CN111885791A - Intelligent community light partition intelligent lighting system - Google Patents

Abstract

The invention discloses an intelligent community light partition intelligent lighting system which comprises a community synchronization unit, a personnel monitoring unit, a region division unit, a lighting setting unit, a display unit, a lighting control unit, a storage unit and lighting equipment, wherein the community synchronization unit is used for monitoring personnel; according to the invention, the area of the cell is divided according to the position of the cell lighting equipment, and after the division is finished; performing corresponding time period analysis, dividing the cell into 24 time periods, dividing each six time periods into a large interval correspondingly, and selecting a key time period in the four intervals to perform analysis and monitoring; monitoring the people flow conditions of each region, performing comprehensive analysis according to the people flow conditions of different time periods, obtaining a comprehensive people number Zri by combining a related algorithm, and then performing popular degree division of the region according to a comprehensive people number Zri; obtaining a hot area, a conventional area and a cold area after the division; and performs lighting control of different situations for different areas using the lighting devices.

Description

Intelligent community light partition intelligent lighting system

Technical Field

The invention belongs to the field of illumination control, relates to a smart community illumination technology, and particularly relates to a smart community light partition intelligent illumination system.

Background

Patent publication No. CN103338552A discloses a community LED illumination remote control system, its characterized in that: contain control module and controlled LED lighting module, control module contains controller, wireless transmitter a, wireless receiver a, encoder a, decoder a and antenna a, and controlled LED lighting module contains LED lamps and lanterns, trouble monitoring module, electronic switch, encoder b, decoder b, photoelectric sensor, wireless receiver b, wireless transmitter b and antenna b. Like this, realized the teletransmission control between the LED lighting control system through wireless transceiver for need not to carry out complicated wiring at the in-process of installation again, practiced thrift manpower and materials, also more pleasing to the eye simultaneously.

However, for the current smart community, the light control is not reasonably divided based on the activity condition of the personnel, and different illumination degrees are provided for different areas, so that part of areas with high activity frequency of the personnel are caused, the illumination degree is not enough, and troubles are brought to users; part of places where no people arrive or few people arrive keep high-brightness illumination, so that the power waste situation occurs; to solve this problem, a solution is first provided.

Disclosure of Invention

The invention aims to provide an intelligent community lighting partition intelligent lighting system.

The purpose of the invention can be realized by the following technical scheme:

an intelligent community light partition intelligent lighting system comprises a community synchronization unit, a personnel monitoring unit, an area division unit, a lighting setting unit, a display unit, a lighting control unit, a storage unit and lighting equipment;

the community synchronization unit is used for synchronizing a community map and transmitting community map information to the personnel monitoring unit, and position information of community lighting equipment is marked on the map information; the personnel monitoring unit receives the community map information transmitted by the community synchronization unit and carries out personnel follow-up division processing on the community map information, and the personnel follow-up division processing comprises the following specific steps:

the method comprises the following steps: acquiring the position information of all cell lighting equipment, and marking the position information as lighting position points;

step two: drawing a circle by taking the illumination position point as a circle center and the designated distance length as a radius to obtain a plurality of illumination position areas; marking the illuminated location area as Zi, i 1.. n;

step three: then, time interval division is carried out, and 24 time intervals Dj are obtained, wherein j is 1.. 24;

step four: extracting time intervals to obtain an observation time interval group Gj, j being 1.. 4;

step five: continuously accumulating data for one month, and updating the data every other one month after the accumulation is finished, wherein the specific accumulation process is as follows:

monitoring the number of people passing through each illumination position area Zi in the four periods, wherein a single number of people indicates that any pedestrian passes through the area, and if the pedestrian does not return within the preset time T1, the pedestrian is marked as a single number of people;

the number of people passed by each of the four time slots in each of the illumination location areas Zi is labeled Rij, i 1.. n, j 1.. 4;

the personnel monitoring unit is used for transmitting the corresponding illumination position area Zi and the number of people Rij passing through to the area dividing unit, the area dividing unit is used for carrying out area comprehensive analysis on the illumination position area Zi and the number of people Rij to obtain a comprehensive number of people Zri, i is 1.

The area division unit is used for transmitting the comprehensive people Zri and the corresponding lighting position areas Zi to the lighting setting unit, the lighting equipment unit is used for conducting lighting analysis on the comprehensive people Zri and the corresponding lighting position areas Zi, and the specific analysis steps are as follows:

SS 1: acquiring Zri corresponding illumination position areas Zi and corresponding comprehensive times thereof;

SS 2: marking the corresponding lighting position areas Zi with the comprehensive times Zri being more than or equal to X1 as hot areas;

marking the corresponding illumination position area Zi with X2 < comprehensive times Zri < X1 as a conventional area;

marking the corresponding illumination position area Zi with the comprehensive number Zri < X2 as a cold door area;

the illumination setting unit is used for transmitting the hot area, the normal area and the cold area to the storage unit, and the storage unit is used for covering the hot area, the normal area and the cold area with original data and storing the original data; the illumination setting unit is used for transmitting the hot area, the conventional area and the cold area to the display unit for real-time display;

the illumination setting unit is used for transmitting an on-demand control signal to the illumination control unit when a hot door area, a normal area and a cold door area are processed; the illumination control unit is used for automatically combining the storage unit and the illumination equipment to carry out illumination real-time adjustment when receiving the on-demand control signal transmitted by the illumination setting unit, and the specific adjustment mode is as follows:

SS 01: firstly, for a hot area, as long as the illumination intensity is lower than the preset illumination intensity Yd1, all lights corresponding to the hot area can be automatically turned on, and the illumination intensity is controlled to be the maximum value Dz 1;

for the conventional area, when the illuminance is lower than Yd2, automatically turning on all lights corresponding to the conventional area, and controlling the illuminance to be a preset illuminance Dz2, wherein Dz2 is 0.7 × Dz 1;

for the cold door area, only when the illumination intensity is lower than Yd3, all lights corresponding to the cold door area are turned on, and the illumination intensity is controlled to be a preset illumination intensity Dz3, wherein Dz3 is 0.55 × Dz 1;

in the process, Yd1, Yd2, Yd3 and Dz1 are preset values, and Yd1 is more than Yd2 and is more than Yd 3;

SS 04: and finishing the real-time adjustment of the illumination.

Further, the time interval division in step three is specifically as follows:

dividing one day into 24 time intervals, taking the first time interval from zero to one point, and repeating the above steps to obtain 24 time intervals Dj, j being 1.. 24.

Further, the specific steps of the time interval extraction in the fourth step are as follows:

s1: firstly, dividing 24 time intervals Dj into four intervals;

s2: dividing 24 time intervals Dj into four intervals from the first time interval by taking six time intervals as one interval;

s3: selecting one time interval from the four intervals, marking the time interval as an observation time interval, and obtaining an observation time interval group Gj, j being 1.. 4; g1 indicates the time period selected from D1-D6, the rest being selected in turn.

Further, the specific analysis steps of the area comprehensive analysis are as follows:

s1: acquiring a corresponding illumination position area Zi and a number Rij of people;

s2: selecting a corresponding illumination position area Z1 to obtain a corresponding number of people R1j when i is equal to 1;

s3: calculating the comprehensive artificial Zr1, wherein the specific calculation formula is as follows:

Zr1＝0.312*R11+0.188*R12+0.211*R13+0.289*R14；

in the formula, 0.312, 0.188, 0.211 and 0.289 are the weight values of each element;

s4: and repeating the steps S3 to S4 until all the illumination position areas are processed, so as to obtain a comprehensive number Zri of the corresponding illumination position areas, where i is 1.. n, and Zri corresponds to Zi one to one.

The invention has the beneficial effects that:

according to the invention, the area of the cell is divided according to the position of the cell lighting equipment, and after the division is finished; performing corresponding time period analysis, dividing the cell into 24 time periods, dividing each six time periods into a large interval correspondingly, and selecting a key time period in the four intervals to perform analysis and monitoring; monitoring the people flow conditions of each region, performing comprehensive analysis according to the people flow conditions of different time periods, obtaining a comprehensive people number Zri by combining a related algorithm, and then performing popular degree division of the region according to a comprehensive people number Zri; obtaining a hot area, a conventional area and a cold area after the division; and performing lighting control of different conditions on different areas by using the lighting equipment; the key hot area is highly illuminated, personnel activities are guaranteed, a small amount of fresh areas of the personnel are illuminated, and electric quantity waste is avoided; the invention is simple, effective and easy to use.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a block diagram of the system of the present invention.

Detailed Description

As shown in fig. 1, an intelligent community lighting partitioned intelligent lighting system includes a community synchronization unit, a personnel monitoring unit, an area division unit, a lighting setting unit, a display unit, a lighting control unit, a storage unit and a lighting device;

the community synchronization unit is used for synchronizing a community map and transmitting community map information to the personnel monitoring unit, and position information of community lighting equipment is marked on the map information; the personnel monitoring unit receives the community map information transmitted by the community synchronization unit and carries out personnel follow-up division processing on the community map information, and the personnel follow-up division processing comprises the following specific steps:

the method comprises the following steps: acquiring the position information of all cell lighting equipment, and marking the position information as lighting position points;

step two: drawing a circle by taking the illumination position point as a circle center and the designated distance length as a radius to obtain a plurality of illumination position areas; marking the illuminated location area as Zi, i 1.. n;

step three: and then, time interval division is carried out, and the specific division mode is as follows:

dividing one day into 24 time intervals, taking the first time interval from zero to one point, and repeating the steps to obtain 24 time intervals Dj, wherein j is 1.. 24;

step four: performing time interval extraction, wherein the time interval extraction comprises the following specific steps:

s1: firstly, dividing 24 time intervals Dj into four intervals;

s2: dividing 24 time intervals Dj into four intervals from the first time interval by taking six time intervals as one interval;

s3: selecting one time interval from the four intervals, marking the time interval as an observation time interval, and obtaining an observation time interval group Gj, j being 1.. 4; g1 represents the time interval selected from D1-D6, the rest are selected in turn;

step five: continuously accumulating data for one month, and updating the data every other one month after the accumulation is finished, wherein the specific accumulation process is as follows:

monitoring the number of people passing through each illumination position area Zi in the four periods, wherein a single number of people indicates that any pedestrian passes through the area, and if the pedestrian does not return within the preset time T1, the pedestrian is marked as a single number of people;

the number of people passed by each of the four time slots in each of the illumination location areas Zi is labeled Rij, i 1.. n, j 1.. 4;

the personnel monitoring unit is used for transmitting the corresponding illumination position area Zi and the number of people Rij passing through to the area dividing unit, the area dividing unit is used for carrying out area comprehensive analysis on the illumination position area Zi and the number of people Rij, and the specific analysis steps are as follows:

s1: acquiring a corresponding illumination position area Zi and a number Rij of people;

s2: selecting a corresponding illumination position area Z1 to obtain a corresponding number of people R1j when i is equal to 1;

s3: calculating the comprehensive artificial Zr1, wherein the specific calculation formula is as follows:

Zr1＝0.312*R11+0.188*R12+0.211*R13+0.289*R14；

in the formula, 0.312, 0.188, 0.211 and 0.289 are weights of all elements, and the weights are introduced to embody the factors because the influence of all factors is different;

s4: repeating the steps S3-S4 until all the illumination position areas are processed, and obtaining a comprehensive number of people Zri of each corresponding illumination position area, where i is 1.. n, and Zri corresponds to Zi one by one;

the area division unit is used for transmitting the comprehensive people Zri and the corresponding lighting position areas Zi to the lighting setting unit, the lighting equipment unit is used for conducting lighting analysis on the comprehensive people Zri and the corresponding lighting position areas Zi, and the specific analysis steps are as follows:

SS 1: acquiring Zri corresponding illumination position areas Zi and corresponding comprehensive times thereof;

SS 2: marking the corresponding lighting position areas Zi with the comprehensive times Zri being more than or equal to X1 as hot areas;

marking the corresponding illumination position area Zi with X2 < comprehensive times Zri < X1 as a conventional area;

marking the corresponding illumination position area Zi with the comprehensive number Zri < X2 as a cold door area;

the illumination setting unit is used for transmitting the hot area, the normal area and the cold area to the storage unit, and the storage unit is used for covering the hot area, the normal area and the cold area with original data and storing the original data; the illumination setting unit is used for transmitting the hot area, the conventional area and the cold area to the display unit for real-time display;

the illumination setting unit is used for transmitting an on-demand control signal to the illumination control unit when a hot door area, a normal area and a cold door area are processed; the illumination control unit is used for automatically combining the storage unit and the illumination equipment to carry out illumination real-time adjustment when receiving the on-demand control signal transmitted by the illumination setting unit, and the specific adjustment mode is as follows:

SS 01: firstly, for a hot area, as long as the illumination intensity is lower than the preset illumination intensity Yd1, all lights corresponding to the hot area can be automatically turned on, and the illumination intensity is controlled to be the maximum value Dz 1;

for the conventional area, when the illuminance is lower than Yd2, automatically turning on all lights corresponding to the conventional area, and controlling the illuminance to be a preset illuminance Dz2, wherein Dz2 is 0.7 × Dz 1;

for the cold door area, only when the illumination intensity is lower than Yd3, all lights corresponding to the cold door area are turned on, and the illumination intensity is controlled to be a preset illumination intensity Dz3, wherein Dz3 is 0.55 × Dz 1;

in the process, Yd1, Yd2, Yd3 and Dz1 are preset values, and Yd1 is more than Yd2 and is more than Yd 3;

SS 04: and finishing the real-time adjustment of the illumination.

An intelligent community light partition intelligent lighting system is characterized in that a community is divided into areas according to the position of lighting equipment of the community, and after division is finished; performing corresponding time period analysis, dividing the cell into 24 time periods, dividing each six time periods into a large interval correspondingly, and selecting a key time period in the four intervals to perform analysis and monitoring; monitoring the people flow conditions of each region, performing comprehensive analysis according to the people flow conditions of different time periods, obtaining a comprehensive people number Zri by combining a related algorithm, and then performing popular degree division of the region according to a comprehensive people number Zri; obtaining a hot area, a conventional area and a cold area after the division; and performing lighting control of different conditions on different areas by using the lighting equipment; the key hot area is highly illuminated, personnel activities are guaranteed, a small amount of fresh areas of the personnel are illuminated, and electric quantity waste is avoided; the invention is simple, effective and easy to use.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (4)

1. An intelligent community light partition intelligent lighting system is characterized by comprising a community synchronization unit, a personnel monitoring unit, a region division unit, a lighting setting unit, a display unit, a lighting control unit, a storage unit and lighting equipment;

the community synchronization unit is used for synchronizing a community map and transmitting community map information to the personnel monitoring unit, and position information of community lighting equipment is marked on the map information; the personnel monitoring unit receives the community map information transmitted by the community synchronization unit and carries out personnel follow-up division processing on the community map information, and the personnel follow-up division processing comprises the following specific steps:

the method comprises the following steps: acquiring the position information of all cell lighting equipment, and marking the position information as lighting position points;

step two: drawing a circle by taking the illumination position point as a circle center and the designated distance length as a radius to obtain a plurality of illumination position areas; marking the illuminated location area as Zi, i 1.. n;

step three: then, time interval division is carried out, and 24 time intervals Dj are obtained, wherein j is 1.. 24;

step four: extracting time intervals to obtain an observation time interval group Gj, j being 1.. 4;

step five: continuously accumulating data for one month, and updating the data every other one month after the accumulation is finished, wherein the specific accumulation process is as follows:

monitoring the number of people passing through each illumination position area Zi in the four periods, wherein a single number of people indicates that any pedestrian passes through the area, and if the pedestrian does not return within the preset time T1, the pedestrian is marked as a single number of people;

the number of people passed by each of the four time slots in each of the illumination location areas Zi is labeled Rij, i 1.. n, j 1.. 4;

the personnel monitoring unit is used for transmitting the corresponding illumination position area Zi and the number of people Rij passing through to the area dividing unit, the area dividing unit is used for carrying out area comprehensive analysis on the illumination position area Zi and the number of people Rij to obtain a comprehensive number of people Zri, i is 1.

The area division unit is used for transmitting the comprehensive people Zri and the corresponding lighting position areas Zi to the lighting setting unit, the lighting equipment unit is used for conducting lighting analysis on the comprehensive people Zri and the corresponding lighting position areas Zi, and the specific analysis steps are as follows:

SS 1: acquiring Zri corresponding illumination position areas Zi and corresponding comprehensive times thereof;

SS 2: marking the corresponding lighting position areas Zi with the comprehensive times Zri being more than or equal to X1 as hot areas;

marking the corresponding illumination position area Zi with X2 < comprehensive times Zri < X1 as a conventional area;

marking the corresponding illumination position area Zi with the comprehensive number Zri < X2 as a cold door area;

the illumination setting unit is used for transmitting the hot area, the normal area and the cold area to the storage unit, and the storage unit is used for covering the hot area, the normal area and the cold area with original data and storing the original data; the illumination setting unit is used for transmitting the hot area, the conventional area and the cold area to the display unit for real-time display;

the illumination setting unit is used for transmitting an on-demand control signal to the illumination control unit when a hot door area, a normal area and a cold door area are processed; the illumination control unit is used for automatically combining the storage unit and the illumination equipment to carry out illumination real-time adjustment when receiving the on-demand control signal transmitted by the illumination setting unit, and the specific adjustment mode is as follows:

SS 01: firstly, for a hot area, as long as the illumination intensity is lower than the preset illumination intensity Yd1, all lights corresponding to the hot area can be automatically turned on, and the illumination intensity is controlled to be the maximum value Dz 1;

for the conventional area, when the illuminance is lower than Yd2, automatically turning on all lights corresponding to the conventional area, and controlling the illuminance to be a preset illuminance Dz2, wherein Dz2 is 0.7 × Dz 1;

for the cold door area, only when the illumination intensity is lower than Yd3, all lights corresponding to the cold door area are turned on, and the illumination intensity is controlled to be a preset illumination intensity Dz3, wherein Dz3 is 0.55 × Dz 1;

in the process, Yd1, Yd2, Yd3 and Dz1 are preset values, and Yd1 is more than Yd2 and is more than Yd 3;

SS 04: and finishing the real-time adjustment of the illumination.

2. The intelligent lighting system for intelligent community lighting partitions according to claim 1, wherein the time interval division in step three is as follows:

dividing one day into 24 time intervals, taking the first time interval from zero to one point, and repeating the above steps to obtain 24 time intervals Dj, j being 1.. 24.

3. The intelligent lighting system for intelligent community lighting partitions according to claim 1, wherein the time interval extraction in step four comprises the following steps:

s1: firstly, dividing 24 time intervals Dj into four intervals;

s2: dividing 24 time intervals Dj into four intervals from the first time interval by taking six time intervals as one interval;

s3: selecting one time interval from the four intervals, marking the time interval as an observation time interval, and obtaining an observation time interval group Gj, j being 1.. 4; g1 indicates the time period selected from D1-D6, the rest being selected in turn.

4. The intelligent lighting system for intelligent community lighting partitions according to claim 1, wherein the detailed analysis steps of the comprehensive analysis are as follows:

s1: acquiring a corresponding illumination position area Zi and a number Rij of people;

s2: selecting a corresponding illumination position area Z1 to obtain a corresponding number of people R1j when i is equal to 1;

s3: calculating the comprehensive artificial Zr1, wherein the specific calculation formula is as follows:

Zr1＝0.312*R11+0.188*R12+0.211*R13+0.289*R14；

in the formula, 0.312, 0.188, 0.211 and 0.289 are the weight values of each element;

s4: and repeating the steps S3 to S4 until all the illumination position areas are processed, so as to obtain a comprehensive number Zri of the corresponding illumination position areas, where i is 1.. n, and Zri corresponds to Zi one to one.

Images