obtain an equipment association result;

The fire control strategy generating unit 26 generates a new fire control strategy according to the equipment association result and a preset linkage rule;

The fire control strategy updating unit 27 updates the newly added fire control strategy to the fire control strategy database.

In other embodiments, the units may also be divided according to their specific functions, e.g. the fire strategy generation unit 26 and the fire strategy update unit 27 may be done in the same unit.

Example 3

Referring to fig. 4, the technical scheme of the present invention is an electronic device, which includes a memory 32 and a processor 31, wherein the memory 32 stores a computer program, the memory 32 and the processor 31 are connected in communication through a bus 33, the bus 33 is connected with a communication interface 34, the communication interface 34 is connected with an external fire-fighting device, and the processor 31 implements the fire-fighting system policy reconstruction method described in embodiment 1 when executing the computer program.

In this embodiment, the electronic device may be a fire control cabinet.

Example 4

The technical solution of the present invention is a computer readable storage medium, on which a computer program is stored, which when executed by a processor implements the fire protection system policy reconstruction method described in embodiment 1.

In the description, each embodiment is described in a progressive manner, and each embodiment is mainly described by the differences from other embodiments, so that the same similar parts among the embodiments are mutually referred.

It should also be noted that in this specification, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1.A fire protection system policy reconstruction method, comprising:

acquiring equipment access request information, and receiving newly added fire fighting equipment information according to the equipment access request information;

Performing equipment classification on the newly added fire fighting equipment information to obtain a first equipment classification result; traversing the original fire-fighting equipment information, and extracting a second equipment classification result;

Acquiring fire control environment information, calculating vector association degree between the first equipment classification result and the second equipment classification result, classifying and associating, traversing Manhattan distance results between the first equipment classification result vector and the second equipment classification result vector, acquiring fire control weight values of different fire control areas according to the fire control environment information, weighting the Manhattan distance results by adopting the fire control weight values, and acquiring equipment association results according to the weighted results and preset linkage intervals;

and generating a new fire control strategy based on the equipment association result and a preset linkage rule, and updating the new fire control strategy into the original fire control strategy to complete the reconstruction of the fire control system.

2. The fire protection system policy reconstruction method according to claim 1, wherein the newly added fire protection equipment information comprises new equipment node information, new equipment type information and new equipment position information, wherein the new equipment position information is subjected to feature coding to obtain a first feature vector, and the first feature vector is mapped with the new equipment node information and the new equipment type information;

The original fire-fighting equipment information comprises original equipment node information, original equipment type information and original equipment position information, the original equipment position information is subjected to feature coding to obtain a second feature vector, and the second feature vector is mapped with the original equipment node information and the original equipment type information.

3. The fire protection system policy reconstruction method according to claim 2, wherein the first feature vector is divided into an input type first feature vector and an output type first feature vector according to the new equipment type information; dividing the second eigenvector into an input type second eigenvector and an output type second eigenvector according to the new equipment type information; and calculating the association degree of the input type first feature vector and the output type second feature vector, and calculating the association degree of the output type first feature vector and the input type second feature vector.

4. A fire protection system policy reconstruction method according to claim 3, wherein the input type first feature vector and the output type second feature vector and the output type first feature vector and the input type second feature vector are clustered before calculating the degree of association of the input/output type first feature vector and the output/input type second feature vector.

5. The fire protection system policy reconstruction method according to claim 4, wherein the manhattan distance between the input type first feature vector and the output type second feature vector is traversed pair by pair to obtain a first manhattan distance result; The following formula (1)/(Formula (1), wherein n is the dimension of the input type first feature vector and the output type second feature vector, 1 is greater than or equal to m is greater than or equal to n, x _a is the a-th input type first feature vector, and y _b is the b-th output type second feature vector;

Traversing Manhattan distance between the output type first feature vector and the input type second feature vector pair by pair to obtain a second Manhattan distance result ; The following formula (2)/(Formula (2), wherein n is the dimension of the output type first feature vector and the input type second feature vector, 1 is greater than or equal to m is greater than or equal to n, x _c is the c-th output type first feature vector, and y _d is the d-th input type second feature vector;

According to the fire-fighting environment information, fire-fighting weight values W _i of different fire-fighting areas are obtained, and the first Manhattan distance result is obtained by adopting the fire-fighting weight values W _i And the second Manhattan distance result/>And respectively weighting to obtain a first association degree and a second association degree, carrying out normalization processing on the first association degree and the second association degree, judging whether a normalization processing result belongs to the preset linkage interval, if so, associating the newly added fire-fighting equipment information with the original fire-fighting equipment information, and if not, not associating the newly added fire-fighting equipment information with the original fire-fighting equipment information.

6. The fire protection system policy reconstruction method according to claim 5, wherein if the position corresponding to the input type first feature vector and the position corresponding to the output type second feature vector are located in the same fire fighting zone, or if the position corresponding to the output type first feature vector and the position corresponding to the input type second feature vector are located in the same fire fighting zone, weighting the fire protection weight values of the fire fighting zones; and if the position corresponding to the input type first feature vector and the position corresponding to the output type second feature vector are in different fire fighting zones, or if the position corresponding to the output type first feature vector and the position corresponding to the input type second feature vector are in different fire fighting zones, weighting the average value of the fire fighting weight values of the two fire fighting zones.

7. The fire protection system policy reconstruction method according to any one of claims 1 to 6, wherein the preset linkage rules include at least one of linkage lighting, linkage fire extinguishing, linkage alarm and linkage emergency power supply.

8. A fire protection system reconstruction device, characterized in that a fire protection system policy reconstruction method according to any one of claims 1 to 7 is adopted, comprising:

The new connection equipment acquisition unit is used for receiving the newly added fire fighting equipment information;

the new equipment classification unit is used for classifying equipment of newly added fire fighting equipment information;

The original equipment extracting unit is used for extracting the original fire-fighting equipment information classification result;

the fire control information acquisition unit is used for acquiring fire control environment information;

The equipment association unit calculates and associates the association degree between the first equipment classification result and the second equipment classification result according to the fire control environment information and the preset linkage interval to obtain an equipment association result;

The fire control strategy generation unit is used for generating a newly-added fire control strategy according to the equipment association result and a preset linkage rule;

and the fire control strategy updating unit is used for updating the newly-added fire control strategy into the fire control strategy database.

9. An electronic device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor implements the fire protection system policy reconstruction method of any one of claims 1 to 7 when executing the computer program.

10. A computer readable storage medium having stored thereon a computer program, characterized in that the computer program, when executed by a processor, implements the fire protection system policy reconstruction method of any one of claims 1 to 7.