CN116963357B

CN116963357B - Intelligent configuration control method, system and medium for lamp

Info

Publication number: CN116963357B
Application number: CN202311210918.4A
Authority: CN
Inventors: 张志武
Original assignee: Shenzhen Okt Lighting Co ltd
Current assignee: Shenzhen Okt Lighting Co ltd
Priority date: 2023-09-20
Filing date: 2023-09-20
Publication date: 2023-12-01
Anticipated expiration: 2043-09-20
Also published as: CN116963357A

Abstract

The invention discloses an intelligent configuration control method, system and medium for lamps, which comprises the following steps: the invention solves the technical defects in the background technology, and has the following beneficial effects: according to the communication state of the lamp, the installation position of the lamp is determined, a lamp communication network is constructed, and the lamp can automatically adjust the working state based on the change of the environment; and analyzing the working parameters of the lamp in the working process of the lamp, obtaining the lamp with abnormal working state, and performing fault tracing and fault repairing on the lamp with abnormal working state. The intelligent lamp configuration system can intelligently configure the lamp, acquire the optimal mounting position of the lamp, and intelligently control the lamp, so that the lamp can change the working state based on environmental change, the working efficiency of the lamp is improved, electric energy is saved, and the economic benefit is improved.

Description

Intelligent configuration control method, system and medium for lamp

Technical Field

The invention relates to the field of intelligent control, in particular to an intelligent configuration control method, system and medium for lamps.

Background

The lamp is a tool capable of emitting light and illuminating darkness, and has a plurality of working scenes, such as at home and in factories. At the road side. The lamp can constantly emit light under various environments, so that electric power resources are wasted, the environment is influenced, the national environment protection concept is not met, and the lamp is easy to damage due to the fact that the light is continuously emitted. The current technology rapidly develops, the lamp not only simply emits light, but also can automatically analyze surrounding environment through environmental change, so that intelligent adjustment of brightness parameters of the lamp is realized, intelligent configuration control of the lamp is realized, thereby saving electric power resources, being beneficial to the environment, improving economic benefit and protecting personal safety.

Disclosure of Invention

The invention overcomes the defects of the prior art and provides an intelligent configuration control method, system and medium for a lamp.

In order to achieve the above purpose, the invention adopts the following technical scheme:

the first aspect of the invention provides an intelligent configuration control method of a lamp, comprising the following steps:

acquiring a lamp installation area, configuring a communication state of a lamp, and acquiring a final lamp point distribution scheme based on the communication state of the lamp;

installing a lamp, and constructing a lamp communication network, wherein the lamp automatically adjusts the working state according to the change of the environment under the lamp communication network;

judging the working state of the lamp according to the working parameters of the lamp based on the working parameters of the lamp, and obtaining the lamp with abnormal working state;

and respectively carrying out fault tracing on the lamp with abnormal brightness state and the lamp with abnormal temperature state, and carrying out repair treatment.

Further, in a preferred embodiment of the present invention, the obtaining a lamp installation area, configuring a communication state of a lamp, and obtaining a final lamp point distribution scheme based on the communication state of the lamp specifically includes:

constructing a three-dimensional model of a lamp using place by using a laser scanning technology, and acquiring a mounting area of a lamp based on the number of the lamps, a lamp action scene and user requirements in the three-dimensional model of the lamp using place, wherein a plurality of lamp mounting points exist in the mounting area of the lamp;

Installing lamps in an installation area of the lamps, obtaining all lamp point distribution schemes, generating a lamp point distribution scheme set, implanting communication sensors in the lamps, and configuring the communication state of the lamps according to a communication protocol;

signal transmission channels exist among different lamps, the intersection positions of the different signal transmission channels are defined as signal intersection nodes, the direction of the signal transmission channels is determined based on different lamp point distribution schemes, information initialization processing is carried out on the signal intersection nodes, and the coordinates of the signal intersection nodes are obtained based on the direction of the signal transmission channels;

acquiring signal energy consumption values at all signal intersection points of different lamp point arrangement schemes, carrying out statistical processing on the signal energy consumption values, screening out lamp point arrangement schemes with the signal energy consumption values at the signal intersection points larger than a preset value, and forming a first lamp point arrangement scheme set by the rest lamp point arrangement schemes;

a signal aggregation node exists in each communication sensor of each lamp, signals are transmitted through a signal channel and are aggregated at the signal aggregation node, node energy consumption value analysis is carried out on the signal aggregation node of each lamp point distribution scheme in the first lamp point distribution scheme, the lamp point distribution scheme with the node energy consumption value larger than a preset energy consumption value is screened out, and the rest lamp point distribution schemes form a second lamp point distribution scheme set;

And acquiring signal transmission rates of signal transmission channels in different lamp point distribution schemes in the second lamp point distribution scheme set, and selecting the lamp point distribution scheme with the highest signal transmission rate of the signal transmission channels as a final lamp point distribution scheme.

Further, in a preferred embodiment of the present invention, the installing a lamp and constructing a lamp communication network, under which the lamp automatically adjusts the working state according to the environmental change, specifically:

determining a specific installation position of the lamp according to the final lamp point distribution scheme, and installing the lamp at the specific installation position of the lamp;

acquiring a user terminal, connecting the user terminal with a signal transmission channel of a lamp, and constructing a lamp communication network, wherein the lamp communication network is connected with all lamps;

connecting the lamp communication network with a user terminal, installing a sound sensor in the lamp, recording voiceprints and audios of users in the sound sensor, and storing the voiceprints and audios into the user terminal, wherein the user terminal generates different lamp request instructions according to different voiceprints and audios of the users and combining with user requirements;

based on a lamp communication network, a user terminal sends different lamp request instructions to a communication sensor of a lamp, the communication sensor of the lamp receives the different lamp request instructions and then sends different lamp control instructions to a control port of the lamp, and the lamp control port receives the different lamp control instructions and then controls the lamp to perform corresponding work;

Installing a miniature camera in the lamp, acquiring an image in a lamp use field, performing image preprocessing and image feature extraction on the image to obtain image feature data, uploading the image feature data to a user terminal by the miniature camera, and storing character feature data of a user in the user terminal;

the user terminal extracts the character feature data in the image feature data, compares the character feature data of the user with the character feature data in the image feature data, and generates a warning instruction at the user terminal if the comparison result is inconsistent, the warning instruction is transmitted to the lamp control port, and the lamp is controlled to flash continuously until the warning instruction is cancelled;

and acquiring the action range of the lamp, and adjusting the brightness of the lamp by combining the environmental change condition around the lamp.

Further, in a preferred embodiment of the present invention, the obtaining the action range of the lamp and adjusting the brightness of the lamp in combination with the environmental change situation around the lamp specifically includes:

the working gear of the lamp comprises a lamp brightness automatic adjusting gear and a lamp brightness constant gear, and when the working gear of the lamp is the lamp brightness automatic adjusting gear, the action ranges of all the lamps are determined based on the use scene of the lamp, and the action ranges of the lamps are led into a user terminal;

When a sound sensor in the lamp receives sound in the action range of the lamp in real time, and analyzes the sound shell and the frequency value of the sound, a sound shell curve and a frequency value curve are constructed, and the sound shell curve and the frequency value curve are led into a convolutional neural network in a user terminal to be subjected to prediction processing, so that sound position prediction data are obtained;

analyzing image characteristics obtained by a miniature camera of the lamp, obtaining brightness parameters of an action range of the lamp based on the image characteristics, and adjusting the lamp to a shutdown state if the brightness parameters of the action range of the lamp are larger than a preset value;

if the brightness parameter of the action range of the lamp is smaller than a preset value, analyzing the sound position prediction data, determining the distance between the sound source and the lamp, determining the maximum action distance of the lamp based on the action range of the lamp, and if the sound source is out of the maximum action distance of the lamp, analyzing the sound shell of the sound by the lamp;

if the sound shell of the sound is smaller than the preset value, the lamp is adjusted to be in a power-off state, and the lamp is not lightened;

if the sound shell of the sound is larger than the preset value, the lamp is adjusted to a standby state, the standby brightness of the lamp is preset, and when the lamp is in the standby state, the brightness of the lamp is adjusted to be the standby brightness of the lamp;

If the sound source appears in the maximum acting distance of the lamp, analyzing character feature data in the image features, and if the image features do not contain the character feature data, regulating the lamp to a standby state;

if the image features contain character feature data, the lamp is adjusted to a normal working state, a sound shell within the maximum working distance of the lamp is obtained, the brightness adjustment threshold of the lamp is preset, and the lamp automatically adjusts the brightness based on the brightness adjustment threshold based on the sound shell.

Further, in a preferred embodiment of the present invention, the working state of the lamp is determined according to the working parameter of the lamp, and the lamp with abnormal working state is obtained, which specifically includes:

acquiring real-time working parameters of the lamp, wherein the real-time working parameters of the lamp comprise real-time brightness parameters and real-time temperature parameters of the lamp;

acquiring rated working parameters of the lamp in different working states, wherein the rated working parameters comprise rated brightness parameters and rated temperature parameters of the lamp;

setting a lamp brightness threshold based on rated brightness parameters of the lamp, and classifying the corresponding lamp as an abnormal lamp in brightness state if the real-time brightness parameters of the lamp are smaller than the lamp brightness threshold;

If the real-time brightness parameter of the lamp is larger than the brightness threshold value of the lamp, analyzing the real-time temperature parameter of the corresponding lamp, generating a real-time lamp temperature change table, setting a temperature warning value based on the rated temperature parameter, carrying out combined analysis on the temperature warning value and the real-time lamp temperature change table, and if the real-time lamp temperature is larger than the temperature warning value and the duration is larger than the preset value, classifying the corresponding lamp as an abnormal lamp in the temperature state.

Further, in a preferred embodiment of the present invention, the fault tracing and repairing processes are performed on the abnormal light fixture in the brightness state and the abnormal light fixture in the temperature state, which specifically are:

constructing a time sequence, and combining the real-time brightness parameter of the abnormal brightness state lamp with the time sequence to obtain a real-time brightness parameter based on the time sequence;

introducing a Markov chain algorithm to calculate the state transition probability of the implementation brightness parameter based on the time sequence, and obtaining the state transition probability value of the brightness state abnormal lamp;

performing fault tracing on the abnormal brightness state lamp based on the state transition probability value to obtain a fault reason of the abnormal brightness state lamp;

acquiring the surrounding environment parameters of the lamp, acquiring the related values of the surrounding environment parameters of the lamp and the abnormal lamp in the temperature state by using a gray correlation method, and regulating and controlling the surrounding environment parameters of the lamp if the related values are larger than preset values;

If the association value is smaller than the preset value, a Markov chain is also introduced to acquire the fault reason of the abnormal lamp in the temperature state;

if the failure reasons of the abnormal light fitting in the brightness state and the abnormal light fitting in the temperature state are electrical problems, checking the circuit connection problem of the abnormal light fitting in the brightness state and the abnormal light fitting in the temperature state, checking the circuit failure problem by using a universal meter, and overhauling or replacing the light fitting;

if the failure is caused by the communication state problem, the communication sensor of the lamp is replaced, and the communication state of the lamp is reconfigured.

The second aspect of the present invention also provides an intelligent configuration control system for a lamp, the intelligent configuration control system includes a memory and a processor, the memory stores an intelligent configuration control method, and when the intelligent configuration control method is executed by the processor, the following steps are implemented:

The invention solves the technical defects in the background technology, and has the following beneficial effects: according to the communication state of the lamp, the installation position of the lamp is determined, a lamp communication network is constructed, and the lamp can automatically adjust the working state based on the change of the environment; and analyzing the working parameters of the lamp in the working process of the lamp, obtaining the lamp with abnormal working state, and performing fault tracing and fault repairing on the lamp with abnormal working state. The intelligent lamp configuration system can intelligently configure the lamp, acquire the optimal mounting position of the lamp, and intelligently control the lamp, so that the lamp can change the working state based on environmental change, the working efficiency of the lamp is improved, electric energy is saved, and the economic benefit is improved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other embodiments of the drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 shows a flow chart of a method of intelligent configuration control of a luminaire;

FIG. 2 illustrates a flow chart of a method for automatically adjusting an operating state of a luminaire based on changes in the environment;

fig. 3 shows a view of an intelligent configuration control system for a luminaire.

Detailed Description

In order that the above-recited objects, features and advantages of the present application will be more clearly understood, a more particular description of the application will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, without conflict, the embodiments of the present application and features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited to the specific embodiments disclosed below.

Fig. 1 shows a flow chart of an intelligent configuration control method of a lamp, comprising the following steps:

s102: acquiring a lamp installation area, configuring a communication state of a lamp, and acquiring a final lamp point distribution scheme based on the communication state of the lamp;

s104: installing a lamp, and constructing a lamp communication network, wherein the lamp automatically adjusts the working state according to the change of the environment under the lamp communication network;

S106: judging the working state of the lamp according to the working parameters of the lamp based on the working parameters of the lamp, and obtaining the lamp with abnormal working state;

s108: and respectively carrying out fault tracing on the lamp with abnormal brightness state and the lamp with abnormal temperature state, and carrying out repair treatment.

It should be noted that the use situations of the lamp include, but are not limited to, living room, bedroom, kitchen, etc. in the home. In order to reduce the energy consumption value of the lamp in the working process and improve the service life, the optimal mounting position of the lamp needs to be obtained. There are a plurality of lamps and lanterns mounting point in the installation region of lamps and lanterns, install lamps and lanterns on different lamps and lanterns mounting point, the energy consumption value between lamps and lanterns and other lamps and lanterns can be different. The purpose of constructing a three-dimensional model of a lamp using site is to simulate and install the lamp, save time and improve efficiency. Because the lamps can communicate with each other, a signal transmission channel is arranged between the lamps and used for transmitting signals. In the signal transmission process, signal transmission channels may be intersected, and the intersected point is a signal intersected node, and the signal loss and consumption conditions exist in the signal intersected node. The larger the signal loss consumption is, the larger the signal energy consumption value is, and the signal intersection node energy consumption values of different combined lamp point distribution schemes are different. And the signal is received by the target lamp after transmission, and the signal is converged at one point during receiving, namely the signal convergence point. The signal convergence point converges various signals, and signal loss consumption conditions exist. And obtaining a lamp point distribution scheme meeting the conditions based on the energy consumption value of the signal junction and the energy consumption value of the signal convergence point. In addition, in the signal transmission process, the more the number of signal intersection nodes is, the more the number of objects such as blocking objects, interference objects and the like are encountered in the signal transmission process, and the smaller the signal transmission rate is. Therefore, the lamp point setting scheme meeting the condition with the highest signal transmission rate needs to be selected and defined as a final point setting scheme. The invention can obtain the lamp point distribution scheme with the lowest energy consumption value and the maximum signal transmission rate as the final lamp point distribution scheme by analyzing and processing the problems in the signal transmission process.

It should be noted that, after the lamp is used for a period of time, the circuit inside the lamp may have an aging problem, so that the lamp may have a short circuit and an open circuit. When the lamp has a short circuit problem, the brightness parameter of the lamp can become larger than the rated parameter, so that the temperature of the lamp is increased. Lamps with temperatures exceeding the temperature warning value are prone to circuit damage and even explosion. When the lamp has the problem of disconnection, the input voltage of the lamp is reduced, and the implementation brightness of the lamp is smaller than the rated brightness. The invention can obtain the lamp with abnormal brightness state and the lamp with abnormal temperature state by analyzing the real-time brightness and the real-time temperature of the lamp.

It should be noted that, the failure of the lamp may be caused by various reasons, which may damage the inside of the lamp, or may be related to conditions such as ambient temperature and humidity. The Markov chain algorithm can acquire the transition probability value of the fault state in the lamp, and the fault position and the fault reason in the lamp can be obtained based on the state transition probability value. The association between the abnormal temperature of the lamp and the environmental parameter can be obtained by using the gray association method, and if the association value is larger than a preset value, the environmental parameter is regulated and controlled, so that the temperature state of the lamp returns to normal. The failure problem of the luminaire is two, one is an electrical problem and the other is a communication problem. The electrical problem is that the circuit connection of the lamp can be aged, worn or short-circuited, broken and the like, and the specific fault condition of the fault position can be checked through the universal meter, and overhauling and replacing can be performed. The communication problem is that the lamp energy consumption value is higher, so that the temperature of the lamp is abnormal, the communication state of the lamp needs to be configured again, and the lamp energy consumption value is reduced. According to the invention, the fault position of the lamp can be obtained through a Markov chain algorithm, the relevance between the lamp and the environmental parameter is obtained through a gray correlation method, and the lamp is subjected to fault maintenance.

Fig. 2 shows a flow chart of a method for automatically adjusting the working state of a lamp according to the change of the environment, comprising the following steps:

s202: based on the difference of voiceprints and audios of users, controlling the lamp to execute corresponding working instructions;

s204: controlling the working state of the lamp based on the image characteristics of the lamp usage scene;

s206: and acquiring the action range of the lamp, and adjusting the brightness of the lamp by combining the environmental change condition around the lamp.

Further, in a preferred embodiment of the present invention, the controlling the lamp to execute the corresponding working instruction based on the different voiceprints and audios of the user specifically includes:

Based on the lamp communication network, the user terminal sends different lamp request instructions to the communication sensor of the lamp, the communication sensor of the lamp receives the different lamp request instructions and then sends different lamp control instructions to the control port of the lamp, and the lamp control port receives the different lamp control instructions and then controls the lamp to perform corresponding work.

It should be noted that, based on the final luminaire arrangement scheme, after luminaire installation in the installation area, the luminaires are not connected. The user terminal comprises, but is not limited to, a mobile phone, a remote control and the like, and is connected with the signal transmission channels of the lamps, and the lamps are also connected with each other through the signal channels, so that the lamps can realize corresponding effects according to instructions of the user terminal or instructions sent by other lamps. The voiceprints of different users are different, and the control instruction to the lamp is also different according to the difference of the audio frequency, and the voiceprints and the audio frequency of the users are recorded in the sound sensor of the lamp. After the lamp identifies the voice of the user, the lamp sends voice information to the user terminal based on the lamp communication network, automatically analyzes the voiceprint of the user, judges the identity of the user, and sends different lamp control instructions according to the audio information. The audio information is different, and the lamp control instructions are also different. After receiving different lamp control instructions, the control port of the lamp controls the lamp to execute different works, such as starting up and shutting down, flashing, normally-on, changing colors and the like. The invention can generate corresponding lamp control instructions by analyzing the voice of the user, and change the working effect of the lamp based on the lamp control instructions.

Further, in a preferred embodiment of the present invention, the controlling the working state of the lamp based on the image features of the usage scene of the lamp specifically includes:

and the user terminal extracts the character feature data in the image feature data, compares the character feature data of the user with the character feature data in the image feature data, and generates a warning instruction at the user terminal if the comparison result is inconsistent, wherein the warning instruction is transmitted to the lamp control port, and controls the lamp to continuously flash until the warning instruction is cancelled.

It should be noted that, in a place where the lamp is used, for example, a house, if strangers, such as thieves, occur, potential safety hazards easily occur, which causes loss of life and property. And installing a miniature camera in the lamp and shooting an image entering the house. Extracting character features in the image features, analyzing the character features, comparing the character features with the character features of the user stored in the user terminal, defining the character in the house as an unauthorized character if the character features of the house image are inconsistent with the character features stored in the user terminal, generating a warning command by the user terminal, transmitting the warning command to a control port, and controlling the lamp to continuously flash until the warning command is cancelled by the user terminal.

The brightness of the lamp may be adjusted appropriately according to the environmental changes, and the brightness of the lamp may be kept constant. When the gear of the lamp is in the automatic brightness adjustment gear of the lamp, the lamp can automatically adjust the brightness according to the change of the surrounding environment. Because the number of lamps in the use place of the lamps is large, and different lamps are installed at different positions, such as in rooms, kitchens and the like, the lamps have special action ranges. The sound sensor in the lamp acquires sound, and the convolution neural network is used for analyzing the sound shellfish and the frequency value of the sound, so that sound position prediction data can be obtained and used for judging the specific position of the sound. The miniature camera of the lamp analyzes the brightness of the action range of the lamp, and if the brightness of the action range of the lamp is enough, for example, the lamp is not required to work in daytime and the weather outside a window is clear, the lamp is automatically adjusted to be in a shutdown state; if the light is dark in the action range, for example, at night, or the light is insufficient after the curtain is pulled, the working state of the light needs to be further analyzed. And after the sound source distance is determined based on the sound position prediction data, judging whether the sound source is out of the action range of the lamp, and if so, analyzing the sound shell of the sound source. The sound shell is smaller than a preset value, and the lamp is adjusted to be in a shutdown state; if the sound shell is larger than the preset value, the situation that a person possibly enters the place where the lamp is located is judged, so that the lamp is in a standby state and emits weak lamplight. The sound source can be human sound or other objects, when the sound source appears in the action range of the lamp, the miniature camera of the lamp acquires images and extracts image features, the image features do not contain character data, the sound source in the action range of the lamp is judged to be emitted by other objects, and the lamp is regulated to be in a standby state; if the image features comprise character features, the lamp works normally, and the brightness is automatically adjusted according to the size of the sound shell. According to the invention, the environment parameters of the action range of the lamp can be analyzed through the sound sensor and the miniature camera of the lamp, so that the working state of the lamp can be regulated.

In addition, the intelligent configuration control method of the lamp further comprises the following steps:

classifying the lamps, obtaining the action ranges of all the lamps, classifying the lamps with coincident action ranges into one type, and forming a combined lamp by the lamps in the same type;

through the lamp communication network, all lamps can receive and analyze the lamp working parameters from other lamps in the combined lamp;

if the fault lamp exists in the combined lamp, acquiring the relative distances between other lamps in the combined lamp and the fault lamp, and constructing a lamp distance meter;

analyzing real-time brightness parameters of fault lamps of other lamps in the combined lamp, acquiring standard brightness parameters in the action range of the combined lamp, and intelligently regulating and controlling the brightness parameters of the other lamps in the combined lamp by combining the standard brightness parameters in the action range of the combined lamp according to the principle that the distance from the fault lamp is from near to far based on a lamp distance meter;

if the brightness parameters of other lamps in the combined lamp reach the maximum value, the brightness parameters in the action range of the combined lamp are still smaller than the standard value, the brightness parameters of the other lamps in the combined lamp are automatically adjusted to rated brightness parameters, and a fault lamp instruction is sent to the user terminal.

It should be noted that, the lamps are connected by the lamp communication network, so that the lamps can analyze the working parameters of other lamps, thereby changing the working parameters of the lamps and realizing constant brightness. There may be a plurality of lamps in the range of action of one lamp, so that lamps in the range of action are classified to obtain a combined lamp. In the same action range, if a fault lamp exists, such as darker brightness or burning-out of the lamp, the brightness in the action range of the lamp can be reduced, and potential safety hazards can possibly occur. The relative distance between the combined lamp and the fault lamp is obtained, the action range repetition rate of the lamp with the relatively short distance and the fault lamp is relatively high, and the brightness of the lamp is regulated and controlled according to the principle that the relative distance is from the near to the far, so that the brightness in the action range of the lamp is kept constant. When the other lamps reach the maximum brightness, the brightness in the action range of the lamps is still not standard, the other lamps cannot be kept at the maximum brightness, the lamps are easy to burn out, the user terminal is informed to replace the lamps, and the working parameters of the other lamps are adjusted to be rated working parameters. The invention can intelligently regulate and control the brightness parameters of other lamps in the combined lamp by analyzing the brightness parameters of the fault lamp.

the sound sensor in the lamp acquires all sounds within the action range of the lamp, and guides all sounds within the action range of the lamp into the support vector machine for sound classification to obtain voice data;

based on user voiceprints stored in a user terminal, extracting characteristics of the voice data of the human voice to obtain voice data which are matched with the user voiceprints, analyzing the voice data which are matched with the user voiceprints by a lamp to obtain an analysis result, and generating corresponding control instructions to control the lamp to work based on the analysis result;

if a plurality of sound data which are matched with the voiceprint of the user exist in all the sounds within the action range of the lamp, constructing a voiceprint priority ranking table in the user terminal based on the personal information of the user and the personal requirements of the user;

and based on the voiceprint priority ranking table, the lamp analyzes the voice data matched with the voiceprints of the user, and preferentially executes the control instruction of the voice data matched with the voiceprints of the user with the highest voiceprint priority to control the lamp to complete corresponding work.

It should be noted that, in the same environment, there may be complex sounds, and voice data in the complex sounds may be acquired using a support vector machine. If two or more persons in the voice data send out commands to the lamp, whether the voice data have voice data which are stored in the user terminal and are matched with the voice prints of the user or not needs to be judged, and if the voice data have voice data which are matched with the voice prints of the user, the executing commands sent out by the voice data which are matched with the voice prints of the user are executed preferentially. When two or more voice data which are matched with the voice print of the user exist in the voice data of the person, priority ranking is needed to be carried out on all the voice data which are matched with the voice print of the user, and ranking standards are formulated according to personal settings of the user, personal information of the user and the like. And the lamp executes corresponding commands according to the priority order of the voice data matched with the voice prints of the user.

acquiring the coordinate position of the lamp in the user terminal based on the lamp communication network and the user terminal, and acquiring meteorological parameters in the action range of the lamp according to the large data retrieval by the user terminal based on the coordinate position of the lamp;

acquiring a haze detection sensor in a lamp, wherein the haze detection sensor detects the haze concentration in the action range of the lamp, and generates specific haze concentration in the action range of the lamp by combining with meteorological parameters in the action range of the lamp, which is defined as the haze concentration around the lamp;

the haze concentration around the lamp is led into a big data network for searching, and the detectable distance of the miniature camera of the lamp under the action of different brightness parameters of the lamp on the haze concentration around the lamp is defined as the detectable distance of the camera;

when the detectable distance of the camera is smaller than the standard value, the lamp automatically adjusts the brightness parameter, so that the detectable distance of the camera is kept at the standard value;

when the brightness parameter of the lamp reaches the maximum value, the detectable distance of the camera is still smaller than the standard value, the lamp continuously flashes and changes the color, and meanwhile, the sound sensor of the lamp gives an alarm to the action range of the lamp.

It should be noted that, the lamp may be used as a street lamp outdoors, and when the lamp is in haze weather, the visibility is low, and the probability of occurrence of safety accidents is increased. In haze weather, the light emitted by the lamp is difficult to penetrate through haze, so that the brightness parameter of the lamp is regulated and controlled in real time according to the concentration of haze around the lamp and the detectable distance of the miniature camera of the lamp, and the detectable distance of the camera is kept constant. If the haze concentration is too high, after the brightness parameter of the lamp reaches the maximum, the detectable distance of the camera is still smaller than the standard value, and people around the lamp are required to be reminded of safety by flashing, color changing and alarm sending through the lamp.

As shown in fig. 3, the second aspect of the present invention further provides an intelligent configuration control system for a lamp, where the intelligent configuration control system includes a memory 31 and a processor 32, where the memory 31 stores an intelligent configuration control method, and when the intelligent configuration control method is executed by the processor 32, the following steps are implemented:

In the several embodiments provided by the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above described device embodiments are only illustrative, e.g. the division of the units is only one logical function division, and there may be other divisions in practice, such as: multiple units or components may be combined or may be integrated into another system, or some features may be omitted, or not performed. In addition, the various components shown or discussed may be coupled or directly coupled or communicatively coupled to each other via some interface, whether indirectly coupled or communicatively coupled to devices or units, whether electrically, mechanically, or otherwise.

The units described above as separate components may or may not be physically separate, and components shown as units may or may not be physical units; can be located in one place or distributed to a plurality of network units; some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in each embodiment of the present invention may be integrated in one processing unit, or each unit may be separately used as one unit, or two or more units may be integrated in one unit; the integrated units may be implemented in hardware or in hardware plus software functional units.

Those of ordinary skill in the art will appreciate that: all or part of the steps for implementing the above method embodiments may be implemented by hardware related to program instructions, and the foregoing program may be stored in a computer readable storage medium, where the program, when executed, performs steps including the above method embodiments; and the aforementioned storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk or an optical disk, or the like, which can store program codes.

Alternatively, the above-described integrated units of the present invention may be stored in a computer-readable storage medium if implemented in the form of software functional modules and sold or used as separate products. Based on such understanding, the technical solutions of the embodiments of the present invention may be embodied in essence or a part contributing to the prior art in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute all or part of the methods described in the embodiments of the present invention. And the aforementioned storage medium includes: a removable storage device, ROM, RAM, magnetic or optical disk, or other medium capable of storing program code.

The foregoing is merely illustrative embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think about variations or substitutions within the technical scope of the present invention, and the invention should be covered. Therefore, the protection scope of the invention is subject to the protection scope of the claims.

Claims

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

performing fault tracing on the abnormal brightness state lamp and the abnormal temperature state lamp respectively, and repairing the lamp;

the method comprises the steps of obtaining a lamp installation area, configuring the communication state of a lamp, and obtaining a final lamp point distribution scheme based on the communication state of the lamp, wherein the method comprises the following specific steps:

2. The intelligent configuration control method of a lamp according to claim 1, wherein the lamp is installed and a lamp communication network is constructed, and under the lamp communication network, the lamp automatically adjusts the working state according to the change of the environment, specifically:

3. The intelligent configuration control method of a lamp according to claim 2, wherein the obtaining the action range of the lamp and the environmental change around the lamp are used to adjust the brightness of the lamp, specifically:

4. The intelligent configuration control method of a lamp according to claim 1, wherein the working state of the lamp is determined according to the working parameters of the lamp, and the lamp with abnormal working state is obtained, specifically:

5. The intelligent configuration control method of a lamp according to claim 1, wherein the fault tracing and repairing processes are performed on the lamp with abnormal brightness state and the lamp with abnormal temperature state respectively, specifically:

6. The intelligent configuration control system of the lamp is characterized by comprising a memory and a processor, wherein the memory stores an intelligent configuration control method, and the intelligent configuration control method realizes the following steps when executed by the processor:

7. A computer readable storage medium, wherein the computer readable storage medium contains an intelligent configuration control method program of a lamp, and when the intelligent configuration control method program of the lamp is executed by a processor, the steps of the intelligent configuration control method of the lamp of any one of claims 1-5 are realized.