WO2014019388A1

WO2014019388A1 - Lamplight control system and method

Info

Publication number: WO2014019388A1
Application number: PCT/CN2013/074853
Authority: WO
Inventors: 林建平; 谢海军; 温源
Original assignee: 上海广茂达光艺科技股份有限公司
Priority date: 2012-07-30
Filing date: 2013-04-27
Publication date: 2014-02-06
Also published as: CN103582212A

Abstract

A lamplight control system and method. The lamplight control system includes a signal acquisition module (1), a signal processing module (2) and a signal transmission module (3), wherein the signal acquisition module (1) is used for acquiring a physiological signal of a human body in real time, the signal processing module (2) is used for analyzing and processing the physiological signal to generate a control signal, and the signal transmission module (3) is used for transmitting the control signal to a lamp fitting to control the change of the colour of the lamplight of the lamp fitting. The above lamplight control system and method represent an advance in the illumination significance of the lamplight of conventional lamp fittings, and have an intelligent sleep adjustment function, thereby exhibiting a good help and treatment effect at the different sleep stages of a person, and effectively guaranteeing the healthy sleep of a person.

Description

Lighting control system and method

Technical field

The invention relates to a light control system and method, in particular to a light control capable of collecting, analyzing and processing a physiological signal of a human body in real time to generate a control signal, and using the control signal to control the color change of the light of the light fixture A system and a lighting control method implemented using the lighting control system. Background technique

At present, the application of lamps in daily life is more and more frequent. With the rapid development of electronic technologies such as radio frequency and data acquisition, many remote controllers for controlling lamps have appeared. However, regardless of whether the remote control is used or not, the user can only manually control the brightness and color of the lamp. Therefore, the current luminaire can only be used for illumination and decoration, and can not automatically change the lamp according to changes in the body's pulse and body temperature signals. Brightness and color can't help or treat people's sleep. Summary of the invention

The technical problem to be solved by the present invention is to overcome the defects that the lamp in the prior art can not automatically change the brightness and color of the lamp according to the change of the pulse and body temperature signals of the human body, and can not help and sleep the people's sleep. A light control system capable of collecting, analyzing, and processing a physiological signal of a human body in real time to generate a control signal, and controlling a color change of the light by using the control signal, and a light control method implemented by the light control system.

The present invention solves the above technical problems by the following technical solutions:

The invention provides a lighting control system, which is characterized in that it comprises a signal acquisition module, a signal processing module and a signal transmission module;

The signal acquisition module is configured to collect a physiological signal of a human body in real time, the signal processing module is configured to process the physiological signal to generate a control signal, and the signal transmission module is configured to transmit the control signal to a light fixture To control the change in the color of the light of the luminaire.

In the present invention, there is no need to limit the specific conversion relationship between the physiological signal and the control signal, but it can be arbitrarily designed as long as the conversion relationship is determined in each design.

At present, most of the physiological signals are basically used for medical electronics. In the present invention, after the physiological signals of the human body are collected, the physiological signals are processed by the corresponding acquisition processing functions, and the final control signals are obtained, and then Reusing the control signal to control the change of the color of the light of the luminaire, thereby enabling the light of the luminaire It has the effect of helping sleep, and it also has a certain therapeutic effect on people who often suffer from insomnia, which guarantees people's sleep health.

Preferably, the physiological signal comprises a pulse signal and a body temperature signal, and the signal acquisition module comprises a pulse sensor for collecting the pulse signal and a body temperature sensor for collecting the body temperature signal.

Preferably, the voltage of the control signal is used to control the brightness of the color of the light of the luminaire, and the frequency of the control signal is used to control the hue and saturation of the color of the light of the luminaire. By controlling the three elements of color: brightness, hue and saturation changes, you can completely control the color change. For different physiological signals, you can control the light of the lamp to produce different colors, so that the color of the light is in the human Different stages of sleep can help to sleep.

Preferably, the lighting control system further includes a remote control module, and the signal processing module, the signal transmission module and the remote control module are all integrated on the same circuit board. In this way, the above three modules are integrated on the same circuit board, which is equivalent to being integrated on a remote controller, and the remote controller is matched with the associated luminaire, so that the remote controller can be utilized to be wired or wireless. The way to control the change in color of the light of the luminaire in real time.

Preferably, the processing of the pulse signal and the body temperature signal by the signal processing module includes filtering, sampling, time domain and frequency domain analysis.

The pulse sensor and the body temperature sensor first obtain an analog signal of pulse and body temperature from the human body, and the analog signal carries signals of various frequencies. Therefore, it is necessary to perform filtering and the like before sampling, and then perform processing after the sampling. After sampling, the original digital signal can be obtained after sampling, and finally, by using an algorithm such as a time domain or a frequency domain algorithm, the digital signal for controlling the color change can be obtained, and the above-mentioned signal is Various processes can be implemented by using the prior art in the art, and will not be described herein.

Preferably, the luminaire is an LED (Light Emitting Diode) lamp.

It is an object of the present invention to provide a lighting control method which is characterized in that it is implemented by the above lighting control system, and the lighting control method comprises:

The signal acquisition module of Si collects physiological signals of the human body in real time;

5 ₂ , the signal processing module processes the physiological signal to generate a control signal;

5 ₃ , the signal transmission module transmits the control signal to a luminaire to control a change in color of the light of the luminaire.

Preferably, the physiological signal comprises a pulse signal and a body temperature signal.

Preferably, the step S ₃ of the control voltage signal for controlling the brightness of the lamp light color, the hue and saturation control signal for controlling the frequency of the lamp light color. Preferably, the processing of the pulse signal and the body temperature signal by the signal processing module in step s ₂ includes filtering, sampling, time domain and frequency domain analysis.

The positive progress of the invention lies in: the invention can collect the physiological signals of the human body in real time, analyze and process them to generate control signals, and control the change of the color of the light of the lamps through the control signals, thereby different sleeps in the human beings. The stage is very helpful and therapeutic. The invention can automatically change the light color of the lamp according to the physiological signal of the human body, breaks through the illumination meaning of the traditional lamp lighting, and has the intelligent sleep adjustment function, which can well protect people's sleep health. DRAWINGS

1 is a structural view of a lighting control system in accordance with a preferred embodiment of the present invention.

2 is a flow chart of a lighting control method in accordance with a preferred embodiment of the present invention. detailed description

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the lighting control system of the present invention includes a signal acquisition module 1, a signal processing module 2, and a signal transmission module 3.

The signal acquisition module 1 firstly collects physiological signals of the human body in real time, the signal processing module 2 processes the physiological signals to generate a control signal, and the signal transmission module 3 transmits the control signals to a light fixture. Controlling the change in color of the light of the luminaire.

The invention aims to generate a control signal by real-time collecting and processing different physiological signals generated by people in different sleep stages, and then using control signals to control the change of the color of the light of the lamp, so that the lights of the lamps produce different colors, People's sleep plays a very good role in helping and treating.

Therefore, in the specific implementation process, the signal acquisition module 1 can collect the physiological signals of the human body's pulse signal and the body temperature signal, which can best reflect the sleep condition of the human body in real time. Specifically, the signal acquisition module 1 can adopt a pulse sensor. 4 and an integrated temperature sensor 5 for respectively acquiring the pulse signal and the body temperature signal. The pulse sensor 4 and the body temperature sensor 5 can be made into a small device that is worn on a person's wrist.

The pulse sensor 4 and the body temperature sensor 5 first obtain an analog signal of pulse and body temperature from the human body, and the analog signal carries signals of various frequencies. Therefore, it is necessary to perform filtering and the like before sampling, and then processing After sampling, the original digital signal can be obtained after sampling, and finally, the digital signal for controlling the color change can be obtained by analyzing and processing the related algorithm, such as the time domain or the frequency domain algorithm, and the above pair is obtained. Signal The various processes can be implemented by using the prior art in the art, and will not be described herein.

Finally, the control signal is used to control the change of the color of the light of the luminaire, the brightness of the color of the light of the luminaire is controlled by the voltage of the control signal, and the frequency of the control signal controls the color of the light of the luminaire Hue and saturation. By controlling the three elements of color: brightness, hue and saturation changes, you can completely control the change of color of the light. For different physiological signals, you can control the light of the lamp to produce different colors, so that the color of the light is in people. Different sleep stages can help sleep.

The light control system may further include a remote control module 6, the signal processing module 2, the signal transmission module 3 and the remote control module 6 may be integrated on the same circuit board. In this way, the above three modules are integrated on the same circuit board, which is equivalent to being integrated on a remote controller, and the remote controller is matched with the associated luminaire, so that the remote controller can be utilized to be wired or wireless. The way to control the change in the color of the light of the luminaire in real time, and the luminaire can use an LED light.

In the meantime, in the specific implementation process of the present invention, a sleep file may be pre-stored in the remote controller, and different sleep files may be edited for the sleep parameters of the person having different insomnia features, and the sleep file is It can play a certain auxiliary and reference role for the control signal to control the light color of the luminaire, so that the light color of the luminaire is more suitable for human sleep characteristics. Therefore, the light control system of the invention can automatically change the light color of the light fixture according to the physiological signal of the human body, breaks through the illumination meaning of the traditional light of the lamp, and has the intelligent sleep adjustment function, which can well protect people's sleep health.

As shown in FIG. 2, the lighting control method implemented by the present invention using the lighting control system of the present embodiment includes the following steps:

Step 100: The signal acquisition module 1 collects a pulse signal and a body temperature signal of the human body in real time through the pulse sensor 4 and the body temperature sensor 5.

Step 101: The signal processing module 2 processes the pulse signal and the body temperature signal to generate a control signal.

Step 102: The signal transmission module 3 transmits the control signal to a luminaire to control the color change of the illuminator of the luminaire, and the process ends.

While the invention has been described with respect to the embodiments of the present invention, it is understood that the scope of the invention is defined by the appended claims. A person skilled in the art can make various changes or modifications to these embodiments without departing from the spirit and scope of the invention, and these modifications and modifications are intended to fall within the scope of the invention.

Claims

claims

1. A lighting control system, characterized in that it includes a signal acquisition module, a signal processing module and a signal transmission module;

The signal acquisition module is used to collect physiological signals of the human body in real time. The signal processing module is used to process the physiological signals to generate a control signal. The signal transmission module is used to transmit the control signal to a lamp. To control the color change of the light of the lamp.

2. The lighting control system according to claim 1, wherein the physiological signal includes a pulse signal and a body temperature signal, and the signal acquisition module includes a pulse sensor for collecting the pulse signal and a pulse sensor for collecting the pulse signal. The body temperature signal is a body temperature sensor.

3. The lighting control system according to claim 2, wherein the voltage of the control signal is used to control the color and brightness of the light of the lamp, and the frequency of the control signal is used to control the light of the lamp. The hue and saturation of the color.

4. The lighting control system according to claim 3, wherein the lighting control system further includes a remote control module, and the signal processing module, the signal transmission module and the remote control module are all integrated on the same circuit board. superior.

5. The lighting control system according to any one of claims 2 to 4, characterized in that the processing of the pulse signal and the body temperature signal by the signal processing module includes filtering, sampling, time domain and frequency domain. analyze.

6. The lighting control system according to claim 5, wherein the lamp is an LED lamp.

7. A lighting control method, characterized in that it is implemented using the lighting control system as claimed in claim 1, and the lighting control method includes:

Si, the signal acquisition module collects physiological signals of the human body in real time;

_S2 . The signal processing module processes the physiological signal to generate a control signal;

. The signal transmission module transmits the control signal to a lamp to control changes in the color of the light of the lamp.

8. The light control method as claimed in claim 1, wherein the physiological signal includes a pulse signal and a body temperature signal.

9. The light control method as claimed in claim 8, wherein the voltage of the control signal in the step controls the brightness of the light color of the lamp, and the frequency of the control signal controls the color of the light of the lamp. hue and saturation.

10. The light control method according to claim 8 or 9, characterized in that, the processing of the pulse signal and the body temperature signal by the signal processing module in step _S2 includes filtering, sampling, time domain and frequency domain. analyze.