CN117676982A

CN117676982A - Emergency lamp control method and system

Info

Publication number: CN117676982A
Application number: CN202311685341.2A
Authority: CN
Inventors: 米里尼·托德; 丹尼尔·里斯; 方立志; 尹春成
Original assignee: Dongguan Evolt Electronics Co ltd
Current assignee: Dongguan Evolt Electronics Co ltd
Priority date: 2023-12-11
Filing date: 2023-12-11
Publication date: 2024-03-08
Anticipated expiration: 2043-12-11
Also published as: CN117676982B

Abstract

The invention discloses a control method and a system of an emergency lamp, which belong to the technical field of emergency lamps and comprise the following steps: s1: the emergency environment characterization information of the position of the emergency lamp is obtained in real time, and the emergency environment characterization information is searched, grouped, ordered and feature extracted to determine the emergency environment feature data; s2: based on the emergency environment standard data, comprehensively analyzing the emergency environment characteristic data to determine an emergency environment comprehensive analysis result; s3: and the emergency lamp is intelligently controlled based on the intelligent emergency lamp control method. The invention solves the problems that the prior emergency lamp cannot be used well and the using effect of the emergency lamp is reduced, can intelligently control the emergency lamp after the normal illumination power supply is cut off, and intelligently adjust the illumination brightness of the emergency lamp, so that the emergency lamp can adapt to different emergency environments while saving energy, the emergency lamp can be used well, and the using effect of the emergency lamp is improved.

Description

Emergency lamp control method and system

Technical Field

The invention relates to the technical field of emergency lamps, in particular to a control method and a control system of an emergency lamp.

Background

The emergency lamp, namely a lamp for emergency lighting, and the fire emergency lighting system mainly comprises accident emergency lighting, an emergency exit sign and an indicator lamp, and is arranged for guiding trapped people to evacuate or spread fire-extinguishing rescue actions after a normal lighting power supply is cut off when a fire disaster occurs.

The Chinese patent with publication number CN103857093A discloses an emergency lamp circuit for charging mobile phones, and a mobile phone charging management module is added to an electricity-induced lighting circuit, so that the emergency lamp can solve the problem of large-area power failure caused by natural disasters to affect communication of people on the basis of solving emergency lighting. However, the emergency lamp of the above patent has the following drawbacks when in use:

the existing emergency lamp is started to be used after the normal illumination power supply is cut off, and under the condition of sufficient illumination, for example, in sunny days, the mode that the normal illumination power supply is cut off and the emergency lamp is started is undoubtedly waste of energy, so that the emergency lamp cannot be used well, and the using effect of the emergency lamp is reduced.

Disclosure of Invention

The invention aims to provide a control method and a system for an emergency lamp, which can intelligently control the emergency lamp and intelligently adjust the illumination brightness of the emergency lamp, so that the emergency lamp can adapt to different emergency environments while saving energy, the emergency lamp can be better used, the use effect of the emergency lamp is improved, and the problems in the background technology are solved.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a control method of an emergency lamp, comprising the steps of:

s1: the method comprises the steps that emergency environment characterization information of the position of an emergency lamp is obtained in real time based on a high-definition camera and various sensors arranged at the position of the emergency lamp, and the emergency environment characterization information is searched, grouped, ordered and feature extracted to determine emergency environment feature data;

s2: indexing and calling out stored preset emergency environment standard data based on the emergency environment characteristic data, and comprehensively analyzing the emergency environment characteristic data based on the emergency environment standard data to determine an emergency environment comprehensive analysis result;

s3: and carrying out deep mining analysis on the comprehensive analysis result of the emergency environment based on the data mining technology, determining an intelligent control method of the emergency lamp, and carrying out intelligent control on the emergency lamp based on the intelligent control method of the emergency lamp.

Preferably, in the step S2, based on the emergency environment standard data, the emergency environment feature data is comprehensively analyzed, and the following operations are executed:

acquiring emergency environment characteristic data;

indexing preset emergency environment standard data based on the emergency environment characteristic data;

The indexed emergency environment standard data is called out;

based on the emergency environment standard data, comprehensively analyzing the emergency environment characteristic data to determine an emergency environment comprehensive analysis result;

aiming at the situation that the emergency environment characteristic data is matched with the emergency environment standard data, the determined emergency environment comprehensive analysis result is that the emergency lamp needs to be started, and the emergency lamp is correspondingly and intelligently controlled;

aiming at the situation that the emergency environment characteristic data is not matched with the emergency environment standard data, the determined comprehensive analysis result of the emergency environment is that the emergency lamp does not need to be started.

Preferably, in the step S3, based on the data mining technology, the depth mining analysis is performed on the comprehensive analysis result of the emergency environment, and the following operations are performed:

acquiring an emergency environment comprehensive analysis result;

based on a data mining technology, carrying out deep mining analysis on comprehensive analysis results of the emergency environment, and determining an intelligent control method of the emergency lamp;

the emergency lamp is intelligently controlled based on an intelligent emergency lamp control method;

aiming at the condition that the emergency lamp needs to be started, the determined intelligent control method of the emergency lamp is to intelligently adjust the illumination brightness of the emergency lamp according to the emergency environment of the position of the emergency lamp, so that the emergency lamp can adapt to different emergency environments while saving energy;

Aiming at the condition that the emergency lamp does not need to be started, the determined intelligent control method of the emergency lamp is to continue to intelligently control the emergency lamp.

Preferably, in S3, based on a data mining technology, deep mining is performed on a comprehensive analysis result of an emergency environment, and an intelligent control method of an emergency lamp is determined, including:

reading the comprehensive analysis result of the emergency environment, and determining the environment information of the current emergency lamp;

acquiring information keywords of environment information of the current emergency lamp, and calling a preset information coding rule to code the information keywords to acquire information codes of the information keywords;

inputting the information codes of the information keywords into a preset information base for data mining, and calling a target data set consistent with the information codes based on the data mining result;

determining a reference data type of the target data set based on the information code, and constructing a first data cleaning strategy according to the reference data type of the target data set;

performing first cleaning on the target data set based on a first data cleaning strategy to obtain a first cleaning target data set;

classifying the first cleaning target data set based on the reference data type to obtain a plurality of sub first cleaning target data sets, and simultaneously calling a second data cleaning strategy consistent with the reference data type from a preset data cleaning strategy library;

Performing second cleaning on the corresponding sub first cleaning target data set based on a second data cleaning strategy to obtain a sub second cleaning target data set;

synthesizing the plurality of sub second cleaning target data sets to obtain a second cleaning target data set;

reading the second cleaning target data set, and determining an emergency lamp control method corresponding to the second cleaning target data set;

simulating an emergency comprehensive environment analysis result in a computer, regulating and controlling an emergency lamp corresponding to the simulation result based on an emergency lamp control method, and obtaining emergency lamp regulation and control parameters;

retrieving a reference emergency lamp regulation and control parameter, matching the emergency lamp empty regulation and control parameter with the reference emergency lamp regulation and control parameter, and judging whether the emergency lamp control method is qualified or not;

when the emergency lamp regulation and control parameters are matched with the reference emergency lamp regulation and control parameters, judging that the emergency lamp control method is qualified;

otherwise, judging that the emergency lamp control method is not qualified, and adaptively adjusting the emergency lamp control method based on the reference emergency lamp regulation and control parameters until the emergency lamp control method is qualified.

Preferably, in S3, the intelligent control of the emergency lamp comprises

Reading an intelligent control method of the emergency lamp, determining a control step of intelligent control of the emergency lamp, and simultaneously recording the response time of the emergency lamp when the intelligent control is performed on the emergency lamp based on the control step in real time;

Calculating the comprehensive response rate of the emergency lamp based on the control step according to the response time of the emergency lamp;

wherein v represents the integrated response rate; n represents the total number of control steps; i represents the sequence number value of the control step; x is x _i Representing the response data amount of the emergency lamp in the ith control step; t is t _i Indicating the response time of the emergency lamp in the ith control step; τ represents the reaction time of the internal program of the emergency lamp; sigma represents an error factor, and the value range is (0.001,0.003);

calculating the comprehensive efficiency of intelligent control of the emergency lamp based on the intelligent control method of the emergency lamp based on the comprehensive response rate;

wherein η represents the comprehensive efficiency of intelligent control of the emergency lamp; v _Datum Represents a baseline response rate, and v.gtoreq.v _Datum ；ξ ₁ The influence weight of the comprehensive response rate of the emergency lamp on the comprehensive efficiency is represented; n is n _right Indicating the correct number of control steps of the emergency lamp response in the control steps, and n _right ≤n；ξ ₂ The weight of the influence of the execution accuracy of the emergency lamp on the comprehensive efficiency is expressed, and the execution accuracy is

Acquiring preset target control efficiency, comparing the comprehensive efficiency of intelligent control of the emergency lamp with the preset target control efficiency, and judging whether to archive the intelligent control method of the emergency lamp;

When the comprehensive efficiency of intelligent control of the emergency lamp is equal to or greater than the preset target control efficiency, the intelligent control method of the emergency lamp is judged to be archived;

otherwise, judging that the intelligent control method of the emergency lamp is not archived.

According to another aspect of the present invention, there is provided a control system for an emergency lamp, for implementing a control method for an emergency lamp as described above, including:

the emergency acquisition module is used for acquiring the emergency environment representation information of the position of the emergency lamp in real time;

the method comprises the steps that emergency environment representation information of the position of an emergency lamp is obtained in real time based on a high-definition camera and various sensors arranged at the position of the emergency lamp;

the information processing module is used for preprocessing the real-time acquired emergency environment characterization information;

the method comprises the steps of acquiring emergency environment characterization information acquired in real time, and carrying out retrieval, grouping, sequencing and feature extraction on the emergency environment characterization information to determine emergency environment feature data;

the comprehensive analysis module is used for comprehensively analyzing the emergency environment characteristic data;

the method comprises the steps of acquiring emergency environment characteristic data, indexing and calling out stored preset emergency environment standard data based on the emergency environment characteristic data, comprehensively analyzing the emergency environment characteristic data based on the emergency environment standard data, and determining an emergency environment comprehensive analysis result;

The intelligent control module is used for intelligently controlling the emergency lamp;

the method comprises the steps of obtaining an emergency environment comprehensive analysis result, carrying out deep mining analysis on the emergency environment comprehensive analysis result based on a data mining technology, determining an emergency lamp intelligent control method, and carrying out intelligent control on the emergency lamp based on the emergency lamp intelligent control method.

Preferably, the emergency acquisition module comprises:

the high-definition camera is used for collecting the emergency environment image information of the position of the emergency lamp in real time;

the high-definition camera is arranged on the emergency lamp, and emergency environment image information of the position of the emergency lamp is obtained in real time based on the high-definition camera;

the infrared sensor is used for collecting the character information of the emergency environment at the position of the emergency lamp in real time;

the infrared sensor is arranged at the emergency lamp, and emergency environment character information of the position of the emergency lamp is acquired in real time based on the infrared sensor;

the illumination sensor is used for collecting emergency environment illumination information of the position of the emergency lamp in real time;

the illumination sensor is arranged at the emergency lamp, and emergency environment illumination information of the position of the emergency lamp is obtained in real time based on the illumination sensor;

the sound sensor is used for collecting emergency environment sound information of the position of the emergency lamp in real time;

The sound sensor is arranged at the emergency lamp, and emergency environment sound information of the position of the emergency lamp is obtained in real time based on the sound sensor;

and determining the emergency environment characterization information based on the emergency environment image information, the emergency environment character information, the emergency environment illumination information and the emergency environment sound information which are acquired in real time.

Preferably, the information processing module includes:

the information retrieval unit is used for retrieving the real-time acquired emergency environment characterization information;

the method comprises the steps of acquiring real-time acquired emergency environment characterization information, and searching the real-time acquired emergency environment characterization information one by one based on a sequential searching method; filtering out the emergency environment characterization information which is not valuable for controlling the emergency lamp, and determining the emergency environment characterization information which is valuable for controlling the emergency lamp;

the information grouping unit is used for grouping the retrieved emergency environment characterization information;

the emergency environment characterization information group is determined, and the emergency environment characterization information with the same attribute is stored in each group;

The information ordering unit is used for ordering the emergency environment characterization information in the grouped emergency environment characterization information group;

the emergency environment characterization information processing method comprises the steps of acquiring an emergency environment characterization information set, and sequencing emergency environment characterization information in the emergency environment characterization information set to determine emergency environment characterization information with a certain arrangement order;

the feature extraction unit is used for extracting features of the sequenced emergency environment characterization information;

the emergency environment characterization information with a certain arrangement order is obtained, and feature extraction is carried out on the emergency environment characterization information to determine corresponding emergency environment feature data.

Preferably, the comprehensive analysis module includes:

the data storage unit is used for storing preset emergency environment standard data;

the method comprises the steps of storing preset emergency environment standard data in a data storage unit, and providing a reference guidance basis for comprehensively analyzing the emergency environment characteristic data;

the index calling unit is used for indexing and calling out preset emergency environment standard data;

the emergency environment characteristic data are acquired, emergency environment standard data for comprehensively analyzing the emergency environment characteristic data to provide a reference guiding basis are indexed from the data storage unit based on the emergency environment characteristic data, and the indexed emergency environment standard data are called out;

The contrast analysis unit is used for comprehensively comparing and analyzing the emergency environment characteristic data;

the method comprises the steps of obtaining emergency environment characteristic data and emergency environment standard data, comprehensively analyzing the emergency environment characteristic data based on the emergency environment standard data, and determining an emergency environment comprehensive analysis result.

Preferably, the intelligent control module includes:

the mining analysis unit is used for carrying out deep mining analysis on the comprehensive analysis result of the emergency environment;

the method comprises the steps of obtaining an emergency environment comprehensive analysis result, carrying out deep mining analysis on the emergency environment comprehensive analysis result based on a data mining technology, and determining an intelligent control method of an emergency lamp;

the intelligent control unit is used for intelligently controlling the emergency lamp;

the intelligent control method of the emergency lamp is obtained, and the intelligent control of the emergency lamp is performed based on the intelligent control method of the emergency lamp.

Compared with the prior art, the invention has the beneficial effects that:

according to the control method and system for the emergency lamp, the emergency environment characterization information of the position of the emergency lamp is obtained in real time, the emergency environment characterization information is preprocessed, the emergency environment characterization data are determined, the stored preset emergency environment standard data are indexed and called out based on the emergency environment characterization data, comprehensive analysis is carried out on the emergency environment standard data, the comprehensive analysis result of the emergency environment is determined, the deep mining analysis is carried out on the comprehensive analysis result of the emergency environment based on the data mining technology, the intelligent control method for the emergency lamp is determined, the intelligent control can be carried out on the emergency lamp after the normal illumination power supply is cut off, the intelligent adjustment is carried out on the illumination brightness of the emergency lamp, the emergency lamp can adapt to different emergency environments while the emergency lamp is energy-saving, the emergency lamp can be used better, and the use effect of the emergency lamp is improved.

The method has the advantages that the environment information can be effectively mastered by reading the comprehensive analysis result of the emergency environment, the efficiency and the effectiveness of data mining in a preset information base can be guaranteed by determining information keywords and encoding the information keywords, the target data set can be accurately determined, the accuracy of the target data set can be effectively guaranteed by carrying out two times of cleaning (namely, first cleaning and second cleaning) on the target data set, the emergency comprehensive environment analysis result is simulated in a computer and the qualification of the emergency lamp control method can be effectively measured based on the emergency lamp control method corresponding to the second cleaning target data set, and accordingly the intelligent, the effectiveness and the accuracy of the emergency lamp control method are guaranteed.

Drawings

FIG. 1 is a flow chart of a method of controlling an emergency light of the present invention;

fig. 2 is a schematic block diagram of the control system of the emergency lamp according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. 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.

In order to solve the problem that the existing emergency lamp is turned on after the normal illumination power supply is cut off, and the emergency lamp is turned on under the condition of sufficient illumination, for example, in sunny days, the mode that the normal illumination power supply is cut off, namely, the emergency lamp is turned on is undoubtedly a waste of energy, so that the emergency lamp cannot be used well, and the using effect of the emergency lamp is reduced, please refer to fig. 1-2, and the embodiment provides the following technical scheme:

a control system for an emergency light, comprising:

it should be noted that, in this embodiment, the emergency acquisition module includes:

Whether have the pedestrian to pass through high definition digtal camera, infrared sensor and sound sensor real-time induction earlier, if have the pedestrian to pass through, the rethread illumination sensor real-time induction emergency light is located the emergency environment luminance of position, carries out the intelligent regulation of emergency light illumination luminance according to the emergency environment of emergency light position, makes the emergency light when energy-conserving, and the emergency light can adapt to different emergency environment.

in this embodiment, the information processing module includes:

in this embodiment, the comprehensive analysis module includes:

It should be noted that, in this embodiment, the intelligent control module includes:

In order to better demonstrate a control flow of an emergency lamp, the embodiment now provides a control method of the emergency lamp, which comprises the following steps:

In this embodiment, based on the emergency environment standard data, the emergency environment feature data is comprehensively analyzed, and the following operations are performed:

acquiring emergency environment characteristic data;

the indexed emergency environment standard data is called out;

In this embodiment, based on the data mining technology, the following operations are performed by performing deep mining analysis on the comprehensive analysis result of the emergency environment:

acquiring an emergency environment comprehensive analysis result;

Wherein, carry out the intelligent regulation of emergency light illumination luminance according to the emergency environment of emergency light position, make the emergency light when energy-conserving, the emergency light can adapt to different emergency environment, include:

acquiring emergency environment brightness of the position where the emergency lamp is located, and intelligently adjusting the illumination brightness of the emergency lamp based on the emergency environment brightness;

the emergency environment brightness of the position of the emergency lamp can be divided into a primary environment, a secondary environment and a tertiary environment, wherein the larger the number of the stages is, the more bright the emergency environment of the position of the emergency lamp is;

the illumination brightness of the emergency lamp can be divided into primary brightness, secondary brightness and tertiary brightness, wherein the larger the number of stages is, the larger the illumination brightness of the emergency lamp is, and the illumination range of the emergency lamp is about bright;

Then, when the brightness of the emergency environment aiming at the position of the emergency lamp is the primary environment, the illumination degree of the emergency lamp is intelligently adjusted to the tertiary brightness;

if the emergency environment brightness of the position where the emergency lamp is located is a secondary environment, intelligently adjusting the illumination degree of the emergency lamp to the secondary brightness;

and when the emergency environment brightness aiming at the position of the emergency lamp is three-level environment, the illumination degree of the emergency lamp is intelligently adjusted to the first-level brightness.

According to the emergency environment where the emergency lamp is located, the illumination brightness of the emergency lamp is intelligently adjusted, so that the emergency lamp can adapt to different emergency environments while saving energy.

Specifically, the emergency lamp is intelligently controlled through the control system of the emergency lamp, and the intelligent control condition of the emergency lamp is shown in table 1:

table 1: intelligent control condition of emergency lamp

Therefore, based on emergency environment standard data, comprehensive analysis is performed on the emergency environment characteristic data, an emergency environment comprehensive analysis result is determined, based on a data mining technology, deep mining analysis is performed on the emergency environment comprehensive analysis result, an intelligent control method of the emergency lamp is determined, intelligent control is performed on the emergency lamp based on the intelligent control method of the emergency lamp, after a normal illumination power supply is cut off, intelligent control can be performed on the emergency lamp, intelligent adjustment is performed on illumination brightness of the emergency lamp, and the emergency lamp can adapt to different emergency environments while saving energy.

In summary, the control method and the system for the emergency lamp acquire the emergency environment characterization information of the position of the emergency lamp in real time, preprocess the emergency environment characterization information, determine the emergency environment characterization data, index and call out the stored preset emergency environment standard data based on the emergency environment characterization data, comprehensively analyze the emergency environment characterization data based on the emergency environment standard data, determine the comprehensive analysis result of the emergency environment, and perform deep mining analysis on the comprehensive analysis result of the emergency environment based on the data mining technology, determine the intelligent control method for the emergency lamp, and intelligently control the emergency lamp based on the intelligent control method for the emergency lamp, so that after a normal illumination power supply is cut off, the intelligent control is performed on the illumination brightness of the emergency lamp, the emergency lamp can adapt to different emergency environments while saving energy, the emergency lamp can be better used, and the use effect of the emergency lamp is improved.

The embodiment also provides a control method of an emergency lamp, in S3, based on the data mining technology, deep mining is performed on the comprehensive analysis result of the emergency environment, and an intelligent control method of the emergency lamp is determined, which comprises the following steps:

In this embodiment, the environmental information of the current emergency lamp includes: emergency light brightness, external environment brightness and position information of the emergency light.

In this embodiment, the information keyword may be a data segment capable of characterizing the kind and characteristics of the environmental information, where the kind of environmental information includes the scene type of the emergency environment, the brightness of light in the scene, and the like.

In this embodiment, the preset information encoding rule is set in advance, and is used to characterize a specific manner or strategy for encoding the data.

In this embodiment, the preset information base is set in advance, and is used for storing a plurality of different types of data information.

In this embodiment, the target data set may be all data in the preset information base that matches the information codes of the information keywords.

In this embodiment, the reference data type may be a data type that characterizes a theoretical existence of the target data set, that is, only a data type that has the same information keyword type may exist, for example, may be location data or the like.

In this embodiment, the first data cleansing policy is determined according to a reference data type, and is used for cleansing target data in a target data set that does not satisfy the reference data type, that is, first cleansing, where the first cleansing target data set is all remaining target data obtained after cleansing data in the target data set that does not belong to the reference data type.

In this embodiment, the sub first cleaning target data set may be all data included in each data type obtained by classifying the first cleaning target data set according to the reference data type.

In this embodiment, the preset data request policy library is set in advance, and is used for storing data cleaning policies corresponding to different data types.

In this embodiment, the second data cleansing policy may be all data cleansing rules in the preset data cleansing policy repository consistent with the reference data type.

In this embodiment, the second cleansing may be cleansing the sub-first cleansing target data set of the corresponding data type by the second data cleansing policy, and the cleansing result is the sub-second cleansing target data set.

In this embodiment, the second cleaning target data set may be final cleaned data obtained by integrating a plurality of different sub-second cleaning target data sets.

In this embodiment, the emergency lamp control parameter may be simulated control data obtained after the emergency lamp simulated in the computer is controlled by the emergency lamp control method.

In this embodiment, the reference emergency lamp regulation parameters are set in advance, and are used to characterize standard regulation data for regulating the emergency lamp.

In this embodiment, the adaptive adjustment may be to adjust an emergency lamp adjustment parameter of the emergency lamp according to difference data between a reference emergency lamp adjustment parameter and the emergency lamp adjustment parameter, so as to correct the emergency lamp adjustment parameter, thereby realizing effective adjustment of the emergency lamp.

The working principle and the beneficial effects of the technical scheme are as follows: the method has the advantages that the environment information can be effectively mastered by reading the comprehensive analysis result of the emergency environment, the efficiency and the effectiveness of data mining in a preset information base can be guaranteed by determining information keywords and encoding the information keywords, the target data set can be accurately determined, the accuracy of the target data set can be effectively guaranteed by carrying out two times of cleaning (namely, first cleaning and second cleaning) on the target data set, the emergency comprehensive environment analysis result is simulated in a computer and the qualification of the emergency lamp control method can be effectively measured based on the emergency lamp control method corresponding to the second cleaning target data set, and accordingly the intelligent, the effectiveness and the accuracy of the emergency lamp control method are guaranteed.

The embodiment also provides a control method of the emergency lamp, in S3, based on intelligent control of the emergency lamp, including

wherein η represents the comprehensive efficiency of intelligent control of the emergency lamp; v _Datum Represents a baseline response rate, and v.gtoreq.v _Datum ；ξ ₁ Weight indicating influence of comprehensive response rate of emergency lamp on comprehensive efficiencyWeighing; n is n _right Indicating the correct number of control steps of the emergency lamp response in the control steps, and n _right ≤n；ξ ₂ The weight of the influence of the execution accuracy of the emergency lamp on the comprehensive efficiency is expressed, and the execution accuracy is

In this embodiment, the preset target control efficiency may be a reference control efficiency obtained through multiple experiments after the emergency lamp is controlled, and is a standard for measuring whether the intelligent control method of the emergency lamp can be used for archiving.

The working principle and the beneficial effects of the technical scheme are as follows: the comprehensive response rate of the emergency lamp based on the control step is accurately calculated, so that the comprehensive efficiency of intelligent control of the emergency lamp can be effectively and accurately calculated, comprehensive and objective evaluation of the intelligent control method of the emergency lamp is effectively realized, effective judgment of whether the intelligent control method of the emergency lamp is archived or not is realized, the intelligent control method of the emergency lamp reaching the preset target control efficiency is archived, and intelligent control of the emergency lamp can be realized with high efficiency.

It is noted that 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.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The control method of the emergency lamp is characterized by comprising the following steps:

2. The method according to claim 1, wherein in S2, based on the emergency environment standard data, the following operations are performed by comprehensively analyzing the emergency environment feature data:

acquiring emergency environment characteristic data;

the indexed emergency environment standard data is called out;

3. The method according to claim 2, wherein in S3, based on the data mining technique, the deep mining analysis is performed on the comprehensive analysis result of the emergency environment, and the following operations are performed:

Acquiring an emergency environment comprehensive analysis result;

4. The control method of an emergency lamp according to claim 1, wherein in S3, based on a data mining technique, deep mining is performed on a comprehensive analysis result of an emergency environment, and an intelligent control method of the emergency lamp is determined, comprising:

5. The method according to claim 1, wherein in S3, the intelligent control of the emergency lamp comprises

wherein v represents the integrated response rate; n represents the total number of control steps; i represents the sequence number value of the control step; x is x _i Representing the response data amount of the emergency lamp in the ith control step; t is t _i Indicating the response time of the emergency lamp in the ith control step; τ represents the reaction time of the internal program of the emergency lamp; sigma (sigma)Representing error factors, and the value range is 0.001,0.003;

6. A control system for an emergency lamp for implementing the control method for an emergency lamp according to claim 3, comprising:

7. The emergency light control system of claim 6, wherein the emergency acquisition module comprises:

8. The emergency light control system of claim 6, wherein the information processing module comprises:

9. The emergency light control system of claim 7, wherein the integrated analysis module comprises:

10. The emergency light control system of claim 8, wherein the intelligent control module comprises: