CN113966044A - Building lighting system and method based on artificial intelligent control - Google Patents

Abstract

The invention discloses a building lighting system and method based on artificial intelligent control, and relates to the technical field of building lighting systems. The intelligent control system comprises an intelligent control console and a plurality of floor lamp control terminals; the intelligent control console is respectively in communication connection with the floor lamp control terminals; the floor lamp control terminal is in electric signal connection with a plurality of corridor interval lighting circuits; a plurality of illuminating lamps are locally arranged at the top of the inner part of a corridor of the same floor; the corridor on the same floor is divided into a plurality of lighting areas by an elevator; and a plurality of illuminating lamps in the illuminating interval are connected in parallel to form a corridor interval illuminating circuit. The invention controls the communication of a plurality of corridor interval lighting circuits of the same floor according to the lighting mode command through the floor lamp control terminal; under the full-bright lighting mode, the floor lamp control terminal controls the corridor interval lighting circuit corresponding to the first human body infrared sensor to be communicated; under the local illumination mode, the floor lamp control terminal controls the communication of the illumination circuits in all corridor intervals in the same floor, so that the illumination effect can be ensured, and the waste is reduced.

Description

Building lighting system and method based on artificial intelligent control

Technical Field

The invention belongs to the technical field of building lighting systems, and particularly relates to a building lighting system and method based on artificial intelligence control.

Background

In the existing building lighting system, in order to ensure that the lighting of users in a corridor is always realized in a mode that all good lamps in the corridor are all powered on, the mode can ensure better lighting; but results in wasted energy.

In order to ensure that the existing corridor lighting mode is saved, a corresponding lighting lamp is lightened according to the walking position of a user; however, in this case, a sensor for detecting a user needs to be installed in each illumination lamp, which results in a large cost.

The illumination of the section of road from the elevator exit to the entrance during the night and night is important for the safety of the user's way. In the night off duty and the home-returning peak period, a plurality of persons can get off the elevator, so that the illumination lamps of the whole corridor are kept to be properly turned on; if the user who occasionally returns home at night lights the illuminating lamps of the whole corridor, the illuminating lamps are wasted; the local illuminating lamp can be lightened, and waste is reduced while the basic illuminating effect is ensured.

In order to solve the problems, the invention provides a building lighting system and method based on artificial intelligent control.

Disclosure of Invention

The invention aims to provide a building lighting system and a building lighting method based on artificial intelligent control, which are used for solving the technical problems in the background technology.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a building lighting system based on artificial intelligent control, which comprises: the intelligent control platform and the floor lamp control terminals; the intelligent control console is respectively in communication connection with the floor lamp control terminals;

the floor lamp control terminal is in electric signal connection with a plurality of corridor interval lighting circuits; a plurality of illuminating lamps are locally arranged at the top of the inner part of the building channel of the same floor; the corridor on the same floor is divided into a plurality of lighting areas by an elevator; a plurality of illuminating lamps in the illuminating section are connected in parallel to form a corridor section illuminating circuit;

the corridor side walls on two sides of the elevator are provided with first human body infrared sensors which correspond to the corridor interval lighting circuits one to one; a second human body infrared sensor is arranged at the top of the elevator outlet; the floor lamp control terminal is respectively in electrical signal connection with the human body infrared sensors and the second human body infrared sensors;

the intelligent control console transmits an illumination mode instruction to the floor lamp control terminal; and the floor lamp control terminal controls the communication of a plurality of corridor interval lighting circuits of the same floor according to the lighting mode instruction.

As a preferred technical solution, the illumination mode command includes a full bright illumination mode and a local illumination mode;

in the full-bright lighting mode, if the second human body infrared sensor detects a human body infrared signal, transmitting the human body infrared signal to the corresponding floor lamp control terminal; after the floor lamp control terminal receives the human body infrared signal transmitted by the first human body infrared sensor, the floor lamp control terminal controls the corridor interval lighting circuit corresponding to the first human body infrared sensor to be communicated;

in the local illumination mode, if the second human body infrared sensor detects a human body infrared signal, sending the human body infrared signal to the corresponding floor lamp control terminal; and after the floor lamp control terminal receives the human body infrared signal transmitted by the first human body infrared sensor, the floor lamp control terminal controls all the floor interval lighting circuits in the same floor to be communicated.

As a preferred technical scheme, after the corridor lighting circuit is connected with the interval time threshold T, the floor lamp control terminal controls to turn off the corridor lighting circuit.

As a preferred technical solution, the intelligent console includes a control module, a storage module and a pattern analysis module; the control module is respectively connected with the storage module and the mode analysis module through electric numbers; a historical people flow record table is stored in the storage module; and the historical people flow record table stores and records the historical people flow at the entrance of the building.

As a preferred technical solution, a full lighting pedestrian volume threshold value is prestored in the storage module; the pattern analysis module compares the historical pedestrian flow in the historical pedestrian flow record table with the full-illumination pedestrian flow threshold value to obtain a full-illumination time interval and a local-illumination time interval; the full illumination time interval corresponds to the full bright illumination mode, and the local illumination time interval corresponds to the local illumination mode.

As a preferred technical solution, the control module is further connected with an image analysis module; the image analysis module is respectively connected with the plurality of cameras through electric signals; the camera is arranged at an entrance of the building and used for shooting a people flow image and transmitting the people flow image to the image analysis module; the image analysis module analyzes and obtains the flow of people in unit time according to the plurality of flow of people images and stores the flow of people in a historical flow of people record table.

As a preferred technical solution, calculating the time limit This of the historical pedestrian volume as a fixed time advanced from the current day; the control module is also connected with a setting module; the setting module is used for setting the time limit This.

The building lighting method based on artificial intelligent control comprises the following processes:

a00: the intelligent control console transmits an illumination mode instruction to the floor lamp control terminal;

a01: the floor lamp control terminal judges whether the illumination mode instruction is a full-bright illumination mode; if yes, A02 is executed; if not, executing A04;

a02: the floor lamp control terminal judges whether a human body infrared signal transmitted by the first human body infrared sensor is received or not; if yes, A03 is executed; if not, executing A06;

a03: after the human body infrared signal transmitted by the first human body infrared sensor, the floor lamp control terminal controls the corridor interval lighting circuit corresponding to the first human body infrared sensor to be communicated;

a04: the floor lamp control terminal judges whether a human body infrared signal detected by the second human body infrared sensor is received or not; if yes, A05 is executed; if not, executing A06;

a05: after the human body infrared signal transmitted by the first human body infrared sensor, the floor lamp control terminal controls all the corridor interval lighting circuits in the same floor to be communicated;

a06: and the floor lamp control terminal controls the disconnection of the lighting circuit between the corridors on the same floor.

As a preferred technical solution, a01 specifically determines whether the illumination mode command is a full bright illumination mode as follows:

the pattern analysis module compares the historical pedestrian flow in the historical pedestrian flow record table with the full-illumination pedestrian flow threshold value to obtain a full-illumination time interval and a local-illumination time interval; the full illumination time interval corresponds to the full bright illumination mode, and the local illumination time interval corresponds to the local illumination mode.

As a preferable technical scheme, the image analysis module analyzes and obtains the flow of people in unit time according to a plurality of flow of people images and stores the flow of people in a historical flow of people record table.

The invention has the following beneficial effects:

the floor lamp control terminal controls a plurality of corridor intervals of the same floor to be communicated with the lighting circuit according to the lighting mode instruction; in a full-bright lighting mode, after the floor lamp control terminal receives a human body infrared signal transmitted by the first human body infrared sensor, the floor lamp control terminal controls the corridor interval lighting circuit corresponding to the first human body infrared sensor to be communicated; under the local illumination mode, after the floor lamp control terminal receives the human infrared signal transmitted by the first human infrared sensor, the floor lamp control terminal controls the communication of all corridor interval illumination circuits in the same floor, so that the illumination effect can be ensured, and the waste is reduced.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a building lighting system based on artificial intelligent control according to the present invention;

FIG. 2 is a schematic structural diagram of a floor lamp control terminal, an illuminating lamp, a first human body infrared sensor and a second human body infrared sensor installed in the same floor according to the present invention;

fig. 3 is a flow chart of a building lighting method based on artificial intelligence control according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, the present invention is a building lighting system based on artificial intelligence control, comprising: the intelligent control platform and the floor lamp control terminals 1; the intelligent control console is respectively in communication connection with the floor lamp control terminals 1; the floor lamp control terminal 1 is in electric signal connection with a plurality of corridor interval lighting circuits; a plurality of illuminating lamps 2 are locally arranged at the top part in the corridor of the same floor; the corridor on the same floor is divided into a plurality of lighting areas by an elevator; a plurality of illuminating lamps 2 in the illuminating section are connected in parallel to form a corridor section illuminating circuit;

the corridor side walls on the two sides of the elevator are provided with first human body infrared sensors 31 which correspond to the corridor interval lighting circuits one by one; a second human body infrared sensor 32 is arranged at the top of the elevator outlet; the floor lamp control terminal 1 is respectively connected with a plurality of human body infrared sensors 31 and a plurality of second human body infrared sensors 32 through electric signals;

the intelligent control console transmits an illumination mode instruction to the floor lamp control terminal 1; the floor lamp control terminal 1 controls a plurality of corridor interval lighting circuits of the same floor to be communicated according to the lighting mode instruction; specifically, the illumination mode command includes a full bright illumination mode and a local illumination mode;

in the full-bright lighting mode, if the second human body infrared sensor 32 detects a human body infrared signal, the human body infrared signal is transmitted to the corresponding floor lamp control terminal 1; after the floor lamp control terminal 1 receives the human body infrared signal transmitted by the first human body infrared sensor 31, the floor lamp control terminal 1 controls the corridor interval lighting circuit corresponding to the first human body infrared sensor 31 to be communicated;

in the local illumination mode, if the second human body infrared sensor 32 detects a human body infrared signal, the human body infrared signal is transmitted to the corresponding floor lamp control terminal 1; after the floor lamp control terminal 1 receives the human body infrared signal transmitted by the first human body infrared sensor 31, the floor lamp control terminal 1 controls the communication with all corridor interval lighting circuits in the floor; in fact, after the corridor lighting circuit is connected for the interval time threshold T, the floor lamp control terminal 1 controls to turn off the corridor lighting circuit.

As a preferred embodiment, the intelligent console comprises a control module, a storage module and a mode analysis module; the control module is respectively in electric signal connection with the storage module and the mode analysis module; a historical people flow record table is stored in the storage module; the historical people flow record table stores and records the historical people flow of the building entrance; actually, pre-storing the full lighting pedestrian volume threshold value in the storage module; the pattern analysis module compares historical pedestrian flow in the historical pedestrian flow record table with a full-illumination pedestrian flow threshold value to obtain a full-illumination time interval and a local-illumination time interval; the full illumination time interval corresponds to a full bright illumination mode, and the local illumination time interval corresponds to a local illumination mode;

in addition, the control module is also connected with an image analysis module; the image analysis module is respectively connected with the plurality of cameras through electric signals; the camera is arranged at an entrance of the building and is used for shooting a people flow image and transmitting the people flow image to the image analysis module; the image analysis module analyzes and obtains the pedestrian flow in unit time according to the plurality of pedestrian flow images and stores the pedestrian flow in a historical pedestrian flow record table; specifically, the time limit This of the historical pedestrian volume is calculated as the fixed time pushed forward on the current day; the control module is also connected with a setting module; the setting module is used for setting the time limit This.

Referring to fig. 3, the building illumination method based on artificial intelligence control includes the following steps:

a00: the intelligent control console transmits an illumination mode instruction to the floor lamp control terminal 1;

a01: the floor lamp control terminal 1 judges whether the illumination mode command is a full-bright illumination mode; if yes, A02 is executed; if not, executing A04; the method comprises the following specific steps:

the pattern analysis module compares historical pedestrian flow in the historical pedestrian flow record table with a full-illumination pedestrian flow threshold value to obtain a full-illumination time interval and a local-illumination time interval; the full illumination time interval corresponds to a full bright illumination mode, and the local illumination time interval corresponds to a local illumination mode;

a02: the floor lamp control terminal 1 judges whether a human body infrared signal transmitted by the first human body infrared sensor 31 is received; if yes, A03 is executed; if not, executing A06;

a03: after the human body infrared signal transmitted by the first human body infrared sensor 31, the floor lamp control terminal 1 controls the corridor interval lighting circuit corresponding to the first human body infrared sensor 31 to be communicated;

a04: the floor lamp control terminal 1 judges whether a human body infrared signal detected by the second human body infrared sensor 32 is received; if yes, A05 is executed; if not, executing A06;

a05: after the human body infrared signal transmitted by the first human body infrared sensor 31, the floor lamp control terminal 1 controls the communication of all corridor interval lighting circuits in the same floor; the image analysis module analyzes and obtains the flow of people in unit time according to the flow of people images and stores the flow of people in a historical flow of people record table;

a06: the floor lamp control terminal 1 controls the disconnection of the lighting circuit in each corridor interval of the same floor.

When the invention is actually used, the floor lamp control terminal 1 controls the communication of a plurality of corridor interval lighting circuits of the same floor according to the lighting mode instruction; in the full-bright lighting mode, after the floor lamp control terminal 1 receives the human body infrared signal transmitted by the first human body infrared sensor 31, the floor lamp control terminal 1 controls the corridor interval lighting circuit corresponding to the first human body infrared sensor 31 to be communicated; under the local illumination mode, after the floor lamp control terminal 1 receives the human body infrared signal transmitted by the first human body infrared sensor 31, the floor lamp control terminal 1 controls the communication of all corridor interval illumination circuits in the same floor, so that the illumination effect can be ensured, and the waste is reduced.

It should be noted that, in the above system embodiment, each included unit is only divided according to functional logic, but is not limited to the above division as long as the corresponding function can be implemented; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the present invention.

In addition, it can be understood by those skilled in the art that all or part of the steps in the method for implementing the embodiments described above can be implemented by a program to instruct related hardware, and the corresponding program can be stored in a computer-readable storage medium.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. Building lighting system based on artifical intelligent control, its characterized in that includes: the intelligent control system comprises an intelligent control console and a plurality of floor lamp control terminals (1); the intelligent control console is respectively in communication connection with the floor lamp control terminals (1);

the floor lamp control terminal (1) is in electric signal connection with a plurality of corridor interval lighting circuits; a plurality of illuminating lamps (2) are locally arranged at the top part in the corridor of the same floor; the corridor on the same floor is divided into a plurality of lighting areas by an elevator; a plurality of illuminating lamps (2) in the illuminating interval are connected in parallel to form a corridor interval illuminating circuit;

first human body infrared sensors (31) which correspond to the corridor interval lighting circuits one by one are mounted on the corridor side walls on two sides of the elevator; a second human body infrared sensor (32) is arranged at the top of the elevator outlet; the floor lamp control terminal (1) is respectively in electric signal connection with a plurality of human body infrared sensors (31) and a plurality of second human body infrared sensors (32);

the intelligent control console transmits an illumination mode instruction to the floor lamp control terminal (1); and the floor lamp control terminal (1) controls the communication of a plurality of corridor interval lighting circuits of the same floor according to the lighting mode instruction.

2. The building lighting system based on artificial intelligence control of claim 1, wherein the lighting pattern instructions comprise a full bright lighting pattern and a local lighting pattern;

under the full-bright lighting mode, if the second human body infrared sensor (32) detects a human body infrared signal, the human body infrared signal is transmitted to the corresponding floor lamp control terminal (1); after the floor lamp control terminal (1) receives the human body infrared signal transmitted by the first human body infrared sensor (31), the floor lamp control terminal (1) controls the corridor interval lighting circuit corresponding to the first human body infrared sensor (31) to be communicated;

under the local illumination mode, if the second human body infrared sensor (32) detects a human body infrared signal, sending the human body infrared signal to the corresponding floor lamp control terminal (1); and after the floor lamp control terminal (1) receives the human body infrared signal transmitted by the first human body infrared sensor (31), the floor lamp control terminal (1) controls the communication with all corridor interval lighting circuits in the floor.

3. The building lighting system based on artificial intelligence control of claim 2, characterized in that, if the corridor section lighting circuit is connected for an interval time threshold T, the floor lamp control terminal (1) controls to turn off the corridor section lighting circuit.

4. The building lighting system based on artificial intelligence control of claim 1 or 3, wherein the intelligent console comprises a control module, a storage module and a pattern analysis module; the control module is respectively in electric signal connection with the storage module and the mode analysis module; a historical people flow record table is stored in the storage module; and the historical people flow record table stores and records the historical people flow of the building entrance.

5. The building lighting system based on artificial intelligence control of claim 4, wherein the storage module prestores a full lighting people flow threshold; the pattern analysis module compares the historical pedestrian flow in the historical pedestrian flow record table with the full-illumination pedestrian flow threshold value to obtain a full-illumination time interval and a local-illumination time interval; the full illumination time interval corresponds to the full bright illumination mode, and the local illumination time interval corresponds to the local illumination mode.

6. The building lighting system based on artificial intelligence control of claim 5, wherein the control module is further connected with an image analysis module; the image analysis module is respectively connected with the plurality of cameras through electric signals; the camera is arranged at an entrance of the building and used for shooting a people flow image and transmitting the people flow image to the image analysis module; the image analysis module analyzes and obtains the flow of people in unit time according to the plurality of flow of people images and stores the flow of people in a historical flow of people record table.

7. The building lighting system based on artificial intelligence control of claim 6, wherein the time period T of the historical pedestrian volume is calculated_hisThe fixed time for pushing forward on the current day; the control module is also connected with a setting module; the setting module is used for setting the time limit T_his。

8. The building illumination method based on artificial intelligent control is characterized by comprising the following processes:

a00: the intelligent control console transmits an illumination mode instruction to the floor lamp control terminal (1);

a01: the floor lamp control terminal (1) judges whether the illumination mode instruction is a full-bright illumination mode; if yes, A02 is executed; if not, executing A04;

a02: the floor lamp control terminal (1) judges whether a human body infrared signal transmitted by a first human body infrared sensor (31) is received or not; if yes, A03 is executed; if not, executing A06;

a03: after the human body infrared signal transmitted by the first human body infrared sensor (31), the floor lamp control terminal (1) controls the corridor interval lighting circuit corresponding to the first human body infrared sensor (31) to be communicated;

a04: the floor lamp control terminal (1) judges whether a human body infrared signal detected by the second human body infrared sensor (32) is received or not; if yes, A05 is executed; if not, executing A06;

a05: after the human body infrared signal transmitted by the first human body infrared sensor (31), the floor lamp control terminal (1) controls the communication with all the corridor interval lighting circuits in the floor;

a06: the floor lamp control terminal (1) controls the disconnection of the lighting circuit in each corridor interval of the same floor.

9. The building lighting method based on artificial intelligence control of claim 8, wherein a01 determines whether the lighting mode command is a full bright lighting mode as follows:

the pattern analysis module compares the historical pedestrian flow in the historical pedestrian flow record table with the full-illumination pedestrian flow threshold value to obtain a full-illumination time interval and a local-illumination time interval; the full illumination time interval corresponds to the full bright illumination mode, and the local illumination time interval corresponds to the local illumination mode.

10. The building lighting method based on artificial intelligence control of claim 9, wherein the image analysis module analyzes and obtains the flow rate of people per unit time according to a plurality of flow rate images and stores the flow rate images in a historical flow rate record table.

Images