CN110719677B

CN110719677B - Illumination control method, system and storage medium

Info

Publication number: CN110719677B
Application number: CN201911021586.9A
Authority: CN
Inventors: 陈慧娟; 郑新涛; 赵志策; 张子云; 赵猛
Original assignee: Hebei GEO University
Current assignee: Dragon Totem Technology Hefei Co ltd
Priority date: 2019-10-25
Filing date: 2019-10-25
Publication date: 2021-09-03
Anticipated expiration: 2039-10-25
Also published as: CN110719677A

Abstract

The invention provides a lighting control method, a system and a storage medium, wherein the lighting control method comprises the following steps: acquiring the sunlight intensity of a cell; analyzing the acquired sunlight intensity to obtain a first analysis result, and judging whether the first analysis result meets a preset sunlight condition; if the first analysis result meets the sunshine preset condition, enabling an illumination system in the cell to enter a night mode; acquiring activity data in a cell after the lighting system in the cell enters a night mode; analyzing the acquired activity data to obtain a second analysis result, and judging whether the second analysis result meets an activity preset condition; and if the second analysis result meets the preset activity condition, enabling the lighting system in the cell to be in a normally-off state and enter a first operation mode. The community does not keep conventional illumination all night to cause a large amount of electric energy waste, and does not cause inconvenience to pedestrians and vehicles in the community at night.

Description

Illumination control method, system and storage medium

Technical Field

The invention relates to the technical field of lighting, in particular to a lighting control method, a lighting control system and a storage medium.

Background

In the process of cell management, electric energy waste is a more outstanding problem, especially in the late night stage, the flow of people and the flow of vehicles are few or even none, but the illumination in the cell can not be none, however, the conventional illumination maintained in the cell all night can cause a large amount of electric energy waste, and most of illumination light sources are turned off, so that inconvenience of pedestrians and vehicles in the late night cell can be caused, and even danger is caused.

Disclosure of Invention

The invention solves the problems that the pedestrian flow and the vehicle flow are little or even none at the late night stage, but the conventional illumination of the residential area is kept all night, which causes a great deal of electric energy waste, and the inconvenience of pedestrians and vehicles in the residential area at the late night or even the danger is caused by turning off most of the illumination light sources.

In order to solve the above problems, the present invention provides an illumination control method, including the steps of:

acquiring the sunlight intensity of a cell;

analyzing the acquired sunlight intensity to obtain a first analysis result, and judging whether the first analysis result meets a preset sunlight condition;

if the first analysis result meets the sunshine preset condition, controlling an illumination system in the cell to enter a night mode;

acquiring activity data in a cell after the lighting system in the cell enters a night mode;

analyzing the acquired activity data to obtain a second analysis result, and judging whether the second analysis result meets an activity preset condition;

and if the second analysis result meets the preset activity condition, controlling the lighting system in the cell to be in a normally-off state and entering a first operation mode.

Optionally, the analyzing the acquired sunshine intensity to obtain a first analysis result, and determining whether the first analysis result meets a preset sunshine condition includes:

calculating the difference between the sunlight intensity and a sunlight preset value, and judging whether the difference between the sunlight intensity and the sunlight preset value is less than or equal to 0;

or determining the ratio of the sunlight intensity to the sunlight preset value, and judging whether the ratio of the sunlight intensity to the sunlight preset value is less than or equal to 1.

Optionally, the activity data comprises people flow data and vehicle flow data; the analyzing the acquired activity data to obtain a second analysis result, and judging whether the second analysis result meets an activity preset condition includes:

summing the acquired pedestrian flow data and the acquired vehicle flow data to obtain a flow sum, then subtracting the flow sum from a preset activity value, and judging whether the difference value between the flow sum and the preset activity value is less than or equal to 0;

or summing the acquired pedestrian flow data and the acquired vehicle flow data to obtain a flow sum, determining the ratio of the flow sum to an activity preset value, and judging whether the ratio of the flow sum to the activity preset value is less than or equal to 1.

Optionally, the first operating mode comprises:

when detecting that a pedestrian enters a cell or leaves a cell building, detecting whether an illuminating lamp exists in a first radius range by taking the position of the pedestrian as the center of a circle;

if the lighting lamp is detected to exist in the first radius range, controlling the lighting lamp to emit light;

if the first radius is detected to be within the range without the illuminating lamp, the first radius is enlarged and then the detecting is carried out again until the illuminating lamp is searched.

Optionally, the first operating mode further comprises:

when the fact that the vehicle drives into the cell is detected, whether an illuminating lamp exists in the second radius range or not is detected by taking the position of the vehicle as the circle center;

if the lighting lamp is detected to exist in the second radius range, controlling the lighting lamp to emit light;

if the lighting lamp does not exist in the second radius range, the second radius is enlarged and then the lighting lamp is detected again until the lighting lamp is searched.

Optionally, the first operating mode further comprises:

acquiring vehicle information, and judging whether the vehicle is a garbage vehicle or not;

if the vehicle is a garbage truck, controlling an identification lamp of a garbage can placing area in the community to emit light;

when the situation that pedestrians exist in the garbage can placing area and the garbage can is moved is detected, controlling an identification lamp of the garbage can placing area to flicker;

when detecting that there is not the pedestrian in the garbage bin is placed the district, control the pilot lamp that the district was placed to the garbage bin extinguishes.

Optionally, the obtaining vehicle information and determining whether the vehicle is a garbage truck includes:

acquiring vehicle body image information of at least two directions of the vehicle;

comparing the acquired vehicle body image information with prestored vehicle graphic information, and judging whether the acquired vehicle body image information is consistent with the prestored vehicle graphic information;

if the acquired vehicle body image information is consistent with the pre-stored vehicle graphic information, the vehicle is judged to be a garbage vehicle;

or acquiring the license plate information of the vehicle;

comparing the acquired license plate information with prestored license plate information, and judging whether the acquired license plate information is consistent with the prestored license plate information;

and if the acquired vehicle body image information is consistent with the pre-stored license plate information, judging that the vehicle is a garbage vehicle.

Optionally, the first operating mode further comprises:

acquiring the motion state of a vehicle, and judging whether the vehicle is in a static state or not;

if the vehicle is in a static state and is a garbage truck, controlling a lighting system to provide lighting for the vehicle;

and if the vehicle is in a static state and is not a garbage truck, controlling the lighting system to pause to provide lighting.

Compared with the prior art, the invention has the beneficial effects that: through the detection of the sunshine intensity of the residential area, the lighting system of the residential area can automatically enter a night mode under a proper condition, thereby not only being intelligent, but also avoiding the waste of electric energy; meanwhile, in the night mode, whether the lighting system needs to be in a normally-off state or not is judged according to the activity data of the cell, and the lighting system enters the first operation mode, so that the cell does not keep conventional lighting all night and a large amount of electric energy is wasted, and inconvenience of pedestrians and vehicles in the cell at night is avoided.

In addition, the present invention provides a lighting control system comprising:

the system comprises an acquisition unit, a control unit and a display unit, wherein the acquisition unit is used for acquiring the sunshine intensity of a cell and acquiring activity data in the cell;

the analysis unit is used for analyzing the acquired sunlight intensity to obtain a first analysis result and analyzing the activity data to obtain a second analysis result;

the judging unit is used for judging whether the first analysis result meets the sunshine preset condition or not and judging whether the second analysis result meets the activity preset condition or not;

and the control unit is used for controlling the lighting system in the cell to enter a night mode if the first analysis result meets the sunshine preset condition, and controlling the lighting system in the cell to be in a normally off state and enter a first running mode if the second analysis result meets the activity preset condition.

The advantages of the lighting control system and the lighting control method of the present invention are the same as those of the lighting control method in the prior art, and are not described herein again.

In addition, the present invention provides a computer-readable storage medium storing a computer program which, when read and executed by a processor, implements the lighting control method described above.

The advantages of the computer-readable storage medium of the present invention and the above-mentioned lighting control method over the prior art are the same, and are not described herein again.

Drawings

FIG. 1 is a schematic flow chart diagram illustrating an embodiment of a lighting control method according to the present invention;

fig. 2 is a block diagram of an embodiment of a lighting control system according to the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Also, it is noted that the terms "first," "second," and the like in the description and claims of the present invention and in the above-described drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein.

As shown in fig. 1, the present invention provides a lighting control method, including the following steps:

s1, acquiring the sunshine intensity of the cell;

s2, analyzing the acquired sunlight intensity to obtain a first analysis result, and judging whether the first analysis result meets a sunlight preset condition;

s3, if the first analysis result meets the sunshine preset condition, controlling an illumination system in the cell to enter a night mode;

s4, acquiring activity data in the cell after the lighting system in the cell enters a night mode;

s5, analyzing the acquired activity data to obtain a second analysis result, and judging whether the second analysis result meets an activity preset condition;

and S6, if the second analysis result meets the preset activity condition, controlling the lighting system in the cell to be in an normally off state and entering a first operation mode.

At present, in the process of energetically developing energy conservation and environmental protection in a cell in China, electric energy waste is a relatively outstanding problem, which generally comes from two aspects, namely, the starting time of an illumination system is not well mastered, the illumination system is started too early, the electric energy waste is serious, and inconvenience is caused to people and vehicles when the illumination system is started too late; secondly, in the late night stage, the flow of people and the flow of vehicles are less, and a large amount of electric energy is wasted because the community keeps conventional illumination all night, but illumination cannot be carried out; the balance between energy conservation and illumination is difficult to realize, and the illumination power is reduced for energy conservation in partial cells, so that the illumination effect is seriously reduced, potential safety hazards exist, and particularly, the people who have inconvenience to eyes. After the illumination control method of the embodiment is adopted, the illumination system of the cell can automatically enter a night mode under a proper condition by detecting the sunshine intensity of the cell, so that the intelligentization is realized, and the waste of electric energy is avoided; meanwhile, in the night mode, whether the lighting system needs to be in a normally-off state or not is judged according to the activity data of the cell, and the lighting system enters the first operation mode, so that the cell does not keep conventional lighting all night and a large amount of electric energy is wasted, and inconvenience of pedestrians and vehicles in the cell at night is avoided.

Preferably, the analyzing the acquired sunshine intensity to obtain a first analysis result, and determining whether the first analysis result meets a preset sunshine condition includes:

Therefore, the existing mode of turning on the lighting system in the cell is generally manual turning on or timing turning on, the manual turning on is the judgment made by cell workers according to self senses, and uncertainty exists, so that the advance and delay are possible; the timing starting is to start the lighting system at a specified time point, and the time point is frequently adjusted according to different times due to different times and different time of setting the sun. The embodiment detects the sunshine intensity, and the difference or the ratio is obtained through the sunshine intensity and the sunshine preset value, and the difference or the ratio is used as the premise of whether entering the night mode.

Wherein, the intensity of sunshine is obtained by the detection of the photoelectric type sunshine sensor in the open district in the district, convenient and fast.

Preferably, the activity data comprises people flow data and vehicle flow data; the analyzing the acquired activity data to obtain a second analysis result, and judging whether the second analysis result meets an activity preset condition includes:

or summing the acquired pedestrian flow data and the acquired vehicle flow data to obtain a flow sum, determining the ratio of the flow sum to the activity preset value, and judging whether the ratio of the flow sum to the activity preset value is less than or equal to 1.

Therefore, when the user just enters night, the flow of people and the flow of vehicles in a cell are large, and at the moment, the illumination system needs to be kept in a normally-on state; and as time goes on, the flow of people and the flow of vehicles are gradually smaller, after the deep liquid stage is entered, the flow of people and the flow of vehicles are few or even none, and at the moment, the normally-on state of the lighting system is not needed any more. After the method of the embodiment is adopted, the sum of the pedestrian flow and the vehicle flow and the activity preset value are subjected to difference calculation or ratio calculation, and the difference value or the ratio is used as the premise that the lighting system is in the normally-off state and enters the first operation mode.

Preferably, the first operating mode comprises:

Therefore, the existing residential area has an entrance guard and an infrared camera, and the position of the pedestrian can be clearly known through the entrance guard and the infrared camera, particularly when the pedestrian enters the residential area or leaves a building unit; specifically, there is a cell electronic map in which building information, illumination lamp information, and the like are recorded, and after the position of a pedestrian is collected, it is displayed and analyzed on the electronic map. Because the motion trail of the pedestrian is not easy to predict, after the method of the embodiment is adopted, the position of the pedestrian is used as the circle center, the illuminating lamp is turned on after the illuminating lamp exists in the first radius range is detected, and at least one illuminating lamp at each turnout is luminous at least when the turnout is in use.

Meanwhile, when the first radius is enlarged, it is increased by 0.5 times each time until the lighting lamp is searched, for example, the lighting lamp is not detected when the first radius is 5 meters, the next first radius is 7.5 meters, and so on until the lighting lamp is detected.

Optionally, the first operating mode further comprises:

if the lighting lamp is detected to exist in the second radius range, the lighting lamp is enabled to emit light;

Therefore, the existing residential area has an entrance guard and an infrared camera, and the position of a vehicle can be clearly known through the entrance guard and the infrared camera, particularly when the vehicle enters the residential area; specifically, there is a cell electronic map in which building information, illumination lamp information, and the like are recorded, and after the position of the vehicle is collected, it is displayed and analyzed on the electronic map. Because the motion track of the vehicle is not easy to predict, after the method of the embodiment is adopted, the position of the vehicle is taken as the center of a circle, the illuminating lamps in the second radius range are detected and then are turned on, and at least one illuminating lamp at each fork is lighted when at least at the fork.

Meanwhile, when the second radius is enlarged, since the speed of the vehicle is fast, the second radius is increased by 1 time each time until the illumination lamp is searched, for example, the illumination lamp is not detected at the second radius of 10 meters, the next second radius of 20 meters, and so on until the illumination lamp is detected.

Optionally, the first operating mode further comprises:

Therefore, in order to avoid the situation of excessive pedestrian flow and vehicle flow, some garbage trucks enter the residential area to collect garbage in the deep liquid stage, and since the illumination system is in the normally off state in the late night stage, although the illumination system can provide illumination for the vehicle, the position of the garbage can placing area is not clear, and whether the garbage in the garbage can placing area is collected or not is not clear, which brings inconvenience. After the method of the embodiment is adopted, after the garbage truck is detected to enter the cell, the identification lamp of the garbage can placing area can automatically emit light, so that workers can want to inform the position of the garbage can visually; meanwhile, when the pedestrian is detected to be positioned in the garbage can placing area and the garbage can is moved, namely when the worker drags the garbage can away, the situation that the garbage is being cleaned is indicated through the flickering of the identification lamp; after the staff leaves the garbage bin and places the district, the pilot lamp goes out, explains here that has cleared up.

Preferably, the obtaining vehicle information and determining whether the vehicle is a garbage truck includes:

or acquiring the license plate information of the vehicle;

It is known that there are many vehicles entering a cell, and since the garbage truck comes in and needs to be cleaned, it needs to be identified from the vehicle. The embodiment provides two methods, the first method is to identify according to the image information of the vehicle body, and is mainly because the shape of the garbage vehicle is different from that of other vehicles, so that the garbage vehicle is easy to identify and is realized by an infrared camera of a community; and the vehicle body image data of at least two directions are adopted, so that the occurrence of errors is avoided, and the identification accuracy is improved. And secondly, the license plate is identified according to the license plate number, and the license plate number is scanned when the vehicle enters a cell, so that the license plate information can be conveniently collected.

Optionally, the first operating mode further comprises:

Therefore, the community is divided into an underground parking lot and a ground parking lot, the garbage truck generally enters the community only when garbage is cleaned, and the garbage truck does not exist in other time periods; when a vehicle (except a garbage truck) is located in a ground parking lot, it is detected by the infrared camera of the community, however, the illumination is not needed at the moment, and when the garbage truck is parked on the road surface of the community, the garbage is loaded and unloaded, and the illumination is needed. After the method of the embodiment is adopted, intelligent illumination can be realized by judging the motion state of the vehicle and judging whether the vehicle is a garbage truck, and the illuminating lamp is prevented from being constantly lighted.

Preferably, the first operation mode further comprises:

acquiring vehicle information, and judging whether the vehicle is an ambulance or not;

if the vehicle is an ambulance, controlling the road sign indicating lamps in the community and the building number lamps of all the unit buildings to emit light;

when the situation that an ambulance exists near the entrance of any unit building and stays for more than preset time is detected, the road sign indicator lamps and the building number lamps of all the unit buildings are controlled to be turned off, and a movement path of the ambulance is generated;

and when detecting that the ambulance near the entrance of the unit building moves again, controlling the illuminating lamp on the moving path to emit light.

Therefore, when emergency treatment occurs at night, the time is the most precious, the ambulance men do not know the terrain of each cell clearly, and the ambulance men are difficult to quickly locate the patient without guidance; meanwhile, in order to facilitate the ambulance to rapidly exit the community, the moving path which the ambulance runs through can be recorded, and after the ambulance is detected to be restarted, all illuminating lamps on the moving path can be controlled to emit light to prompt the ambulance to a road, so that precious time is won for a patient.

The road sign indicator lamp is unit building information displayed by an LED screen and is generally arranged at the position of a fork, such as a left display A1 and a left display A2; right A3, a4, etc.; the building number lamp of the unit building refers to an LED character lamp, such as 1 building 1 unit, 1 building 2 unit and the like.

The method for identifying whether the vehicle is an ambulance adopts the method for identifying the garbage truck.

Preferably, the lighting control method further includes:

acquiring the lighting times of each street lamp at night;

sorting according to the obtained lighting times from large to small to generate a statistical table;

comparing the statistical tables of the N nights; judging whether the lighting times of the street lamp are abnormal or not, wherein N is greater than or equal to 7;

and if the lighting times of the street lamps are abnormal, controlling the warning lamps to emit light.

It can be known that unless bad weather reasons such as rainy day, the habits and customs of the residents in the residential area are generally fixed and cannot be changed too much, therefore, the lighting times of the lighting lamp also tend to be stable, and when the lighting times of the lighting lamp are detected to be too large, the lighting lamp is possibly damaged or the nearby environment is abnormal, and the management personnel are reminded to check through controlling the warning lamp.

When the statistical tables are compared for N times of nights, sunny weather is selected, and weather such as rainy days and the like which is inconvenient for pedestrians to go out is excluded.

A lighting control system of another embodiment of the present invention includes:

As shown in fig. 2, the illumination control system of the present invention detects the sunshine intensity of the residential area, and the illumination system of the residential area can automatically enter the night mode under appropriate conditions, so that the present invention is not only intelligent, but also avoids the waste of electric energy; meanwhile, in the night mode, whether the lighting system needs to be in a normally-off state or not is judged according to the activity data of the cell, and the lighting system enters the first operation mode, so that the cell does not keep conventional lighting all night and a large amount of electric energy is wasted, and inconvenience of pedestrians and vehicles in the cell at night is avoided.

In another embodiment of the present invention, a computer-readable storage medium stores a computer program, which when read and executed by a processor, implements the illumination control method described above.

When the computer readable storage medium runs, the illumination system of the cell can automatically enter a night mode under a proper condition by detecting the sunlight intensity of the cell, so that the intelligent operation is realized, and the waste of electric energy is avoided; meanwhile, in the night mode, whether the lighting system needs to be in a normally-off state or not is judged according to the activity data of the cell, and the lighting system enters the first operation mode, so that the cell does not keep conventional lighting all night and a large amount of electric energy is wasted, and inconvenience of pedestrians and vehicles in the cell at night is avoided.

Although the present disclosure has been described above, the scope of the present disclosure is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the spirit and scope of the present disclosure, and these changes and modifications are intended to be within the scope of the present disclosure.

Claims

1. A lighting control method, comprising the steps of:

acquiring the sunlight intensity of a cell;

acquiring activity data in a cell after the lighting system in the cell enters a night mode; wherein the activity data comprises people flow data and vehicle flow data;

if the second analysis result meets the preset activity condition, controlling the lighting system in the cell to be in an normally off state and entering a first operation mode; wherein the first mode of operation comprises: when detecting that the pedestrian enters the cell or leaves the cell building, displaying and analyzing the position of the pedestrian on an electronic map of the cell, and detecting whether an illuminating lamp exists in a first radius range by taking the position of the pedestrian as the center of a circle; if the lighting lamp is detected to exist in the first radius range, controlling the lighting lamp to emit light; if the lighting lamp does not exist in the first radius range, the first radius is enlarged and then the detection is carried out again until the lighting lamp is searched; when the fact that the vehicle drives into the cell is detected, the position of the vehicle is displayed and analyzed on the electronic map of the cell, and whether an illuminating lamp exists in a second radius range or not is detected by taking the position of the vehicle as the center of a circle; if the lighting lamp is detected to exist in the second radius range, controlling the lighting lamp to emit light; if the lighting lamp is detected not to exist in the second radius range, the second radius is enlarged and then the detection is carried out again until the lighting lamp is searched; the electronic map of the community stores the building information and the lighting lamp information.

2. The lighting control method of claim 1, wherein the analyzing the acquired sunshine intensity to obtain a first analysis result, and determining whether the first analysis result meets a preset sunshine condition includes:

3. The lighting control method according to claim 1, wherein the analyzing the acquired activity data to obtain a second analysis result, and determining whether the second analysis result satisfies an activity preset condition includes:

4. The lighting control method of claim 1, wherein the first mode of operation further comprises:

5. The lighting control method of claim 4, wherein the obtaining vehicle information and determining whether the vehicle is a garbage truck comprises:

or acquiring the license plate information of the vehicle;

6. The lighting control method of claim 5, wherein the first mode of operation further comprises:

7. A lighting control system, comprising:

the system comprises an acquisition unit, a control unit and a display unit, wherein the acquisition unit is used for acquiring the sunshine intensity of a cell and acquiring activity data in the cell; wherein the activity data comprises people flow data and vehicle flow data;

the control unit is used for controlling the illumination system in the cell to enter a night mode if the first analysis result meets the sunshine preset condition, and enabling the illumination system in the cell to be in a normally off state and enter a first operation mode if the second analysis result meets the activity preset condition; wherein the first mode of operation comprises: when detecting that the pedestrian enters the cell or leaves the cell building, displaying and analyzing the position of the pedestrian on an electronic map of the cell, and detecting whether an illuminating lamp exists in a first radius range by taking the position of the pedestrian as the center of a circle; if the lighting lamp is detected to exist in the first radius range, controlling the lighting lamp to emit light; if the lighting lamp does not exist in the first radius range, the first radius is enlarged and then the detection is carried out again until the lighting lamp is searched; when the fact that the vehicle drives into the cell is detected, the position of the vehicle is displayed and analyzed on the electronic map of the cell, and whether an illuminating lamp exists in a second radius range or not is detected by taking the position of the vehicle as the center of a circle; if the lighting lamp is detected to exist in the second radius range, controlling the lighting lamp to emit light; if the lighting lamp is detected not to exist in the second radius range, the second radius is enlarged and then the detection is carried out again until the lighting lamp is searched; the electronic map of the community stores the building information and the lighting lamp information.

8. A computer-readable storage medium, characterized in that it stores a computer program which, when read and executed by a processor, implements a lighting control method according to any one of claims 1-6.