JP7562929B2 - Production system, production control device, and production device - Google Patents

Description

The present invention relates to a production system, a production control device, and a production device.

The following Patent Document 1 discloses a light emission control system in which a server controls the emission of a rod-shaped light via a network.

International Publication No. 2016/108287

However, the technology disclosed in Patent Document 1 does not allow the intentions of the user carrying the rod-shaped light to be reflected in the production of the event.

In order to solve the above problems, a production system according to one embodiment of the present invention comprises a production device held by an event participant and capable of selection operation and status detection, an information acquisition unit that acquires at least one of selection operation information regarding the selection operation and status detection information regarding the status detection transmitted from the production device, and a production control unit that controls the production of the event based on at least one of the selection operation information and the status detection information acquired by the information acquisition unit.

According to one embodiment of the present invention, it is possible to enhance the sense of unity among participants and performers at an event.

FIG. 1 is a diagram illustrating an example of a system configuration of a rendering system according to an embodiment; FIG. 1 is a diagram showing an example of a hardware configuration of a computer according to an embodiment. FIG. 1 is a diagram illustrating an example of a configuration of a rendering device according to an embodiment; FIG. 2 is a diagram illustrating an example of a functional configuration of a performance control device according to an embodiment. 1 is a flowchart showing an example of a processing procedure performed by a performance control device according to a first embodiment. FIG. 1 is a diagram showing a specific example of performance control by the performance control device according to the first embodiment; A flowchart showing an example of a processing procedure by a performance control device according to a second embodiment. FIG. 11 is a diagram showing a specific example of performance control by the performance control device according to the second embodiment. A flowchart showing an example of a processing procedure by a performance control device according to a third embodiment. FIG. 13 is a diagram showing a specific example of performance control by the performance control device according to the third embodiment. FIG. 13 is a diagram showing a specific example of performance control by the performance control device according to the fourth embodiment. FIG. 13 is a diagram showing a specific example of performance control by the performance control device according to the fifth embodiment. FIG. 13 is a diagram showing a specific example of performance control by the performance control device according to the sixth embodiment. FIG. 23 is a diagram showing a specific example of performance control by the performance control device according to the seventh embodiment. FIG. 23 is a diagram showing a specific example of performance control by the performance control device according to the seventh embodiment. FIG. 23 is a diagram showing a specific example of performance control by the performance control device according to the eighth embodiment. FIG. 23 is a diagram showing a specific example of performance control by the performance control device according to the eighth embodiment. FIG. 23 is a diagram showing a specific example of performance control by the performance control device according to the eighth embodiment. FIG. 23 is a diagram showing a specific example of performance control by the performance control device according to the ninth embodiment.

Below, an embodiment of the present invention is described with reference to the attached drawings.

(An example of a system configuration of the rendering system 1)
Fig. 1 is a diagram showing an example of a system configuration of a production system 1 according to an embodiment. As shown in Fig. 1, the production system 1 includes a production control device 100 and a plurality of production devices 10 (production devices 10a, 10b, 10c, ...) held by a plurality of participants (participant A, participant B, participant C, ...).

The performance control device 100 can receive various information (selection operation information, physical behavior information, and biological information) from the multiple performance devices 10 via the multiple information terminals 11. The performance control device 100 can control the performance of an event in which multiple participants participate based on various information received from the multiple performance devices 10. For example, in this embodiment, the performance control device 100 can control the lighting system 20 installed at the event venue, the light-emitting device 30 worn by the performers of the event, the display content of the live video of the event distributed by the video distribution device 40, and the multiple performance devices 10 based on various information received from the multiple performance devices 10. The performance control device 100 may be realized by one information processing device or may be realized by multiple information processing devices. For example, the lighting system 20 is configured to have multiple lighting devices 22 and a controller 24 that controls the multiple lighting devices. In addition, each of the multiple lighting devices 22 is capable of selectively emitting any light color from among multiple light-emitting colors (for example, a full-color LED).

The production device 10 can acquire selection operation information, physical behavior information, and biometric information, and transmit this information to the production control device 100 via the information terminal 11. The selection operation information is information indicating the result of a participant's selection of an arbitrary color from among multiple colors. The physical behavior information is information that is detected by the production device 10 and indicates the physical behavior of the production device 10. The biometric information is biometric information of the participant that is detected by the production device 10. In addition, the production device 10 can emit light and vibrate under control of the production control device 100.

For example, the performance device 10 connects to the information terminal 11 by short-range wireless communication such as Bluetooth (registered trademark), and communicates with the performance control device 100 via the information terminal 11. However, this is not limited to the above, and for example, the performance device 10 may connect to the information terminal 11 by other wireless communication methods (e.g., wireless LAN (Local Area Network), wireless WAN (Wide Area Network), etc.), or may communicate directly with the performance control device 100 by wireless communication.

Also, as shown in FIG. 1, the production system 1 includes a video distribution device 40 and a plurality of information terminals 11 (information terminals 11a, 11b, 11c, ...) held by a plurality of participants (participant A, participant B, participant C, ...).

The video distribution device 40 can distribute live video of an event filmed at the event venue to predetermined distribution destinations (each of multiple information terminals 11, a viewing device 42 used by participants outside the event venue, etc.) via a communication network N such as the Internet or a LAN (Local Area Network).

The information terminal 11 is an information terminal used by the participants, such as a smartphone, a tablet terminal, or a PC (Personal Computer). The information terminal 11 can communicate with the production device 10 by short-range wireless communication such as Bluetooth (registered trademark). In addition, the information terminal 11 can communicate with the production control device 100 via the network N (e.g., the Internet, a LAN (Local Area Network), etc.) by connecting to the network N by wireless communication. The information terminal 11 can obtain live video of the event distributed from the video distribution device 40 via the production control device 100 and display the live video. This allows each participant to watch the live video distributed from the video distribution device 40 using the information terminal 11 that he or she owns. In addition, the information terminal 11 can transmit various information (selection operation information, physical behavior information, and biological information) transmitted from the production device 10 to the production control device 100. Furthermore, the information terminal 11 can transmit various information (e.g., control information such as light emission and vibration of the performance device 10) transmitted from the performance control device 100 to the performance device 10. The information terminal 11 may be configured to separately obtain live video transmitted from the video distribution device 40 and performance controlled by the performance control device 100. In this case, the information terminal 11 may be configured to display the live video and the performance independently. The information terminal 11 may be configured to obtain, via the video distribution device 40, live video in which performance controlled by the performance control device 100 is embedded.

In this way, the production system 1 according to one embodiment can control the operation of the various devices (lighting system 20, light-emitting device 30, and multiple production devices 10) and the display content of the live video of the event distributed by the video distribution device 40, based on various information (selection operation information, physical behavior information, and bioinformation) obtained by the multiple production devices 10. This allows the production system 1 according to one embodiment to reflect the intentions of multiple participants in the event, thereby enhancing the sense of unity among the participants and performers.

(An example of a hardware configuration of the computer 200)
Fig. 2 is a diagram showing an example of the hardware configuration of a computer 200 according to an embodiment. The information terminal 11, the video distribution device 40, and the performance control device 100 each have, for example, the hardware configuration of the computer 200 as shown in Fig. 2. Note that the performance control device 100 may be configured by multiple computers 200.

The computer 200 has, for example, a processor 201, a memory 202, a storage device 203, a communication device 204, an input device 205, an output device 206, and a bus 207.

The processor 201 is, for example, a calculation device such as a CPU (Central Processing Unit) that realizes various functions by executing a predetermined program stored in a storage medium such as the storage device 203 or the memory 202. The memory 202 includes, for example, a RAM (Random Access Memory), which is a volatile memory used as a work area for the processor 201, and a ROM (Read Only Memory), which is a non-volatile memory that stores programs for starting the processor 201. The storage device 203 is a large-capacity storage device that stores an OS (Operating System), programs such as applications, and various data, information, etc., and is realized by, for example, an SSD (Solid State Drive) or an HDD (Hard Disk Drive).

The communication device 204 is a communication device such as a LAN or WAN for connecting the computer 200 to the communication network N to communicate with other devices. The communication device 204 may perform wireless communication or may perform wired communication. In addition, when the computer 200 is an information terminal 11, the communication device 204 includes a communication device for performing short-range wireless communication such as Bluetooth.

The input device 205 is, for example, an input device that accepts input from the outside, such as a touch panel, a keyboard, or a pointing device. The output device 206 is, for example, an output device that outputs to the outside, such as a display, a speaker, or a light-emitting element. Note that the input device 205 and the output device 206 may be integrated into one device, such as a touch panel display.

Bus 207 is commonly connected to each of the above components and transmits, for example, address signals, data signals, and various control signals.

(Example of the configuration of the rendering device 10)
Fig. 3 is a diagram showing an example of the configuration of the representation device 10 according to an embodiment. The representation device 10 used by the participant has, as an example, a stick-shaped housing 10A as shown in Fig. 3, and is configured so that the participant can hold it in his/her hand. Note that the housing 10A is not limited to being stick-shaped and may have other shapes.

In addition, on the outside of the performance device 10, for example, a full-color LED (Light Emitting Diode) 301, a color change button 302, an appeal button 303, a pulse sensor 304, a microphone 305, a display 306, and a power button 307 are provided.

The full-color LED 301 is an example of a light-emitting unit that can emit light in any color under control of an MCU (Micro Controller Unit) or the like provided in the performance device 10. The color change button 302 accepts an operation from a participant to change the color of the light emitted by the full-color LED 301. When the color change button 302 is pressed, the performance device 10 can switch the color of the light emitted by the full-color LED 301 between multiple light colors. The performance device 10 outputs light color information indicating the currently selected light color as selection operation information.

The appeal button 303 accepts pressing by the user. For example, a participant can appeal to performers by repeatedly pressing the appeal button 303.

The pulse sensor 304 detects biometric information such as the participant's pulse or heart rate, and outputs the detected biometric information. The pulse sensor 304 is an example of a sensor that acquires biometric information indicating the participant's condition. Instead of (or in addition to) the pulse sensor 304, the performance device 10 may have a sweat sensor that detects the participant's sweat, or a body temperature sensor that detects the participant's body temperature.

The microphone 305 picks up the voices of the participants and surrounding sounds. The display 306 displays, for example, messages. The power button 307 accepts on/off operations of the power production device 10 by the participants.

The performance device 10 also has an MCU 308, an acceleration/angular velocity sensor 309, a vibration device 310, and a communication device 311 inside the housing 10A.

MCU 308 is an embedded processor that integrates a computer system into a single integrated circuit, and controls each component of the performance device 10 by executing a specified program.

The acceleration/angular velocity sensor 309 detects the acceleration and angular velocity of the performance device 10, and outputs acceleration information and angular velocity information indicating the detected acceleration and angular velocity as an example of physical behavior information. The vibration device 310 vibrates the performance device 10 by generating vibrations. The communication device 311 performs wireless communication with the information terminal 11. For example, the communication device 311 may be a wireless module, a wireless IC (Integrated Circuit), or the like.

For example, the performance device 10 can continuously transmit various information (light emission color information, physical behavior information, and biological information) to the performance control device 100 via the communication device 311 (an example of a "transmitter") and the information terminal 11 at a predetermined transmission interval (e.g., an interval of a few seconds).

(An example of a functional configuration of the performance control device 100)
4 is a diagram showing an example of the functional configuration of the performance control device 100 according to an embodiment. As shown in FIG. 4, the performance control device 100 includes a communication unit 601, an information acquisition unit 602, and a performance control unit 603.

The communication unit 601 uses the communication device 204 to connect to a plurality of information terminals 11 and the communication network N. The communication unit 601 then communicates with the plurality of information terminals 11 and various devices connected to the communication network N (the controller 24 of the lighting system 20, the light-emitting device 30, and the video distribution device 40).

The information acquisition unit 602 acquires various information (emission color information, physical behavior information, and bio-information) from each of the multiple performance devices 10 via the multiple information terminals 11 and the communication unit 601.

The performance control unit 603 controls the performance of the event based on various information (emission color information, physical behavior information, and biological information) acquired by the information acquisition unit 602. For example, the performance control unit 603 controls the light emission of the multiple lighting devices 22 equipped in the lighting system 20, the light emission of the light-emitting devices 30 worn by the performers of the event, the light emission and vibration of each of the multiple performance devices 10, and the display content of the live video of the event distributed by the video distribution device 40, based on various information (emission color information, physical behavior information, and biological information) acquired by the information acquisition unit 602.

(First embodiment)
A first example of the performance system 1 according to the embodiment will be described below. In the first example, the performance control device 100 controls the light emission of the multiple lighting devices 22 included in the lighting system 20 according to the ratio of each light emission color in the multiple performance devices 10. Also, in the first example, the performance control device 100 controls the display of a bar graph 44 indicating the ratio of light emission colors superimposed on the live video of the event distributed by the video distribution device 40 according to the ratio of each light emission color in the multiple performance devices 10.

<An example of a processing procedure by the performance control device 100>
FIG. 5 is a flowchart showing an example of a processing procedure by the performance control device 100 according to the first embodiment.

First, the information acquisition unit 602 acquires light color information from each of the multiple performance devices 10 via the multiple information terminals 11 and the communication unit 601 (step S501).

Next, the performance control unit 603 calculates the percentage of each light-emitting color based on the multiple light-emitting color information acquired in step S501 (step S502). For example, the performance control unit 603 calculates the percentage [%] of each light-emitting color using the following formula (1).

Ratio of luminous colors = number of luminous colors / total number... (1)

Next, the performance control unit 603 controls the light emission of the multiple lighting devices 22 included in the lighting system 20 according to the ratio of each light emission color calculated in step S502 (step S503). Specifically, the performance control unit 603 controls the light emission of the multiple lighting devices 22 so that the ratio of each light emission color of the multiple lighting devices 22 becomes the ratio of each light emission color calculated in step S502. This control is realized, for example, by transmitting a control signal to the controller 24 via the communication unit 601 and the communication network N.

Next, the performance control unit 603 controls the display of the bar graph 44 indicating the proportion of the luminous color displayed over the live video of the event distributed by the video distribution device 40 according to the proportion of each luminous color calculated in step S502 (step S503). Specifically, the performance control unit 603 controls the display of the bar graph 44 indicating the proportion of the luminous color displayed over the live video so that the display of the bar graph 44 indicating the proportion of the luminous color displayed over the live video shows the proportion of each luminous color calculated in step S502. This control is realized, for example, by transmitting a control signal to the video distribution device 40 via the communication unit 601 and the communication network N.

After that, the performance control device 100 ends the series of processes shown in Figure 5. Note that the performance control device 100 repeatedly executes the series of processes shown in Figure 5 at a predetermined processing cycle.

<One specific example of performance control by the performance control device 100>
Fig. 6 is a diagram showing a specific example of performance control by the performance control device 100 according to Example 1. In the example shown in Fig. 6, in order to make the explanation easier to understand, the number of performance devices 10, information terminals 11, and lighting devices 22 is each set to three.

In the example shown in FIG. 6, "blue" is selected as the light color in two performance devices 10, and "red" is selected as the light color in one performance device 10.

In this case, the performance control device 100 obtains light color information indicating "blue" as the light color from the two performance devices 10 via the two information terminals 11 and the communication network N.

In addition, the performance control device 100 acquires light color information indicating "red" as the light color from one performance device 10 via one information terminal 11 and the communication network N.

Then, since the total number is "3" and the number of light colors "blue" is 2, the performance control device 100 calculates the percentage of the light color "blue" to be "66%" based on the above formula (1).

In addition, since the total number is "3" and the number of light colors "red" is 1, the performance control device 100 calculates the percentage of the light color "red" to be "33%" based on the above formula (1).

The performance control device 100 then causes two lighting devices 22 to emit light in "blue" and one lighting device 22 to emit light in "red" via the communication network N and the controller 24, thereby setting the proportion of the emitted color "blue" by the three lighting devices 22 to "66%" and the proportion of the emitted color "red" to "33%."

In addition, the performance control device 100 sets the proportion of the light color "blue" to "66%" and the proportion of the light color "red" to "33%" in the bar graph 44 displayed superimposed on the live video streamed to the viewing device 42 via the communication network N and the video streaming device 40.

As a result, in all three performance devices 10, two lighting devices 22, and bar graph 44, the proportion of the light color "blue" is 66% and the proportion of the light color "red" is 33%.

As described above, the production system 1 according to the first embodiment can reflect in real time the proportions of each light-emitting color in the multiple production devices 10 (i.e., the results of the selection of light-emitting colors by the multiple participants) in the proportions of each light-emitting color in the multiple lighting devices 22 and in the proportions of each light-emitting color indicated by the bar graph 44 displayed superimposed on the live video. Therefore, the production system 1 according to the first embodiment can enhance the sense of unity among the participants and performers at the event.

Second Example
A second example of the production system 1 according to the embodiment will be described below. In the second example, the production control device 100 controls the lighting devices 22 of the lighting system 20, the light-emitting devices 30 worn by the performers, and the screen of the live video of the event distributed by the video distribution device 40 to the most abundant light color among the multiple production devices 10.

<An example of a processing procedure by the performance control device 100>
FIG. 7 is a flowchart showing an example of a processing procedure by the performance control device 100 according to the second embodiment.

First, the information acquisition unit 602 acquires light color information from each of the multiple performance devices 10 via the multiple information terminals 11 and the communication unit 601 (step S701).

Next, the performance control unit 603 calculates the percentage of each light-emitting color based on the multiple light-emitting color information acquired in step S701 (step S702). For example, the performance control unit 603 calculates the percentage [%] of each light-emitting color using the above formula (1).

Next, the performance control unit 603 identifies the most numerous light color based on the multiple light color information acquired in step S701 (step S703).

Next, the performance control unit 603 controls the emission color of all the illumination devices 22 in the illumination system 20 to the emission color with the greatest number identified in step S703 (step S704). This control is realized, for example, by transmitting a control signal to the controller 24 via the communication unit 601 and the communication network N.

Next, the performance control unit 603 controls the display of the bar graph 44 superimposed on the live video distributed by the video distribution device 40 so as to show the ratio of each light emission color calculated in step S702 (step S705). This control is realized, for example, by transmitting a control signal to the video distribution device 40 via the communication unit 601 and the communication network N.

In addition, the performance control unit 603 controls the screen of the live video distributed by the video distribution device 40 so that it is surrounded by a frame of the most numerous luminous color identified in step S703 (step S706). This control is realized, for example, by transmitting a control signal to the video distribution device 40 via the communication unit 601 and the communication network N.

Next, the performance control unit 603 controls the light color of the light-emitting device 30 worn by the performer to the most numerous light color identified in step S703 (step S707). This control is realized, for example, by transmitting a control signal to the light-emitting device 30 via the communication unit 601 and the communication network N.

After that, the performance control device 100 ends the series of processes shown in Figure 7. Note that the performance control device 100 repeatedly executes the series of processes shown in Figure 7 at a predetermined processing cycle.

<One specific example of performance control by the performance control device 100>
Fig. 8 is a diagram showing a specific example of performance control by the performance control device 100 according to Example 2. In the example shown in Fig. 8, in order to make the explanation easier to understand, the number of performance devices 10, information terminals 11, and lighting devices 22 is five.

In the example shown in Figure 8, "blue" is selected as the light color in three performance devices 10, and "red" is selected as the light color in two performance devices 10.

In this case, the performance control device 100 obtains light color information indicating "blue" as the light color from the three performance devices 10 via the three information terminals 11 and the communication network N.

In addition, the performance control device 100 acquires light color information indicating "red" as the light color from the two performance devices 10 via the two information terminals 11 and the communication network N.

Then, since the total number is "5" and the number of light colors "blue" is 3, the performance control device 100 calculates the percentage of the light color "blue" to be "60%" based on the above formula (1).

In addition, since the total number is "5" and the number of light colors "red" is 2, the performance control device 100 calculates the percentage of the light color "red" to be "40%" based on the above formula (1).

In addition, the performance control device 100 identifies the most prevalent light color as "blue."

Then, the performance control device 100 causes all lighting devices 22 to emit light in "blue," the most common light color, via the communication network N and the controller 24.

In addition, the performance control device 100 sets the proportion of the light color "blue" to "60%" and the proportion of the light color "red" to "40%" in the bar graph 44 displayed superimposed on the live video streamed to the viewing device 42 via the communication network N and the video streaming device 40.

In addition, the performance control device 100 controls the screen of the live video distributed to the viewing device 42 via the communication network N and the video distribution device 40 so that it is surrounded by a frame 46 of "blue," which is the most common light color.

In addition, the performance control device 100 causes the light-emitting devices 30 worn by the performers to emit light in "blue," the most common light color, via the communication network N.

As a result, the emission color of all lighting devices 22, the emission color of the light-emitting device 30, and the display color of the frame 46 displayed in the live video will all be "blue," which is the most common emission color.

As described above, the production system 1 according to the second embodiment can control in real time the emission color of all the lighting devices 22, the emission color of the light-emitting devices 30 worn by the performers, and the display color of the frame 46 displayed in the live video distributed by the video distribution device 40 to the emission color that is most prevalent among the multiple production devices 10. Therefore, the production system 1 according to the second embodiment can enhance the sense of unity among the participants and performers at the event.

(Third Example)
A third example of the performance system 1 according to an embodiment will be described below. In the third example, when the number of a specific light-emitting color in a plurality of performance devices 10 is equal to or greater than a predetermined ratio, the performance control device 100 vibrates the plurality of performance devices 10 that are emitting light in that light-emitting color, and controls the light-emitting devices 30 worn by the performers to emit light in that light-emitting color and vibrate.

<An example of a processing procedure by the performance control device 100>
FIG. 9 is a flowchart showing an example of a processing procedure by the performance control device 100 according to the third embodiment.

First, the information acquisition unit 602 acquires light emission color information from each of the multiple performance devices 10 via the multiple information terminals 11 and the communication unit 601 (step S901).

Next, the performance control unit 603 calculates the percentage of each light-emitting color based on the multiple light-emitting color information acquired in step S901 (step S902). For example, the performance control unit 603 calculates the percentage [%] of each light-emitting color using the above formula (1).

Next, the performance control unit 603 determines whether there is any light color for which the ratio calculated in step S902 is equal to or greater than a predetermined ratio (step S903).

In step S903, if it is determined that there is no light color for which the ratio calculated in step S902 is equal to or greater than the predetermined ratio (step S903: No), the performance control device 100 terminates the series of processes shown in FIG. 9.

On the other hand, if it is determined in step S903 that there is a light color whose ratio calculated in step S902 is equal to or greater than the predetermined ratio (step S903: No), the performance control unit 603 controls the light color of the light-emitting device 30 worn by the performer to a light color whose ratio is equal to or greater than the predetermined ratio (step S904). In addition, the performance control unit 603 vibrates the light-emitting device 30 worn by the performer (step S905). These controls are realized, for example, by transmitting a control signal to the light-emitting device 30 via the communication unit 601 and the communication network N.

Furthermore, the performance control unit 603 vibrates the multiple performance devices 10 that are emitting light with a predetermined ratio or more of the emission color (step S906). This control is realized, for example, by transmitting a control signal to the multiple performance devices 10 via the communication unit 601, the communication network N, and the multiple information terminals 11.

After that, the performance control device 100 ends the series of processes shown in Figure 9. Note that the performance control device 100 repeatedly executes the series of processes shown in Figure 9 at a predetermined processing cycle.

<One specific example of performance control by the performance control device 100>
Fig. 10 is a diagram showing a specific example of performance control by the performance control device 100 according to Example 3. In the example shown in Fig. 10, in order to make the explanation easier to understand, the number of performance devices 10 and information terminals 11 is set to five.

In the example shown in FIG. 10, "blue" is selected as the light color in four performance devices 10, and "red" is selected as the light color in one performance device 10.

In this case, the performance control device 100 obtains light color information indicating "blue" as the light color from the four performance devices 10 via the four information terminals 11 and the communication network N.

In addition, the performance control device 100 acquires light color information indicating "red" as the light color from one performance device 10 via one information terminal 11 and the communication network N.

Then, since the total number is "5" and the number of light colors "blue" is 4, the performance control device 100 calculates the percentage of the light color "blue" to be "80%" based on the above formula (1).

In addition, since the total number is "5" and the number of light colors "red" is 1, the performance control device 100 calculates the percentage of the light color "red" to be "20%" based on the above formula (1).

Here, when the predetermined percentage is set to "80%", the performance control device 100 identifies the light color "blue" as an light color with a percentage equal to or greater than the predetermined percentage, since the percentage of the light color "blue" is "80%".

Then, the performance control device 100 causes the light-emitting device 30 worn by the performer to emit light in "blue," an emission color that is greater than or equal to a predetermined percentage, and vibrates via the communication network N.

In addition, the performance control device 100 vibrates the four information terminals 11 that are emitting "blue", an emission color, at a predetermined rate or higher, via the communication network N and the four information terminals 11.

As a result, the light-emitting device 30 and all four information terminals 11 will emit light of "blue," which is a light color at a predetermined rate or higher, and vibrate.

As described above, according to the production system 1 of the third embodiment, the light emission and vibration of the light-emitting device 30 worn by the performer can be linked to the light emission and vibration of multiple production devices 10 that emit light in a predetermined proportion or more of the emission color. Therefore, according to the production system 1 of the third embodiment, it is possible to enhance the sense of unity between the participants and performers at the event.

In addition, in the production system 1 of the third embodiment, the production control device 100 determines whether or not each production device is being held by a participant based on physical behavior information or biometric information acquired from each of the multiple production devices 10, and does not need to include a production device 10 that is not being held by a participant (i.e., a production device 10 that is not being let go) in the calculation of the proportion of each light color described above.

(Fourth Example)
A fourth example of the performance system 1 according to the embodiment will be described below. In the fourth example, the performance control device 100 controls the performance device 10 that emits light of the same color as the light-emitting device 30 worn by a performer who is singing alone to vibrate.

<One specific example of performance control by the performance control device 100>
FIG. 11 is a diagram showing a specific example of performance control by the performance control device 100 according to the fourth embodiment.

In the example shown in Figure 11, the light-emitting device 30 worn by one of the multiple performers who is singing alone emits light in the color "blue."

In this case, the performance control device 100 obtains light color information indicating "blue" as the light color from the light-emitting device 30 worn by the performer who is singing alone, via the communication network N.

Any method may be used to identify a performer who is singing alone. For example, the performance control device 100 may automatically recognize a performer who is singing alone using voice recognition processing or the like.

In addition, the performance control device 100 acquires light color information from each of the multiple performance devices 10 via the communication network N and multiple information terminals 11.

Then, the performance control device 100 vibrates the performance device 10 among the multiple information terminals 11 that is emitting light in the color "blue" via the communication network N and the information terminal 11.

On the other hand, the performance control device 100 does not vibrate any of the performance devices 10 among the multiple information terminals 11 that are emitting light in a color other than the light color "blue."

As described above, the production system 1 according to the fourth embodiment can vibrate the production device 10 that emits light of the same color as the light-emitting device 30 worn by a performer who is singing alone. Therefore, the production system 1 according to the fourth embodiment can enhance the sense of unity between the participants and performers at the event.

Fifth Example
A fifth example of the performance system 1 according to the embodiment will be described below. In the fifth example, the performance control device 100 controls live video to be displayed on the information terminal 11 corresponding to the performance device 10 in accordance with the emission color of the performance device 10.

<One specific example of performance control by the performance control device 100>
FIG. 12 is a diagram showing a specific example of performance control by the performance control device 100 according to the fifth embodiment.

In the example shown in Fig. 12, the performance device 10 emits light with the emission color "blue." In this case, the performance control device 100 can display, among multiple live videos, live video in which a performer wearing a light-emitting device 30 emitting light with the emission color "blue" is shown on the information terminal 11 corresponding to the performance device 10 emitting light with the emission color "blue."

Any method may be used to identify live footage showing a performer wearing a light-emitting device 30 that emits light in the same color as the color of the performance device 10. For example, the performance control device 100 may automatically recognize live footage showing a performer wearing a light-emitting device 30 that emits light in the same color as the color of the performance device 10 by image recognition processing or the like.

As described above, the production system 1 according to the fifth embodiment can display live footage of performers wearing light-emitting devices 30 that emit light in the same color as the color of the light emitted by the production device 10 on the information terminal 11 corresponding to that production device 10. In other words, participants can change the performers displayed on their own information terminals 11 by changing the color of the light emitted by the production device 10 they own. Therefore, the production system 1 according to the fifth embodiment can enhance the sense of unity between participants and performers at an event.

(Sixth Example)
A sixth example of the performance production system 1 according to the embodiment will be described below. In the sixth example, the performance control device 100 controls the light-emitting devices 30 of the performers that are associated in advance with the light-emitting colors of the performance device 10 in accordance with the light-emitting colors and movements of the performance device 10.

<One specific example of performance control by the performance control device 100>
FIG. 13 is a diagram showing a specific example of performance control by the performance control device 100 according to the sixth embodiment.

In the example shown in FIG. 13, the performance device 10 has the light color "blue" selected and is being waved by a participant. Alternatively, the performance device 10 may have the light color "blue" selected and a specific button may be pressed by a participant.

In this case, the performance control device 100 detects that the performance device 10 is emitting light with the light color "blue" and is being waved by a participant by acquiring light color information and physical behavior information from the performance device 10 via the information terminal 11 and the network N. The performance control device 100 can then cause the light-emitting device 30 of the performer, which is pre-associated with the light color "blue", to emit light with the light color "blue" and vibrate.

As described above, according to the production system 1 of the sixth embodiment, a participant can select a light emission color for the production device 10 and shake the production device 10 to cause the light emission device 30 of a performer who is pre-associated with that light emission color to emit light in that light emission color and vibrate. In other words, a participant can communicate their actions on the production device 10 to a specific performer. Therefore, according to the production system 1 of the sixth embodiment, it is possible to enhance the sense of unity between participants and performers at an event.

Seventh Example
A seventh example of the performance system 1 according to the embodiment will be described below. In the seventh example, the performance control device 100 controls the live video image displayed on the information terminal 11 and the vibration of the performance device 10 based on the emission color of the performance device 10 and the image color of the song being sung by the performers.

<One specific example of performance control by the performance control device 100>
14 and 15 are diagrams showing a specific example of performance control by the performance control device 100 according to the seventh embodiment.

In the example shown in Figure 14, the performance device 10 is emitting light with the emission color "blue." In this case, the performance control device 100 detects that the performance device 10 is emitting light with the emission color "blue" by acquiring emission color information from the performance device 10 via the information terminal 11 and the network N. Then, since the emission color "blue" does not match the image color of the song being sung by the performer, the performance control device 100 does not display the performance image 48 in the live video displayed on the information terminal 11, and does not vibrate the performance device 10.

On the other hand, in the example shown in Figure 15, the performance device 10 is emitting light with the emission color "red." In this case, the performance control device 100 detects that the performance device 10 is emitting light with the emission color "red" by acquiring emission color information from the performance device 10 via the information terminal 11 and the network N. Then, since the emission color "red" matches the image color of the song being sung by the performer, the performance control device 100 displays a performance image 48 on the live video displayed on the information terminal 11 and vibrates the performance device 10.

As described above, according to the production system 1 of the seventh embodiment, a participant can select an emission color for the production device 10 that matches the image color of the song being sung by the performers, thereby causing the production image 48 to be displayed in the live video displayed on the information terminal 11 and vibrating the production device 10. Therefore, according to the production system 1 of the seventh embodiment, it is possible to enhance the sense of unity between the participants and performers at the event.

Eighth Example
Hereinafter, an eighth example of the performance system 1 according to the embodiment will be described. In the eighth example, the performance control device 100 controls the multiple lighting devices 22 based on the emission color of the performance device 10 and the image color of the song being sung by the performers.

<One specific example of performance control by the performance control device 100>
16A to 16C are diagrams showing a specific example of performance control by the performance control device 100 according to the eighth embodiment.

In the example shown in Figure 16A, the production device 10 acquires light color information from multiple production devices 10, and as a result, the number of light colors that match the image color of the song being sung by the performers is 50% of the total number. Therefore, as shown in Figure 16A, the production device 10 lights up a relatively small number of lighting devices 22 via the network N and the controller 24.

In the example shown in Figure 16B, the performance device 10 acquires light color information from multiple performance devices 10, and as a result, the number of light colors that match the image color of the song being sung by the performers is 70% of the total number. Therefore, as shown in Figure 16B, the performance device 10 lights up a relatively large number of lighting devices 22 via the network N and the controller 24.

In the example shown in Figure 16C, the production device 10 acquires light color information from multiple production devices 10, and as a result, the number of light colors that match the image color of the song being sung by the performers is 90% of the total number. Therefore, as shown in Figure 16C, the production device 10 lights up a relatively large number of lighting devices 22 via the network N and the controller 24.

As described above, according to the production system 1 of the eighth embodiment, more participants can select a light emission color for the production device 10 that matches the image color of the song being sung by the performers, thereby turning on more lighting devices 22. Therefore, according to the production system 1 of the eighth embodiment, it is possible to enhance the sense of unity between the participants and performers at the event.

Ninth Example
A ninth example of the production system 1 according to the embodiment will be described below. In the ninth example, the production control device 100 controls the lighting devices 22 in the main venue, the light-emitting devices 30 attached to the performers in the main venue, and the screen of the live video of the event viewed outside the venue, based on the light emission colors of the production devices 10 held by the participants in the other venue.

<One specific example of performance control by the performance control device 100>
Fig. 17 is a diagram showing a specific example of performance control by the performance control device 100 according to Example 9. In the example shown in Fig. 17, in order to make the explanation easier to understand, the number of performance devices 10, information terminals 11, and lighting devices 22 is five.

In the example shown in Figure 17, "blue" has been selected as the light emission color for five performance devices 10 in the separate venue. The main venue is the venue where the performers are actually performing. The separate venue is a venue located in a different place from the main venue, where multiple participants can watch live footage from the main venue on a large monitor or the like.

In this case, the performance control device 100 obtains emission color information indicating "blue" as the emission color from five performance devices 10 in a different venue via five information terminals 11 and the communication network N.

The performance control device 100, with the total number being "5" and the number of light colors "blue" being 5, controls multiple lighting devices 22 in the main venue, light-emitting devices 30 worn by the performers in the main venue, and the screen displaying the live footage of the event being viewed outside the venue.

For example, as shown in FIG. 17, the performance control device 100 causes all lighting devices 22 in the venue to emit light in "blue," the most common color, via the communication network N and the controller 24.

Also, for example, as shown in FIG. 17, the performance control device 100 causes the lighting devices 30 worn by the performers in the main venue to light up in "blue," which is the most common lighting color, via the communication network N.

Also, for example, as shown in FIG. 17, the performance control device 100 displays a bar graph 44 superimposed on the live video image viewed on a viewing device 42 outside the venue via the communication network N and the video distribution device 40, in a manner that corresponds to the proportion of the light color "blue."

As described above, according to the production system 1 of the 9th embodiment, multiple participants at a different venue can see the emitted color of the production device 10 held by other participants, thereby enhancing the sense of unity among multiple participants.

Furthermore, according to the production system 1 of the ninth embodiment, it is possible to control the lighting devices 22 in the main venue, the light-emitting devices 30 worn by the performers in the main venue, and the screen of the live video of the event viewed outside the venue, based on the light emission colors of the production devices 10 in another venue. Therefore, according to the production system 1 of the ninth embodiment, it is possible to enhance the sense of unity between the participants and performers at the event, even if the participants and performers are in different venues.

(effect)
As described above, the production system 1 according to one embodiment includes a production device 10 that is held by a participant of an event and is capable of selection operation and state detection, an information acquisition unit 602 that acquires selection operation information regarding the selection operation and state detection information regarding the state detection transmitted from the production device 10, and a production control unit 603 that controls the production of the event based on at least one of the selection operation information and the state detection information acquired by the information acquisition unit 602.

In this way, the production system 1 according to one embodiment can reflect at least one of the selection operation by the participants on the production device 10 and the state detection by the production device 10 in the production of the event. In other words, the production system 1 according to one embodiment can reflect the intentions and actions of the participants in the production of the event. Therefore, the production system 1 according to one embodiment can enhance the sense of unity between the participants and performers at the event.

The present invention is not limited to the above-described embodiments, and various modifications and applications are possible within the scope of the gist of the present invention as described in the claims.

This international application claims priority to Japanese Patent Application No. 2021-204083, filed on December 16, 2021, the entire contents of which are incorporated herein by reference.

1 Production system 10, 10a to 10c Production device 10A Housing 11, 11a to 11c Information terminal 20 Lighting system 22 Lighting device 24 Controller 30 Light-emitting device 40 Video distribution device 42 Viewing device 44 Bar graph 46 Frame 100 Production control device 200 Computer 201 Processor 202 Memory 203 Storage device 204 Communication device 205 Input device 206 Output device 207 Bus 301 Full-color LED (light-emitting section)
302 Color change button 303 Appeal button 304 Pulse sensor 305 Microphone 306 Display 307 Power button 308 MCU
309 Acceleration/Angular Velocity Sensor 310 Vibration Device 311 Communication Device 601 Communication Unit 602 Information Acquisition Unit 603 Performance Control Unit N Communication Network

Claims (7)

A performance device that is held by a participant of the event and is capable of selection operation and state detection;
an information acquisition unit that acquires at least one of selection operation information regarding the selection operation and state detection information regarding the state detection, both transmitted from the rendering device;
a performance control unit that controls performance of the event based on at least one of the selection operation information and the state detection information acquired by the information acquisition unit,
The performance device is capable of performing the selection operation of a light-emitting color of a light-emitting unit included in the performance device,
the information acquisition unit acquires, as the selection operation information, emission color information indicating an emission color selected by the participant, transmitted from the performance device;
The production control unit controls the production of the event in accordance with the proportion of each of the emission colors based on the emission color information acquired by the information acquisition unit. The production control unit controls the light emission of the plurality of lighting devices so that the proportion of each light emission color by the plurality of lighting devices is the proportion of each light emission color based on the light emission color information. The production control unit controls the display of a bar graph indicating the proportion of the light color superimposed on the live video so that the bar graph indicates the proportion of each light color based on the light color information. The production system according to claim 1 , wherein the production control unit controls the emission colors of the light-emitting devices worn by the performers of the event to an emission color that is equal to or greater than a predetermined ratio. The production system according to claim 4 , wherein the production control unit vibrates the plurality of production devices that are emitting light of a color having a ratio equal to or greater than the predetermined ratio. The production system according to claim 1, characterized in that the production control unit turns on a number of lighting devices according to a ratio of luminous colors that match an image color of a song being sung by a performer of the event, based on a ratio of each luminous color based on the luminous color information. an information acquisition unit that is held by a participant of the event and that acquires at least one of selection operation information regarding the selection operation and state detection information regarding the state detection, the selection operation information being transmitted from a performance device capable of a selection operation and state detection;
a performance control unit that controls performance of the event based on at least one of the selection operation information and the state detection information acquired by the information acquisition unit,
The performance device is capable of performing the selection operation of a light-emitting color of a light-emitting unit included in the performance device,
the information acquisition unit acquires, as the selection operation information, emission color information indicating an emission color selected by the participant, transmitted from the performance device;
The performance control unit controls the performance of the event in accordance with the proportion of each of the light emitting colors based on the light emitting color information acquired by the information acquisition unit.

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