CN112770465A - Intelligent illumination control method, system, device and storage medium - Google Patents

Abstract

The application relates to an intelligent illumination control method, a system, a device and a storage medium, which relate to the technical field of intelligent illumination, wherein the method comprises the following steps: receiving an illumination request carrying an illumination signal for controlling an illumination lamp to be turned on, wherein the illumination signal is formed by detecting the passing of a human body by a human body detection device installed in a corridor; responding to an illumination signal carried by the illumination request, controlling an illumination lamp at the current position of the user to be turned on, forming a lighting signal and sending the lighting signal; traversing all the illuminating lamps and extracting the illuminating lamps adjacent to the illuminating lamps to be turned on in response to the lighting signals, and controlling the adjacent illuminating lamps to be turned on to form new lighting signals and cover the original lighting signals; responding to the new lighting signal, and continuously controlling the next group of adjacent lighting lamps to be lighted; the above steps are repeated until no lighting signal and lighting signal are obtained. This application has the effect that promotes light illumination preface.

Description

Intelligent illumination control method, system, device and storage medium

Technical Field

The present application relates to the field of intelligent lighting technologies, and in particular, to an intelligent lighting control method, system, device, and storage medium.

Background

The intelligent lighting industry enters the Chinese market from the last 90 th century, and is always in a slow development state under the influence of various aspects of market consumption consciousness, market environment, product price, popularization strength and the like. In recent years, with the rapid development of national economy, particularly the high singing and leaping of real estate industry, the domestic intelligent lighting industry develops rapidly, and various intelligent lighting products are on the market. Compared with the traditional illumination, the intelligent illumination can achieve the purposes of safety, energy conservation, comfort and high efficiency, so that the intelligent illumination has better development prospects in the fields of home furnishing, office work, business and public facilities.

The related art can refer to the Chinese invention patent with application publication number CN105627227A, which discloses a corridor lighting induction system, comprising a carpet and a lighting device, wherein the carpet and the lighting device are connected through a wire; the carpet is divided into a plurality of areas, and each area is provided with a pressure sensor; the corridor lighting induction system also comprises a power supply module, a delay switch and a control circuit; the power supply module supplies power to the pressure sensor, the lighting device and the control circuit; the control circuit is respectively electrically connected with the pressure sensor and the delay switch; the time delay switch is electrically connected with the lighting device.

In view of the above-mentioned related technologies, the inventor believes that a general illumination lamp needs a user to reach the vicinity of the illumination lamp to turn on, and in a dark environment, the user needs to wait for the illumination lamp to turn on and then can safely walk, and there is a defect that the illumination advance of the illumination lamp is weak.

Disclosure of Invention

In order to improve the predictability of illumination of the illuminating lamp, the application provides an intelligent illumination control method.

In a first aspect, the present application provides an intelligent lighting control method, which adopts the following technical scheme:

an intelligent lighting control method, comprising the steps of:

receiving an illumination request carrying an illumination signal for controlling an illumination lamp to be turned on, wherein the illumination signal is formed by detecting the passing of a human body by a human body detection device installed in a corridor;

responding to an illumination signal carried by the illumination request, controlling an illumination lamp at the current position of the user to be turned on, forming a lighting signal and sending the lighting signal;

traversing all the illuminating lamps and extracting the illuminating lamps adjacent to the illuminating lamps to be turned on in response to the lighting signals, and controlling the adjacent illuminating lamps to be turned on to form new lighting signals and cover the original lighting signals;

responding to the new lighting signal, and continuously controlling the next group of adjacent lighting lamps to be lighted; the above steps are repeated until no lighting signal and lighting signal are obtained.

Through adopting above-mentioned technical scheme, when the user walks to in the corridor, the light of user's current position lights because of receiving the illumination signal, and the adjacent light that lights the light also lights because of receiving the signal of lighting, when the light that reaches user position lights, the effect that this adjacent light that lights the light also can light in advance, enlarge the scope of light illumination, provide sufficient, timely illumination for the user walking in-process in the corridor, promote the advance of light illumination.

Optionally, traversing all the illumination lamps and extracting the illumination lamps adjacent to the illumination lamp, and controlling the adjacent illumination lamps to illuminate further includes:

scanning face information, wherein the face information comprises face orientation and face appearance ID;

and responding the face orientation in the face information, extracting the direction of the face orientation, and extracting adjacent illuminating lamps for lighting the illuminating lamps according to the direction.

Through adopting above-mentioned technical scheme, according to the face information that obtains the user scanning, the system can judge the face orientation of user when the corridor is marchd, and then according to the direction of face orientation, lights the light and realizes lighting at the adjacent light unanimous with the direction of face orientation to lighting the light, thereby reduce to light with the light of user travel direction opposite, promote the accuracy nature of illumination when saving the electric energy.

Optionally, the scanning the face information, the face information including the face orientation and the face ID, further includes:

responding to the face ID in the face information, and recording the sequence of lighting all illuminating lamps in the user traveling process according to the face ID to form the route information of the user;

responding to the route information, and linking with a controller of the illuminating lamp corresponding to the route;

and storing the route information in the face ID in the face information of the user.

By adopting the technical scheme, after recording all sequences of illuminating lamps in the first traveling process of the user, when the face ID of the user is identified, the traveling route of the user can be predicted in advance, so that the illuminating lamps on the traveling route can be controlled to be sequentially and previously illuminated according to the traveling routes of different users, and the advance illumination of the user is ensured.

Optionally, the step of responding to the face ID in the face information, and recording the sequence of lighting up all the lighting lamps in the user traveling process according to the face ID, and after the step of forming the route information of the user, further includes:

recording the traveling speed of the user according to the face ID to form speed information of the user;

responding to the speed information, calculating the interval time of sequentially lighting all the illuminating lamps in the route information according to the traveling speed, and linking the controllers of the corresponding illuminating lamps;

and storing the speed information in the face ID in the face information of the user.

By adopting the technical scheme, after the traveling speed of the user is recorded, when the face ID of the user is identified, the lighting interval of the lighting lamp on the traveling route can be controlled according to the traveling speed of the user, so that the lighting lamp can be lighted at different intervals according to the traveling speeds of different users, and the adverse effect caused by early or late lighting of the lighting lamp is reduced.

In a second aspect, the present application provides an intelligent lighting control system, which adopts the following technical solutions:

an intelligent lighting control system comprising the following modules:

the illumination request module is used for receiving an illumination request, wherein the illumination request carries an illumination signal for controlling an illumination lamp to be turned on, and the illumination signal is formed by detecting the passing of a human body by a human body detection device arranged in a corridor;

the illumination lighting module is used for responding to an illumination signal carried by the illumination request, controlling an illumination lamp at the current position of the user to be lighted, forming a lighting signal and sending the lighting signal;

the illumination linkage module is used for responding to the illumination signals, traversing all the illumination lamps, extracting the illumination lamps adjacent to the illumination lamps to be illuminated, controlling the adjacent illumination lamps to be illuminated, forming new illumination signals and covering the original illumination signals;

the continuous lighting module is used for responding to the new lighting signal and continuously controlling the next group of adjacent lighting lamps to be turned on; the above steps are repeated until no lighting signal and lighting signal are obtained.

Through adopting above-mentioned technical scheme, when the user walks to in the corridor, the light of user's current position lights because of receiving the illumination signal, and the adjacent light that lights the light also lights because of receiving the signal of lighting, when the light that reaches user position lights, the effect that this adjacent light that lights the light also can light in advance, enlarge the scope of light illumination, provide sufficient, timely illumination for the user walking in-process in the corridor, promote the advance of light illumination.

Optionally, the lighting linkage module further includes:

the face scanning submodule is used for scanning face information, and the face information comprises face orientation and face appearance ID;

and the direction extraction submodule is used for responding the face orientation in the face information, extracting the direction of the face orientation and extracting the adjacent illuminating lamps for lighting the illuminating lamps according to the direction.

Through adopting above-mentioned technical scheme, according to the face information that obtains the user scanning, the system can judge the face orientation of user when the corridor is marchd, and then according to the direction of face orientation, lights the light and realizes lighting at the adjacent light unanimous with the direction of face orientation to lighting the light, thereby reduce to light with the light of user travel direction opposite, promote the accuracy nature of illumination when saving the electric energy.

Optionally, the face scanning sub-module further includes:

the route recording submodule is used for responding to the face ID in the face information and recording the sequence of lighting all the illuminating lamps in the advancing process of the user according to the face ID to form the route information of the user;

the route linkage submodule is used for responding to the route information and linking the route with a controller of the illuminating lamp corresponding to the route;

and the route storage submodule is used for storing the route information in the face ID in the face information of the user.

By adopting the technical scheme, after recording all sequences of illuminating lamps in the first traveling process of the user, when the face ID of the user is identified, the traveling route of the user can be predicted in advance, so that the illuminating lamps on the traveling route are controlled to be sequentially illuminated in advance, and the advance illumination of the user is ensured.

Optionally, the route recording sub-module further includes;

the speed recording submodule is used for recording the traveling speed of the user according to the face ID to form speed information of the user;

the speed linkage submodule is used for responding to the speed information, calculating the interval time of sequentially lighting all the illuminating lamps in the route information according to the traveling speed, and linking the controllers of the corresponding illuminating lamps;

and the speed storage submodule is used for storing the speed information in the face ID in the face information of the user.

By adopting the technical scheme, after the traveling speed of the user is recorded, when the face ID of the user is identified, the lighting interval of the lighting lamp on the traveling route can be controlled according to the traveling speed of the user, so that the lighting lamp can be lighted at different intervals according to the traveling speeds of different users, and the adverse effect caused by early or late lighting of the lighting lamp is reduced.

In a third aspect, the present application provides an intelligent lighting control device, which adopts the following technical solution:

an intelligent lighting control apparatus comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and carry out any of the methods described above.

By adopting the technical scheme, the timeliness of illumination signal detection and the accuracy of face information scanning are realized, the advance of automatic lighting of the illuminating lamp according to the advancing process of a user is improved, and the speed of detection or scanning is improved when the illumination signal does not pass the detection or the face information fails to be scanned.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer readable storage medium storing a computer program capable of being loaded by a processor and performing any of the methods described above.

By adopting the technical scheme, the program capable of loading and executing the method is stored, so that the speed of detecting or scanning again is improved when the detection of the illumination signal fails or the scanning of the face information fails.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when a user walks into a corridor, the illuminating lamp at the current position of the user is lightened due to the fact that the illuminating lamp receives an illuminating signal, and the adjacent illuminating lamp for lightening the illuminating lamp is also lightened due to the fact that the illuminating lamp at the position of the user is lightened, so that the effect that the adjacent illuminating lamp for lightening the illuminating lamp can be lightened in advance is achieved, the illuminating range of the illuminating lamp is expanded, sufficient and timely illumination is provided for the user in the walking process of the user in the corridor, and the illumination advance of the illuminating lamp is improved;

2. after recording all sequences of lighting up the lighting lamps in the first traveling process of the user, when the face ID of the user is identified, the traveling route of the user can be predicted in advance, so that the lighting lamps on the traveling route can be controlled to be sequentially and previously lighted up according to the traveling routes of different users, and the advance lighting of the user is guaranteed;

3. after the traveling speed of the user in the traveling process is recorded, when the face ID of the user is identified again, the lighting interval of the lighting lamp on the traveling route of the user can be controlled according to the traveling speed of the user, the lighting lamp can be lighted at different intervals according to the traveling speeds of different users, and therefore the adverse effect caused by early or late lighting of the lighting lamp is reduced.

Drawings

Fig. 1 is a flowchart of a highlight lighting control method according to an embodiment of the present application.

Fig. 2 is a flowchart of an embodiment of a method for highlighting intelligent lighting based on face information.

Fig. 3 is a block diagram of a high light lighting control system according to an embodiment of the present application.

Fig. 4 is a block diagram of a module of an embodiment intelligent lighting system highlighting face information.

Description of reference numerals: 1. a lighting request module; 2. an illumination lighting module; 3. an illumination linkage module; 4. a continuous lighting module; 21. a face scanning sub-module; 22. a direction extraction submodule; 23. a route recording sub-module; 24. a route linkage submodule; 25. a route storage sub-module; 26. a speed recording submodule; 27. a speed linkage submodule; 28. a speed storage submodule.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses an intelligent lighting control method. Referring to fig. 1 and 2, the intelligent lighting control method includes the following steps:

s100, receiving an illumination request, wherein the illumination request carries an illumination signal for controlling an illumination lamp to be turned on;

the illuminating lamps are arranged in places such as corridors, corridors and staircases and are respectively arranged along different directions of the corridors so as to ensure that the positions where users move in the building can be illuminated. The illumination signal is formed by the human body detection device by detecting the passing of the human body;

the human body detection device is respectively installed at the initial user appearance positions such as the tail end of a corridor of each floor in a building, a door opening of each room in the corridor, a stair opening and the like so as to detect the initial user appearance in time; when the user passes through the human body detection device while traveling, the human body detection device can detect the traveling of the user and form an illumination signal.

S200, responding to an illumination signal carried by an illumination request, controlling an illumination lamp at the current position of a user to be turned on, forming a lighting signal and sending the lighting signal;

when the system responds to the illumination signal, the user is shown to have traveled in the building, the current position of the user is located according to the position of the human body detection device sent by the illumination signal, and then the illumination lamp near the current position of the user is controlled to be turned on, so that the illumination lamp is automatically turned on according to the travel of the user.

S300, responding to the lighting signals, traversing all the illuminating lamps, extracting the illuminating lamps adjacent to the lighting illuminating lamps, controlling the adjacent illuminating lamps to be lighted, forming new lighting signals and covering the original lighting signals;

wherein, when the system response is lighted the signal, explain that the light of user's current position has lighted, according to the light position that lights at present, the position of two adjacent lights of this light is fixed a position, and then two adjacent lights of control are also lighted simultaneously, enlarge the illumination zone of light to promote the promptness of light.

Specifically, step S300 further includes the following sub-steps:

s301, scanning face information, wherein the face information comprises face orientation and face appearance ID;

the face scanner can scan face information of a user traveling in a building, and the installation position of the face scanner in the building corresponds to the installation position of the human body detection device in sequence, so that when the human body detection device detects that the user passes through, the face information of the user can be scanned in time, and information such as face orientation, face ID and the like of the user can be obtained.

S302, responding to the face orientation in the face information, extracting the face orientation direction, and extracting adjacent illuminating lamps for lighting the illuminating lamps according to the face orientation direction;

wherein, according to the face information that obtains the user scanning, the system can judge the face orientation of user when the corridor is marchd, and then according to the direction of face orientation, lights the light and realizes lighting at the adjacent light unanimous with the direction of face orientation to the illumination lamp that lights, thereby reduce to light with the illumination lamp that the user direction of marching is opposite, promote the accuracy nature of illumination when saving the electric energy.

S303, responding to the face ID in the face information, and recording the sequence of lighting all illuminating lamps in the user traveling process according to the face ID to form the route information of the user; according to the face IDs of different users, the lighting sequence of the lighting lamps during the traveling of the users is recorded, and therefore the conventional traveling routes of the different users can be obtained.

S304, responding to the route information and linking with a controller of the illuminating lamp corresponding to the route; the system is linked with the controllers of the corresponding illuminating lamps according to the position points and the sequence of the illuminating lamps in the route information, so that the system can control the corresponding illuminating lamps to be sequentially illuminated according to the route information of the client.

S305, storing the route information in the face ID of the user; after recording all sequences of illuminating lamps in the first traveling process of the user, when the face ID of the user is identified, the traveling route of the user can be predicted in advance, so that the illuminating lamps on the traveling route can be controlled to be sequentially and previously illuminated according to the traveling routes of different users, and the advance illumination of the user is guaranteed.

S306, recording the traveling speed of the user according to the face ID to form the speed information of the user; according to the face IDs of different users, the speed of each user in the process of traveling is recorded in cooperation with the human body detection device, and therefore the conventional traveling speed of different users can be obtained.

S307, responding to the speed information, calculating the interval time of sequentially lighting all the illuminating lamps in the route information according to the traveling speed, and linking the controllers of the corresponding illuminating lamps; the system is linked with the controllers of the corresponding illuminating lamps according to the interval time of the illumination of the illuminating lamps in the route information, so that the system can control the corresponding illuminating lamps to be sequentially illuminated according to the speed information of the client.

S308, storing the speed information in the face ID of the user; after the traveling speed of the user in the traveling process is recorded, when the face ID of the user is identified again, the lighting interval of the lighting lamp on the traveling route can be controlled according to the traveling speed of the user, the lighting lamp can be lighted at different intervals according to the traveling speeds of different users, and therefore the adverse effect caused by early or late lighting of the lighting lamp is reduced.

S400, responding to a new lighting signal, and continuously controlling the next group of adjacent lighting lamps to be turned on; the above steps are repeated until no lighting signal and lighting signal are obtained.

The implementation principle of the intelligent lighting control method in the embodiment of the application is as follows: when the user walks to the corridor in, the light of user's current position lights because of receiving the illumination signal to the adjacent light that lights the light also lights because of receiving the signal of lighting equally, when the light that reaches user's position lights, the effect that this adjacent light that lights the light also can light in advance enlarges the scope of light illumination, for the user provides sufficient, timely illumination in the walking in-process in the corridor, promote the advance nature of light illumination.

Based on the method, the embodiment of the application also discloses an intelligent lighting control system. Referring to fig. 3 and 4, the intelligent lighting control system includes the following modules:

the lighting system comprises a lighting request module 1, wherein the lighting request module 1 is used for receiving a lighting request, the lighting request carries a lighting signal for controlling a lighting lamp to be turned on, and the lighting signal is formed by detecting the passing of a human body through a human body detection device installed in a corridor.

The lighting module 2 is used for responding to a lighting signal carried by the lighting request received by the lighting request module 1, the lighting module 2 controls a lighting lamp at the current position of the user to be turned on, and the lighting module 2 forms the lighting signal and sends the lighting signal.

The illumination linkage module 3, the illumination linkage module 3 is used for responding the lighting signal that the illumination lighting module 2 sent, and the illumination linkage module 3 traverses all the light and draws the light adjacent with the light that lights, and the illumination linkage module 3 control adjacent light lights, forms new lighting signal and covers the original point and lights the signal.

The continuous lighting module 4 is used for responding to a new lighting signal sent by the lighting linkage module 3, and the continuous lighting module 4 continuously controls the next group of adjacent lighting lamps to be lighted; the above steps are repeated until no lighting signal and lighting signal are obtained. When the user walks to the corridor in, the light of user's current position lights because of receiving the illumination signal to the adjacent light that lights the light also lights because of receiving the signal of lighting equally, when the light that reaches user's position lights, the effect that this adjacent light that lights the light also can light in advance enlarges the scope of light illumination, for the user provides sufficient, timely illumination in the walking in-process in the corridor, promote the advance nature of light illumination.

Wherein, illumination linkage module 3 still includes:

the face scanning sub-module 21 is configured to scan face information, where the face information includes face orientation and face ID.

The direction extraction submodule 22 is used for responding the face orientation in the face information scanned by the face scanning submodule 21, the direction extraction submodule 22 extracts the direction of the face orientation, and adjacent illuminating lamps for lighting the illuminating lamps are extracted according to the direction. According to the face information obtained by scanning the user, the system can judge the face orientation of the user when the corridor moves, and further according to the face orientation direction, the adjacent illuminating lamps which are used for illuminating the illuminating lamps and are consistent with the face orientation direction are lightened, so that the illuminating lamps opposite to the moving direction of the user are lightened, the electric energy is saved, and meanwhile, the illuminating accuracy is improved.

And the route recording submodule 23 is used for responding to the face ID in the face information scanned by the face scanning submodule 21, and the route recording submodule 23 records the sequence of lighting up all the lighting lamps in the user traveling process according to the face ID to form the route information of the user.

And the route linkage submodule 24 is used for responding to the route information formed by the route recording submodule 23 and linking the route with a controller of the illuminating lamp.

And the route storage submodule 25 is used for storing the route information formed by the route linkage submodule 24 in the face content ID in the face information of the user. After recording all sequences of lighting up the lighting lamps in the first traveling process of the user, when the face ID of the user is identified, the traveling route of the user can be predicted in advance, so that the lighting lamps on the traveling route are controlled to be sequentially and previously lighted up, and the advance lighting of the user is guaranteed.

A speed recording sub-module 26, the speed recording sub-module 26 for recording the speed of travel of the user based on the face ID, the speed recording sub-module 26 forming speed information for the user.

The speed linkage submodule 27 is used for responding to the speed information formed by the speed recording submodule 26, the speed linkage submodule 27 calculates the interval time of sequentially lighting all the illuminating lamps in the route information according to the traveling speed, and links the controllers of the corresponding illuminating lamps.

And the speed storage sub-module 28, the speed storage sub-module 28 is used for storing the speed information in the face ID of the user. After the traveling speed of the user in the traveling process is recorded, when the face ID of the user is identified again, the lighting interval of the lighting lamp on the traveling route of the user can be controlled according to the traveling speed of the user, the lighting lamp can be lighted at different intervals according to the traveling speeds of different users, and therefore the adverse effect caused by early or late lighting of the lighting lamp is reduced.

The implementation principle of the intelligent lighting control system in the embodiment of the application is as follows: when the user walks to the corridor in, the light of user's current position lights because of receiving the illumination signal to the adjacent light that lights the light also lights because of receiving the signal of lighting equally, when the light that reaches user's position lights, the effect that this adjacent light that lights the light also can light in advance enlarges the scope of light illumination, for the user provides sufficient, timely illumination in the walking in-process in the corridor, promote the advance nature of light illumination.

The embodiment of the application also discloses an intelligent lighting control device, which comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute the intelligent lighting control method.

The embodiment of the application also discloses a computer readable storage medium. A computer program capable of being loaded by a processor and executing the intelligent lighting control method as described above is stored in a computer readable storage medium, which includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The above examples are only used to illustrate the technical solutions of the present invention, and do not limit the scope of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from these embodiments without making any inventive step, fall within the scope of the present invention. Although the present invention has been described in detail with reference to the above embodiments, those skilled in the art may still make various combinations, additions, deletions or other modifications of the features of the embodiments of the present invention according to the situation without conflict, so as to obtain different technical solutions without substantially departing from the spirit of the present invention, and these technical solutions also fall within the protection scope of the present invention.

Claims (10)

1. An intelligent lighting control method is characterized by comprising the following steps:

receiving an illumination request carrying an illumination signal for controlling an illumination lamp to be turned on, wherein the illumination signal is formed by detecting the passing of a human body by a human body detection device installed in a corridor;

responding to an illumination signal carried by the illumination request, controlling an illumination lamp at the current position of the user to be turned on, forming a lighting signal and sending the lighting signal;

traversing all the illuminating lamps and extracting the illuminating lamps adjacent to the illuminating lamps to be turned on in response to the lighting signals, and controlling the adjacent illuminating lamps to be turned on to form new lighting signals and cover the original lighting signals;

responding to the new lighting signal, and continuously controlling the next group of adjacent lighting lamps to be lighted; the above steps are repeated until no lighting signal and lighting signal are obtained.

2. The intelligent illumination control method according to claim 1, wherein the step of traversing all illumination lamps and extracting illumination lamps adjacent to the illumination lamp, and the step of controlling the illumination of the adjacent illumination lamps further comprises:

scanning face information, wherein the face information comprises face orientation and face appearance ID;

and responding the face orientation in the face information, extracting the direction of the face orientation, and extracting adjacent illuminating lamps for lighting the illuminating lamps according to the direction.

3. The intelligent lighting control method according to claim 2, wherein the step of scanning the face information, the face information including face orientation and face ID, further comprises:

responding to the face ID in the face information, and recording the sequence of lighting all illuminating lamps in the user traveling process according to the face ID to form the route information of the user;

responding to the route information, and linking with a controller of the illuminating lamp corresponding to the route;

and storing the route information in the face ID in the face information of the user.

4. The intelligent lighting control method according to claim 3, wherein the step of forming route information of the user according to the face ID in response to the face ID in the face information and the sequence of lighting all the lighting lamps in the user's traveling process, further comprises:

recording the traveling speed of the user according to the face ID to form speed information of the user;

responding to the speed information, calculating the interval time of sequentially lighting all the illuminating lamps in the route information according to the traveling speed, and linking the controllers of the corresponding illuminating lamps;

and storing the speed information in the face ID in the face information of the user.

5. An intelligent lighting control system, comprising the following modules:

the lighting system comprises a lighting request module (1) and a control module, wherein the lighting request module is used for receiving a lighting request, the lighting request carries a lighting signal for controlling a lighting lamp to be turned on, and the lighting signal is formed by a human body detection device arranged in a corridor through detecting the passing of a human body;

the lighting module (2) is used for responding to a lighting signal carried by the lighting request, controlling the lighting lamp at the current position of the user to be lighted, forming a lighting signal and sending the lighting signal;

the illumination linkage module (3) is used for responding to the illumination signals, traversing all the illumination lamps, extracting the illumination lamps adjacent to the illumination lamps to be illuminated, controlling the adjacent illumination lamps to be illuminated, forming new illumination signals and covering the original illumination signals;

the continuous lighting module (4) is used for responding to the new lighting signal and continuously controlling the next group of adjacent lighting lamps to be lighted; the above steps are repeated until no lighting signal and lighting signal are obtained.

6. An intelligent lighting control system according to claim 5, wherein the lighting linkage module (3) further comprises:

the face scanning submodule (21) is used for scanning face information, and the face information comprises face orientation and face appearance ID;

and the direction extraction submodule (22) is used for responding the face direction in the face information, extracting the direction of the face direction and extracting the adjacent illuminating lamp for lighting the illuminating lamp according to the direction.

7. The intelligent lighting control system according to claim 6, wherein the face scanning sub-module (21) further comprises:

the route recording submodule (23) is used for responding to the face ID in the face information, recording the sequence of all illuminating lamps in the advancing process of the user according to the face ID, and forming the route information of the user;

the route linkage submodule (24) is used for responding to the route information and is linked with a controller of the illuminating lamp corresponding to the route;

and the route storage submodule (25) is used for storing the route information in the face ID in the face information of the user.

8. An intelligent lighting control system according to claim 7, wherein the route recording sub-module (23) is followed by further comprising;

a speed recording sub-module (26) for recording the speed of the user according to the face ID and forming the speed information of the user;

the speed linkage submodule (27) is used for responding to the speed information, calculating the interval time of sequentially lighting all the illuminating lamps in the route information according to the traveling speed, and linking the controllers of the corresponding illuminating lamps;

and the speed storage sub-module (28) is used for storing the speed information in the face ID in the face information of the user.

9. The utility model provides an intelligence lighting control device which characterized in that: comprising a memory and a processor, said memory having stored thereon a computer program which can be loaded by the processor and which performs the method of any of claims 1 to 4.

10. A computer-readable storage medium characterized by: a computer program which can be loaded by a processor and which executes the method according to any of claims 1 to 4.

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