WO2020008932A1 - Lighting system and lighting control method - Google Patents

Abstract

A lighting system (100) that comprises: a control unit (31) that makes a first lighting device (10) perform first lighting production control during transmission of video of a first user (U1) that is in a first space (101) in which the first lighting device (10) is installed; and a server communication unit (32) that acquires compensation information that is for compensation of the first user (U1) by a plurality of second users (U2) that are watching the video. The control unit (31) determines a control pattern for use in the first lighting production control on the basis of the results of an analysis of the relationship between control patterns used in transmission of past video, compensation amounts specified by compensation information related to transmission of past video, and individual information, etc. about first users (U1) who have transmitted past video.

Description

Lighting system and lighting control method

The present invention relates to a lighting system and the like for performing lighting control related to distribution of a moving image.

Patent Literature 1 discloses a technique for receiving a video message regarding a wedding or the like from a user terminal connected via a network and displaying the received message on a display in the venue during the ceremony, thereby enlivening the ceremony and the like. It has been disclosed.

JP 2005-285049 A

By the way, it is difficult to obtain a high performance effect by controlling a lighting device installed in a space during distribution of a moving image in a space where performance such as music performance is performed.

The present invention provides a lighting system or the like that can perform lighting effect control with a high effect.

The lighting system according to one embodiment of the present invention is a control unit that controls the lighting device to perform lighting effect control during distribution of a moving image with a first user located in a space where the lighting device is installed as an imaging target, An acquisition unit for acquiring a reward information for a plurality of second users who view the moving image to give a reward to the first user, wherein the control unit is configured to control a control used in distribution of the past moving image. A pattern, a reward amount specified by reward information related to the distribution of the past moving image, personal information of a first user who has distributed the past moving image, and information on a performance performed in the past moving image. Information regarding the reaction of the second user who has viewed the past moving image, information regarding the time at which the past moving image has been distributed, and the weather when the past moving image has been distributed. Determining at least one information and control pattern used in the illumination effect control based on the result of the relevance of the analysis of the distribution.

A lighting control method according to an aspect of the present invention includes a control step of causing the lighting device to perform lighting effect control during distribution of a moving image in which a first user located in a space where the lighting device is installed is an imaging target. An acquisition step in which a plurality of second users who view the moving image acquire reward information for granting a reward to the first user, wherein the control step is used in the distribution of past moving images. Control pattern, the reward amount specified by the reward information related to the distribution of the past moving image, the personal information of the first user who distributed the past moving image, the performance performed in the past moving image. Information regarding the second user who has viewed the past moving image, information regarding the time at which the past moving image was distributed, and information regarding the past moving image. At least one information of information about the weather when, to determine the control pattern to be used for the illumination effect control based on the relevant results of the analysis.

A program according to one embodiment of the present invention is a program for causing a computer to execute the lighting control method.

According to the present invention, a lighting system or the like capable of performing a lighting effect control with a high effect is realized.

FIG. 1 is a diagram illustrating an outline of the lighting system according to the first embodiment. FIG. 2 is a block diagram illustrating a functional configuration of the lighting system according to the first embodiment. FIG. 3 is a sequence diagram of an operation example 1 of the lighting system according to the first embodiment. FIG. 4 is an example of the distribution user information. FIG. 5 is an example of the viewing user information. FIG. 6 is a sequence diagram of Operation Example 2 of the lighting system according to Embodiment 1. FIG. 7 is a sequence diagram of Operation Example 3 of the lighting system according to Embodiment 1. FIG. 8 is a diagram illustrating an example of a display screen on which a comment is displayed. FIG. 9 is a block diagram showing a functional configuration of a lighting system according to a modification of the first embodiment. FIG. 10 is a diagram illustrating an example of data regarding a control pattern. FIG. 11 is a flowchart of an operation of analyzing data relating to a control pattern. FIG. 12 is a flowchart of the control pattern determination operation.

Hereinafter, embodiments will be specifically described with reference to the drawings. Each of the embodiments described below shows a comprehensive or specific example. Numerical values, shapes, materials, constituent elements, arrangement positions and connection forms of constituent elements, steps, order of steps, and the like shown in the following embodiments are merely examples, and do not limit the present invention. Further, among the components in the following embodiments, components not described in the independent claims are described as arbitrary components.

図 In addition, each figure is a schematic diagram, and is not necessarily illustrated exactly. In addition, in each of the drawings, substantially the same configuration is denoted by the same reference numeral, and redundant description may be omitted or simplified.

(Embodiment 1)
[Overview]
First, the configuration of the lighting system according to Embodiment 1 will be described. FIG. 1 is a diagram illustrating an outline of the lighting system according to the first embodiment.

The first user U1 located in the first space 101 is a distributor who performs a performance such as playing a guitar and distributes a moving image of the performance. On the other hand, the second user U2 located in the second space 102 different from the first space 101 is a viewer who watches a moving image via the second information terminal 70.

The lighting system 100 changes the first lighting device 10 installed in the first space 101 where the first user U1 who is the distributor of the moving image is located, to the second information terminal of the second user U2 who is the viewer of the moving image. This is a system that can be controlled based on an operation on the system 70. Here, the operation on the second information terminal 70 is not an operation for directly specifying the operation of the first lighting device 10 (for example, pressing a lighting button), but an operation for praising the first user U1. (Hereinafter also referred to as a praise operation).

The praise operation is, for example, an operation of touching an icon 75a displayed on the display unit 75 of the second information terminal 70 (an operation of pressing a so-called “like” button). When the praise operation is performed, a heart-shaped light spot is projected from the first lighting device 10 on the background of the first user U1.

As described above, if the first lighting device 10 installed in the first space 101 is controlled in accordance with the praise operation of the second user U2, the second user U2 can read the real space reflected in the moving image being viewed. You can get a sense of participating in the production of lighting. Therefore, although the second user U2 is actually participating in an indirect performance via the second information terminal 70, the second user U2 obtains a sense of unity as if it were participating in a direct performance. be able to.

Hereinafter, the functional configuration of each device included in the lighting system 100 will be described with reference to FIG. 2 in addition to FIG. FIG. 2 is a block diagram showing a functional configuration of the lighting system 100. The lighting system 100 includes a first lighting device 10, a second lighting device 20, and a server device 30. Further, the lighting system 100 may include the first information terminal 40, the display device 50, the imaging device 60, and the second information terminal 70.

In FIG. 2, the device for one first user U1 and the device for one second user U2 are illustrated for simplification of the following description. A device for a plurality of persons and a device for a plurality of persons of the second user may be included.

In the lighting system 100, it is assumed that a plurality of second users including the second user U2 view a moving image provided by one first user U1. The number of second users viewing the moving image provided by one first user U1 is represented by, for example, the number of avatars 75b displayed on the display unit 75.

[First lighting device]
The first lighting device 10 is installed in a first space 101 where a first user U1 who is a distributor of a moving image is located. The first space 101 is a real space, for example, a room of the first user U1. The first lighting device 10 is, for example, an effect lighting device such as a projector. The first lighting device 10 may be a spotlight, a ceiling light, or a downlight. Further, the specific mode of the first lighting device 10 is not particularly limited. In the first space 101, a plurality of first lighting devices 10 may be installed. The first lighting device 10 includes a light source 11, a light source control unit 12, a storage unit 13, and a communication unit 14.

The light source 11 is, for example, a COB (Chip On On Board) type light emitting module in which an LED chip is disposed on a substrate. The light source 11 may be realized using an SMD (Surface \ Mount \ Device) LED element on a substrate, using an SMD type light emitting module. As the light source 11, for example, a solid-state light emitting element other than an LED (LED element) such as a semiconductor laser or an organic EL (Electro Luminescence) may be used as the light emitting element. Further, the light source 11 is not limited to a configuration that emits white light, and may emit light of another color.

The light source control unit 12 controls light emission of the light source 11. The light source control unit 12 is realized by, for example, a drive circuit of the light source 11, a microcomputer, and the like.

The storage unit 13 is a storage device that stores a control program executed by the light source control unit 12 and the like. The storage unit 13 is specifically realized by a semiconductor memory or the like.

The communication unit 14 is a communication circuit (in other words, a communication module) for the first lighting device 10 to perform communication with the server device 30 via a wide area communication network such as the Internet 80. The communication unit 14 is, for example, a wireless communication circuit that performs wireless communication, but may be a wired communication circuit that performs wired communication. The communication standard of the communication performed by the communication unit 14 is not particularly limited.

[Second lighting device]
The second lighting device 20 is installed in the second space 102 where the second user U2 is located. The second space 102 is a real space, for example, a room of the second user U2. The second lighting device 20 is, for example, a ceiling light, but may be a spotlight or a downlight. Further, the second lighting device 20 may be a lighting device for effect such as a projector. The specific mode of the second lighting device 20 is not particularly limited. In the second space 102, a plurality of second lighting devices 20 may be installed. The second lighting device 20 includes a light source 21, a light source control unit 22, a storage unit 23, and a communication unit 24.

The light source 21 is, for example, a COB type light emitting module in which an LED chip is arranged on a substrate. The light source 21 may be realized using an SMD type light emitting module in which SMD type LED elements are arranged on a substrate. As the light source 21, for example, a solid-state light emitting element other than an LED (LED element) such as a semiconductor laser or an organic EL may be used as the light emitting element. Further, the light source 21 is not limited to a configuration that emits white light, and may emit light of another color.

The light source control unit 22 controls light emission of the light source 21. The light source control unit 22 is realized by, for example, a drive circuit of the light source 21 and a microcomputer.

The storage unit 23 is a storage device that stores a control program executed by the light source control unit 22 and the like. The storage unit 23 is specifically realized by a semiconductor memory or the like.

The communication unit 24 is a communication circuit (in other words, a communication module) for the second lighting device 20 to communicate with the server device 30 via a wide area communication network such as the Internet 80. The communication unit 24 is, for example, a wireless communication circuit that performs wireless communication, but may be a wired communication circuit that performs wired communication. The communication standard of the communication performed by the communication unit 24 is not particularly limited.

[Server device]
The server device 30 is a cloud server that performs information processing related to distribution of a moving image and information processing related to lighting control. Note that, instead of the server device 30, the lighting system 100 may include a first server device that performs information processing related to distribution of a moving image, and a second server device that performs information processing related to lighting control. . That is, the lighting system 100 may include a plurality of server devices for each content of the information processing. The server device 30 includes a control unit 31, a server communication unit 32, and a storage unit 33.

The control unit 31 performs information processing related to moving image distribution and information processing related to lighting control. The control unit 31 is realized by, for example, a microcomputer, but may be realized by a processor.

The server communication unit 32 allows the server device 30 to communicate with the first lighting device 10, the second lighting device 20, the first information terminal 40, and the second information terminal 70 via a wide area communication network such as the Internet 80. (In other words, a communication module). The communication standard of the communication performed by the server communication unit 32 is not particularly limited.

The storage unit 33 is a storage device that stores a control program executed by the control unit 31 and the like. The storage unit 33 is realized by, for example, a semiconductor memory.

[First information terminal, display device, and imaging device]
The first information terminal 40, the display device 50, and the imaging device 60 constitute an imaging system used by the first user U1 to capture a moving image. Note that a portable information terminal such as a smartphone or a tablet terminal may be used alone as such an imaging system.

The first information terminal 40 is a stationary information terminal. The first information terminal 40 includes an operation receiving unit 41, a terminal control unit 42, a terminal communication unit 43, and a storage unit 44.

(4) The operation receiving unit 41 receives an operation of the first user U1. The operation receiving unit 41 is realized by an input device such as a mouse and a keyboard.

The terminal control unit 42 performs various types of information processing on the first information terminal 40 based on the operation or the like received by the operation receiving unit 41. The terminal control unit 42 is realized by, for example, a microcomputer, but may be realized by a processor.

The terminal communication unit 43 is a communication circuit (in other words, a communication module) for the first information terminal 40 to communicate with the server device 30 via a wide area communication network such as the Internet 80. The terminal communication unit 43 is, for example, a wireless communication circuit that performs wireless communication, but may be a wired communication circuit that performs wired communication. The communication standard of the communication performed by the terminal communication unit 43 is not particularly limited.

The storage unit 44 is a storage device that stores a control program executed by the terminal control unit 42 and the like. The storage unit 44 is realized by, for example, a semiconductor memory.

The display device 50 displays an image based on the control of the terminal control unit 72. The display device 50 is, specifically, a display including a liquid crystal panel or an organic EL panel as a display device.

The imaging device 60 is a camera that captures a moving image for the first user U1 located in the first space 101 (that is, as a subject). The imaging device 60 is realized by an image sensor such as a CMOS (Complementary Metal-Oxide-Semiconductor) image sensor.

[Second information terminal]
The second information terminal 70 is a portable information terminal such as a smartphone or a tablet terminal used by the second user U2 to view a moving image. The second information terminal 70 may be a stationary information terminal such as the first information terminal 40. The second information terminal 70 includes an operation receiving unit 71, a terminal control unit 72, a terminal communication unit 73, a storage unit 74, a display unit 75, and a sound output unit 76.

The operation receiving unit 71 receives an operation of the second user U2. The operation receiving unit 71 is realized by, for example, a touch panel and hardware buttons.

The terminal control unit 72 performs various types of information processing on the second information terminal 70 based on the operation or the like received by the operation receiving unit 71. The terminal control unit 72 is realized by, for example, a microcomputer, but may be realized by a processor.

The terminal communication unit 73 is a communication circuit (in other words, a communication module) for the second information terminal 70 to communicate with the server device 30. The terminal communication unit 73 is, for example, a wireless communication circuit that performs wireless communication, but may be a wired communication circuit that performs wired communication. The communication standard of the communication performed by the terminal communication unit 73 is not particularly limited.

The storage unit 74 is a storage device that stores a control program executed by the terminal control unit 72 and the like. The storage unit 74 is realized by, for example, a semiconductor memory.

The display unit 75 displays an image based on the control of the terminal control unit 72. The display unit 75 is, specifically, a display including a liquid crystal panel or an organic EL panel as a display device.

音 The sound output unit 76 outputs sound based on the control of the terminal control unit 72. The sound output unit 76 is, specifically, a speaker.

[Operation Example 1]
Next, an operation example 1 of the lighting system 100 will be described. FIG. 3 is a sequence diagram of the first operation example of the lighting system 100.

First, the operation reception unit 71 of the second information terminal 70 performs a login operation and a distribution source selection operation when the dedicated application for viewing a moving image is executed by the terminal control unit 72. (S11). The login operation includes an input operation of the user ID and the password of the second user U2. The distribution source selection operation is, in other words, a viewing channel selection operation.

The terminal control unit 72 causes the terminal communication unit 73 to transmit the login information obtained by the login operation and the distribution source selection information obtained by the distribution source selection operation (S12). The transmitted login information and distribution source selection information are acquired by the server communication unit 32 of the server device 30 (S13).

The storage unit 33 of the server device 30 stores distribution user information in which the user ID of the first user U1 and the device ID of the first lighting device 10 are associated with each other by user registration performed in advance. FIG. 4 is an example of the distribution user information. If a QR code (registered trademark) for device ID registration is posted on the first lighting device 10, or in the instruction manual or packing box of the first lighting device 10, the QR code (registered trademark) is registered at the time of user registration. The first lighting device 10 can be easily registered by performing the reading of ()).

The storage unit 33 of the server device 30 stores viewing user information in which the user ID of the second user U2 and the device ID of the second lighting device 20 are associated with each other by user registration performed in advance. FIG. 5 is an example of the viewing user information. If a QR code (registered trademark) for registering the device ID is posted on the second lighting device 20, or a person who handles the second lighting device or a packaging box, the QR code (registered trademark) is registered at the time of user registration. The second lighting device 20 can be easily registered by performing the reading.

(4) As shown in FIG. 4, the distribution user information includes a group ID. When the distribution source selection operation of the second user U2 is performed, the group ID of the distributor (first user U1) of the moving image that the second user U2 wants to view is transmitted as distribution source selection information. When the distribution source selection information is received by the server communication unit 32, as shown in FIG. 5, the group ID transmitted as the distribution source selection information is added to the viewing user information. That is, the first user U1 (distributor of the moving image) and the second user U2 (viewer) are linked by the group ID (S14).

Thereafter, the terminal control unit 42 of the first information terminal 40 starts capturing a moving image using the imaging device 60 (S15), and transmits the captured moving image (more specifically, a video signal of the moving image) to the terminal communication. The unit 43 is transmitted to the server device 30 (S16). The moving image has a first user U1 located in the first space 101 where the first lighting device 10 is installed as an imaging target.

The server communication unit 32 of the server device 30 relays the moving image received from the first information terminal 40 (S17). Specifically, the user ID of the second user U2 who wants to view the moving image of the first user U1 is specified based on the group ID described above, and the second information terminal 70 corresponding to the specified user ID is specified. Video in real time.

The terminal communication unit 73 of the second information terminal 70 receives the moving image, and the display unit 75 displays the received moving image based on the control of the terminal control unit 72 (S18).

At this time, when the operation receiving unit 71 receives a praise operation for the second user U2 to praise the first user U1 (S19), the terminal control unit 72 sets the praise information indicating that the praise operation has been performed. Is transmitted to the terminal communication unit 73 (S20).

The server communication unit 32 of the server device 30 acquires the praise information (S21). That is, the server communication unit 32 acquires the praise information according to the operation of the second user U2 on the second information terminal 70. The server communication unit 32 is an example of an acquisition unit.

The control unit 31 specifies the lighting device to be controlled (in this case, the first lighting device 10) based on the acquired praise information (S22). The control unit 31 specifies the device ID of the first lighting device 10 associated with the user ID of the first user U1, for example, by referring to the distribution user information stored in the storage unit 33. Then, the control unit 31 transmits a control command for causing the specified first lighting device 10 to perform the first lighting effect control (S23).

When a control command is received by the communication unit 14 of the first lighting device 10 (S24), the light source control unit 12 performs first lighting effect control by causing the light source 11 to emit light based on the received control command (S24). S25). Thus, the control unit 31 causes the first lighting device 10 to perform the first lighting effect control by transmitting the control command.

In the first lighting effect control, for example, the heart-shaped light spot is projected once each time the second user U2 performs the praise operation once. However, the specific contents of the first lighting effect control are not particularly limited. In the first lighting effect control, dimming, toning, RGB control, and the like of the light source 11 are appropriately combined.

As described above, in the lighting system 100, it is assumed that a plurality of second users view a moving image provided by one first user U1. Therefore, the server communication unit 32 acquires the praise information from each of the plurality of second users, and the control unit 31 changes the light emission mode of the first lighting device 10 according to the total number (total number) of the acquired plurality of praise information. May be changed. Further, the control unit 31 may change the light emission mode of the first lighting device 10 according to the total number of second users who have performed the praise operation at least once. Note that the control pattern for performing the first lighting effect control (information indicating how to change the light emission mode of the first lighting device 10, in other words, a control rule) is stored in the storage unit 33 in advance, for example. It is memorized.

As described above, in the first operation example, the server communication unit 32 acquires evaluation information (specifically, praise information) indicating the evaluation of the second user U2 with respect to the first user U1, and the control unit 31 The first lighting device 10 is caused to perform first lighting effect control based on the acquired evaluation information.

In such a lighting system, the lighting effect of the first space 101 is controlled according to the evaluation of the second user U2, and the second user U2 determines that the lighting effect is controlled through the moving image being viewed. I can recognize. That is, the lighting system 100 can give the second user U2 a feeling of participating in the effect of lighting in the real space reflected in the moving image being viewed. In other words, it can be felt that the second user U2 belongs to the same community as the first user U1.

Also, in the lighting system 100, the moving image is not unilaterally distributed from the first user U1, but the second user U2 can control the first lighting device 10 by a praise operation. If so, interactive communication is realized.

The evaluation information is information that highly evaluates the first user U1, such as praise information, for example. The information that highly evaluates the first user U1 is, in other words, support information for supporting the first user U1 based on the operation for supporting the first user U1, and is used for a support operation for supporting the first user U1. Support information based on the information may be used. The evaluation information is not limited to information that evaluates the first user U1 high, and may be information that evaluates the first user U1 low.

[Operation Example 2]
In the first operation example, the first lighting device 10 installed in the first space 101 where the first user U1 is located is controlled according to the operation of the second user U2 on the second information terminal 70. However, the second lighting device 20 installed in the second space 102 where the second user U2 is located may be controlled according to the operation of the first user U1 on the first information terminal 40. FIG. 6 is a sequence diagram of Operation Example 2 of such a lighting system 100. In FIG. 6, illustration of processes corresponding to steps S11 to S17 in FIG. 4 is omitted.

The display unit 75 of the second information terminal 70 displays a moving image distributed from the server device 30 under the control of the terminal control unit 72 (S31).

(4) The operation receiving unit 71 receives a reward giving operation for the second user U2 to give a reward to the first user U1 (S32). In the lighting system 100, the second user U2 can purchase an item on a dedicated application for viewing a moving image. The reward giving operation is an operation intended to pay a reward to the first user by giving the item to the first user U1.

と When the reward giving operation is performed, the terminal control unit 72 causes the terminal communication unit 73 to transmit reward information indicating that the reward giving operation has been performed (S33). When the reward information is acquired by the server communication unit 32 of the server device 30 (S34), the reward management information for managing the reward paid to the first user U1 stored in the storage unit 33 is updated. (S35). Thereafter, based on the reward amount management information, at least a portion of the money paid by the second user U2 to purchase the item is paid to the first user U1.

(4) The control unit 31 causes the server communication unit 32 to transmit notification information for notifying that the reward has been given (S36). The transmitted notification information is received by the terminal communication unit 43 of the first information terminal 40 (S37). The terminal control unit 42 causes the display device 50 to display an image indicating that the reward has been given based on the notification information received by the terminal communication unit 43 (S38). In the displayed image, it is shown that the provided reward is from the second user U2.

第一 The first user U1 who has viewed such an image performs a user designation operation to designate the second user U2 to thank the second user U2. The operation receiving unit 41 receives such a user designation operation (S39). The terminal control unit 42 causes the terminal communication unit 43 to transmit designation information indicating that the user designation operation has been performed (S40).

The server communication unit 32 of the server device 30 acquires the specified information (S41). That is, the server communication unit 32 acquires the designated information according to the operation of the first user U1 on the first information terminal 40. The control unit 31 specifies a lighting device to be controlled (in this case, the second lighting device 20) based on the acquired specification information (S42). The control unit 31 specifies, for example, the device ID of the second lighting device 20 associated with the user ID of the second user U2 by referring to the viewing user information stored in the storage unit 33. Then, the control unit 31 transmits a control command for causing the specified second lighting device 20 to perform the second lighting effect control (S43).

When the control command is received by the communication unit 24 of the second lighting device 20 (S44), the light source control unit 22 performs the second lighting effect control by causing the light source 21 to emit light based on the received control command ( S45). As described above, the control unit 31 causes the second lighting device 20 to perform the second lighting effect control by transmitting the control command. The specific content of the second lighting effect control is not particularly limited. A control rule for performing the second lighting effect control (how to change the light emission mode of the second lighting device 20) is stored in the storage unit 33 in advance, for example.

As described above, in the operation example 2, the server communication unit 32 acquires the designation information for designating the specific second user U2 among the plurality of second users. Specifically, the server communication unit 32 performs an operation on the first information terminal 40 of the first user U1 after the specific second user U2 obtains reward information for giving a reward to the first user U1. Acquire the specified information according to. The control unit 31 causes the second lighting device 20 installed in the second space 102 where the specific second user U2 is located to perform the second lighting effect control based on the acquired specification information. The specific content of the second lighting effect control is not particularly limited. In the second lighting effect control, dimming, toning, RGB control, and the like of the light source 21 are appropriately combined.

照明 In such a lighting system 100, the lighting effect of the second space 102 is controlled according to the operation of the first user U1. Thereby, the first user U1 and the second user U2 can communicate through the lighting control. That is, the communication between the distributor and the viewer is activated. In addition, the second user U2 can obtain an exhilaration feeling that the first user U1 has selectively received thanks (second lighting effect control) (that is, has been specially treated).

It is not essential that the user-specified operation is performed as a response to the reward giving operation. For example, the user designation operation may be spontaneously performed by the first user U1 irrespective of the reward giving operation.

[Operation example 3]
The second lighting effect control of the second lighting device 20 installed in the second space 102 where the specific second user U2 is located, except for the specific second user U2 among the plurality of second users who are watching a moving image. It may be performed in response to an operation on another second information terminal possessed by another second user. FIG. 7 is a sequence diagram of Operation Example 3 of such a lighting system 100.

In FIG. 7, illustration of processes corresponding to steps S11 to S17 in FIG. 4 is omitted. The functional configuration of the other second information terminal 70a is the same as that of the second information terminal 70.

The display unit 75 of the second information terminal 70 displays a moving image distributed from the server device 30 under the control of the terminal control unit 72 (S51). Similarly, the display unit 75 of the other second information terminal 70a displays a moving image distributed from the server device 30 under the control of the terminal control unit 72 (S52).

(4) The operation receiving unit 71 of the other second information terminal 70a receives a comment input operation of another second user (S53). When the comment input operation is performed, the terminal control unit 72 of the other second information terminal 70a causes the terminal communication unit 73 to transmit comment information including text information corresponding to the input comment (S54).

When the comment information is acquired by the server communication unit 32 of the server device 30 (S55), the control unit 31 causes the server communication unit 32 to display all of the second information displaying the moving image provided by the first user U1. The comment display information is transmitted to the terminal (S56). As a result, the second information terminal 70 receives the comment display information and displays the comment on the display unit 75 (S57), and the other second information terminal 70a receives the comment display information and displays the comment on the display unit 75. (S58). FIG. 8 is a diagram illustrating an example of a display screen on which a comment is displayed. Note that “fff” and “hhh” in the comment mean the user ID described with reference to FIG. That is, in the example of FIG. 8, the user ID (specifically, “hhh”) of another second user who has input the comment 75c and the user ID of the second user U2 (specifically, “fff”) And both are included in the comment.

On the other hand, the control unit 31 searches whether the text information included in the comment information (that is, the character string in parentheses of the comment 75c shown in FIG. 8) includes a specific text (S59). The specific text is the user ID of the second user who is viewing the moving image provided by the first user U1 (that is, the second user ID is the same as the group ID assigned to the first user U1). A search is performed using each of the two user IDs as a predetermined text. In the operation example 3, the user ID is set as the search target as an example. However, when the viewing user information includes the handle name, the handle name may be set as the search target.

If the user ID of the second user U2 is found as a result of the search, the control unit 31 specifies a lighting device to be controlled based on the found user ID (S60). Specifically, the control unit 31 specifies the device ID of the second lighting device 20 associated with the found user ID by referring to the viewing user information. Then, the control unit 31 transmits a control command for causing the specified second lighting device 20 to perform the second lighting effect control (S61).

When the control command is received by the communication unit 24 of the second lighting device 20 (S62), the light source control unit 22 performs the second lighting effect control by causing the light source 21 to emit light based on the received control command (S62). S63). The specific content of the second lighting effect control is not particularly limited.

As described above, in the third operation example, the server communication unit 32 acquires the comment information. The comment information includes identification information of the second user U2 (such as a user ID or a handle name) as text information, and is obtained in response to a comment input operation to another second information terminal 70a of another second user. The comment information is another example of the specification information that specifies a specific second user U2 among the plurality of second users.

照明 In such a lighting system 100, the lighting effect of the second space 102 is controlled in accordance with the operation of another second user. Thereby, the second user U2 and the other second users can communicate through the lighting control. That is, the communication between the viewers is activated.

It is not essential that the second lighting effect control of the second lighting device 20 is performed based on a comment input operation of another second user. The second lighting effect control of the second lighting device 20 may be performed based on an operation other than the comment input operation of another second user.

[Modification]
Hereinafter, a lighting system according to a modified example will be described. FIG. 9 is a block diagram illustrating a functional configuration of a lighting system according to a modification.

In the lighting system 100, the first lighting device 10a includes the communication unit 14 for communicating with the server device 30. On the other hand, in the lighting system 100a shown in FIG. 9, the first lighting device 10a does not include a communication unit. A separate communication interface device 90 for communicating with the server device 30 is applied to the first lighting device 10a. Similarly, in the lighting system 100a, the second lighting device 20a does not include the communication unit 24, and a separate communication interface device 90 for performing communication with the server device 30 is applied to the second lighting device 20. I have.

The communication interface device 90 is a device for providing the first lighting device 10 or the second lighting device 20 with a communication function. For example, the communication interface device 90 applied to the first lighting device 10 includes a communication unit 91 that acquires a control command transmitted from the server device 30 based on the evaluation information indicating the evaluation of the second user U2 with respect to the first user. Prepare. The communication unit 91 is, for example, a wireless communication circuit that performs wireless communication, but may be a wired communication circuit that performs wired communication. The communication standard of the communication performed by the communication unit 91 is not particularly limited.

According to such a communication interface device 90, the first lighting device 10a having no communication function with the server device 30 can be a control target in the lighting system 100a.

[Effects]
As described above, the lighting system 100 includes a first user U1 located in the first space 101 in which the first lighting device 10 is installed, and a first user U1 viewing a moving image distributed as an imaging target. It includes a server communication unit 32 that acquires evaluation information indicating an evaluation for the user U1, and a control unit 31 that causes the first lighting device 10 to perform first lighting effect control based on the acquired evaluation information. The server communication unit 32 is an example of an acquisition unit.

照明 Such a lighting system 100 can control the first lighting device 10 according to the evaluation of the second user U2 with respect to the first user U1. In addition, the lighting system 100 can give the second user U2 viewing the moving image a feeling of participating in the rendering of the lighting in the real space reflected in the moving image being viewed.

Further, for example, the acquisition of the evaluation information and the first lighting effect control are performed during the distribution of the moving image.

照明 Such a lighting system 100 can give the second user U2 who watches a moving image a feeling of participating in the effect of lighting in the real space reflected in the moving image being viewed.

Further, for example, the server communication unit 32 acquires the evaluation information of each of the plurality of second users, and the control unit 31 causes the first lighting device 10 to perform the first lighting effect control based on the acquired plurality of pieces of evaluation information. Is performed.

照明 Such a lighting system 100 can change the content of the first lighting effect control based on a plurality of pieces of evaluation information.

In addition, for example, the server communication unit 32 further acquires designation information for designating a specific second user U2 among the plurality of second users. The control unit 31 causes the second lighting device 20 installed in the second space 102 where the specific second user U2 is located to perform the second lighting effect control based on the acquired specification information.

照明 Such a lighting system 100 can control not only the first lighting device 10 but also the second lighting device 20.

指定 In addition, for example, the designation information is acquired in response to an operation on the first information terminal 40 by the first user U1.

照明 Such a lighting system 100 can cause the second lighting device 20 to perform the second lighting effect control in accordance with the operation of the first user U1 on the first information terminal 40.

For example, the server communication unit 32 acquires the specified information after the specific second user U2 acquires the reward information for giving the reward to the first user U1.

照明 Such a lighting system 100 can cause the second lighting device 20 to perform the second lighting effect control in return for the reward from the second user U2 to the first user U1.

{For example, the designation information is acquired in response to an operation on another second information terminal 70a of a second user other than the specific second user U2 among the plurality of second users. Such designation information corresponds to, for example, the comment information of the first embodiment.

照明 Such a lighting system 100 can cause the second lighting device 20 to perform the second lighting effect control in response to an operation of another second user on another second information terminal 70a.

{For example, the designation information is acquired in response to a comment input operation to another second information terminal 70a of another second user, and includes the identification information of the specific second user U2 as text information. Such designation information corresponds to, for example, the comment information of the first embodiment.

照明 The lighting system 100 can cause the second lighting device 20 to perform the second lighting effect control in response to a comment input operation to another second information terminal 70a of another second user.

例 え ば Further, for example, the lighting system 100 includes the server device 30 including the server communication unit 32 and the control unit 31, and the first lighting device 10.

As described above, the lighting system 100 is configured by, for example, the server device 30 and the first lighting device 10.

The communication interface device 90 is a communication interface device for providing a communication function to the first lighting device 10a. The communication interface device 90 evaluates the second user U2 who views the moving image distributed with the first user U1 located in the first space 101 in which the first lighting device 10 is installed as an imaging target, with respect to the first user U1. A communication unit 91 is provided for receiving a control command transmitted from the server device 30 based on the evaluation information shown.

Such a communication interface device 90 can control the first lighting device 10a, which does not have a communication function with the server device 30, in the lighting system 100a.

The first lighting device 10 is a lighting device installed in the first space 101. The first lighting device 10 is based on the light source 11 and evaluation information indicating the evaluation of the first user U1 by the second user U2 who views a moving image distributed with the first user located in the first space 101 as an imaging target. The communication unit 14 receives a control command transmitted from the server device 30 to cause the first lighting device 10 to perform the first lighting effect control, and causes the light source 11 to emit light based on the received control command. A light source control unit for performing first lighting effect control;

Such a first lighting device 10 can emit light in accordance with the evaluation of the second user U2 with respect to the first user U1. In addition, the first lighting device 10 can give the second user U2 viewing the moving image a sense of participating in the rendering of the lighting in the real space reflected in the moving image being viewed.

In addition, the lighting control method executed by the computer such as the server device 30 includes a method of viewing a moving image distributed with the first user U1 located in the first space 101 where the first lighting device 10 is installed as an imaging target. The evaluation information indicating the evaluation of the two users U2 with respect to the first user U1 is obtained, and the first lighting device 10 performs the lighting effect control based on the obtained evaluation information.

照明 With such a lighting control method, the first lighting device 10 can be controlled according to the evaluation of the second user U2 with respect to the first user U1. Further, the lighting control method can give the second user U2 watching the moving image a sense of participating in the rendering of the lighting in the real space reflected in the moving image being viewed.

(Embodiment 2)
As described above, the first lighting effect control is performed based on the control pattern stored in the storage unit 33. Here, when there are a plurality of control patterns, there is room for study on the selection criteria for selecting which control pattern to use.

Therefore, the control unit 31 accumulates data relating to the control patterns used in the past first lighting effect control, determines the control patterns by analyzing what control patterns can provide a high effect, and determines the control patterns. Is also good.

In the second embodiment, an example in which a control pattern is determined by performing data analysis will be described. FIG. 10 is a diagram illustrating an example of data related to a control pattern stored in the storage unit 33. In the second embodiment, the first lighting effect control means a lighting effect control in a broad sense performed in conjunction with the distribution of the moving image, and is not limited to the lighting effect control performed based on the evaluation information.

As shown in FIG. 10, the data on the control pattern accumulated in the storage unit 33 is specified by the control pattern used in the distribution of the past moving image and the reward information related to the past first lighting effect control. The amount of reward to be paid is associated with various information.

The reward is used as an indicator of the level of the effect. The level of the effect is, in other words, whether or not the control pattern is preferred by a plurality of second users. As the index of the level of the effect, it is possible to use information (described later) on the reaction of the plurality of second users to the performance of the first user or the total number of praise information, instead of the reward amount.

Various information includes personal information of the first user who has delivered the past moving image, information on the performance performed by the first user in the past moving image, and information on the reactions of a plurality of second users who watch the past moving image. , Information about the time when the past moving image was distributed, and information about the weather when the past moving image was distributed.

(4) The personal information of the first user indicates at least one of the sex of the first user and the age of the first user. In the example of FIG. 10, the personal information of the first user indicates at least one of the gender of the first user and the age of the first user (both in the example of FIG. 10). These pieces of information are registered as part of distribution user information at the time of user registration, for example, and are referred to using a user ID at the time of moving image distribution.

The information on the performance performed by the first user indicates at least one (all in the example of FIG. 10) of the tune of the music used in the performance, the scale of the music, the lyrics of the music, and the speed of the music. . Such information is input by the first user via the first information terminal 40 of the first user when distributing a moving image, for example. Note that the scale may be read as the genre (pops, rock, etc.) of the music. More specifically, the lyrics of the music are words included in the music.

The information on the reactions of the plurality of second users to the performance includes the loudness of the plurality of second users' voices (eg, cheers) and the loudness of the sounds (eg, claps) emitted by the plurality of second users. At least one of Such information is generated based on, for example, a sound obtained by a sound collection unit (not shown) included in the second information terminal 70 of the second user, and transmitted to the server device 30 by the terminal communication unit 73. . Such information may be generated based on a voice acquired by a sound collection device separate from the second information terminal 70. Note that the data on the control pattern only needs to include information on the reaction of at least one second user.

The information on the time when the moving image was distributed includes at least one of the date and time when the past moving image was distributed (in other words, the season) and the day of the week when the past moving image was distributed (see FIG. 10). In the example, both are shown. Such information is generated at the time of distribution of a moving image based on, for example, a current time measured by a clock unit (not shown) provided in the server device 30.

The information on the weather when the moving image is distributed indicates at least one of the weather, the temperature, and the humidity on the day when the past moving image was distributed (all in the example of FIG. 10). Such information is obtained by inquiring about the weather at the time of distributing the moving image to another server device that manages information on the weather.

FIG. 10 is an example of data stored in the storage unit 33. The data stored in the storage unit 33 may include, for example, the total number of praise information (that is, the number of “likes”) obtained at the time of distribution of a moving image in the past.

[Analysis of data related to control pattern]
The operation of analyzing the data relating to the control patterns stored in the storage unit 33 as described above will be described. FIG. 11 is a flowchart of an operation of analyzing data relating to a control pattern.

First, the control unit 31 of the server device 30 reads out data related to the control pattern stored in the storage unit 33 (S71).

Next, the control unit 31 performs a factor analysis using the stored data on the control pattern (S72), and stores the result of the factor analysis in the storage unit 33 (S73). In step S72, an analysis method other than the factor analysis may be used.

[Control pattern selection operation]
Next, an operation of determining a control pattern using the result of such analysis will be described. FIG. 12 is a flowchart of the control pattern determination operation.

First, the server communication unit 32 acquires a moving image distribution schedule from the first information terminal 40 (S81). The delivery schedule of the moving image includes the user ID of the first user U1, information on the performance scheduled for delivery by the first user U1, and information on the scheduled delivery time.

Next, the control unit 31 specifies information necessary for determining a control pattern using the moving image distribution schedule (S82). For example, the control unit 31 specifies the personal information of the first user U1 based on the user ID of the first user U1, and specifies the weather when the moving image is distributed based on the information on the scheduled distribution time. The specification of the weather is realized, for example, by making an inquiry to a server device that manages the weather forecast information.

Next, the control unit 31 determines a control pattern suitable for the performance scheduled to be distributed by the first user U1 based on the analysis result stored in the storage unit 33 (S83). Specifically, the control unit 31 uses the distribution schedule of the moving image acquired in step S81, the information specified in step S82, and the analysis result to generate a control pattern in which a larger amount of reward is expected. (For example, a control pattern in which a reward amount is equal to or more than a predetermined amount) is determined as a control pattern used for the first lighting effect control.

In step S83, a control pattern that is expected to improve information on the reactions of the plurality of second users to the performance of the first user U1 may be determined as a control pattern used for the first lighting effect control. . In step S83, a control pattern that is expected to obtain much praise information may be determined as a control pattern used for the first lighting effect control.

Thereafter, when the distribution of the moving image is started (S84), the control unit 31 performs the first lighting effect control using the control pattern determined in step S83 (S85).

The stored data is updated each time a new moving image is distributed, and the control unit 31 may determine the control pattern by machine learning based on the result of the analysis. In this case, for example, the control unit 31 is realized by a learning model constructed by machine learning (for example, reinforcement learning) using a reward amount or the number of praise information as a reward based on the result of the analysis. The learning model includes at least various types of information such as information on the performance scheduled for distribution by the first user U1, the user ID (personal information) of the first user U1, information on the scheduled distribution time, and information indicating the weather at the scheduled distribution time. A part is input, and control pattern identification information is output based on a value function that determines the value of the control pattern. This learning model updates the value function by machine learning using a reward amount or the number of praise information as a reward.

[Effects]
The lighting system 100 performs the first lighting effect control on the first lighting device 10 during distribution of a moving image with the first user U1 located in the first space 101 where the first lighting device 10 is installed as an imaging target. And a server communication unit 32 that obtains reward information for allowing a plurality of second users viewing moving images to reward the first user U1. The server communication unit 32 is an example of an acquisition unit. The control unit 31 controls the control pattern used in the distribution of the past moving image, the reward amount specified by the reward information related to the distribution of the past moving image, and the individual of the first user who distributed the past moving image. Information, information on performance performed in the past moving image, information on the reaction of the second user who has viewed the past moving image, information on the time when the moving image was distributed, and weather when the moving image was distributed The control pattern used for the first lighting effect control is determined based on the result of the analysis of the association between at least one piece of information related to the first lighting effect control.

照明 Such a lighting system 100 can perform the first lighting effect control having a high effect of the effect, using the amount of the reward determined by the reward information as an index.

Further, for example, based on the result of the analysis, the control unit 31 determines a control pattern in which a large amount of reward is expected as a control pattern used for lighting effect control.

照明 Such a lighting system 100 can perform first lighting effect control in which a large amount of reward can be expected.

For example, in the above analysis, the personal information of the first user who has delivered the past moving image is used, and the personal information of the first user indicates at least one of gender and age.

照明 Such a lighting system 100 can determine a control pattern based on a control pattern, a reward amount, and a result of an analysis of a relationship between personal information of a first user who has delivered a past moving image and personal information.

Also, for example, in the above analysis, information on performance is used. The information on the performance indicates at least one of the temperament of the music used in the performance, the scale of the music, the lyrics of the music, and the speed of the music.

照明 Such a lighting system 100 can determine a control pattern based on a result of an analysis of the association between the control pattern, the reward amount, and the information on the performance.

Also, for example, in the above analysis, information on the reaction of the second user who has viewed the past moving image is used, and the information on the reaction of the second user is at least the loudness of the voice and the loudness of the sound. One is shown.

照明 Such a lighting system 100 can determine a control pattern based on a result of an analysis of a relationship between a control pattern, a reward amount, and information on a reaction of a second user who has viewed a past moving image.

Also, for example, in the above analysis, information on the reactions of a plurality of second users who have viewed past moving images is used, and the information on the reactions of the plurality of second users is the loudness of the voice and the sound. Indicates at least one of the dimensions.

Such a lighting system 100 may determine the control pattern based on the analysis result of the relevance between the control pattern, the reward amount, and the information on the reactions of the plurality of second users who have viewed the past moving images. it can.

In addition, for example, in the above analysis, information on the timing is used. The information about the time indicates at least one of the date and time when the past lighting effect control was performed and the day of the week when the past lighting effect control was performed.

The lighting system 100 can determine the control pattern based on the result of the analysis of the relevance between the control pattern, the reward, and the information on the timing.

Also, for example, in the above analysis, information on weather is used. The information on the weather indicates at least one of the weather, the temperature, and the humidity on the past day when the lighting effect control was performed.

照明 Such a lighting system 100 can determine a control pattern based on a result of an analysis of the association between the control pattern, the reward amount, and the information on the weather.

In addition, for example, the control unit 31 determines a control pattern used for lighting effect control by machine learning based on the result of the analysis.

照明 Such a lighting system 100 can determine a control pattern by machine learning.

In addition, the illumination control method executed by the computer such as the illumination system 100 includes a method in which a first user U1 located in the first space 101 where the first illumination device 10 is installed is distributed with a moving image to be imaged. Includes a control step of causing one lighting device 10 to perform first lighting effect control, and an acquisition step of acquiring reward information for allowing a plurality of second users U2 viewing a moving image to reward the first user U1. . In the control step, the control pattern used in the delivery of the past moving image, the reward amount specified by the reward information related to the delivery of the past moving image, and the individual of the first user who delivered the past moving image Information, information on the performance performed in the past moving image, information on the reaction of the second user who viewed the past moving image, information on the time when the past moving image was distributed, and the past moving image is distributed. The control pattern used for the first lighting effect control is determined based on the result of the analysis of the relevance of at least one of the information on the weather at the time.

照明 With such a lighting control method, the first lighting effect control with a high effect can be performed using the reward amount determined by the reward information as an index.

(Other embodiments)
The embodiments have been described above, but the present invention is not limited to the above embodiments.

For example, in the above-described embodiment, a process performed by a specific processing unit may be performed by another processing unit. For example, part or all of the information processing performed by the server device may be performed by an information terminal or a lighting device.

通信 Further, the communication method between the devices in the above embodiment is not particularly limited. Wireless communication may be performed between the devices, or wired communication may be performed. Further, wireless communication and wired communication may be combined between devices. In the above embodiment, when two devices communicate, a relay device (not shown) may be interposed between the two devices.

The order of the processing described in the sequence diagram, the flowchart, and the like of the above embodiment is an example. The order of the plurality of processes may be changed, and the plurality of processes may be executed in parallel.

In addition, in the above-described embodiment, each component may be realized by executing a software program suitable for each component. Each component may be realized by a program execution unit such as a CPU or a processor reading and executing a software program recorded on a recording medium such as a hard disk or a semiconductor memory.

各 Also, each component may be realized by hardware. For example, each component may be a circuit (or an integrated circuit). These circuits may constitute one circuit as a whole, or may be separate circuits. Each of these circuits may be a general-purpose circuit or a dedicated circuit.

The general or specific aspects of the present invention may be realized by a recording medium such as a system, an apparatus, a method, an integrated circuit, a computer program, or a computer-readable CD-ROM. Further, the present invention may be realized by any combination of a system, an apparatus, a method, an integrated circuit, a computer program, and a recording medium.

For example, the present invention may be realized as a lighting control method executed by a computer such as a server device, or may be realized as a program for causing a computer to execute such a lighting control method. Further, the present invention may be realized as an application program installed in an information terminal to view a moving image in the lighting system of the above embodiment. Further, the present invention may be realized as a non-transitory computer-readable recording medium on which such a program is recorded.

Also, in the above embodiment, the lighting system is realized by a plurality of devices, but may be realized as a single device. When the lighting system is realized by a plurality of devices, the components included in the lighting system may be distributed to the plurality of devices in any manner.

In addition, a form obtained by performing various modifications conceivable by those skilled in the art to each embodiment, or realized by arbitrarily combining the components and functions in each embodiment without departing from the spirit of the present invention. Embodiments are also included in the present invention.

For example, the present invention may be realized as a device control system including a device other than a lighting device as a control target. The device other than the lighting device is, for example, a sound output device realized by a speaker or the like. Such a device control system can control the sound output from the sound output device based on the evaluation information and the like.

10, 10a First lighting device 31 Control unit 32 Server communication unit (acquisition unit)
100, 100a Lighting system 101 First space U1 First user U2 Second user

Claims (11)

1. A control unit that causes the lighting device to perform lighting effect control during distribution of a moving image with the first user located in a space where the lighting device is installed as an imaging target,
   An acquisition unit that acquires reward information for a plurality of second users who view the moving image to give a reward to the first user,
   The control unit includes:
   Control patterns used in the distribution of past moving images,
   A reward amount specified by reward information related to the delivery of the past moving image,
   The personal information of the first user who has delivered the past moving image, the information on the performance performed on the past moving image, the information on the reaction of the second user who has viewed the past moving image, and the past moving image A control pattern used for the lighting effect control based on a result of an analysis of a relationship between information on a distribution time and at least one information on weather when the past moving image was distributed. Determine the lighting system.
2. The lighting system according to claim 1, wherein the control unit determines, based on a result of the analysis, a control pattern in which a large amount of reward is expected as a control pattern used for the lighting effect control.
3. In the analysis, personal information of the first user who has delivered the past moving image is used,
   The lighting system according to claim 1, wherein the personal information of the first user indicates at least one of gender and age.
4. In the analysis, information on the performance is used,
   The information according to any one of claims 1 to 3, wherein the information on the performance indicates at least one of a temperament of the music used in the performance, a scale of the music, lyrics of the music, and a speed of the music. Lighting system.
5. In the analysis, information on the reaction of the second user who viewed the past moving image is used,
   The lighting system according to claim 1, wherein the information on the reaction of the second user indicates at least one of a loudness of a voice and a loudness of a sound.
6. In the analysis, information on the reaction of a plurality of second users who have viewed the past moving image is used,
   The lighting system according to any one of claims 1 to 4, wherein the information on the reactions of the plurality of second users indicates at least one of a loudness of a voice and a loudness of a sound.
7. In the analysis, information on the timing is used,
   The information according to any one of claims 1 to 6, wherein the information on the timing indicates at least one of a date and time when the past lighting effect control was performed and a day of the week when the past lighting effect control was performed. Lighting system.
8. In the analysis, information on the weather is used,
   The lighting system according to any one of claims 1 to 7, wherein the information on the weather indicates at least one of a weather, a temperature, and a humidity on the day when the past lighting effect control was performed.
9. The lighting system according to any one of claims 1 to 8, wherein the control unit determines a control pattern used for the lighting effect control by machine learning based on a result of the analysis.
10. A control step of causing the lighting device to perform lighting effect control during distribution of a moving image with the first user located in a space where the lighting device is installed as an imaging target,
    Acquisition step in which a plurality of second users who view the moving image acquire reward information for giving a reward to the first user,
    In the control step,
    Control patterns used in the distribution of past moving images,
    A reward amount specified by reward information related to the delivery of the past moving image,
    The personal information of the first user who has delivered the past moving image, the information on the performance performed on the past moving image, the information on the reaction of the second user who has viewed the past moving image, and the past moving image A control pattern used for the lighting effect control based on a result of an analysis of a relationship between information on a distribution time and at least one information on weather when the past moving image was distributed. Determine the lighting control method.
11. A program for causing a computer to execute the lighting control method according to claim 10.

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