KR101663370B1 - Lighting control application - Google Patents

Abstract

An illumination control application according to one aspect includes a step of calculating an intensity of sound received through a sound receiving unit of a mobile terminal in a light control application for controlling a lighting apparatus in combination with a mobile terminal; Determining a brightness of the illumination device corresponding to the calculated intensity of the sound; Generating an illumination control signal to cause the illumination device to illuminate the determined brightness of light; And transmitting the generated illumination control signal to the wireless communication unit of the mobile terminal.

Description

[0001] Lighting control application [

The present invention relates to a lighting control application, and more particularly to a lighting control application installed in a smart phone to control a lighting device.

With the rapid development of communication technologies and Internet technologies and the tendency of mobile phones to become essential products, smartphones with added computer support functions such as internet communication and information retrieval in mobile phones have been introduced and smartphone users are rapidly increasing.

A smart phone can implement various convenience functions by installing a program called an application. And applications are being offered free of charge or at lower prices over the Internet for a variety of functions.

Using a smartphone application, it is possible to communicate with a lighting device or other household appliances, and it is possible to control a lighting device by using an application. Specifically, an application for user's operation is installed in a smart phone, and a communication module for wireless communication with a smart phone and a driver module for controlling lighting of the lighting device are installed in the lighting device, so that a user can easily use the smart phone So that the lighting of the room can be controlled.

Korean Patent Laid-Open Publication No. 10-2012-0126821, which is a prior art document, discloses a lighting apparatus control apparatus using a smart phone. Conventional lighting control has been a method in which the user directly turns on / off / dimming the light through the touch. As an automatic lighting control method, there are a schedule color control and a lighting color or brightness change according to sound.

The present invention provides a lighting control application that controls the brightness of a lighting device using sound input to a smart phone without direct user manipulation.

An illumination control application according to one aspect includes a step of calculating an intensity of sound received through a sound receiving unit of a mobile terminal in a light control application for controlling a lighting apparatus in combination with a mobile terminal; Determining a brightness of the illumination device corresponding to the calculated intensity of the sound; Generating an illumination control signal to cause the illumination device to illuminate the determined brightness of light; And transmitting the generated illumination control signal to the wireless communication unit of the mobile terminal.

The embodiment proposed in the present invention is applied to a lighting device by mimicking the characteristics of a candle whose luminous intensity changes according to the wind intensity, and it controls the luminous intensity of the lighting device as the user directly blows air to the smart device, Allows lighting to be turned off or on.

Such an illumination automatic control function can provide an analog illumination control, and it is advantageous that various illumination control can be produced accordingly.

1 is a system diagram showing a configuration for controlling a lighting apparatus according to a first embodiment of the present invention.
2 is a control block diagram of the lighting device and the mobile terminal.
3 and 4 are views for explaining control of a lighting apparatus according to the first embodiment of the present invention.
5 is a flowchart showing a lighting control method according to the first embodiment of the present invention.
6 is a flowchart showing a lighting control method according to a second embodiment of the present invention.
7 is a flowchart showing a lighting control method according to a third embodiment of the present invention.
8 is a flowchart showing a lighting control method according to the fourth embodiment of the present invention.
9 is a flowchart showing a lighting control method according to a fifth embodiment of the present invention.
10 is a flowchart showing a lighting control method according to a sixth embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention.

FIG. 1 is a system diagram showing a configuration for controlling a lighting apparatus according to an embodiment of the present invention, and FIG. 2 is a control block diagram of each configuration of a control system of the lighting apparatus.

1 and 2, a control system of a lighting apparatus according to an embodiment of the present invention includes a lighting apparatus 10, a mobile terminal (hereinafter referred to as a " 20).

The mobile terminal 20 can transmit and receive commands, data, and the like to / from the lighting device 10 via a wireless communication network. The wireless communication network includes a wireless communication network using various mobile communication standards such as Bluerose, Wi-Fi, 3G, LTE or WiMAX series.

The lighting apparatus 10 may include a control unit 11, a memory 12, a light emitting unit 13, a communication module 14, and a power supply unit 15. In addition, the illumination device 10 may include an LED (Lighting Emitting Diode).

The communication module 14 may include a wired communication module including a power line communication (PLC) capable of internet communication or a wireless communication module including a WiFi (Wifi). The communication module 14 may receive the illumination control signal from the mobile terminal 20 and then transmit the signal to the controller 11.

The control unit 11 can control the brightness of the illumination device 10 according to a signal transmitted from the communication module 14. [

Meanwhile, various methods can be used for the brightness control of the illumination device 10. [ For example, PWM dimming [Adjusting the amount of current by varying the width of the frequency controlling the power supply], 0-10 method [Controlling the LED by varying the voltage of the control line from 0 v to 10 v in the zero-tens manner] (A method controlled by a general dimmer - a single dimmer in the past incandescent-lamp-controlled manner, with a limited number of watts, so that multiple power controls are not possible).

The mobile terminal 20 is a portable terminal. A concrete example is a smartphone or tablet computer. The mobile terminal 20 may have various structures depending on its type and needs.

The mobile terminal 20 includes a control unit 21, an input unit 22, a memory 23, a power supply unit 24, a wireless communication unit 25, a sound receiving unit 26, and a display unit 27 can do.

In detail, the input unit 22 may include a touch-type button for inputting a command by touching the display unit 27.

In the memory 23, an operating system (OS) and various applications 201 (applications, application programs) can be stored. The application 201 is a computer program installed and executed in the mobile terminal. The application 201 may be downloaded to a mobile terminal from another computer device such as a personal computer, or downloaded from an external server through an Internet network.

The power supply unit 24 serves to supply power to the mobile terminal 20 and includes a wireless power supply unit such as a non-rechargeable primary battery or a rechargeable secondary battery, and a wired power supply unit .

The application 201 receives the illumination control mode from the user, collects control information according to the input illumination control mode, and transmits the illumination control signal according to the collected information to the illumination device 10. [

The sound receiving unit 26 is provided at one side of the mobile terminal 20 and receives voice or other sounds and transmits information about the received sound to the control unit 21. [

The wireless communication unit 25 may be a communication module capable of communicating through a wireless communication network or communicating with the Internet.

The sound output unit 26 may include a speaker and a signal of the application 201 may be output.

According to the illumination control system having the above-described configuration, the user executes the application 201 for controlling the lighting apparatus 10 installed in the mobile terminal 20, and controls the lighting apparatus 10 ) Control command can be input.

Then, the input control command is transmitted to the communication module 14 through the wireless communication network.

A control command received through the communication module 14 is received by the control unit 11 of the lighting apparatus 10 and the control unit 11 controls the operation of the light emitting unit 13 Can be controlled.

In addition, the control unit 11 of the lighting apparatus 10 can transmit the operating status information of the light emitting unit 13 through the communication module 14 by wire or wirelessly. The information transmitted through the communication module 14 of the lighting apparatus 10 is transmitted to the wireless communication unit 25 of the mobile terminal 20.

The information received by the wireless communication unit 25 may be displayed on the display unit 27 by the control unit 21 of the mobile terminal 20.

In order for the illumination control to be performed through the application 201 installed in the mobile terminal 20, several conditions must be set.

To do so, first, the application 201 displayed on the display unit 27 is touched to activate the main screen of the application 201. Then, the user logs in the application 201 through input of an ID and a password. Of course, it is also possible to perform an operation in the application 201 without a separate login. When the application 201 is installed, it is necessary to designate the lighting apparatus 10 to communicate with the application 201. That is, it means an operation of pairing the user's mobile terminal 20 and the corresponding lighting device 10. [ This is for the purpose of allowing the lighting control command through the application 201 to be received by the communication module 14 of the lighting apparatus 10 via the communication network.

The application 201 is capable of pairing with a plurality of lighting apparatuses 10. Accordingly, the user can register and use a plurality of indoor lighting devices 10 in the application 201. [ It is possible to control the brightness of the illumination of the illumination device 10 after activating the application 201 and then clicking the number of the illumination device 10 appearing in the window when a plurality of the illumination devices 10 are registered. Here, the luminous intensity is a unit representing the amount of light radiated from the light source, and may be interpreted to include the brightness of the light source in the present invention. In this specification, the brightness and the brightness are used in combination.

The control by the application 201 may be performed by a wireless communication method and may include a time control function for allowing the illumination device 10 to light up for a predetermined time or lighting the illumination device 10 at a preset time, A notification function that causes the illumination device 10 to blink when receiving a call to the mobile terminal 20 and a function of controlling the brightness of the illumination device 10 by shaking the mobile terminal 20 by the user .

On the other hand, instead of directly inputting the luminous intensity of the illumination device 10 through the application 201, the user can control the luminous intensity by inputting sound. Hereinafter, this is referred to as " illumination control based on the intensity of sound ", and can be executed by changing the mode of the application 201. Hereinafter, the illumination control mode according to the intensity of the sound will be described.

3 and 4 are views for explaining control of a lighting apparatus according to the first embodiment of the present invention.

3 and 4, FIG. 3 shows a state in which the lighting apparatus 10 is turned on at a maximum brightness when there is no sound input to the mobile terminal 20, and FIG. The brightness of the illumination device 10 is changed.

Once the user changes the lighting control mode of the application 201 to the 'light control mode by sound intensity' (or 'candle mode'). Next, when the user inputs sound through the sound receiving unit 26, the application 201 samples the inputted sound.

On the other hand, the intensity of the sound is determined by the amplitude of the sound, and generally, the intensity of the sound can be expressed in dB (decibel). The mobile terminal 20 may measure the intensity of the input sound in dB and the application 201 may receive the dB information of the sound measured by the mobile terminal 20.

The application 201 analyzes the sound inputted during a predetermined sampling interval when sampling the sound. Then, an average value of decibels of a plurality of preset sampling intervals is divided into time zones to remove unspecific disturbance values, and successive and meaningful values are extracted.

For example, one sampling interval is defined as 50 ms, and an average value of five intervals is taken. At this time, if there is an acoustic input in one sampling interval but there is no acoustic input before and after, the corresponding input is considered to be an unspecified disturbance or a device error, so that no acoustic input is considered in the corresponding interval.

Next, the light intensity value of the illumination defined according to the size of the decibel of the sound input to the mobile terminal 20 is transmitted through the wireless illumination.

For example, when the size of the input decibel is 20 dB or less, the application 201 maintains the maximum value of the brightness of the illumination device 10, and when the size of the input decibel is 20 dB or more and 25 dB or less, %. ≪ / RTI > When the luminous intensity according to the input decibel is determined, the mobile terminal 20 transmits a control signal to the illuminating device 10. [ If the size of the input decibel is 80 dB or more, the illumination device 10 may be turned off.

In addition, the brightness of the illumination device 10 can be controlled by the sound input to the mobile terminal 20, and a visual effect can be generated in the application 201. That is, the user can easily understand the lighting control situation through the graphic image 28 on the screen of the application 201 activated by the display unit 27. [

Specifically, if there is no sound input, a graphic image 28 composed of a plurality of circles gathered on the screen of the application 201 is displayed (see FIG. 3). If sound is input to the mobile terminal 20, the brightness of the lighting device 10 is controlled, and an animation in which a plurality of circles are spread in four directions according to the intensity of sound is displayed on the screen of the application 201 . There is an advantage that a user can visually show a situation in which the brightness of the lighting device 10 is controlled by realizing the animation in real time.

In addition, the animation may be implemented differently according to the intensity of the sound input to the mobile terminal 20. Specifically, as the intensity of the sound input to the sound receiver 26 increases, an animation in which a plurality of circles constituting the graphic image 28 spread out may be implemented.

Meanwhile, there are various methods for controlling the luminous intensity of the illumination according to the sound input to the mobile terminal 20. Hereinafter, the application 201 is set to the 'illumination control mode based on the intensity of sound' The control method according to each embodiment will be described in detail with reference to a flowchart.

5 is a flowchart showing a lighting control method according to the first embodiment of the present invention.

The control method of the lighting apparatus 10 according to the present embodiment may be such that when the sound is input to the mobile terminal 20, the application 201 controls the lighting apparatus 10 so that the lighting apparatus 10 has a brightness corresponding to the intensity of the sound. . At this time, the brightness of the illuminator 10 is adjusted for the same time as the time when the sound input to the sound receiver 26 is inputted. Then, when the input of the sound is interrupted, the lighting apparatus 10 returns to the original luminous intensity.

Referring to FIG. 5, first, the illumination device 10 is turned on at the maximum brightness (S1), and then the sound input through the sound receiver 26 is sampled (S2). As described above, the sampling of the sound is performed for a predetermined time, and the average value of the plurality of interval values is used.

Next, it is determined whether the size of the decibel of the inputted sound is equal to or less than the upper limit value for illumination extinguishing (S3).

If it is determined in step S3 that the size of the decibel of the inputted sound exceeds the upper limit value for illumination extinguishing, the application 201 transmits a control signal for lighting-out through the wireless communication unit 25 to the communication module 14, Lt; / RTI > At this time, the control unit 11 controls the light emitting unit 13 to be turned off according to the light-off signal (S7).

On the other hand, if it is determined in step S3 that the size of the decibel of the input sound is equal to or less than the upper limit value for illumination extinguishing, the application 201 transmits the illumination luminous intensity signal corresponding to the decibel of the inputted sound to the communication Module 14 as shown in FIG. At this time, the controller 11 changes the brightness of the light emitting unit 13 according to the illumination intensity signal (S4).

The time at which the brightness of illumination is adjusted in step S4 corresponds to the time at which the sound input to the mobile terminal 20 is sampled. Specifically, the luminance of the illumination corresponding to the average value of the decibels in the plurality of sampling intervals is controlled to be maintained for the sampling time.

For example, after defining one sampling interval as 50 ms and taking an average value of five intervals, the application 201 determines that the brightness of the illumination according to the average decibel value is maintained for 250 ms (5 * 50 ms) Can be determined. The wireless communication unit 25 then transmits the determined lighting control signal to the communication module 14 of the lighting device 10. [

The luminosity of the illumination device 10 controlled by the decibel of the sound input to the mobile terminal 20 is controlled so as to become weaker as the size of the decibel becomes larger. When the input decibel is less than a certain size, .

Next, the mobile terminal 20 receives an input of sound (S5). At this time, if the sound is input, the sound that is continuously input is sampled (S2). If there is no sound input, it is determined whether there is input of the power off command of the lighting apparatus 10 (S6).

If it is determined in step S6 that there is no input of the power off command, the illumination device 10 is turned on again at the maximum brightness. When the power off command is input, the power is turned off and the illumination control is terminated.

According to the lighting control method according to the present embodiment, the luminous intensity of the illumination can be controlled according to the size of the input decibel and the duration of the sound. In addition, when the lighting device 10 is off, the lighting device 10 maintains the off state. When the lighting device 10 is in the off state, The light intensity of the candle can be changed to the maximum and can be realized in the same manner as the movement of the traditional candle.

Hereinafter, the second embodiment, in which the illumination device 10 is turned on again after a certain period of time has elapsed after the illumination is turned off, will be described with reference to a flowchart. The control method of the lighting apparatus 10 according to the second embodiment differs from the first embodiment only in whether or not the sound of the upper limit value is inputted and the lighting apparatus 10 is turned off and then back on . The description of the first embodiment and the reference numerals are omitted for the same portions except for the above, and a duplicate description will be omitted.

6 is a flowchart showing a lighting control method according to a second embodiment of the present invention.

6, if it is determined in step S3 that the size of the decibel of the inputted sound exceeds the upper limit value for lighting-off, the application 201 transmits a control signal for lighting-off through the wireless communication unit 25 To the communication module 14, and the lighting device 10 is turned off according to the light-off signal (S7).

Next, it is determined whether or not a predetermined time has passed (S8). The lighting device 10 is maintained in the unlit state until the set time has elapsed, and when the set time has passed, the lighting device 10 is again turned on at the maximum brightness.

The steps other than those described above are the same as those of the first embodiment.

Hereinafter, with respect to the third embodiment in which the brightness of the lighting apparatus 10 is changed as the sound is input to the mobile terminal 20, and the changed brightness is maintained even after the input of the sound is interrupted, I will explain it with a chart.

 7 is a flowchart showing a lighting control method according to a third embodiment of the present invention.

First, after the illumination device 10 is turned on at the maximum brightness (S11), the sound input through the sound receiver 26 is sampled (S12).

Next, it is determined whether the size of the decibel of the input sound is equal to or less than the upper limit value for lighting-off (S13).

If it is determined in step S13 that the size of the input decibel exceeds the upper limit value for illumination extinguishing, the application 201 transmits a control signal for lighting-out through the wireless communication unit 25 to the communication module 14, Lt; / RTI > At this time, the control unit 11 controls the light emitting unit 13 to be turned off according to the light-off signal (S18).

On the other hand, if it is determined in step S13 that the size of the decibel of the input sound is less than or equal to the upper limit value for illumination extinguishing, the application 201 transmits an illumination luminous intensity signal corresponding to the decibel of the inputted sound to the communication Module 14 as shown in FIG. At this time, the control unit 11 changes the brightness of the light emitting unit 13 according to the illumination luminous intensity signal (S14).

The luminous intensity of the illumination according to the decibel of the sound input to the mobile terminal 20 becomes darker as the size of the decibel becomes larger and the luminosity of the illumination may not change when the input decibel is less than a certain size.

Next, the mobile terminal 20 receives an input of sound (S15). At this time, if the sound is input, the sound that is continuously inputted is sampled (S12). If no sound is input, the current brightness is maintained (S16).

Next, it is determined whether there is an input of a power off command of the lighting apparatus 10 (S17).

If it is determined in step S17 that there is no power off command input, the lighting apparatus 10 continues to receive the sound input while maintaining the previous light intensity (S15). On the other hand, when the power off command is input, the power is turned off and the illumination control is ended.

According to the control method of the lighting apparatus 10 according to the present embodiment, the luminous intensity of the illumination is controlled according to the size of the input decibel. In addition, when the lighting device 10 is turned off and the lighting device 10 is turned off, the lighting device maintains the off state. When the lighting device 10 receives the sound of less than the upper limit and there is no additional sound input value, .

Hereinafter, the fourth embodiment in which the illumination device 10 is turned on again after a certain period of time has elapsed after the illumination is turned off will be described with reference to a flowchart. The control method of the lighting apparatus 10 according to the fourth embodiment differs from that of the third embodiment only in the case where sound exceeding the upper limit value is inputted and the lighting apparatus 10 is turned off and then back on . The description of the third embodiment and the reference numerals are omitted for the same parts, and redundant description will be omitted.

8 is a flowchart showing a lighting control method according to the fourth embodiment of the present invention.

8, if it is determined in step S13 that the size of the decibel of the input sound is equal to or greater than the upper limit value for illumination extinguishing, the application 201 transmits a control signal for lighting extinguishment through the wireless communication unit 25 to the communication Module 14 as shown in FIG. At this time, the control unit 11 turns off the illumination device 10 in accordance with the light-off signal (S18).

Next, it is determined whether or not a preset time has passed (S19). The lighting device 10 is maintained in the unlit state until the set time has elapsed, and when the set time has passed, the lighting device 10 is again turned on at the maximum brightness.

Hereinafter, a fifth embodiment in which the brightness of the illumination device 10 becomes stronger as the intensity of sound input to the mobile terminal 20 increases, will be described with reference to a flowchart.

9 is a flowchart showing a lighting control method according to a fifth embodiment of the present invention.

Referring to FIG. 9, first, in a state in which the illumination device 10 is turned off (S21), the sound input through the sound receiver 26 is sampled (S22).

Next, it is determined whether the size of the decibel of the input sound is equal to or greater than a lower limit value for lighting illumination (S23).

If it is determined in step S23 that the size of the decibel of the input sound is lower than the lower limit value for illumination, the application 201 does not transmit the lighting signal. Then, the illumination device 10 samples the sound continuously inputted while maintaining the unlit state.

On the other hand, if it is determined in step S23 that the size of the decibel of the input sound is equal to or greater than the lower limit value for illumination, the application 201 transmits the illumination luminous intensity signal corresponding to the decibel of the inputted sound to the communication Module 14 as shown in FIG. At this time, the controller 11 changes the luminous intensity of the illumination device 10 according to the illumination luminous intensity signal (S24).

The time at which the brightness of illumination is adjusted in step S24 corresponds to the time when the sound input to the mobile terminal 20 is sampled. Specifically, the luminance of the illumination corresponding to the average value of the decibels in the plurality of sampling intervals is controlled to be maintained for the sampling time.

For example, after defining one sampling interval as 50 ms and taking an average value of five intervals, the application 201 determines that the brightness of the illumination according to the average decibel value is maintained for 250 ms (5 * 50 ms) Can be determined. Next, the wireless communication unit 25 transmits the determined lighting control signal to the lighting device 10. [

The brightness of the illumination according to the decibel of the sound input to the mobile terminal 20 is controlled so that the brightness increases in proportion to the size of the decibel. For example, if the size of the input decibel is 20 dB or less, the application 201 may maintain the lighting device 10 in an unlit state. If the input decibel size is more than 20 dB and less than 25 dB, To the illuminating device 10. The illuminating device 10 may be a light emitting diode (LED). When the size of the input decibel is 80 dB or more, a control signal to have the maximum brightness can be transmitted to the lighting apparatus 10.

Next, the mobile terminal 20 receives an input of sound (S25). At this time, if the sound is input, the sound that is continuously inputted is sampled (S22). If there is no sound input, it is determined whether there is input of the power off command of the lighting apparatus 10 (S26).

If it is determined in step S26 that there is no power off command input, the illumination device 10 is turned off again and samples the sound continuously inputted. When the power off command is input, the power is turned off and the illumination control is terminated.

According to the control method of the lighting apparatus 10 according to the present embodiment, the luminous intensity of the illumination is controlled according to the input decibel. As the intensity of the sound to be input is different from that of the first embodiment, the illumination is controlled to illuminate bright light.

Hereinafter, the sixth embodiment in which the illumination device 10 is turned on again after a predetermined time has elapsed after the illumination device 10 is turned off will be described with reference to a flowchart. The sixth embodiment differs from the fifth embodiment only in whether the luminous intensity of the illuminating device 10 is changed to the acoustic input and then the changed luminous intensity is maintained even if the input of the sound is stopped . The description of the fifth embodiment and the reference numerals are omitted for the same parts, and redundant description will be omitted.

10 is a flowchart showing a lighting control method according to a sixth embodiment of the present invention.

Referring to FIG. 10, after changing the intensity of illumination according to the sound input to the mobile terminal 20 (S24), the mobile terminal 20 receives an input of sound (S25). At this time, when the sound is input, the sound that is continuously input is sampled (S22). If no sound is input, the changed light intensity is maintained (S27).

Next, it is determined whether there is an input of a power off command of the lighting apparatus 10 (S26).

If it is determined in step S26 that there is no power-off command input, the mobile terminal 20 determines whether there is an input of sound (S25). If the power-off command is input, the power is turned off and the lighting control is terminated.

The control method of the lighting apparatus 10 according to the present embodiment is characterized in that the brightness of the changed illumination is maintained even if the input of sound is interrupted after the brightness of the illumination is changed, unlike the fifth embodiment.

The embodiment proposed in the present invention is applied to a lighting device by mimicking the characteristics of a candle whose luminous intensity changes according to wind strength. The user can change the luminous intensity of the illumination as the wind is blown directly to the smart device or the surrounding wind is detected, or the lighting device 10 can be turned off or on.

Such an illumination automatic control function can provide an analog illumination control, and it is advantageous that various illumination control can be produced accordingly.

Claims (16)

A lighting control application coupled to a terminal for controlling a lighting device,
Inputting sound through an acoustic receiver of the terminal;
Sampling the sound received through the sound receiver of the terminal;
Determining a brightness value corresponding to the sampled sound intensity;
Generating an illumination control signal for controlling the illumination device to illuminate the determined brightness of light;
Transmitting the generated illumination control signal to a wireless communication unit of the terminal; And
And an animation in which a plurality of graphic images on an application screen are radially spread according to the intensity of the sampled sound is implemented. The method according to claim 1,
Wherein the illumination control signal varies as the intensity of the sound received through the sound receiver changes. 3. The method of claim 2,
Wherein the illumination control signal varies such that the brightness of the illumination device increases or decreases as the intensity value of the sound received through the sound receiver increases. 3. The method of claim 2,
Wherein the illumination control signal changes so that the brightness of the illumination device increases or decreases as the intensity value of the sound received through the sound receiver decreases. The method according to claim 1,
And generates an illumination control signal such that the illumination device has a maximum brightness when the intensity of the sound is lower than a lower limit value. 6. The method according to claim 1 or 5,
And generates an illumination control signal for causing the illumination device to remain off or remain unlit when the intensity of the sound is equal to or greater than the upper limit value. The method according to claim 6,
Wherein the illumination control signal generates an illumination control signal to cause the illumination device to re-illuminate at a maximum brightness after a predetermined time has elapsed since an illumination control signal to cause the illumination device to turn off. The method according to claim 1,
And generates an illumination control signal to cause the illumination device to maintain the previous brightness when the intensity of the sound is below a lower limit value. The method according to claim 1,
And generates an illumination control signal that causes the illumination device to turn off when the intensity of the sound is equal to or lower than the lower limit value. 10. The method of claim 1 or 9,
And generates an illumination control signal to cause the illumination device to have a maximum brightness when the intensity of the sound is equal to or greater than the upper limit value. delete The method according to claim 1,
Wherein the illumination control signal is determined based on an average value of a plurality of sampling values measured in a plurality of sampling intervals. 13. The method of claim 12,
Wherein the illumination control signal is a signal for controlling the illumination device to emit light of a brightness corresponding to an average value of the plurality of sampling values,
Wherein the illumination control signal controls the illuminator to illuminate light of a brightness determined by the plurality of sampling values for the same time as the plurality of sampling periods. delete delete The method according to claim 1,
Wherein animations are implemented such that a distance between the plurality of graphic images becomes longer as the sampled sound intensity increases.

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