KR101353195B1 - Method for Lighting Control using Mobile Device - Google Patents

Abstract

The present invention allows to control the lighting device connected to the home network using a light control application installed in the mobile communication terminal. To this end, the lighting control application collects and analyzes a variety of basic information to determine the characteristics of the user according to the lighting control mode input by the user and transmits the lighting control signal to the home network server. It automatically controls the lighting by grasping the user's emotion (mood), which gives the user a sense of psychological stability and emotional satisfaction.If the lighting is controlled according to the user's work schedule, the efficiency of the user's activities such as work, study, and relaxation Maximizing the realism and fun by controlling the lighting to work with the multimedia devices around, and intelligently adjusting the lighting, the user's movement, and the type of work performed by the user to save energy. You can also plan.

Description

Lighting control method using mobile communication terminal {Method for Lighting Control using Mobile Device}

The present invention is to control the lighting using a mobile communication terminal, in particular to analyze the lighting conditions most suitable for the user's intention and emotion using the mobile communication terminal, and control the lighting equipment connected to the home network according to the analysis result do.

Lighting equipment is a device for fixing or protecting a light source by reflecting, refracting, and transmitting light of a light source, and incandescent lamps, fluorescent lamps, and halogen lamps that are used outdoors, but LEDs have been in the spotlight in recent years.

LED (Lighting Emitting Diode) is a semiconductor that emits light and has low power consumption (1/6 of incandescent lamp), long life (8 times of incandescent lamp), eco-friendly characteristics (does not contain harmful substances such as mercury), It is applied in various fields such as indoor light, street light, lighting and automobile. In addition, LED has a very fast turn on / off speed in comparison with the existing lighting equipment, and there is no problem of energy consumption and light source life due to the blinking operation, and the size of the light source is very small. It also has the additional advantage of high degree of freedom.

Recently, the "Emotional Lighting Audio System [Reg. No. 10-0250017]" or "Intelligent Emotional Lighting System [Reg. No. 10-0698758]", etc., are used to determine the necessary activities such as brightness, blink control, and dimming. Disclosed is a lighting technology that operates on the initial set values of a lighting fixture.

In addition, "Emotional lighting system for each user and its control method [Registration No .: 10-0877248]" has started color therapy therapy linked with the emotional lighting environment and healthcare devices differentiated by area, "Emotional lighting device [registration number : 10-0825989] "discloses a method for generating light of various atmospheres and colors according to the user's emotion, and" sensibility lighting system [Registration No .: 10-0946202] "recognizes the atmosphere of the activity space and The system to create an atmosphere that is faithful to the emotional feeling of the disclosed.

However, the conventionally proposed lighting techniques have many shortcomings in processing lighting by accurately reflecting individual characteristics of the user.

For example, when the user directly checks and inputs his / her mood in order to reflect the user's mood in lighting, it is difficult to reflect the constantly changing user's mood, and since the information is random, the reliability is low. Above all, asking a user for such a task is virtually difficult.

Therefore, in order to produce lighting suitable for each user according to individual characteristics such as a user's mood or movement, it is necessary to accurately and automatically grasp the unique characteristics of each user.

Accordingly, the present invention has been made to meet the above necessity, and automatically measures the unique characteristics of the user, such as the user's mood or movement, unknowingly and unknowingly automatically, according to the illumination intensity (brightness) and color accordingly The purpose is to enable intelligent control of temperature.

In order to achieve the above object, the lighting method using a mobile communication terminal according to the present invention, the light control application installed in the mobile communication terminal mode input step of receiving a light control mode from the user; An analyzing step of collecting and analyzing basic information according to the input lighting control mode; And transmitting, to the home network server, an illumination control signal for causing the lighting device to have a specific color temperature and illuminance according to the analysis result.

The basic information includes at least one or more of information detected through a sensor of the mobile communication terminal, information recorded in the mobile communication terminal, information input by a user, and information received from a peripheral electronic device.

The lighting control mode is an emotional lighting mode for controlling lighting according to the user's emotion, a smart lighting mode for the user's convenience, a green lighting mode for energy saving, a realistic lighting mode for controlling the lighting in conjunction with surrounding electronics It may include one or more of.

When the lighting control mode is the emotional lighting mode, the analyzing step extracts a predetermined emotional language based on at least one of a voice and a text used by the user, and calculates a value set for each extracted emotional language. It may be configured to measure linguistic emotional index.

When the lighting control mode is the emotional lighting mode, the analyzing step calculates a value set corresponding to each biometric information or each biometric information based on the biometric information of the user detected by the sensor of the mobile communication terminal. It may be configured to measure the biological sensitivity index.

In this case, the biometric information may include at least one of facial expression, color, activity, pulse rate, heart rate, body temperature, touch pressure, and humidity.

If the lighting control mode is a smart lighting mode, the analyzing step is based on the personal schedule information stored in the mobile communication terminal and the position information detected by the sensor to perform the user's work and the lighting state suitable for the occupied space It can be configured to grasp.

When the lighting control mode is the green lighting mode, the analyzing step is the illumination of the target illuminance at the user's location based on the personal schedule information stored in the mobile communication terminal and the illumination and humidity information detected through the sensor. It may be configured to identify the illuminance value that should be increased or decreased.

The analyzing step may minimize the target illuminance according to the personal schedule information of the user stored in the mobile communication terminal.

When the lighting control mode is a realistic lighting mode, the analyzing step may be configured to determine the lighting state suitable for the user's position on the basis of the lighting linkage signal received from the peripheral electronic device.

The peripheral electronic device may be an image processing apparatus, and the analyzing may identify a lighting state suitable for a screen output from the image processing apparatus.

Lighting control system using a mobile communication terminal according to the present invention, installed in the mobile communication terminal receives the light control mode from the user, collects and analyzes the basic information according to the input light control mode, and control the light according to the analysis result A lighting control application for transmitting a signal; A mobile communication terminal in which the lighting control application is installed; And a home network server that receives the lighting control signal through a local area network and controls the lighting device.

According to the present invention, the lighting control application installed in the mobile communication terminal analyzes the characteristics of each user in a state where the user does not notice, and controls the lighting with a color temperature and brightness suitable for the user in conjunction with the home network.

For example, the user's emotional index can be measured and the lighting can be controlled to the color temperature and brightness that best match the user's emotion, in which case it can give the user a psychological stability and emotional satisfaction.

By controlling the lighting according to the user's personal schedule information (schedule), it is possible to maximize the efficiency of the user's activities such as work, study, and rest, and to fit the purpose of each living space (living room, living room, dining room, toilet, etc.) By creating an atmosphere, you can improve the quality of life of your living space.

If you adjust the lighting intelligently in consideration of the ambient light and humidity around the user, you can save energy.

In addition, by controlling the lighting in conjunction with peripheral electronic devices that output images such as movies, dramas, lectures, etc. can maximize the realism and impression.

1 is an embodiment of a lighting control system according to the present invention,
2 is an example of a mobile communication terminal,
3 is an embodiment of a lighting control method according to the present invention;
4 is an example of a user interface screen for entering a lighting control mode;
5 is a specific example of an operation performed by a lighting control application according to various lighting control modes.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, the lighting control system 20 according to the present invention includes a mobile communication terminal 21, a lighting control application 22 installed in the mobile communication terminal 21, and a mobile communication terminal 21 through a short range wireless communication network. Receiving a light control signal from the) comprises a home network server 23 for controlling the lighting device 11 around the user.

 The lighting device 11 may be of various types, and in particular, may include an LED (Lighting Emitting Diode).

The home network server 23 is connected to each lighting device 11 through a home network to control the lighting device 11. For example, the home network server 23 may adjust the current flowing through the power line or adjust the dimmer so that the lighting device 11 has a specific color temperature and illuminance according to the lighting control signal.

The short range wireless communication network in which the home network server 23 and the mobile communication terminal 21 communicate with each other may be configured in various ways, such as Zigbee, Bluetooth, and WLAN.

The mobile communication terminal 21 refers to a portable terminal, and specific examples thereof include a smartphone or a tablet computer. The mobile communication terminal 21 may have a variety of structures depending on the type and need.

In general, since the mobile communication terminal 21 is small in size and easy to carry, the user always carries the body. Therefore, the position of the mobile communication terminal 21 can be treated as the location of the user and the environment perceived by the user. The same can be said.

Referring to FIG. 2, an example of the mobile communication terminal 21 is described. In the memory 21-1, an operating system (OS), various applications (applications), and characters that the user has exchanged with other users. Various user data such as messages and personal calendar information are stored.

In particular, the lighting control application 22 is installed in the memory 21-1 of the mobile communication terminal in accordance with the present invention, and is provided with a short range communication module 21-5 for communicating through a short range wireless communication network. In addition, the mobile communication terminal 21 includes a camera for capturing an external image, a microphone for receiving a voice, a temperature sensor for detecting a temperature, a pressure sensor for detecting a pressure, a position sensor for detecting a position, an illumination sensor for detecting an illuminance, Various types of sensors 21-3, such as a humidity sensor for detecting humidity, are provided.

The lighting control application 22 refers to a computer program installed and executed in the mobile communication terminal 21.

The lighting control application 22 may be downloaded from another computer device such as a personal computer to the mobile communication terminal 21 or may be downloaded and installed from an external server through an internet network. The latter can also be downloaded from an application market called the App Store.

The lighting control application 22 receives the lighting control mode from the user, collects and analyzes basic information according to the input lighting control mode, and transmits the lighting control signal to the home network server 23 according to the analysis result.

When the lighting control application 22 transmits the lighting control signal, the home network server 23 receives the lighting control signal to control the lighting device 11 to have a corresponding color temperature or illuminance.

The basic information collected by the lighting control application 22 for analysis may be variously configured according to the lighting control mode. For example, information detected through various sensors 21-3 of the mobile communication terminal 21, information recorded in the mobile communication terminal 21 such as user data, information input by the user such as voice or text, Information received from peripheral electronic devices.

3, the operation of the lighting control application 22 will be described.

First, the lighting control application 22 receives the lighting control mode from the user (S31: mode input step).

The lighting control mode is for determining how to control the lighting, and may be variously configured as necessary. For example, it may include an emotional lighting mode for controlling the lighting according to the user's emotion, a smart lighting mode for the user's convenience, a green lighting mode for energy saving, a realistic lighting mode for controlling the lighting in conjunction with surrounding electronic devices, and the like. Can be.

The mode input step S31 may provide a user interface (UI) that allows the user to conveniently enter the lighting control mode.

4 shows an example of the user interface screen 40 provided in the mode input step S31. The emotional lighting mode item 41, the smart lighting mode item 42, the green lighting mode item 43, and the realistic lighting mode item are shown. (44) is displayed so that the user can select a desired lighting control mode. When the user selects an item, the light control application 22 operates in the corresponding light control mode.

When the lighting control mode is input through the mode input step S31, the lighting control application 22 collects and analyzes the basic information according to the input lighting control mode (S32: analysis step), and the lighting device according to the analysis result ( 11) transmits an illumination control signal for having a specific color temperature and illuminance to the home network server 23 (S33: transmitting step).

The method of performing the analysis step S32 by the lighting control application 22 may be variously configured according to the lighting control mode.

Referring to FIG. 5, a specific embodiment of an operation performed by the lighting control application 22 according to the lighting control mode will be described.

<Example when the lighting control mode is the emotional lighting mode>

The lighting control application 22 extracts an emotional language by collecting one or more of a voice and a text used by the user in the analysis step S32 as basic information, and calculates a value set for each extracted emotional language. It can be configured to measure the enemy sensitivity index.

In other words, the corresponding values are set for each emotional language such as joy, sadness, anger, stress, and free feeling, and the emotional language is extracted from the contents of the voice or text transmitted and received by the user. After that, the linguistic emotional index can be measured by calculating the value set for the emotional language.

In addition, the lighting control application 22 corresponds to each biometric information or change of each biometric information on the basis of various biometric information detected through the sensor 21-3 of the mobile communication terminal 21 in the analysis step S32. The biosensibility index may be measured by calculating a set value.

To this end, the light control application 22 maintains the biometric information or a value corresponding to the change, and measures the biosensibility index by calculating the biometric information detected by the sensor 21-3 or the value corresponding to the change. can do.

Examples of biometric information include facial expression, color, activity, pulse rate, heart rate, body temperature, touch pressure, hand humidity, and the like.

That is, it detects facial expressions from the images taken by the camera, detects activity through a motion sensor, detects changes in body temperature through a temperature (infrared) sensor, detects a pulse through a pressure sensor, calls or texts, etc. Through this, the user can detect the activity of communicating with the outside.

The lighting control application 22 calculates a linguistic sensibility index or a bio sensibility index from a value corresponding to each emotional language or values corresponding to each bioinformation may be variously configured as necessary.

For example, a value corresponding to each emotional language, a value corresponding to each biometric information, or a value set corresponding to a change (eg, a change in body temperature) of each biometric information may be simply added or subtracted to calculate the frequency of occurrence of a specific emotional language. If the value is higher than the reference value or the change in biometric information exceeds the threshold, a certain weight may be applied.

The lighting control application 22 may process the verbal emotional index and the biological emotional index separately, or may add the linguistic emotional index and the biological emotional index to measure the final emotional index.

The lighting control application 22 transmits the lighting control signal accordingly when the linguistic emotional index and the biological emotional index are calculated in the analyzing step S32.

For example, when the user's emotion is judged to be happy and sad, it transmits an appropriate lighting control signal. Accordingly, the home network server 23 controls the lighting device 11 around the user, and the user can feel human satisfaction and comfort (psychological stability).

<Example when the lighting control mode is the smart lighting mode>

The lighting control application 22 is a task performed by the user based on the personal schedule information (schedule) stored in the mobile communication terminal 21 and the position information detected by the sensor 21-3 in the analysis step (S32). And lighting conditions suitable for the occupied space can be identified.

To this end, the lighting control application 22 maintains appropriate color temperature and illuminance (brightness) information corresponding to the type of work and the use of the occupied space.

The lighting control application 22 is based on the personal schedule information previously recorded by the user on the mobile communication terminal 21 and the location information of the user through a diary program or the like (type of work, study, rest) , Meals, meetings, etc.) and the purpose of the occupied space (production facilities, offices, educational facilities, restaurants, living rooms, bedrooms, study rooms, rest areas, etc.) Get temperature and light (brightness) information.

In addition, the lighting control application 22 transmits an illumination control signal to allow the lighting of the user's occupied space to have a specific color temperature and illuminance according to the identified lighting state (S33).

For example, if a user's work is a task and the occupied space is an office (workshop), the lighting equipment of the office is adjusted to emit light close to natural light with a blue color temperature to concentrate attention. This will maximize the user's work efficiency.

<Example when the lighting control mode is the green lighting mode>

The lighting control application 22 target illumination at the user's location based on the personal schedule information stored in the mobile communication terminal 21 and the illumination / humidity information detected by the sensor 21-3 in the analysis step S32. It is possible to identify the illuminance value that needs to be increased or decreased in order for the lighting to be made.

That is, the lighting control application 22 derives the illuminance, the temperature, the moving line (the movement path) that is felt from the user's position by using the illuminance sensor, the temperature sensor, and the position sensor of the mobile communication terminal 21, and the derived illuminance and humidity. Use the information to determine the lighting conditions that are appropriate for your current location.

For example, if the user is reading by a sunny window, the user may be aware that the illumination of reading the book has already been secured, so that the user does not have additional lighting. Can be.

In addition, the division may be divided so that the illumination is made only in the portion where the copper wire is formed based on the user's copper wire information.

In other words, if the user is working overtime in a specific partition of the office, the user may check only the space included in the moving line by checking the user's moving line as the lighting target.

In addition, the light control application 22 may minimize the illuminance of the lighting device according to the user's personal schedule information. For example, when the user takes a break or listens to music on a personal schedule, it may be understood that the illuminance is reduced or turned off in conjunction with this.

As such, in the green lighting mode, only the lighting required by the user is made based on the illumination, humidity, and personal schedule information, and the illumination can be lowered at the time of resting or sleeping according to the user's schedule, Energy saving can be achieved while maintaining the brightness of the lighting.

In particular, if the lighting device 11 using the LED may have the advantage of less energy consumption and failure even in a continuous flashing situation.

<Example when the lighting control mode is the realistic lighting mode>

The lighting control application 22 may receive an illumination interlocking signal from a peripheral electronic device that the user has registered in the mobile communication terminal 21, and may determine an illumination state suitable for the current location of the user based on this.

At this time, the peripheral electronic device may be an image processing apparatus such as a TV (TV) or a DVD player, and in this case, the light control application 22 may determine a suitable lighting state according to a screen output from the image processing apparatus.

To this end, the image processing apparatus should be configured to transmit information (illumination interlocking signal) on the image output on the screen to the mobile communication terminal 21.

For example, suppose that a movie is being played on a TV that a user watches. If the main character is currently walking through a dark alley, the ambient light can be dimmed. By doing so, you can improve the fun of watching a movie.

That is, by sharing information for improving the realism through the peripheral electronic devices (TV, audio, game consoles, etc.) and the short-range wireless communication network currently operated by the user, it is possible to maximize the enjoyment of movies, music or entertainment.

It is to be understood that the present invention is not limited to the above-described embodiment, and various changes and modifications may be made by those skilled in the art without departing from the technical spirit of the present invention. to be.

11: luminaire 20: lighting control system
21: mobile communication terminal 22: lighting control application
23: Home Network Server 21-1: Memory
21-3: Sensor 21-5: Near Field Communication Module

Claims (11)

In the lighting control application installed in the mobile communication terminal to control the lighting device through the home network,
A mode input step of receiving an illumination control mode from a user;
Basic information according to the input lighting control mode-The basic information includes information detected by the sensor of the mobile communication terminal, information recorded in the mobile communication terminal, information input by the user, and received from the peripheral electronic device An analysis step of collecting and analyzing at least one of the information; And
And transmitting, to the home network server, an illumination control signal for causing the luminaire to have a specific color temperature and illuminance according to the analysis result.
The lighting control mode includes an emotional lighting mode for controlling lighting according to at least a user's emotion, and when the lighting control mode is an emotional lighting mode, the analyzing step uses a preset emotional language based on a voice used by the user. And extracting and calculating a value set for each extracted emotional language to measure a linguistic emotional index. The method of claim 1,
The lighting control mode may further include at least one of a smart lighting mode for the user's convenience, a green lighting mode for energy saving, and a realistic lighting mode for controlling lighting in conjunction with surrounding electronic devices. Lighting control method using a terminal. delete The method of claim 1,
When the lighting control mode is the emotional lighting mode,
The analyzing step may be configured to calculate the biosensitivity index by calculating each biometric information or a value set corresponding to the change of each biometric information based on the biometric information of the user sensed by the sensor of the mobile communication terminal. Lighting control method using a mobile communication terminal characterized in that. 5. The method of claim 4,
The biometric information is a lighting control method using a mobile communication terminal, characterized in that at least one of the expression, color, activity, pulse, heart rate, body temperature, touch pressure, and humidity. 3. The method of claim 2,
When the light control mode is a smart light mode,
The analyzing step is configured to determine the lighting conditions suitable for the user's work and occupied space based on the personal schedule information stored in the mobile communication terminal and the location information detected by the sensor. Lighting control method using. 3. The method of claim 2,
When the lighting control mode is a green lighting mode,
The analyzing step is an illuminance value that needs to be increased or decreased to illuminate a target illuminance at a user's location based on the personal schedule information stored in the mobile communication terminal, the illumination and humidity information detected through the sensor, and the user's copper line information. Lighting control method using a mobile communication terminal, characterized in that configured to grasp. The method of claim 7, wherein
The analyzing step is a lighting control method using a mobile communication terminal, characterized in that to minimize the target illuminance according to the user's personal schedule information stored in the mobile communication terminal. 3. The method of claim 2,
When the lighting control mode is a realistic lighting mode,
The analyzing step is a lighting control method using a mobile communication terminal, characterized in that configured to provide the user with the most suitable lighting conditions for the real sense and enjoyment based on the illumination linkage signal received from the peripheral electronics. The method of claim 9,
The peripheral electronic device is an image processing apparatus, and the analyzing step is a lighting control method using a mobile communication terminal, characterized in that for identifying the lighting state suitable for the screen output from the image processing apparatus. delete

Images