CN112969271A - Indoor LED illumination intelligent early warning method based on LiFi technology - Google Patents

Abstract

The invention discloses an indoor LED illumination intelligent early warning method based on a LiFi technology, wherein at least one environmental parameter of the temperature of an LED illumination lamp, the humidity inside the LED illumination lamp and the brightness of the LED illumination lamp is obtained through a sensor and is sent to a cloud host; detecting the power consumption of the LED illuminating lamp and uploading the power consumption to the cloud host; the cloud host acquires a working life duration data sequence of each lighting device; the cloud host compares at least one of the temperature of the illuminating lamp, the humidity inside the illuminating lamp and the brightness of the illuminating lamp acquired by the sensor with a corresponding preset parameter value range; when the comparison exceeds the range of the preset parameter value, a first early warning signal is sent by the cloud host; the predicted value of the operating life duration of each lighting device is obtained from the operating life duration data sequence S t (a). The invention provides an indoor LED illumination intelligent early warning method based on a LiFi technology, so that LED illumination achieves a better intelligent early warning use effect in an indoor environment.

Description

Indoor LED illumination intelligent early warning method based on LiFi technology

Technical Field

The invention relates to an indoor LED illumination intelligent early warning method based on a LiFi technology, and belongs to the technical field of LED illumination.

Background

LiFi is the abbreviation of Light Fidelity, a brand new wireless data transmission technology developed by great physicist Harrad-Haas in England, and the whole process can be completed by using common lighting. The user has also opened an internet connection while turning on the room lights. This device, known as LiFi, can be used to transmit wireless data from the "white space" television band or unused satellite signals. In the prior art, an indoor LED illumination intelligent early warning method based on a LiFi technology does not exist, so that the LED illumination cannot achieve a good intelligent early warning use effect in an indoor environment, and particularly cannot achieve a double multi-level early warning use effect. Therefore, an indoor LED illumination intelligent early warning method based on the LiFi technology is urgently needed to solve the problem in the prior art.

In order to solve the technical problems, a new technical scheme is especially provided.

Disclosure of Invention

The invention aims to provide an indoor LED illumination intelligent early warning method based on a LiFi technology, and aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an indoor LED illumination intelligent early warning method based on a LiFi technology comprises the following steps:

acquiring at least one environmental parameter of the temperature of the LED illuminating lamp, the humidity inside the LED illuminating lamp and the brightness of the LED illuminating lamp through a sensor, and sending the environmental parameter to a cloud host;

detecting the power consumption of the LED illuminating lamp and uploading the power consumption to the cloud host; the cloud host acquires a working life duration data sequence of each lighting device;

comparing at least one of the temperature of the illuminating lamp, the humidity inside the illuminating lamp and the brightness of the illuminating lamp acquired by the sensor with a corresponding preset parameter value range by the cloud host;

fourthly, when at least one of the temperature of the illuminating lamp, the humidity inside the illuminating lamp and the brightness of the illuminating lamp exceeds a preset parameter value range, a first early warning signal is sent by the cloud host;

step five, setting a working life duration data sequence as S t (a), wherein a is a positive integer; obtaining the predicted value of the working life duration of each lighting device according to the working life duration data sequence S t (a):

and step six, determining an early warning time point of the LED illuminating lamp according to the predicted value of the working life duration of the LED illuminating lamp, and sending a second early warning signal by the cloud host when the early warning time point is reached.

Preferably, the first warning signal and the second warning signal are different in manner.

Preferably, the first early warning signal is early warning in a voice prompt mode.

Preferably, the second early warning signal is an early warning signal in a light signal mode.

Preferably, the cloud host further comprises an information processor, and the step three is that the information collected by the sensors is received by the information processor and is compared with threshold information of each sensor.

Preferably, the cloud host carries out early warning to the LED light and does: and the cloud host sends early warning information to the user terminal.

Preferably, the cloud host carries out early warning to the LED light and does: and the cloud host sends a control signal to the audible and visual alarm to perform early warning.

Preferably, the step of sending the first warning signal or the second warning signal by the cloud host further includes: and starting early warning measures.

Preferably, the initiating of the precautionary measure includes: reducing the current through the LED illumination lamp and/or turning off the illumination lamp.

Compared with the prior art, the invention has the beneficial effects that: the method for intelligently early warning the indoor LED illumination based on the LiFi technology enables the LED illumination to achieve a good intelligent early warning use effect under an indoor environment, and particularly achieves a double multi-level early warning use effect.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all 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.

The invention provides a technical scheme that: an indoor LED illumination intelligent early warning method based on a LiFi technology comprises the following steps:

acquiring at least one environmental parameter of the temperature of the LED illuminating lamp, the humidity inside the LED illuminating lamp and the brightness of the LED illuminating lamp through a sensor, and sending the environmental parameter to a cloud host;

detecting the power consumption of the LED illuminating lamp and uploading the power consumption to the cloud host; the cloud host acquires a working life duration data sequence of each lighting device;

comparing at least one of the temperature of the illuminating lamp, the humidity inside the illuminating lamp and the brightness of the illuminating lamp acquired by the sensor with a corresponding preset parameter value range by the cloud host;

fourthly, when at least one of the temperature of the illuminating lamp, the humidity inside the illuminating lamp and the brightness of the illuminating lamp exceeds a preset parameter value range, a first early warning signal is sent by the cloud host;

step five, setting a working life duration data sequence as S t (a), wherein a is a positive integer; obtaining the predicted value of the working life duration of each lighting device according to the working life duration data sequence S t (a):

and step six, determining an early warning time point of the LED illuminating lamp according to the predicted value of the working life duration of the LED illuminating lamp, and sending a second early warning signal by the cloud host when the early warning time point is reached.

Preferably, the first warning signal and the second warning signal are different in manner.

Preferably, the first early warning signal is early warning in a voice prompt mode.

Preferably, the second early warning signal is an early warning signal in a light signal mode.

Preferably, the cloud host further comprises an information processor, and the step three is that the information collected by the sensors is received by the information processor and is compared with threshold information of each sensor.

Preferably, the cloud host carries out early warning to the LED light and does: and the cloud host sends early warning information to the user terminal.

Preferably, the cloud host carries out early warning to the LED light and does: and the cloud host sends a control signal to the audible and visual alarm to perform early warning.

Preferably, the step of sending the first warning signal or the second warning signal by the cloud host further includes: and starting early warning measures.

Preferably, the initiating of the precautionary measure includes: reducing the current through the LED illumination lamp and/or turning off the illumination lamp.

When the intelligent early warning method is used, the invention provides the intelligent early warning method for the indoor LED illumination based on the LiFi technology, so that the LED illumination achieves a better intelligent early warning use effect under an indoor environment, and particularly achieves a double multi-level early warning use effect.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. An indoor LED illumination intelligent early warning method based on a LiFi technology is characterized by comprising the following steps:

acquiring at least one environmental parameter of the temperature of the LED illuminating lamp, the humidity inside the LED illuminating lamp and the brightness of the LED illuminating lamp through a sensor, and sending the environmental parameter to a cloud host;

detecting the power consumption of the LED illuminating lamp and uploading the power consumption to the cloud host; the cloud host acquires a working life duration data sequence of each lighting device;

comparing at least one of the temperature of the illuminating lamp, the humidity inside the illuminating lamp and the brightness of the illuminating lamp acquired by the sensor with a corresponding preset parameter value range by the cloud host;

fourthly, when at least one of the temperature of the illuminating lamp, the humidity inside the illuminating lamp and the brightness of the illuminating lamp exceeds a preset parameter value range, a first early warning signal is sent by the cloud host;

step five, setting a working life duration data sequence as S t (a), wherein a is a positive integer; obtaining the predicted value of the working life duration of each lighting device according to the working life duration data sequence S t (a):

and step six, determining an early warning time point of the LED illuminating lamp according to the predicted value of the working life duration of the LED illuminating lamp, and sending a second early warning signal by the cloud host when the early warning time point is reached.

2. The indoor LED illumination intelligent early warning method based on LiFi technology of claim 1, wherein: the first warning signal and the second warning signal are different in mode.

3. The indoor LED illumination intelligent early warning method based on LiFi technology of claim 1, wherein: the first early warning signal is used for early warning in a voice prompt mode.

4. The indoor LED illumination intelligent early warning method based on LiFi technology of claim 1, wherein: the second early warning signal is used for early warning in a light signal mode.

5. The indoor LED illumination intelligent early warning method based on LiFi technology of claim 4, wherein: the cloud host further comprises an information processor, and the information collected by the sensors is received by the information processor and is compared with threshold information of each sensor.

6. The indoor LED illumination intelligent early warning method based on LiFi technology of claim 5, wherein: the cloud host carries out early warning on the LED illuminating lamp as follows: and the cloud host sends early warning information to the user terminal.

7. The indoor LED illumination intelligent early warning method based on LiFi technology of claim 6, wherein: the cloud host carries out early warning on the LED illuminating lamp as follows: and the cloud host sends a control signal to the audible and visual alarm to perform early warning.

8. The indoor LED illumination intelligent early warning method based on LiFi technology of claim 7, wherein: the step of sending the first early warning signal or the second early warning signal by the cloud host further comprises the following steps: and starting early warning measures.

9. The indoor LED illumination intelligent early warning method based on LiFi technology of claim 8, wherein: the starting early warning measures comprise: reducing the current through the LED illumination lamp and/or turning off the illumination lamp.