KR20230074689A - Performance directing system - Google Patents

Abstract

A performance directing control system is provided. The system includes a plurality of slave devices corresponding to each seat in a performance hall; and a master device that broadcasts a light emission control signal for controlling light emission of the plurality of slave devices, wherein the master device corresponds to predetermined electronic code information, and the plurality of slave devices corresponding to respective seats in the concert hall. field; and a master device broadcasting a light emission control signal for controlling light emission of the plurality of slave devices, wherein the master device determines a specific light emission position at which the plurality of slave devices corresponding to predetermined electronic code information will emit light. and an information providing unit that provides light emitting position information, which is information indicating, to the plurality of slave devices, wherein each of the plurality of slave devices includes a light emitting unit including at least one light source element, and a light emitting unit that stores the light emitting position information. A storage unit and a light emitting control unit for controlling the light emitting unit based on a light emitting control signal corresponding to light emitting position information stored in the storage unit, wherein the master device includes a ticket corresponding to each of the plurality of slave devices. The electronic code information may further include an information verification unit that obtains a seat position from the included electronic code information and obtains the light emitting position information corresponding to the seat position.

Description

Performance directing control system {PERFORMANCE DIRECTING SYSTEM}

Various embodiments of the present invention relate to a performance directing control system.

In general, a lighting device refers to a light emitting device that achieves the purpose of lighting by reflecting, refracting, and transmitting light from a light source. The lighting device may be classified into an indirect lighting device, a semi-indirect lighting device, a total diffusion lighting device, a semi-direct lighting device, and a direct lighting device according to light distribution.

Due to technological development, lighting devices are used for various purposes. For example, a lighting device is used to create a media facade. Media façade refers to the realization of media functions by installing lighting devices on the outer wall of a building.

As another example, the lighting device may be used as a small cheering tool in a sporting event or concert in an environment of less than a certain level of illumination. However, in such an environment, it is difficult to create a systematic lighting pattern or shape because a plurality of lighting fixtures are individually controlled. In addition, it is not easy to obtain a cheering effect as expected by only using the light source disposed in the lighting device.

Therefore, in order to specifically solve the above problems, there is a demand for introducing a method capable of collectively controlling a plurality of lighting devices.

Korean Patent Publication No. 10-2015-0055938 Korean Patent Publication No. 10-2015-0009405

Conventionally, a position of a lighting device is calculated using an RSSI signal or the like to control light emission of the lighting device. However, this conventional calculation method has a problem in that it is difficult or inaccurate to accurately measure the position of the lighting device due to various variables.

In addition, in order to produce a scene such as animation using a plurality of lighting devices, data values such as pixel values must be transmitted to all of the plurality of lighting devices. There is a difficult problem.

A light emission control system according to various embodiments of the present invention has been devised to solve the above-mentioned problems, and an apparatus and system for controlling light emission of a lighting device by using electronic code information set in advance to predict the position of the lighting device in advance. want to provide

A performance directing control system according to an embodiment of the present invention includes a plurality of slave devices corresponding to each seat in a performance hall; and a master device that broadcasts a light emission control signal for controlling light emission of the plurality of slave devices, wherein the master device corresponds to predetermined electronic code information, and the plurality of slave devices corresponding to respective seats in the concert hall. field; and a master device broadcasting a light emission control signal for controlling light emission of the plurality of slave devices, wherein the master device determines a specific light emission position at which the plurality of slave devices corresponding to predetermined electronic code information will emit light. and an information providing unit that provides light emitting position information, which is information indicating, to the plurality of slave devices, wherein each of the plurality of slave devices includes a light emitting unit including at least one light source element, and a light emitting unit that stores the light emitting position information. A storage unit and a light emitting control unit for controlling the light emitting unit based on a light emitting control signal corresponding to light emitting position information stored in the storage unit, wherein the master device includes a ticket corresponding to each of the plurality of slave devices. The electronic code information may further include an information verification unit that obtains a seat position from the included electronic code information and obtains the light emitting position information corresponding to the seat position.

In the present invention, there is an effect of controlling various patterns of light-emitting production by inserting previously designated light-emitting position information according to electronic code information such as tickets for each slave (eg, light-emitting device or lighting device).

In addition, a plurality of slaves can be controlled in real time or by group based on the light emitting position information, and a high-quality scene can be produced by storing production information corresponding to the light emitting position information in the slave in advance. Accordingly, it is possible to generate various light emission patterns of the slaves at sports events or concerts, and a cheering effect due to the various light emission patterns can be improved.

In addition, by driving the slave device in the locked mode in a predetermined section, it is possible to prevent the occurrence of blemishes in directing using light emission.

In addition, when the light emitting position information is not yet inserted into the slave, user convenience and efficiency of directing work can be improved by receiving the light emitting position information through an adjacent slave.

The effects obtainable in the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description below. will be.

1 is a configuration diagram of a light emission control system according to various embodiments of the present invention.
2 is a configuration diagram of a master device according to various embodiments of the present invention.
3 is a configuration diagram of a slave device according to various embodiments of the present invention.
4 is a flowchart illustrating an operation of controlling light emission of a slave device in a master device according to various embodiments of the present disclosure.
5 is a flowchart illustrating an operation of operating a light emitting unit under the control of a master device in a slave device according to various embodiments of the present disclosure.
6 is an exemplary view illustrating an operation of scanning electronic code information of a ticket in a master device according to various embodiments of the present invention and providing light emitting position information corresponding to the electronic code information to a slave device.
7 is an exemplary diagram illustrating an operation of controlling light emission of slave devices in real time in a master device according to various embodiments of the present disclosure.
8 is an exemplary diagram illustrating an operation of providing preset presentation information according to light emitting position information to a slave device in a master device according to various embodiments of the present disclosure.
9 is an exemplary diagram illustrating an operation of controlling a light emitter based on presentation information provided from a master device in a slave device according to various embodiments of the present disclosure.
10 is an exemplary diagram illustrating an operation of causing a slave device to emit light according to preset presentation information in a master device according to various embodiments of the present disclosure.

Advantages and features of the present invention, and how to achieve them, will become clear with reference to the detailed description of the following embodiments. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, only these embodiments make the disclosure of the present invention complete, and common knowledge in the art to which the present invention belongs. It is provided to fully inform the holder of the scope of the invention, and the present invention is only defined by the scope of the claims.

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

Hereinafter, a light emission control system 10 using electronic code information will be described with reference to the accompanying drawings.

1 is a configuration diagram of a light emission control system 10 according to various embodiments of the present invention.

The emission control system 10 may include a master device 100 , a slave device 200 and a server 300 . The light emitting control system 10 controls light emitting of the slave 200 such as a light emitting device or a lighting device to produce various types of light emitting patterns for cheering in a concert hall or the like.

First, the master device 100 may perform a function of controlling light emission of one or more slave devices 200 independently or by communicating with the server 300 . As a non-limiting example, the master device 100 may be configured in the form of a kiosk, a smartphone, a tablet, a desktop personal computer (PC), a laptop PC (laptop personal computer), a netbook It may be various types of electronic devices that include some of the components of a computer (netbook computer) or may be interoperable therewith.

The slave device 200 may perform a function of producing various types of light emission patterns in real time or for each predetermined section under the control of the master device 100 . Such a slave device 200 may be a small cheering tool capable of emitting light in various forms in at least a part of the area during sports events or concerts.

The server 300 may perform a function of communicating with the master device 100 and transferring various information that may be provided to the slave 200 to the master device 100 . For example, the server 300 may receive electronic code information from the master device 100 and provide at least one of light emitting position information and directing information corresponding to the electronic code information to the master device 100 .

The master device 100, the slave device 200 and the server 300 may communicate with each other in various ways. As a non-limiting example, the master device 100 and the slave device 200 may be connected by wireless communication such as RF communication or an electronic tag, and the master device 100 and the server 300 are connected to a telecommunications network. It may be connected, but is not limited thereto.

Figure 2 is a block diagram of the master device 100 according to various embodiments of the present invention.

The master device 100 includes a communication unit 110, an electronic code recognition unit 120, a storage unit 130, an information checking unit 140, an information providing unit 150, a light emission control unit 160 and a control unit 170. can include According to various embodiments, the master device 100 may omit some of the components of FIG. 2 or further include additional components (eg, an input module, a display module, a power module, an audio module, etc.).

The communication unit 110 may connect communication between the master device 100 and the slave device 200 or between the master device 100 and the server 300 . The communication unit 110 may include, for example, at least one of a wired communication module and a wireless communication module (eg, RF transmitter/receiver, ZigBee, Bluetooth, WIFI module, etc.).

The electronic code recognition unit 120 may perform a function of receiving an electronic code printed on a performance ticket or a concert ticket. According to a non-limiting embodiment, the electronic code may be a code capable of recognizing information printed on a ticket, such as a barcode or QR code, through various electronic devices, but is not limited thereto. The electronic code recognition unit 120 may be an optical scanner or a QR code recognizer capable of collecting electronic code information by scanning an electronic code, but is not limited to a specific form. In FIG. 2, the electronic code recognition unit 120 is shown as a form implemented inside the master device 100, but according to various embodiments, the electronic code recognition unit 120 is a form separated from the master device 100. can also be implemented with In this case, the master device 100 may receive electronic code information from the electronic code recognition unit 120 wired or wirelessly.

The storage unit 130 may store data received or generated from other components of the control unit 170 , the master device 100 , or the light emitting control system 10 . The storage unit 130 may include, for example, a memory, a cache, a buffer, and the like.

According to various embodiments, the storage unit 130 may store electronic code information received from a ticket, information on a light emitting position preset according to the electronic code information, and presentation information corresponding to the light emitting position. Such electronic code information, light emitting position information, and direction information may be implemented in the form of a mapping table that corresponds to each other, but is not limited thereto.

According to some embodiments, an electronic code capable of confirming on the master device 100 or the server 300 which position of the concert hall is where the person who purchased the ticket is located may be printed on the ticket. In addition, seat information such as Korean, English, or Arabic numerals may be additionally printed on the ticket so that the purchaser of the ticket can recognize the seat position.

According to some embodiments, the light emitting position information may be information preset in the master device 100 or the server 300 to identify or group a plurality of slave devices 200 for directing a performance. This light-emitting position information may be the same as seat information recognizable by humans or may be set by adding additional identification information to the seat information, and may be set in advance by a manager of the light-emitting control system 10 or a performance policy, or set in real time. It can be.

According to some embodiments, when a relatively high-quality light emitting pattern (eg, a screen appearing as an image, etc.) is to be produced through a plurality of slave devices 200, the production information is transmitted from the master device 100 to the slave device 200. It may be information that is previously stored (eg, inserted) as . In general, since data that can be simultaneously transmitted through wireless communication is limited, presentation information such as pixel information must be provided to the slave devices 200 in advance in order to produce a high-quality light emitting pattern. Accordingly, the master device 100 may provide the slave device 200 with presentation information corresponding to the light emitting position information in advance.

The information verification unit 140 may receive the electronic code information collected from the electronic code recognition unit 120 and check light emitting position information corresponding to the electronic code information on the storage unit 130 or the server 300 . As a non-limiting embodiment, the information verification unit 140 transmits the electronic code information collected from the electronic code recognition unit 120 to the server 300 through the communication unit 110, and emits light corresponding to the electronic code information. Location information may be checked on the server 300 . Also, the information checking unit 140 may transmit the checked light emitting position information to the information providing unit 150 .

The information providing unit 150 may provide (eg, insert) at least one of the light emitting position information and directing information checked by the information checking unit 140 to the slave device 200 . The information providing unit 150 may transmit light emitting position information or directing information to the slave device 200 through a communication unit 110 such as an RF module.

The light emitting control unit 160 may wirelessly broadcast a light emitting control signal corresponding to the light emitting position information. For example, the light emitting controller 160 may broadcast a light emitting control signal to a plurality of slave devices 200, and each slave device 200 has a signal corresponding to its own light emitting position information among the broadcast light emitting control signals. can be selectively received.

The control unit 170 may perform a data processing function of controlling signal flow between overall operations and internal components of the master device 100, such as power supply control of the master device 100, and processing data. The controller 170 may include at least one processor.

The aforementioned information checking unit 140, information providing unit 150, and light emitting control unit 160 are functional components shown separately to distinguish at least some functions of the control unit 170 from general functions of the control unit 170. can In FIG. 2 , the information checking unit 140, the information providing unit 150, and the light emitting controller 160 are shown as separate components from the controller 170, but may be configured as one module together with the controller 170.

3 is a configuration diagram of a slave device 200 according to various embodiments of the present invention.

The slave device 200 may include a communication unit 210 , a light emitting unit 220 , a storage unit 230 , an information receiving unit 240 , a light emitting controller 250 and a controller 260 . According to various embodiments, the slave device 200 may omit some of the components of FIG. 3 or may further include additional components (eg, an input module, a display module, a power module, an audio module, etc.).

The communication unit 210 may connect communication between the master device 100 and the slave device 200 . The communication unit 210 may include, for example, at least one of a wired communication module and a wireless communication module (eg, RF transmitter/receiver, ZigBee, Bluetooth, WIFI module, etc.).

The light emitting unit 220 may include one or more light source elements, and a light emitting diode (LED) may be exemplified as the light source. In addition, the light emitting unit 220 may include LEDs of different colors, and may include, for example, at least one of a red LED, a green LED, a blue LED, and a white LED.

When the light emitted from each of these LEDs is mixed, a wide range of colors can be created, and the mixed color is determined based on the ratio of the intensity of light emitted from each LED. The intensity of light emitted from each LED may be proportional to the driving current of each LED.

That is, by controlling the driving current of each LED, it is possible to control the color of light output from the light emitting unit 220, and a plurality of LEDs may be arranged in a dot shape. ) or images or videos may be displayed.

In the above, although the LED has been described as a light source of the light emitting unit 220 as an example, the type of light source is not limited to the LED. According to another embodiment, an organic light emitting diode (OLED) may be used as a light source.

The storage unit 230 may store data received or generated from the control unit 260 , the slave device 200 , or other components of the emission control system 10 . The storage unit 130 may include, for example, a memory, a cache, a buffer, and the like.

According to various embodiments, the storage unit 230 may include light emitting position information preset according to electronic code information and presentation information corresponding to the light emitting position. Also, the storage unit 260 may provide the stored light emitting position information or presentation information to the light emitting controller 250 or the controller 260 when the light emitting controller 250 or the controller 260 is called.

The information receiving unit 240 may receive light emitting position information or directing information from the master device 100 through the communication unit 210 . For example, the information receiving unit 240 may receive at least one of light emitting position information and directing information from the master device 100 through RF communication.

The light emitting control unit 250 selectively receives a signal corresponding to the light emitting position information of the storage unit 230 among the light emitting control signals broadcast from the master device 100, and emits the light emitting unit 220 based on the received light emitting control signal. can control.

The control unit 260 may perform a data processing function of controlling overall operations such as power supply control of the slave device 200 and signal flow between internal components of the slave device 200 and processing data. The control unit 260 may include at least one processor.

The aforementioned information receiving unit 240 and the light emitting controller 250 may be separately illustrated functional components to distinguish at least some functions of the controller 260 from general functions of the controller 260 . In FIG. 2 , the information receiving unit 240 and the light emitting controller 250 are shown as separate components from the controller 260, but may be configured as one module together with the controller 260.

4 is a flowchart illustrating an operation of controlling light emission of a slave device 200 in the master device 100 according to various embodiments of the present disclosure.

First, in step S410, the master device 100 may recognize electronic code information by scanning the electronic code printed on the spectator's ticket. For example, a user (eg, administrator) of the master device 100 may extract electronic code information by scanning an electronic code printed on a ticket using an electronic code recognition unit 120 such as an optical scanner.

Next, in step S430, the master device 100 can check the light emitting position information according to the electronic code information. For example, the master device 100 may check light emitting position information mapped to electronic code information on the storage unit 130 or the server 300 .

Next, in step S450, the master device 100 may provide (eg, insert) the confirmed light emitting location information to the slave device 200. For example, the manager of the master device 100 may provide the slave device 200 into which the light emitting location information is inserted to a spectator who brought the corresponding ticket after going through the process of checking the electronic code information and providing the light emitting location information. . In addition, the audience can check the designated seat on the concert hall through the seat information of the ticket and sit or be positioned in the corresponding seat.

Next, in step S470, the master device 100 may broadcast an emission control signal. For example, the master device 100 may transmit a lighting control signal according to a specific scenario of a performance or real-time control to the plurality of slave devices 200 . In this case, the master device 100 may continuously or periodically broadcast or transmit the same light emission control signal to unspecified slave devices 200 .

5 is a flowchart illustrating an operation of operating the light emitting unit 220 under the control of the master device 100 in the slave device 200 according to various embodiments of the present disclosure.

First, in step S510, the slave device 200 may receive light emitting position information from the master device 100 and store the received light emitting position information in the storage unit 230.

Next, in step S530, the slave device 200 may selectively receive a signal corresponding to the light emitting position information stored in the storage unit 230 among the light emitting control signals broadcast from the master device 100. Also, the slave device 200 may output various light emitting patterns by controlling the light emitting unit 220 based on the received light emitting control signal.

6 is an exemplary diagram illustrating an operation of scanning electronic code information of a ticket in the master device 100 according to various embodiments of the present invention and providing light emitting position information corresponding to the electronic code information to the slave device 200 according to various embodiments of the present invention. .

As shown, the master device 100 may collect electronic code information by scanning the electronic code 602 of the ticket 601 possessed by the audience through the electronic code recognition unit 120. In addition, when the master device 100 and the electronic code recognition unit 120 are configured separately, the master device 100 receives the electronic code information collected by the electronic code recognition unit 120 through an intermediate medium such as a kiosk. The electronic code information may be received through a physical medium such as USB or a network. The master device 100 may check the light emitting position information corresponding to the collected electronic code information on the storage unit 130 or the DB 603 of the server 300, and transmit the checked light emitting position information to the slave device 200. can provide In this case, the master device 100 may insert light emitting position information into the slave device 200 by tagging the slave device 200 through the information provider 150 such as an RF tag device.

According to a non-limiting example, the slave device 200 may emit light from the light emitting unit 220 in a preset color when the light emitting position information is received. Accordingly, it is possible to check whether the light emission control system 10 or the manager of the master device 100 has successfully inserted information into the slave device 200 .

7 is an exemplary diagram illustrating an operation of controlling light emission of slave devices 200 in real time in the master device 100 according to various embodiments of the present disclosure. The example of FIG. 7 shows an operation in which light emitting position information is inserted into the slave device 200 and the master device 100 controls the slave devices 200 in real time.

Referring to FIG. 7 , an audience seat 700 and a master device 100 in which a plurality of slave devices 200_1 to 200_n are located are shown. The audience seats 700 are divided into groups A0 to J9, and one group (eg, A0) may include slave devices 200_1 to 200_12 of the audience located in each seat. For example, a total of 12 seats may be included in the A0 group, and light emitting position information of the first slave device 200_1 located in the first seat of the A0 group may be preset to “A001”. Similarly, light emitting position information of the second slave device 200_2 located in the second seat of the A0 group may be set to “A002” in advance. However, in various embodiments of the present invention, the grouping method or the number of slave devices 200 classified in each group is not limited to a specific method or number.

After the performance starts or during the performance, the master device 100 may broadcast a light emission control signal 701 to the plurality of slave devices 200_1 to 200_n. The light emission control signal 701 may be, for example, a signal directed so that the number “2” is output as a whole by a plurality of slave devices, as shown. Specifically, the slave devices 200_1 to 200_12 of the A0 group receive information corresponding to the light emitting position information of the A0 group (eg, a blue LED light emitting signal) among the broadcast light emitting control signals 701 and thus turn blue. can output a light source, and the slave devices of the B2 group receive information (eg, a red LED light emission signal) corresponding to the light emission position information of the B2 group among the broadcasting light emission control signals 701 to generate red light. Light source can be output.

Although not shown, the light emission form or light emission pattern produced by such real-time control may be controlled by a color book method in addition to the dot method as shown in FIG. 7 . For example, when the number of audience seats 700 shown in FIG. 7 is larger, the master device 100 first transmits a group identification number to the slave devices 200 included in each group to group them, and then groups each group. Emission control signals such as colors to be expressed in can be broadcast secondarily. Thereby, there is an effect that various production effects can be produced by determining the outline of the presentation pattern in a grouping method and changing the light emitting pattern for each group in real time. However, the directing method according to various embodiments of the present invention is not limited to the dot method or the color book method.

In FIG. 7 , the light emission control signal broadcasted by the master device 100 may have various types of data. For example, the data may include commands, scenarios, and light emission patterns to be produced for each group (eg, presence or absence of light emission, light emission color, light emission time, etc.). The manager of the master device 100 can input a production pattern to be controlled in real time to the master device 100 using various methods, and the master device 100 outputs the light emission control signal 701 to output the input production pattern. ) can be broadcast.

As described above, by inserting previously designated light emitting position information according to electronic code information such as a ticket into each slave device 200, various light emitting patterns that can be used in a performance hall can be effectively produced.

8 is an exemplary diagram illustrating an operation of providing preset presentation information according to light emitting position information to the slave device 200 in the master device 100 according to various embodiments of the present disclosure. These operations of FIG. 8 may be examples of step S450 of FIG. 4 .

According to various embodiments, in step S810, the master device 100 may check presentation information according to light emitting position information. For example, when checking light emitting position information corresponding to electronic code information, the master device 100 may additionally or simultaneously check presentation information corresponding to the light emitting position information. This presentation information is data previously provided to the slave device 200 for high-quality presentation, and controls the slave device 200 so that the light emitting unit 220 of the slave device 200 emits light separately for one or more predetermined sections. It may be information that

Next, in step S830, the master device 100 may provide light emitting position information and presentation information to the slave device 200. In this case, the light emitting position information and presentation information may be transmitted in a single data format, but are not limited thereto.

According to some embodiments, the master device 100 may transmit a lock signal for driving the slave device 200 in a lock mode to the slave device 200 in a predetermined period. As a non-limiting example, the lock mode may be a state in which the light emitting unit or the power supply of the slave device 200 cannot be manipulated. Accordingly, it is possible to prevent unintentional noise emission patterns from being output according to manipulations of some slave devices 200 during emission production according to predetermined scenarios.

According to an additional embodiment, the master device 100 transmits light emitting position information and directing information of a slave device (eg, a first slave device) to other slave devices adjacent to the slave device 200 when a preset condition is satisfied. Example: the second slave device).

According to various embodiments, the first condition as a preset condition may be a case in which light emitting position information is not included in the second slave device. For example, the manager of the master device 100 scans the electronic code information from the ticket, but fails to insert the light emitting position information corresponding to the electronic code information into the slave device (eg, the second slave device). can Then, when a light emitting control signal is broadcasted from the master device 100, the second slave device receives a response signal indicating that it cannot recognize a signal corresponding to the light emitting position information included in the second slave device among the broadcast light emitting control signals. It can be transmitted to the device 100.

As a preset condition, the second condition may be set such that presentation information of the second slave device is identical to presentation information of a first slave device located in an area adjacent to the second slave device. If presentation information to be transmitted to the second slave device is different from presentation information of the first slave device, noise may occur as a whole when a specific emission pattern is presented.

Accordingly, when the first condition is satisfied, the second slave device may search for slave devices located in the vicinity and collect light emitting position information of at least one of the searched slave devices. The second slave device may transmit the collected light emitting position information to the master device 100, and the master device 100 stores the corresponding light emitting position information on the storage unit 130 or the server 300 based on the received light emitting position information. It may be checked whether presentation information corresponding to is the same as presentation information to be provided to the second slave device. In the same case, the master device 100 may broadcast a control signal to the identified slave device (eg, the first slave device) to transmit light emitting position information and direction information of the first slave device to the second slave device. there is. Then, the first slave device may transmit light emitting position information and directing information of the first slave device to the second slave device.

Accordingly, by indirectly providing information necessary for directing to the slave device 200 even after the start of the performance, a more smooth and planned light emitting pattern can be produced.

9 is an exemplary diagram illustrating an operation of controlling the light emitting unit 220 based on presentation information provided from the master device 100 in the slave device 200 according to various embodiments of the present disclosure. Among the operations of FIG. 9 , contents overlapping with those of FIG. 5 may be omitted.

According to various embodiments, in step S910, the slave device 200 may receive light emitting position information and directing information from the master device 100. In this case, the slave device 200 may store the received light emitting position information and presentation information in the storage unit 230 .

Next, in step S930, the slave device 200 can selectively receive the light emission control signal broadcasted from the master device 100 based on light emission location information.

According to various embodiments, in step S950, the slave device 200 may emit light by distinguishing light emitters for each predetermined section based on the received light emission control signal.

For example, the slave device 200 operates the light emitting unit 220 according to the first presentation information in a first section (eg, a first time), and the second presentation in a second section (eg, a second time). The light emitting unit 220 can be operated by the information. The slave device 200 automatically distinguishes and operates the light emitting unit 220 according to production information determined for each section, or emits light by selectively receiving an activation signal (eg, flag) for each section broadcasted by the master device 100. The unit 220 can be distinguished and operated.

10 is an exemplary diagram illustrating an operation of causing the slave device 200 to emit light according to preset presentation information in the master device 100 according to various embodiments of the present disclosure. Among the contents shown in FIG. 10 , contents overlapping those of FIG. 7 may be omitted.

In the audience seat 1000 shown in FIG. 10, unlike FIG. 7, a relatively high-quality light emitting pattern is produced. To this end, each slave device 200 may store light emitting position information and directing information in advance. In addition, each slave device 200 has information on which scenario is to be produced among preset scenarios, information for selecting an image processing function such as a dissolve technique or a fade technique, or a function for setting the duration of a light emission pattern. information may be included.

According to various embodiments, the slave device 200 may store data in advance, and a predetermined light emission pattern (eg, specific pixel data) in response to a light emission control signal (eg, a flag signal) broadcast from the master device 100. can produce. In this way, by storing data in advance in the slave device 200, there is an effect that a high-quality light emitting pattern can be produced quickly and accurately.

In addition, by directing high-definition scenes, it is possible to generate various light emission patterns of cheering tools (slaves) in sports games or concerts, and the cheering effect due to the various light emission patterns can be improved.

The terms “module” or “unit” used in various embodiments of the present invention may refer to a unit including one or a combination of two or more of, for example, hardware, software, or firmware. . “Module” or “~unit” may be used interchangeably with terms such as, for example, unit, logic, logical block, component, or circuit. can “Module” or “~unit” may be a minimum unit or a part of an integrally composed part, or may be a minimum unit or part thereof that performs one or more functions. A “module” or “~unit” may be implemented mechanically or electronically.

A module or programming module according to various embodiments of the present invention may include at least one or more of the above-described components, some may be omitted, or additional other components may be further included. Operations performed by modules, programming modules, or other components according to various embodiments of the present invention may be executed sequentially, in parallel, iteratively, or in a heuristic manner. Also, some actions may be performed in a different order, omitted, or other actions may be added.

10: light emission control system 100: master device
200: slave device 300: server

Claims (6)

a plurality of slave devices corresponding to each seat in the concert hall; and
A master device broadcasting a light emission control signal for controlling light emission of the plurality of slave devices;
The master device includes an information providing unit that provides light-emitting position information, which is information indicating a specific light-emitting position at which the plurality of slave devices will emit light corresponding to predetermined electronic code information, to the plurality of slave devices;
Each of the plurality of slave devices,
A light-emitting unit including at least one light source element, a storage unit for storing the light-emitting position information, and a light-emitting control unit for controlling the light-emitting unit based on a light-emitting control signal corresponding to the light-emitting position information stored in the storage unit. , the master device,
A performance production control system further comprising an information verification unit that obtains a seat position from the electronic code information included in each ticket corresponding to the plurality of slave devices, and obtains the light emitting position information corresponding to the seat position. .
According to claim 1,
The light emitting control unit,
When the reception of the light-emitting position information is completed, the light-emitting unit emits light in a predetermined color to provide confirmation whether the light-emitting position information is inserted.
According to claim 1,
The plurality of slave devices,
Based on the received light emission control signal, the light emitting unit is controlled for each predetermined section, and directing information corresponding to the light emission position information is provided in advance,
The performance directing control system, characterized in that, the directing information is information set by distinguishing the directing patterns of the plurality of slave devices for each predetermined section according to a specific scenario of the performance.
a plurality of slave devices corresponding to each seat in the concert hall; and
A master device broadcasting a light emission control signal for controlling light emission of the plurality of slave devices;
Each of the plurality of slave devices includes a light emitting unit including at least one light source element,
The lock mode prevents output of a light emitting pattern different from a light emitting pattern corresponding to a predetermined scenario from the plurality of slave devices,
The master device,
and an information checking unit that obtains a seat position from electronic code information included in each ticket corresponding to the plurality of slave devices and obtains light emitting position information corresponding to the seat position.
According to claim 4,
The master device,
A performance directing control system for transmitting a locking signal for driving the plurality of slave devices in a lock mode in a predetermined period to the plurality of slave devices.
According to claim 5,
The lock mode is a state in which light emitting units or power sources of the plurality of slave devices are operated so that they cannot be manipulated;
The plurality of slave devices are provided in advance with direction information corresponding to the light emitting position information indicating a specific light emitting position at which they will emit light,
The performance directing control system, characterized in that, the directing information is information set by distinguishing the directing patterns of the plurality of slave devices for each predetermined section according to a specific scenario of the performance.

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