CN112074055B - Illumination control system with energy-saving effect in community - Google Patents

Abstract

The invention discloses an illumination control system with an energy-saving effect in a cell, which can accurately and effectively improve the control effect of illumination equipment by analyzing and processing three aspects of environment brightness information, moving object body shape information and moving object speed information through the matched use of a data acquisition module, a data processing module, a data analysis module, a database, a processor, a monitoring module, a control module, a prompt module, a power supply module and a data transmission module, thereby achieving the purpose of improving the energy-saving effect; the environment brightness analysis data is obtained by analyzing the environment brightness data in the data processing information, and the lighting equipment can be automatically controlled to be turned on and off through the environment brightness analysis data, so that the energy-saving effect can be achieved; the invention can solve the problems that the energy-saving effect is poor because the lighting equipment cannot be accurately and automatically controlled, and the lighting equipment cannot be automatically switched on and off and the effect of automatic switching on and off is poor.

Description

Illumination control system with energy-saving effect in community

Technical Field

The invention relates to the technical field of illumination energy conservation, in particular to an illumination control system with an energy-saving effect in a community.

Background

The lighting energy saving belongs to one of important components of building energy saving and environmental energy saving, the category of the lighting energy saving comprises selection of lighting sources, illumination distribution optimization and control of lighting time, so as to achieve the purpose of maximizing the effective utilization rate of lighting, and the method comprises the steps of fully utilizing natural lighting of windows, balconies and ceilings, and adopting an electric sunshade control technology to realize effective utilization of the natural lighting; the energy-saving LED light source is adopted, and the energy consumption ratio of the light source can be greatly reduced on the premise of the same illumination and color temperature; the intelligent illumination control technology is adopted to automatically control the effective illumination area, illumination requirement and illumination time, so that the efficiency of artificial illumination is improved; the existing lighting control system with the energy-saving effect has certain defects when in use.

Publication number CN108347818a discloses a comprehensive energy-saving system for community illumination, which comprises a controller module, an on-off module, an information detection module, an illumination device module, an information transmission module, a monitoring module, a sound-sensitive module and a photosensitive module. The beneficial effects of the invention are: through connecting controller module connection information detection module, make the controller module can calculate the processing with the information that information detection module collected, through connecting information detection module photosensitive module, make information detection module can detect the information that photosensitive module collected, through connecting the monitoring module with the sound sensitive module, make the sound in the sound sensitive module, can monitor through monitoring module, through connecting monitoring module information transport module, make the information that monitoring module collected can carry through information transport module, after the photosensitive module of illumination transmitted the information, after two conditions satisfied simultaneously, controller module control break-make, thereby reach energy-conserving effect. The existing defects include: the problems that the energy-saving effect is poor due to the fact that automatic control cannot be accurately carried out on the lighting equipment, and the lighting equipment cannot be automatically switched on and off and the effect of automatic switching on and off is poor exist; therefore, a lighting control system with an energy-saving effect in a cell is provided.

Disclosure of Invention

The invention aims to provide an illumination control system with an energy-saving effect in a cell, and the technical problem to be solved by the invention is as follows:

(1) The problem that the energy-saving effect is poor due to the fact that automatic control cannot be accurately carried out on the lighting device is solved; through the matched use of the data acquisition module, the data processing module, the data analysis module, the database, the processor, the monitoring module, the control module, the prompt module, the power supply module and the data transmission module, the illumination device can be accurately and automatically controlled, and the energy-saving effect can be improved; the method comprises the steps that a data acquisition module is used for acquiring data information around the lighting equipment, wherein the data information comprises environment brightness information, moving object body shape information and moving object speed information, the data information is transmitted to a data processing module and a database, the data processing module is used for processing the data information to obtain data processing information, the data processing information is transmitted to a data analysis module, the data analysis module is used for analyzing the data processing information, a monitoring module is used for receiving and monitoring the data analysis information sent by the data analysis module, and the environment brightness information, the moving object body shape information and the moving object speed information are analyzed and processed, so that the control effect of the lighting equipment can be accurately and effectively improved, the aim of improving the energy-saving effect is fulfilled, and the problem that the energy-saving effect is poor due to the fact that the lighting equipment cannot be accurately and automatically controlled in the existing scheme is solved;

(2) The problems that the lighting equipment cannot be automatically switched on and switched off and the automatic switching effect is poor are solved; the environment brightness analysis data is obtained by analyzing the environment brightness data in the data processing information, and the lighting equipment can be automatically controlled to be turned on and off through the environment brightness analysis data, so that the energy-saving effect can be achieved; the moving object body shape data in the data processing information is analyzed to obtain moving object body shape analysis data, the lighting equipment can be automatically controlled to be turned on and off by utilizing the moving object body shape analysis data, and the defect that the lighting equipment is controlled by utilizing sound in the existing scheme can be overcome; the method comprises the steps of analyzing moving object speed data in data processing information to obtain moving object speed analysis data, utilizing the moving object speed analysis data to automatically control the lighting equipment to be turned on and turned off, and overcoming the defect that the distance between a moving object and the lighting equipment cannot be determined in the existing scheme, so that the lighting equipment cannot be turned on and turned off intelligently, the control effect of the lighting equipment is poor, and the problems that the lighting equipment cannot be turned on or turned off automatically and the effect of the automatic switching is poor in the existing scheme are solved.

The purpose of the invention can be realized by the following technical scheme: an illumination control system with an energy-saving effect in a cell comprises a data acquisition module, a data processing module, a data analysis module, a database, a processor, a monitoring module, a control module, a prompt module, a power supply module and a data transmission module;

the data acquisition module is used for acquiring data information around the lighting equipment, wherein the data information comprises environment brightness information, moving object body shape information and moving object speed information, and transmitting the data information to the data processing module and the database;

the data analysis module is used for analyzing the data processing information to obtain data analysis information and transmitting the data analysis information to the processor and the monitoring module, and the specific working steps comprise:

the method comprises the following steps: acquiring data processing information, and analyzing the ambient brightness data in the data processing information to obtain ambient brightness analysis data;

step two: analyzing the moving object body shape data in the data processing information to obtain moving object body shape analysis data;

step three: analyzing the moving object speed data in the data processing information to obtain moving object speed analysis data;

step four: combining the environment brightness analysis data, the moving object body shape analysis data and the moving object speed analysis data to obtain data analysis information;

the monitoring module is used for receiving and monitoring the data analysis information sent by the data analysis module, and the specific working steps comprise:

step 1: acquiring environment brightness analysis data, moving object body shape analysis data and moving object speed analysis data in the data analysis information;

step 2: comparing the environmental brightness data by using preset standard brightness data to generate a first analysis signal, and sending the first analysis signal to the processor, the prompt module and the control module;

and step 3: comparing the moving object body shape analysis data by using preset standard body shape data to generate a second analysis signal, and sending the second analysis signal to the processor, the prompt module and the control module;

and 4, step 4: comparing the moving object speed analysis data by using preset standard speed data to generate a third analysis signal, and sending the third analysis signal to the processor, the prompt module and the control module;

the prompting module is used for prompting whether the operation of the data acquisition module is normal or not, and the power supply module is used for supplying electric energy to the operation of the lighting equipment and each module.

As a further improvement of the invention: the data processing module is used for processing data information, and the specific operation steps comprise:

s21: acquiring data information, calibrating environment brightness information in the data information into environment brightness data, and setting the environment brightness data to be HLi, i =1,2,3. Grading the environmental brightness data by using a preset environmental brightness weight, and performing descending order to obtain an environmental brightness order set;

s22: marking the moving object body shape information in the data information as moving object body shape data, and setting the moving object body shape data as YTi, i =1,2,3.. N; the method comprises the steps of performing grade division on moving object body shape data by using a preset moving object body shape weight, and performing descending order to obtain a moving object body shape order set;

s23: calibrating moving object speed information in the data information into moving object speed data, and setting the moving object speed data as YSi, i =1,2,3.. N; and carrying out grade division on the moving object speed data by using a preset moving object speed weight, and carrying out descending order to obtain a moving object speed ordered set.

As a further improvement of the invention: analyzing the ambient brightness data in the data processing information to obtain ambient brightness analysis data, wherein the specific working steps comprise:

s31: acquiring ambient brightness data in the data processing information, and setting a brightness value in the ambient brightness data to HLZi, i =1,2,3.. N;

s32: obtaining an ambient brightness migration value by using an ambient brightness migration calculation formula, wherein the ambient brightness migration calculation formula is as follows:

wherein Q is _HLi Expressing the environment brightness migration value, expressing alpha as a preset environment brightness migration factor, and expressing HLZ0 as a preset environment brightness migration standard value;

s33: and judging the ambient brightness migration value by using a preset ambient brightness migration standard range to obtain ambient brightness analysis data.

As a further improvement of the invention: analyzing the moving object body shape data in the data processing information to obtain moving object body shape analysis data, wherein the specific working steps comprise:

s41: acquiring data processing information, screening moving object body shape data in the data processing information by using an image recognition algorithm to obtain moving object screening data, and setting the moving object screening data as YWSi, i =1,2,3.. N;

s42: comparing the moving object characteristic data in the moving object screening data with preset local shape characteristic data, and acquiring a moving object characteristic similarity value by using a similarity calculation formula, wherein the similarity calculation formula is as follows:

wherein Q is _TXi Expressed as a moving object feature similarity value, β is expressed as a preset moving object feature factor, YTZi is expressed as moving object feature data, and YTZj is expressed as preset local shape feature data;

s43: comparing the moving object characteristic similarity value with a preset standard similarity value range, and if the moving object characteristic similarity value belongs to the standard similarity value range, grouping and storing moving object characteristic data corresponding to the moving object characteristic similarity value to obtain first moving object characteristic comparison data; if the moving object characteristic similarity value does not belong to the standard similarity value range, grouping and storing moving object characteristic data corresponding to the moving object characteristic similarity value to obtain second moving object characteristic comparison data;

s44: and combining the first moving object characteristic comparison data and the second moving object characteristic comparison data to obtain moving object body shape analysis data.

As a further improvement of the invention: analyzing the moving object speed data in the data processing information to obtain moving object speed analysis data, wherein the specific working steps comprise:

s51: acquiring moving object speed data in the data processing information, acquiring a first speed value and a second speed value in the moving object speed data at two different time points, and setting the first speed value as WSYi, i =1,2,3.. N; setting a second speed value to WSEi, i =1,2,3.. N;

s52: obtaining the average value of the speed of the moving object by using an average speed calculation formula, wherein the average speed calculation formula is as follows:

wherein Q is _WPi Expressed as the average value of the speed of the moving object, and T0 is expressed as the difference value of two different time points;

s53: and judging the illumination range of the moving object entering the illumination equipment by using the average value of the speed of the moving object to obtain analysis data of the speed of the moving object.

As a further improvement of the invention: the control module is used for controlling the on and off of the lighting equipment, and the data transmission module is used for transmitting data between the lighting equipment and each module.

The invention has the beneficial effects of various aspects:

(1) On one hand, the lighting device can be accurately and automatically controlled and the energy-saving effect can be improved by matching the data acquisition module, the data processing module, the data analysis module, the database, the processor, the monitoring module, the control module, the prompt module, the power supply module and the data transmission module; the data acquisition module is used for acquiring data information around the lighting equipment, the data information comprises environment brightness information, moving object body shape information and moving object speed information, the data information is transmitted to the data processing module and the database, the data processing module is used for processing the data information to obtain data processing information, the data processing information is transmitted to the data analysis module, the data analysis module is used for analyzing the data processing information, the monitoring module is used for receiving and monitoring the data analysis information sent by the data analysis module, the environment brightness information, the moving object body shape information and the moving object speed information are analyzed and processed, the control effect of the lighting equipment can be accurately and effectively improved, the purpose of improving the energy-saving effect is achieved, and the problem that the energy-saving effect is poor due to the fact that automatic control cannot be accurately carried out on the lighting equipment in the existing scheme is solved.

(2) On the other hand, the environment brightness analysis data is obtained by analyzing the environment brightness data in the data processing information, and the illumination equipment can be automatically controlled to be turned on and off through the environment brightness analysis data, so that the energy-saving effect can be achieved; the moving object body shape data in the data processing information is analyzed to obtain moving object body shape analysis data, the lighting equipment can be automatically controlled to be turned on and off by utilizing the moving object body shape analysis data, and the defect that the lighting equipment is controlled by utilizing sound in the existing scheme can be overcome; the method comprises the steps of analyzing moving object speed data in data processing information to obtain moving object speed analysis data, utilizing the moving object speed analysis data to automatically control the lighting equipment to be turned on and turned off, and overcoming the defect that the distance between a moving object and the lighting equipment cannot be determined in the existing scheme, so that the lighting equipment cannot be turned on and turned off intelligently, the control effect of the lighting equipment is poor, and the problems that the lighting equipment cannot be turned on or turned off automatically and the effect of the automatic switching is poor in the existing scheme are solved.

Drawings

The invention is further described below with reference to the accompanying drawings.

Fig. 1 is a system block diagram of a lighting control system with energy saving effect in a cell 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, the present invention is an illumination control system with energy saving effect in a cell, including a data acquisition module, a data processing module, a data analysis module, a database, a processor, a monitoring module, a control module, a prompt module, a power module and a data transmission module;

the data acquisition module is used for acquiring data information around the lighting equipment, wherein the data information comprises environment brightness information, moving object body shape information and moving object speed information, and transmitting the data information to the data processing module and the database; the data processing module is used for processing data information, and the specific operation steps comprise:

acquiring data information, calibrating environment brightness information in the data information into environment brightness data, and setting the environment brightness data to be HLi, i =1,2,3. Grading the environmental brightness data by using a preset environmental brightness weight, and performing descending order to obtain an environmental brightness order set;

marking the moving object body shape information in the data information as moving object body shape data, and setting the moving object body shape data as YTi, i =1,2,3.. N; the method comprises the steps of performing grade division on moving object body shape data by using a preset moving object body shape weight, and performing descending order to obtain a moving object body shape order set;

calibrating moving object speed information in the data information into moving object speed data, and setting the moving object speed data as YSi, i =1,2,3.. N; and carrying out grade division on the moving object speed data by using a preset moving object speed weight, and carrying out descending order to obtain a moving object speed ordered set.

The data analysis module is used for analyzing the data processing information to obtain data analysis information and transmitting the data analysis information to the processor and the monitoring module, and the specific working steps comprise:

the method comprises the following steps: acquiring data processing information, analyzing the ambient brightness data in the data processing information to obtain ambient brightness analysis data, wherein the specific working steps comprise:

acquiring ambient brightness data in the data processing information, and setting a brightness value in the ambient brightness data to HLZi, i =1,2,3.. N;

obtaining an ambient brightness migration value by using an ambient brightness migration calculation formula, wherein the ambient brightness migration calculation formula is as follows:

wherein Q is _HLi Expressing the environment brightness migration value, expressing alpha as a preset environment brightness migration factor, and expressing HLZ0 as a preset environment brightness migration standard value;

judging the ambient brightness migration value by using a preset ambient brightness migration standard range to obtain ambient brightness analysis data;

step two: analyzing the moving object body shape data in the data processing information to obtain moving object body shape analysis data, wherein the specific working steps comprise:

acquiring data processing information, screening moving object body shape data in the data processing information by using an image recognition algorithm to obtain moving object screening data, and setting the moving object screening data as YWSi, i =1,2,3.. N;

comparing the moving object characteristic data in the moving object screening data with preset local shape characteristic data, and acquiring a moving object characteristic similarity value by using a similarity calculation formula, wherein the similarity calculation formula is as follows:

wherein Q is _TXi Expressed as a moving object feature similarity value, β is expressed as a preset moving object feature factor, YTZi is expressed as moving object feature data, and YTZj is expressed as preset local shape feature data;

comparing the moving object characteristic similarity value with a preset standard similarity value range, and if the moving object characteristic similarity value belongs to the standard similarity value range, grouping and storing moving object characteristic data corresponding to the moving object characteristic similarity value to obtain first moving object characteristic comparison data; if the moving object characteristic similarity value does not belong to the standard similarity value range, grouping and storing moving object characteristic data corresponding to the moving object characteristic similarity value to obtain second moving object characteristic comparison data;

combining the first moving object characteristic comparison data and the second moving object characteristic comparison data to obtain moving object body shape analysis data;

step three: analyzing the moving object speed data in the data processing information to obtain moving object speed analysis data, wherein the specific working steps comprise:

acquiring moving object speed data in the data processing information, acquiring a first speed value and a second speed value in the moving object speed data at two different time points, and setting the first speed value as WSYi, wherein i =1,2,3.... N; setting a second speed value to WSEi, i =1,2,3.. N;

obtaining the average value of the speed of the moving object by using an average speed calculation formula, wherein the average speed calculation formula is as follows:

wherein Q is _WPi Expressed as the average value of the speed of the moving object, and T0 is expressed as the difference value of two different time points;

judging the illumination range of the moving object entering the illumination equipment by using the average value of the speed of the moving object to obtain analysis data of the speed of the moving object;

step four: combining the environment brightness analysis data, the moving object body shape analysis data and the moving object speed analysis data to obtain data analysis information;

the monitoring module is used for receiving and monitoring the data analysis information sent by the data analysis module, and the specific working steps comprise:

step 1: acquiring environment brightness analysis data, moving object body shape analysis data and moving object speed analysis data in the data analysis information;

step 2: comparing the environmental brightness analysis data by using preset standard brightness data to generate a first analysis signal, and sending the first analysis signal to the processor, the prompt module and the control module;

and step 3: comparing the moving object body shape analysis data by using preset standard body shape data to generate a second analysis signal, and sending the second analysis signal to the processor, the prompt module and the control module;

and 4, step 4: comparing the moving object speed analysis data by using preset standard speed data to generate a third analysis signal, and sending the third analysis signal to the processor, the prompt module and the control module;

the prompting module is used for prompting whether the operation of the data acquisition module is normal or not, and the power supply module is used for supplying electric energy to the operation of the lighting equipment and each module.

The control module is used for controlling the on and off of the lighting equipment, and the data transmission module is used for transmitting data between the lighting equipment and each module.

When the embodiment of the invention works, the data acquisition module is used for acquiring data information around the lighting equipment, wherein the data information comprises environment brightness information, body shape information of a moving object and speed information of the moving object, the data information is transmitted to the data processing module and the database, the data processing module is used for processing the data information to obtain data processing information, and the data processing information is transmitted to the data analysis module; the priority of the environment brightness information, the priority of the body shape information of the moving object and the priority of the speed information of the moving object are sequentially decreased, and the environment brightness information can be the brightness of light around the lighting equipment in the cell; the moving object body shape information may include, but is not limited to, body shape information of a moving person or pet; the moving object speed information may include, but is not limited to, speed information of a moving person or pet;

the data processing module is used for processing data information, and the specific operation steps comprise:

acquiring data information, and calibrating the ambient brightness information in the data information into ambient brightness data; grading the environmental brightness data by using a preset environmental brightness weight, and performing descending order to obtain an environmental brightness order set;

marking the moving object body shape information in the data information as moving object body shape data; the method comprises the steps of performing grade division on moving object body shape data by using a preset moving object body shape weight, and performing descending order to obtain a moving object body shape order set;

calibrating the moving object speed information in the data information into moving object speed data; and carrying out grade division on the moving object speed data by using a preset moving object speed weight, and carrying out descending order to obtain a moving object speed ordered set.

The data analysis module is used for analyzing the data processing information to obtain data analysis information, and the data analysis information is transmitted to the processor and the monitoring module, and the specific working steps comprise:

the method comprises the following steps: acquiring data processing information, analyzing the ambient brightness data in the data processing information to obtain ambient brightness analysis data, wherein the specific working steps comprise:

acquiring ambient brightness data in the data processing information;

acquiring an ambient brightness migration value by using an ambient brightness migration calculation formula;

judging the ambient brightness migration value by using a preset ambient brightness migration standard range to obtain ambient brightness analysis data; for example, the ambient brightness data includes the light intensity around the lighting device, the ambient brightness transition value of the light intensity obtained by calculation is 10, the ambient brightness transition standard range is [20,50], and the ambient brightness transition value does not belong to the ambient brightness transition standard range, so that the lighting device is controlled not to be turned on;

step two: analyzing the moving object body shape data in the data processing information to obtain moving object body shape analysis data, wherein the specific working steps comprise:

acquiring data processing information, and screening moving object body shape data in the data processing information by using an image recognition algorithm to obtain moving object screening data;

comparing the moving object characteristic data in the moving object screening data with preset local shape characteristic data, and acquiring a moving object characteristic similarity value by using a similarity calculation formula;

comparing the moving object characteristic similarity value with a preset standard similarity value range, and if the moving object characteristic similarity value belongs to the standard similarity value range, grouping and storing moving object characteristic data corresponding to the moving object characteristic similarity value to obtain first moving object characteristic comparison data; if the moving object characteristic similarity value does not belong to the standard similarity value range, grouping and storing moving object characteristic data corresponding to the moving object characteristic similarity value to obtain second moving object characteristic comparison data;

combining the first moving object characteristic comparison data and the second moving object characteristic comparison data to obtain moving object body shape analysis data; for example, the moving object body shape data includes moving people and pets, if only moving people exist in the moving object screening data, the preset local shape feature data may be a feature database of hands and feet of preset people, the moving object feature data may be a first moving object feature comparison data obtained by comparing and analyzing the hands and the feet of the obtained moving people, and the lighting device may be controlled to be turned on by using the first moving object feature comparison data; if only moving pets exist in the moving object screening data, second moving object characteristic comparison data can be obtained through comparison and analysis, and the lighting equipment can be controlled not to be started by utilizing the second moving object characteristic comparison data; if moving people and pets exist in the moving object screening data, first moving object characteristic comparison data can be obtained through comparison and analysis, and the lighting equipment can be controlled to be turned on by utilizing the first moving object characteristic comparison data;

step three: analyzing the moving object speed data in the data processing information to obtain moving object speed analysis data, wherein the specific working steps comprise:

acquiring moving object speed data in the data processing information, and acquiring a first speed value and a second speed value in the moving object speed data at two different time points;

obtaining the average value of the speed of the moving object by using an average speed calculation formula; for example, if the average value of the speed of the moving object is 1.4, the unit is m/s, and the distance from the illumination range of the illumination device is 2.8m, the illumination device is controlled to be turned on after 2 s;

step four: combining the environment brightness analysis data, the moving object body shape analysis data and the moving object speed analysis data to obtain data analysis information;

the monitoring module is used for receiving and monitoring data analysis information sent by the data analysis module, and the specific working steps comprise:

step 1: acquiring environment brightness analysis data, moving object body shape analysis data and moving object speed analysis data in the data analysis information;

and 2, step: comparing the environmental brightness analysis data by using preset standard brightness data to generate a first analysis signal, and sending the first analysis signal to the processor, the prompt module and the control module;

and step 3: comparing the moving object body shape analysis data by using preset standard body shape data to generate a second analysis signal, and sending the second analysis signal to the processor, the prompt module and the control module;

and 4, step 4: comparing the moving object speed analysis data by using preset standard speed data to generate a third analysis signal, and sending the third analysis signal to the processor, the prompt module and the control module;

whether the operation of the data acquisition module is normal or not is prompted by the prompt module, and the power module is used for supplying electric energy to the operation of the lighting equipment and each module.

The control module is used for controlling the lighting device to be turned on and off, and the data transmission module is used for carrying out data transmission between the lighting device and each module, wherein the data transmission module can comprise but is not limited to a cable or a wireless network with the model number of QCA 9880.

Compared with the prior art, on one hand, the lighting device can be accurately and automatically controlled and the energy-saving effect can be improved through the matched use of the data acquisition module, the data processing module, the data analysis module, the database, the processor, the monitoring module, the control module, the prompt module, the power supply module and the data transmission module; the data acquisition module is used for acquiring data information around the lighting equipment, the data information comprises environment brightness information, moving object body shape information and moving object speed information, the data information is transmitted to the data processing module and the database, the data processing module is used for processing the data information to obtain data processing information, the data processing information is transmitted to the data analysis module, the data analysis module is used for analyzing the data processing information, the monitoring module is used for receiving and monitoring the data analysis information sent by the data analysis module, the environment brightness information, the moving object body shape information and the moving object speed information are analyzed and processed, the control effect of the lighting equipment can be accurately and effectively improved, the purpose of improving the energy-saving effect is achieved, and the problem that the energy-saving effect is poor due to the fact that automatic control cannot be accurately carried out on the lighting equipment in the existing scheme is solved.

On the other hand, the environment brightness analysis data is obtained by analyzing the environment brightness data in the data processing information, and the illumination equipment can be automatically controlled to be turned on and off through the environment brightness analysis data, so that the energy-saving effect can be achieved; the moving object body shape data in the data processing information is analyzed to obtain moving object body shape analysis data, the lighting equipment can be automatically controlled to be turned on and off by utilizing the moving object body shape analysis data, and the defect that the lighting equipment is controlled by utilizing sound in the existing scheme can be overcome; the method comprises the steps of analyzing moving object speed data in data processing information to obtain moving object speed analysis data, utilizing the moving object speed analysis data to automatically control the lighting equipment to be turned on and turned off, and overcoming the defect that the distance between a moving object and the lighting equipment cannot be determined in the existing scheme, so that the lighting equipment cannot be turned on and turned off intelligently, the control effect of the lighting equipment is poor, and the problems that the lighting equipment cannot be turned on or turned off automatically and the effect of the automatic switching is poor in the existing scheme are solved.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

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 (5)

1. An illumination control system with an energy-saving effect in a cell is characterized by comprising a data acquisition module, a data processing module, a data analysis module, a database, a processor, a monitoring module, a control module, a prompt module, a power module and a data transmission module;

the data acquisition module is used for acquiring data information around the lighting equipment, wherein the data information comprises environment brightness information, moving object body shape information and moving object speed information, and transmitting the data information to the data processing module and the database;

the data analysis module is used for analyzing the data processing information to obtain data analysis information and transmitting the data analysis information to the processor and the monitoring module, and the specific working steps comprise:

the method comprises the following steps: acquiring data processing information, and analyzing the ambient brightness data in the data processing information to obtain ambient brightness analysis data;

step two: analyzing the moving object body shape data in the data processing information to obtain moving object body shape analysis data;

step three: analyzing the moving object speed data in the data processing information to obtain moving object speed analysis data;

step four: combining the environment brightness analysis data, the moving object body shape analysis data and the moving object speed analysis data to obtain data analysis information;

the monitoring module is used for receiving and monitoring the data analysis information sent by the data analysis module, and the specific working steps comprise:

step 1: obtaining environmental brightness analysis data, moving object body shape analysis data and moving object speed analysis data in the data analysis information;

step 2: comparing the environmental brightness analysis data by using preset standard brightness data to generate a first analysis signal, and sending the first analysis signal to the processor, the prompt module and the control module;

and step 3: comparing the moving object body shape analysis data by using preset standard body shape data to generate a second analysis signal, and sending the second analysis signal to the processor, the prompt module and the control module;

and 4, step 4: comparing the moving object speed analysis data by using preset standard speed data to generate a third analysis signal, and sending the third analysis signal to the processor, the prompt module and the control module;

the prompting module is used for prompting whether the operation of the data acquisition module is normal or not, and the power supply module is used for supplying electric energy to the operation of the lighting equipment and each module;

the data processing module is used for processing data information, and the specific operation steps comprise:

s21: acquiring data information, calibrating environment brightness information in the data information into environment brightness data, and setting the environment brightness data to be HLi, i =1,2,3. Grading the environmental brightness data by using a preset environmental brightness weight, and performing descending order to obtain an environmental brightness order set;

s22: marking the moving object body shape information in the data information as moving object body shape data, and setting the moving object body shape data as YTi, i =1,2,3.. N; the method comprises the steps of performing grade division on moving object body shape data by using a preset moving object body shape weight, and performing descending order to obtain a moving object body shape order set;

s23: calibrating moving object speed information in the data information into moving object speed data, and setting the moving object speed data as YSi, i =1,2,3.. N; and carrying out grade division on the moving object speed data by using a preset moving object speed weight, and carrying out descending order to obtain a moving object speed ordered set.

2. The lighting control system with energy saving effect in a cell as claimed in claim 1, wherein the ambient brightness data in the data processing information is analyzed to obtain the ambient brightness analysis data, and the specific operation steps include:

s31: acquiring ambient brightness data in the data processing information, and setting a brightness value in the ambient brightness data to HLZi, i =1,2,3.. N;

s32: obtaining an ambient brightness migration value by using an ambient brightness migration calculation formula, wherein the ambient brightness migration calculation formula is as follows:

wherein Q is _HLi Expressing the environment brightness migration value, expressing alpha as a preset environment brightness migration factor, and expressing HLZ0 as a preset environment brightness migration standard value;

s33: and judging the ambient brightness migration value by using a preset ambient brightness migration standard range to obtain ambient brightness analysis data.

3. The lighting control system of claim 1, wherein the analysis of the body shape data of the mobile object in the data processing information is performed to obtain the body shape analysis data of the mobile object, and the specific operation steps include:

s41: acquiring data processing information, screening moving object body shape data in the data processing information by using an image recognition algorithm to obtain moving object screening data, and setting the moving object screening data as YWSi, i =1,2,3.. N;

s42: comparing the moving object characteristic data in the moving object screening data with preset local shape characteristic data, and acquiring a moving object characteristic similarity value by using a similarity calculation formula, wherein the similarity calculation formula is as follows:

wherein Q is _TXi Expressed as the similarity value of the moving object characteristics, beta is expressed as a preset moving object characteristic factor, YTZi is expressed as the moving object characteristicsThe sign data YTZj is represented as preset local shape feature data;

s43: comparing the moving object characteristic similarity value with a preset standard similarity value range, and if the moving object characteristic similarity value belongs to the standard similarity value range, grouping and storing moving object characteristic data corresponding to the moving object characteristic similarity value to obtain first moving object characteristic comparison data; if the moving object characteristic similarity value does not belong to the standard similarity value range, grouping and storing moving object characteristic data corresponding to the moving object characteristic similarity value to obtain second moving object characteristic comparison data;

s44: and combining the first moving object characteristic comparison data and the second moving object characteristic comparison data to obtain moving object body shape analysis data.

4. The lighting control system with energy saving effect in the residential area as claimed in claim 1, wherein the mobile object speed data in the data processing information is analyzed to obtain mobile object speed analysis data, and the specific operation steps include:

s51: acquiring moving object speed data in the data processing information, acquiring a first speed value and a second speed value in the moving object speed data at two different time points, and setting the first speed value as WSYi, wherein i =1,2,3.... N; setting a second speed value to WSEi, i =1,2,3.. N;

s52: obtaining the average value of the speed of the moving object by using an average speed calculation formula, wherein the average speed calculation formula is as follows:

wherein Q is _WPi Expressed as the average value of the speed of the moving object, and T0 is expressed as the difference value of two different time points;

s53: and judging the illumination range of the moving object entering the illumination equipment by using the average value of the speed of the moving object to obtain analysis data of the speed of the moving object.

5. The lighting control system with energy saving effect in cell as claimed in claim 1, wherein the control module is configured to control the lighting devices to be turned on and off, and the data transmission module is configured to perform data transmission between the lighting devices and the respective modules.

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