KR102176911B1 - Wireless control system for controlling cheer lights - Google Patents

Abstract

A first device that generates a lighting control signal based on a user input, a master device connected to the first device to receive the lighting control signal, and wirelessly transmitting the lighting control signal, and the lighting control signal from the master device A wireless control system for cheering lighting is disclosed, including a cheering lighting device for wirelessly receiving and controlling a lighting unit based on the received lighting control signal.

Description

Wireless control system for cheering lights {WIRELESS CONTROL SYSTEM FOR CONTROLLING CHEER LIGHTS}

A wireless control system for cheering lights is disclosed. In more detail, a wireless lighting control system capable of generating a lighting pattern by remotely controlling a plurality of lighting devices and improving lighting effects is disclosed.

In general, a lighting device reflects, refracts, and transmits light from a light source to achieve the purpose of illumination. Lighting devices may be classified into indirect lighting devices, semi-indirect lighting devices, total diffusion lighting devices, semi-direct lighting devices, and direct lighting devices according to light distribution.

Due to technological advances, lighting devices are used for various purposes. As an example, the lighting device is used to create a media facade. Media façade refers to implementing media functions by installing lighting devices on the exterior wall of a building.

As another example, the lighting device is also used as a small cheering tool in athletic events or concerts conducted in an environment under a certain level of illumination. However, in such an environment, since a plurality of lighting devices are individually controlled, it is difficult to create a systematic lighting pattern or shape. In addition, it is not easy to obtain the expected cheering effect just by using the light source arranged in the lighting device.

Republic of Korea Patent Publication 10-2005-0112540 (title of the invention: method and system for generating visual effects using a mobile communication terminal, publication date: December 01, 2005)

Disclosed is a wireless lighting control system capable of generating a lighting pattern by remotely controlling a plurality of lighting devices, and improving lighting effects.

The wireless control system for cheering lighting according to an embodiment of the present invention for solving the above-described problem includes a first device for generating a lighting control signal based on a user input, and the lighting control signal being connected to the first device. And a master device for receiving and transmitting the lighting control signal wirelessly, and a cheering lighting device for wirelessly receiving the lighting control signal from the master device and controlling a lighting unit based on the received lighting control signal. .

In addition, when the connection with the first device is detected, the master device transmits a confirmation request signal to confirm whether or not a lighting control application is installed in the first device, and the first device is configured to provide the lighting control application. If it is not installed or needs to be updated, request the lighting control application from the server, or request the update of the lighting control application, and receive information for installation or update of the lighting control application from the server in response to the request can do.

In addition, the system may further include a second device connected to the cheering lighting device to receive the lighting control signal and to control the display unit based on the lighting control signal.

It is possible to easily generate a lighting pattern by remotely controlling a plurality of lighting devices.

Since the lighting pattern can be generated by using the resources of the lighting device and the resources of the smart device linked to the lighting device, it is possible to increase the lighting effect due to the use of the lighting device.

1 is a diagram illustrating a configuration of a wireless lighting control system according to an embodiment.
2 is a diagram showing the configuration of the lighting device shown in FIG. 1.
FIG. 3 is a diagram illustrating the configuration of the smart device shown in FIG. 1.
4 is a diagram illustrating an operation of a wireless lighting control system including a plurality of lighting devices and a plurality of smart devices according to an exemplary embodiment.
5 is a diagram illustrating another embodiment of an operation of a wireless lighting control system including a plurality of lighting devices and a plurality of smart devices.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments to be posted below, but may be implemented in various different forms, and only these embodiments make the posting of the present invention complete, and common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have it, and the invention is only defined by the scope of the claims.

Unless otherwise defined, all terms (including technical and scientific terms) used in the present specification may be used as meanings that can be commonly understood by those of ordinary skill in the art to which the present invention belongs. In addition, terms defined in a commonly used dictionary are not interpreted ideally or excessively unless explicitly defined specifically.

The terms used in the present specification are for describing exemplary embodiments and are not intended to limit the present invention. In the present specification, the singular form also includes the plural form unless specifically stated in the doorway. As used in the specification, “comprises” and/or “comprising” do not exclude the presence or addition of one or more other elements other than the mentioned elements.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the drawings, the same reference numerals denote the same components.

1 is a diagram showing a configuration of a wireless lighting control system 1 according to an embodiment.

Referring to FIG. 1, a wireless lighting control system 1 according to an embodiment includes a lighting device 100, a smart device 200, a network 300, and a server 400.

The lighting device 100 refers to a device that fixes or protects a light source by reflecting, refracting, and transmitting light from a light source. The lighting device 100 may have various shapes. As an example, the lighting device 100 may have a bar shape so that a user can grip it. As another example, the lighting device 100 may have a shape that can be worn on a part of the user's body.

According to an embodiment, the lighting device 100 may detect an electrical connection with the smart device 200. When an electrical connection with the smart device 200 is detected, the lighting device 100 transmits and receives data and/or signals to and from the smart device 200. For example, the lighting device 100 transmits a confirmation request signal to the smart device 200 to confirm whether the lighting control application is installed in the smart device 200. For another example, the lighting device 100 receives a lighting control signal from the smart device 200. A more detailed description of the configuration of the lighting device 100 will be described later with reference to FIG. 2.

The smart device 200 may be electrically connected to the lighting device 100. The smart device 200 electrically connected to the lighting device 100 transmits and receives data and/or signals to and from the lighting device 100. For example, the smart device 200 receives a confirmation request signal confirming whether or not a lighting control application is installed from the lighting device 100, and transmits a lighting control signal to the lighting device 100.

The smart device 200 may communicate with the server 400 through the network 300. According to an embodiment, the smart device 200 transmits an application request signal for requesting a lighting control application or a content request signal for requesting content to the server 400, and receives a lighting control application or content from the server 400. do.

On the other hand, when the installation of the lighting control application received from the server 400 is completed, the smart device 200 transmits a signal notifying that the installation of the application is completed to the lighting device 100, and configures and displays a lighting control screen. do. When the lighting control screen is displayed, the user can input various commands or information related to lighting control.

The smart device 200 as described above may include a communication device such as a smart phone and a tablet. However, the smart device 200 is not necessarily limited to communication devices as illustrated, and any communication device having a wireless communication function and a display function may be included in the smart device 200. A more detailed description of the configuration of the smart device 200 will be described later with reference to FIG. 3.

The server 400 communicates with the lighting device 100 and the smart device 200 through the network 300. For example, the server 400 receives an application request signal from the smart device 200 and transmits a lighting control application to the smart device 200 as a response thereto. As another example, the server 400 receives a content request signal from the smart device 200 and transmits the requested content to the smart device 200. Examples of content include text, images and videos.

The configuration of the wireless lighting control system 1 according to an embodiment has been described above with reference to FIG. 1. In FIG. 1, a case where the lighting control application is distributed to the smart device 200 by the server 400 has been described as an example. According to another embodiment, the lighting control application may be distributed to the smart device 200 by the lighting device 100.

FIG. 2 is a diagram illustrating the configuration of the lighting device 100 shown in FIG. 1.

Referring to FIG. 2, the lighting device 100 includes a lighting unit 110, a wired communication unit 120, a control unit 130, and a wireless communication unit 140.

The lighting unit 110 includes one or more light sources. As a light source, a light emitting diode (LED) is exemplified. The lighting unit 110 may include LEDs of different colors. For example, it may include at least one of a red LED, a green LED, a blue LED, and a white LED. By mixing the light emitted from each of these LEDs, you can create a wide range of colors. The mixed color is determined based on the ratio of the intensity of light emitted from each LED, and the intensity of light emitted from each LED is proportional to the driving current of each LED. That is, by controlling the driving current of each LED, the color of light output from the lighting unit 110 can be controlled. A plurality of LEDs may be arranged in a dot shape, and a specific phrase or image may be displayed by selectively lighting them.

In the above description, an LED has been described as an example of the light source of the lighting unit 110, but the type of the light source is not limited to the LED. According to another embodiment, an organic light emitting diode (OLED) may be used as the light source.

The wired communication unit 120 is responsible for wired communication between the lighting device 100 and the smart device 200. Although not shown in the drawings, the wired communication unit 120 may include a wired communication port. The wired communication port provided in the wired communication unit 120 of the lighting device 100 is electrically connected to a wired communication port provided in the wired communication unit 250 of the smart device 200. When the wired communication port of the lighting device 100 is coupled to the wired communication port of the smart device 200, signals and/or data are transmitted and received between the lighting device 100 and the smart device 200. For example, a confirmation request signal confirming whether or not the lighting control application is installed is transmitted to the smart device 200, and a response signal therefor is received from the smart device 200.

The wireless communication unit 140 is responsible for wireless communication between the lighting device 100 and another lighting device. To this end, the wireless communication unit 140 may support a wireless communication method. As an example of a wireless communication method, ZigBee is used.

ZigBee is a wireless personal area communication network standard in which peripheral devices operating at 868 MHz, 902-928 MHz and 2.4 GHz are wirelessly accessed. ZigBee is based on the IEEE 802.15 standard approved by the IEEE-SA. By using ZigBee, data can be sent and received at a speed of up to 250 Kbps between peripheral devices within a distance of 50 m or less within a wireless personal area network.

In the above description, ZigBee has been exemplified as a wireless communication method supported by the wireless communication unit 140, but is not necessarily limited thereto, and the wireless communication unit 140 may support one or more other wireless communication methods in addition to those illustrated. .

The controller 130 connects and controls each component of the lighting device 100. For example, the controller 130 detects whether the lighting device 100 and the smart device 200 are electrically connected. When a connection with the smart device 200 is detected, the controller 130 transmits a confirmation request signal to confirm whether or not the lighting control application is installed to the smart device 200.

In addition, the controller 130 controls the lighting pattern of the lighting unit 110 based on the received lighting control signal. For example, the lighting control signal may include lighting unit control information and display unit control information, and the controller 130 controls the lighting pattern of the lighting unit 110 based on the lighting unit control information. Examples of the lighting unit control information include lighting color, lighting brightness, lighting lighting time, lighting off time, and lighting flashing speed. The lighting unit control information as illustrated may be predefined in advance, or may be directly set by a user.

The configuration of the lighting device 100 shown in FIG. 1 has been described above with reference to FIG. 2. As shown in FIG. 2, in the lighting device 100, the power supply unit may be omitted. In this case, the lighting device 100 is electrically connected to the smart device 200 and then operates by receiving power from the smart device 200. As another example, the lighting device 100 may further include a power supply (battery). This power supply unit may be separated from the lighting device 100 and then replaced with another power unit or may be charged by power supplied from the outside.

3 is a diagram illustrating the configuration of the smart device 200 shown in FIG. 1.

Referring to FIG. 3, the smart device 200 includes an input unit 210, a display unit 220, a storage unit 230, a control unit 240, a wired communication unit 250, and a wireless communication unit 260.

The input unit 210 receives various types of information and/or commands from a user. For example, a lighting pattern selection command for selecting a lighting pattern, an operation standby command, a lighting control execution command for starting lighting control, and a lighting control termination command for ending the running lighting control may be input. To this end, the input unit 210 may include at least one of a joystick, a mouse, a keypad, and a keyboard. In this case, the keyboard may be implemented in hardware or software.

When the lighting control application is driven, the display 220 may display a lighting control screen. According to an embodiment, various information and/or icons may be arranged on the lighting control screen. For example, icons corresponding to preset lighting control patterns, an icon for inputting a lighting control execution command, an icon for inputting a lighting control end command, and the like may be arranged. However, the icons arranged on the lighting control screen are not limited to those illustrated, and the types and arrangement positions of icons included in the lighting control screen may be implemented to be settable by a user.

When a lighting control execution command is input after a predetermined lighting pattern is selected or set from among the predefined lighting patterns, a lighting control signal corresponding to the lighting pattern is generated, and the display unit 220 is controlled according to the lighting control signal. Specifically, the lighting control signal may include lighting unit control information and display unit control information, and the display unit 200 may be controlled based on the display unit control information of the lighting control signal. Examples of the display unit control information include screen color, screen brightness, screen display start time, screen flashing interval, screen display end time, and identification information of content to be displayed through the screen.

The storage unit 230 may include a hard disk drive, an optical disk drive, a magneto-optical disk drive, a nonvolatile memory, a volatile memory, or a combination thereof. The storage unit 230 stores data necessary for the smart device 200 to operate. For example, the storage unit 230 stores the lighting control application. The lighting control application is an application that can control at least one of the display unit 220 of the smart device 200 and the lighting unit 110 of the lighting device 100. The lighting control application may be implemented as a mobile application, and may be distributed by the server 400 through the network 300.

The wired communication unit 250 is responsible for wired communication between the smart device 200 and the lighting device 100. Although not shown in the drawings, the wired communication unit 250 may include a wired communication port. The wired communication port provided in the wired communication unit 250 of the smart device 200 is electrically connected to a wired communication port provided in the wired communication unit 120 of the lighting device 100. When the wired communication port of the smart device 200 is coupled to the wired communication port of the lighting device 100, signals and/or data are transmitted and received between the smart device 200 and the lighting device 100. For example, a confirmation request signal confirming whether or not the lighting control application is installed is received from the lighting device 100, and a response signal therefor is transmitted to the lighting device 100.

The wireless communication unit 260 is responsible for wireless communication between the smart device 200 and the server 400. To this end, the wireless communication unit 260 may support one or more wireless communication methods. Wireless communication methods include Ultra Wide Band (UWB), WiFi, Bluetooth, ZigBee, Radio Frequency (RF), and Infrared Data Association (IrDA). For example, but is not limited to this.

The controller 240 connects and controls each component in the smart device 200. For example, when a confirmation request signal confirming whether a lighting control application is installed from the lighting device 100 is received, it is checked whether the application is installed in the smart device 200. As a result of checking, if the lighting control application is not installed, the controller 240 transmits an application request signal to the server 400. Thereafter, when a lighting control application is received from the server 400, the controller 240 installs the received lighting control application.

When the lighting control application is executed after the installation of the lighting control application is completed, the controller 240 configures the lighting control screen. The lighting control screen may include icons corresponding to predefined lighting patterns, an icon for inputting a lighting control execution command, an icon for inputting a lighting control termination command, an icon for inputting an operation standby command, and the like. . The user may select a predetermined lighting pattern on the lighting control screen or input information or data necessary for lighting control. Thereafter, when a lighting control execution command is input, the controller 240 generates a lighting control signal corresponding to the selected lighting pattern. The generated control signal is used to control the display unit 220 of the smart device 200 and the lighting unit of the lighting device 100.

In the above, the configuration of the wireless lighting control system 1 according to an embodiment has been described with reference to FIGS. 1 to 3.

1 illustrates one lighting device 100 and one smart device 200, the lighting device 100 and the smart device 200 may be provided in plural. In this case, the plurality of lighting devices 100 may include a first lighting device 100A and a second lighting device 100B, 100C, 100D, and the plurality of smart devices 200 may include a first smart device 200A. ) And second smart devices 200B, 200C, and 200D. The first smart device 200A is electrically connected to the first lighting device 100A, and the first lighting device 100A may operate as a master. The second smart devices 200B, 200C, 200D are electrically connected to the second lighting devices 100B, 100C, and 100D, and these second lighting devices 100B, 100C, 100D can operate as a slave. have. The first lighting device 100A operating as a master may transmit an operation standby signal and a lighting control signal to the second lighting devices 100B, 100C, and 100D operating as a slave. For a more detailed description of this, reference will be made to FIGS. 4 and 5.

4 is a view showing an embodiment of the operation of the wireless lighting control system including a plurality of lighting devices (100A, 100B, 100C, 100D) and a plurality of smart devices (200A, 200B, 200C, 200D).

Prior to the description, it is assumed that the first lighting device 100A operating as a master and the second lighting devices 100B, 100C, and 100D operating as a slave are located within the wireless control range of the first lighting device 100A. .

First, the first lighting device 100A detects an electrical connection with the first smart device 200A. Thereafter, the first lighting device 100A transmits a confirmation request signal for confirming whether or not the lighting control application is installed to the first smart device 200A.

The first smart device 200A checks whether the lighting control application is installed in the first smart device 200A, and if the lighting control application is not installed, the first smart device 200A transmits an application request signal for requesting the lighting control application. It is transmitted to the server 400.

The server 400 transmits the requested lighting control application to the first smart device 200A through the network 300

When the lighting control application is installed and executed in the first smart device 200A, a lighting control screen is configured. According to an embodiment, the lighting control screen includes at least one of an icon corresponding to preset lighting patterns, an icon for inputting a lighting control execution command, an icon for inputting a lighting control end command, and an icon for inputting an operation standby command. Includes. This lighting control screen is displayed through the display unit 220 of the first smart device 200A.

Thereafter, when the user inputs an operation standby command through the lighting control screen, the input operation standby command is transmitted to the first lighting apparatus 100A through the wired communication unit 250. The first lighting device 100A transmits an operation standby command received from the first smart device 200A to the second lighting devices 100B, 100C, and 100D according to a wireless communication method.

The second lighting devices 100B, 100C, and 100D control the lighting unit 110 based on the operation standby command received from the first lighting device 100A to notify users that the operation standby command has been received. For example, the light source of the lighting unit 110 is flashed at regular intervals for a predetermined period of time to notify users who have the second illumination devices 100B, 100C, and 100D that an operation standby command has been received.

Users who have confirmed that the operation waiting command has been received combine their respective second lighting devices 100B, 100C, and 100D with the second smart devices 200B, 200C, and 200D. As a result, the electrical connection with the second smart devices 200B, 200C and 200D is detected in the second lighting devices 100B, 100C, and 100D.

When the electrical connection with the second smart devices 200B, 200C, and 200D is detected as described above, the second lighting devices 100B, 100C, and 100D send a confirmation request signal to confirm whether or not the lighting control application is installed. , 200C, 200D).

As a result of checking whether the lighting control application is installed, if the lighting control application is not installed or needs to be updated, the second smart devices 200B, 200C, 200D are an application request signal requesting the lighting control application to the server 400 B. An update request signal for requesting update of the lighting control application is transmitted to the server 400.

The server 400 transmits the requested lighting control application to the second smart devices 200B, 200C, and 200D through the network 300. After that, the server 400 may transmit a signal indicating that the lighting control application has been transmitted to the second smart devices 200B, 200C, and 200D to the first smart device 200A.

Thereafter, when the user of the first smart device 200A selects a predetermined lighting pattern from among the lighting patterns displayed on the lighting control screen or sets the lighting pattern and then inputs a lighting control execution command, the first smart device ( 200A) generates a lighting control signal corresponding to the selected lighting pattern. The generated lighting control signal is transmitted to the second lighting devices 100B, 100C, and 100D through the first lighting device 100A (S41).

The second lighting devices 100B, 100C, and 100D transmit the received lighting control signals to the second smart devices 200B, 200C, and 200D, respectively. As a result, the lighting unit 110 of the second lighting devices 100B, 100C, and 100D and the display unit 220 of the second smart devices 200B, 200C, and 200D are controlled based on the lighting control signal. For example, if the information on the lighting color is set to red among the lighting control information included in the lighting control signal, and the information on the screen color is set to red from the display unit control information, the second lighting devices ( 100B, 100C, 100D) of the illumination unit 110 outputs red light, and a red screen is displayed on the display units of the second smart devices 200B, 200C, and 200D.

According to the method described above, since the lighting unit 110 of the second lighting devices 100B, 100C, and 100D and the display unit 220 of the second smart devices 200B, 200C, and 200D are simultaneously controlled, the second lighting device Compared to the case of controlling only the lighting unit 110 of (100B, 100C, 100D), the visual cheering effect can be improved.

5 is a view showing another embodiment of the operation of a wireless lighting control system including a plurality of lighting devices (100A, 100B, 100C, 100D) and a plurality of smart devices (200A, 200B, 200C, 200D).

Prior to the description, it is assumed that the first lighting device 100A operating as a master and the second lighting devices 100B, 100C, and 100D operating as a slave are located within the wireless control range of the first lighting device 100A. .

In addition, the first lighting device 100A is electrically connected to the first smart device 200A, and the second lighting devices 100B, 100C, and 100D are connected to the second smart devices 200B, 200C, and 200D. It is assumed that each is electrically connected. In addition, it is assumed that the lighting control application is installed in the first smart device 200A and the second smart devices 200B, 200C, and 200D.

In this state, when the lighting control application of the first smart device 200A is executed, a lighting control screen is configured, and the configured lighting control screen is displayed through the display unit 220 of the first smart device 200A. In this case, the lighting control screen includes information required to control the lighting unit 110 of the second lighting devices 100B, 100C, and 100D (hereinafter referred to as'lighting unit control information') and the second smart devices 200B and 200C. , 200D) may include an input window or an icon for receiving information required to control the display unit (hereinafter, referred to as “display unit control information”).

Examples of the lighting unit control information include lighting color, lighting brightness, lighting start time, lighting blinking interval, and lighting ending time. Examples of the display unit control information include screen color to be displayed through the display unit 220, screen brightness, screen display start time, screen flashing interval, screen display end time, and identification information of content to be displayed through the screen.

After the lighting unit control information and the display unit control information as illustrated are input, when a lighting control execution command is input, the first smart device 200A generates a lighting control signal including the input information. The generated lighting control signals are respectively transmitted to the second lighting devices 100B, 100C, and 100D through the first lighting device 100A (S51).

The second lighting devices 100B, 100C, and 100D transmit the lighting control signal received from the first lighting device 100 to the second smart devices 200B, 200C, and 200D, respectively.

The second smart devices 200B, 200C, and 200D check display control information included in the lighting control signal and determine whether communication with the server 400 is necessary. For example, when content identification information is included in the display unit control information, the second smart devices 200B, 200C, and 200D transmit a content request signal to the server 400, respectively (S52, S53).

The server 400 transmits the requested content (eg, image or video) to the second smart devices 200B, 200C, and 200D through the network 300 (S54, S55).

When the requested content (eg, image or video) is received from the server 400, the second smart devices 200B, 200C, and 200D display the received content through the display unit 220, respectively. In this case, the content may be displayed based on the display unit control information included in the lighting control signal. Specifically, the display may be based on a screen display start time, a screen blinking interval, a screen display end time, and screen brightness included in the display unit control information.

At the same time, the second lighting devices 100B, 100C, and 100D control the lighting unit 110. In this case, the lighting unit 110 of the second lighting devices 100B, 100C, and 100D may be controlled based on the lighting unit control information included in the control signal. Specifically, the lighting unit 110 may be controlled based on the lighting color, lighting brightness, lighting start time, lighting flashing interval, and lighting end time included in the lighting unit control information.

According to the above-described method, since the lighting unit 110 of the second lighting devices 100B, 100C, and 100D and the display unit 220 of the second smart devices 200B, 200C, and 200D are simultaneously controlled, the second lighting device 100B , 100C, 100D) compared to the case of controlling only the lighting unit 110, it is possible to improve the visual cheering effect. In addition, since various contents such as text, images, or videos can be collectively displayed through the plurality of second smart devices 200B, 200C, and 200D, various types of visual cheering are possible.

The embodiments of the present invention have been described above. In addition to the above-described embodiments, the embodiments of the present invention may be implemented through a medium including computer-readable code/instruction for controlling at least one processing element of the above-described embodiment, for example, a computer-readable medium. . The medium may correspond to a medium/media that enables storage and/or transmission of the computer-readable code.

The computer-readable code may not only be recorded on a medium, but may also be transmitted through the Internet. The medium is, for example, a magnetic storage medium (e.g., ROM, floppy disk, hard disk, etc.) and optical It may include a recording medium such as a recording medium (eg, CD-ROM, Blu-Ray, DVD), and a transmission medium such as a carrier wave. Since the media may be a distributed network, computer-readable code can be stored/transmitted and executed in a distributed manner. Furthermore, furthermore, by way of example only, the processing element may include a processor or a computer processor, and the processing element may be distributed and/or included in one device.

Although embodiments of the present invention have been described with reference to the drawings exemplified as described above, those of ordinary skill in the art to which the present invention pertains to the present invention in other specific forms without changing the technical spirit or essential features. It will be appreciated that it can be implemented. Therefore, the embodiments described above are illustrative in all respects and should be understood as non-limiting.

1: wireless lighting control system
100: lighting device
100A: first lighting device
100B, 100C, 100D: second lighting device
200: smart device
200A: first smart device
200B, 200C, 200D: second smart device

Claims (3)

A first device that generates a lighting control signal based on a user input;
A master device connected to the first device to receive the lighting control signal and wirelessly transmit the lighting control signal; And
Including; a cheering lighting device for wirelessly receiving the lighting control signal from the master device and controlling the lighting unit based on the received lighting control signal,
A second device connected to the cheering lighting device to receive the lighting control signal and to control a display unit based on the received lighting control signal; Including,
The first device executes a lighting control application,
The first device receives information or data necessary for lighting control of the cheering lighting device and screen control of the second device through the lighting control application, and receives a preset lighting pattern and a screen corresponding to the lighting pattern. Transmitting the lighting control signal for controlling the pattern to the cheering lighting device,
The master device wirelessly transmits the lighting control signal based on the data transmitted through the lighting control application to control the lighting pattern of the cheering lighting device and the screen pattern of the second device, for cheering Wireless control system of lighting. The method of claim 1,
The master device,
When a connection with the first device is detected, a confirmation request signal is transmitted to the first device to confirm whether or not the lighting control application is installed,
The first device,
When the lighting control application is not installed or needs to be updated, requesting the lighting control application from the server or requesting an update of the lighting control application,
In response to the request, the wireless control system of the lighting for cheering receives information for installation or update of the lighting control application from the server. delete

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