CN110708835A

CN110708835A - Intelligent lighting cloud monitoring system

Info

Publication number: CN110708835A
Application number: CN201911042597.5A
Authority: CN
Inventors: 陈慧玲; 张圆圆; 鲍怡婷; 胡沐之; 杨晓同; 张滢
Original assignee: Jiangsu Second Normal College (jiangsu Academy Of Educational Sciences)
Current assignee: Jiangsu Second Normal College (jiangsu Academy Of Educational Sciences)
Priority date: 2019-10-30
Filing date: 2019-10-30
Publication date: 2020-01-17

Abstract

The invention discloses an intelligent lighting cloud monitoring system which comprises an image acquisition module, an image storage and uploading module, an analysis or cloud computing module, a control result output module, an automatic control switch module and a brightness adjusting module, wherein the image acquisition module is used for acquiring images; the image acquisition module acquires the personnel condition of the local environment in real time and transmits the personnel condition to the cloud server in the form of pictures through the image uploading module, wherein the cloud server can adopt a public cloud or a private cloud; the original image is analyzed and operated on the cloud server through a calculation model, the number and distribution of the personnel in the monitored environment are obtained, and then the on-off or the brightness of the corresponding lamp is controlled. The remote control system has the greatest advantages that the switch of the corresponding lamp and the brightness of the light can be remotely controlled according to the number and the distribution of the personnel in the local environment, and by means of the cloud technology, no large-scale hardware equipment is additionally required, so that the cost is low, and the system is energy-saving and environment-friendly.

Description

Intelligent lighting cloud monitoring system

Technical Field

The invention relates to an illumination system, in particular to an intelligent illumination control system, and belongs to the technical field of illumination control.

Background

With the progress of social science and technology, the quality of life of people is improved, and the lighting system is gradually improved. The traditional illumination control mode can not meet the living needs of people, and the intelligent illumination system is produced at the same time. Nowadays, intelligent lighting systems at home and abroad are developed more maturely, and building lighting intellectualization, street lamp lighting intellectualization and the like are roughly realized. According to the purposes of different areas and the requirements of different time, the intelligent lighting with different functions is realized. However, the various intelligent lighting systems are not popular in common households and most public places because of the problems of high price, impracticality, complex wiring, difficult operation and the like. In the extensive space, the number of people is rare but the lamplight is well known, and energy waste and unnecessary energy loss exist every day. Aiming at the problems, the invention selects a classroom as a background to realize the monitoring of the positions of students. When the number of people in the area is large, the light source is automatically turned on; when a few people do not turn on the lamp, the student can turn on the lamp through the switch, and the lamp is turned off when the student walks away. The light can be automatically adjusted through the brightness of natural light, so that the most comfortable lighting experience is brought to people; the intelligent lighting system can reduce energy waste to a great extent.

Disclosure of Invention

In order to solve the problems, the invention provides an intelligent lighting cloud monitoring system which is easy to control and can automatically identify and control the on and off of a lamp, and the energy waste is reduced.

In order to achieve the purpose, the technical scheme of the invention is as follows:

an intelligent lighting cloud monitoring system comprises an image acquisition module, an image storage and uploading module, an analysis or cloud computing module, a control result output module, an automatic control switch module and a brightness adjusting module; the image acquisition module is connected with the image storage and uploading module, the image storage and uploading module is connected with the analysis or cloud computing module, the analysis or cloud computing module is connected with the output control result module, the brightness adjusting module is further connected with the output control result module, and the output control result module is connected with the automatic control switch module.

Further, the image acquisition module comprises a camera.

Further, the image storage and uploading module comprises a memory and a server; the camera is connected with the memory, and the memory is in wireless connection with the server.

Further, the analysis or cloud computing module comprises a cloud system, the cloud system calculates and analyzes image data captured by the camera, and rapidly transmits the image captured by the camera to a computer memory based on a machine vision system, and the image data is integrated with a cloud computing platform to realize cloud monitoring.

Further, the output control result module comprises a switch controller, the cloud computing result is transmitted to the switch controller, and the switch controller controls the switch of the lamp.

Furthermore, the brightness adjusting module comprises an infrared sensor, the infrared sensor is connected with the switch controller, and the infrared sensor can detect the external natural light brightness. The brightness of the light is automatically adjusted according to the external natural brightness.

Further, the automatic control switch module comprises a lamp switch. The lamp switch automatically controls the on-off of the lamp, and the brightness can be adjusted according to the data transmitted by the brightness adjusting module. The lamp realizes the automatic regulation of the brightness of the lamp light by the external natural light induction.

Further, the cloud server may employ a public cloud or a private cloud.

The invention discloses an intelligent lighting cloud monitoring system.A image acquisition module acquires the personnel condition of a local environment in real time and transmits the personnel condition to a cloud server in the form of a picture through an image uploading module, wherein the cloud server can adopt a public cloud or a private cloud; the original image is analyzed and operated on the cloud server through a calculation model, the number and distribution of the personnel in the monitored environment are obtained, and then the on-off or the brightness of the corresponding lamp is controlled. The remote control system has the greatest advantages that the switch of the corresponding lamp and the brightness of the light can be remotely controlled according to the number and the distribution of the personnel in the local environment, and by means of the cloud technology, no large-scale hardware equipment is additionally required, so that the cost is low, and the system is energy-saving and environment-friendly.

Drawings

FIG. 1 illustrates an intelligent lighting cloud monitoring implementation;

FIG. 2 is a view of camera installation, where the camera return image can effectively cover the entire classroom area;

FIG. 3 is a division diagram of the lighting area of the lamp, and the corresponding lamp is controlled to be turned on and off according to the personnel density distribution.

Detailed description of the preferred embodiments

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.

Example 1

The embodiment discloses an intelligent lighting cloud monitoring system which comprises an image acquisition module, an image storage and uploading module, an analysis or cloud computing module, a control result output module, an automatic control switch module and a brightness adjusting module, wherein the image acquisition module is used for acquiring a plurality of images; the image acquisition module is connected with the image storage and uploading module, the image storage and uploading module is connected with the analysis or cloud computing module, the analysis or cloud computing module is connected with the output control result module, the brightness adjusting module is further connected with the output control result module, and the output control result module is connected with the automatic control switch module.

The image acquisition module comprises a camera.

The image storage and uploading module comprises a memory and a server; the camera is connected with the memory, and the memory is in wireless connection with the server.

The analysis or cloud computing module comprises a cloud system, the cloud system calculates and analyzes image data captured by the camera, and the image data is rapidly transmitted to a computer memory based on the machine vision system and integrated with the cloud computing platform to realize cloud monitoring.

The output control result module comprises a switch controller, the cloud computing result is transmitted to the switch controller, and the switch controller controls the switch of the lamp.

The brightness adjusting module comprises an infrared sensor, the infrared sensor is connected with the switch controller, and the infrared sensor can detect the external natural light brightness. The brightness of the light is automatically adjusted according to the external natural brightness.

The automatic control switch module comprises a lamp switch. The lamp switch automatically controls the on-off of the lamp, and the brightness can be adjusted according to the data transmitted by the brightness adjusting module. The lamp realizes the automatic regulation of the brightness of the lamp light by the external natural light induction.

The cloud server may employ a public cloud or a private cloud. In the present embodiment, a public cloud is employed.

And the image captured by the camera is quickly transmitted to a computer memory, and is integrated with a cloud computing platform to realize cloud monitoring. The video images are identified by utilizing an image processing technology, so that people in a certain local area are identified and monitored in density, and the number of people is roughly judged according to the density of people, so that the specific switch position of the lamp is automatically controlled, and the brightness of the lamp light can be automatically adjusted according to the external natural brightness. The system monitors and positions people in real time through the camera. The control terminal comprises a computer terminal and a wireless controller. The system identifies people density and location through image recognition techniques. The camera stores videos and uploads the videos to the cloud, cloud monitoring is achieved, and information can be shared by multiple users. The system distinguishes the foreground and the background according to RGB of colors by using image identification, and identifies the number of people according to the area ratio of the human image.

Example 2

Referring to fig. 1, a method for implementing intelligent lighting cloud monitoring of the present invention is shown, and the embodiment includes the following steps:

and (5) timing image acquisition. Referring to the installation diagram of the camera in fig. 2, the camera is installed on the oblique upper corner of the classroom area, so that the image transmitted back by the camera can effectively cover the whole classroom area, and the installation position does not affect the appearance. The camera collects images by using the image collection module, and the images are quickly transmitted back, so that people can be monitored and positioned in real time.

And storing and uploading the data to the server on site. The camera stores image information in place by using the image storage and uploading module and uploads the image information to the cloud server, and multiple users share the information in an antenna or line storage mode to realize cloud monitoring.

And carrying out local image analysis or remote cloud computing and outputting a control result. The acquired image identifies the personnel density and position through analysis or image recognition technology of a cloud computing module at a computer terminal.

The image recognition technology firstly identifies people by separating the foreground (people, hair is mainly black) and the background (tables, walls and the like, and the main non-black) according to RGB of colors, and then identifies the personnel density by the area proportion of the people in the image.

Specifically, referring to the area division diagram of fig. 3, the image is divided into six parts (a 11, a12, a13, a21, a22, and a 23) according to the distribution of the lamps in the classroom of the school, the person distributed in one area corresponds to the lamp in the area, and the control result is output when the person is identified in the image of the area.

And controlling the on-off of the lamps in the area and adjusting the brightness. And according to the output control result module of the image processing, the automatic control switch module is used for automatically controlling the switch of the lamps in the corresponding area. The system can adjust the brightness of the lamplight by using the brightness adjusting module according to the brightness of the external natural light.

The above description is only an example of the present invention and is not intended to limit the scope of the present invention, and any modifications or equivalents thereof using the present invention are included in the scope of the present invention.

Claims

1. The utility model provides an intelligence illumination cloud monitored control system which characterized in that: the system comprises an image acquisition module, an image storage and uploading module, an analysis or cloud computing module, an output control result module, an automatic control switch module and a brightness adjusting module; the image acquisition module is connected with the image storage and uploading module, the image storage and uploading module is connected with the analysis or cloud computing module, the analysis or cloud computing module is connected with the output control result module, the brightness adjusting module is further connected with the output control result module, and the output control result module is connected with the automatic control switch module.

2. The intelligent lighting cloud monitoring system of claim 1, wherein: the image acquisition module comprises a camera.

3. The intelligent lighting cloud monitoring system of claim 1, wherein: the image storage and uploading module comprises a memory and a server; the camera is connected with the memory, and the memory is in wireless connection with the server.

4. The intelligent lighting cloud monitoring system of claim 1 or 3, wherein: the analysis or cloud computing module comprises a cloud system, and the cloud system computes and analyzes image data captured by the camera.

5. The intelligent lighting cloud monitoring system of claim 4, wherein: the output control result module comprises a switch controller, the cloud computing result is transmitted to the switch controller, and the switch controller controls the switch of the lamp.

6. The intelligent lighting cloud monitoring system of claim 5, wherein: the brightness adjusting module comprises an infrared sensor which is connected with the switch controller.

7. The intelligent lighting cloud monitoring system of claim 1, wherein: the automatic control switch module comprises a lamp switch.