JP4399999B2 - Lighting control device, lighting system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a lighting control device and a lighting system that control a lighting device used in stage effects, for example, according to user management.
[0002]
[Prior art]
Conventionally, a lighting system using the DMX512 standard is known as a data standard for controlling a lighting device from a dimming control device in order to remotely control a plurality of lighting devices used for stage performance.
[0003]
In this conventional lighting system, as shown in FIG. 9, a dimming console 101 operated by a user and a display monitor 102 are connected, and also connected to a dimming control console 101 and a plurality of lighting devices 103. The light control device 104 is configured to include a light control device 104 that supplies power to the plurality of lighting devices 103 in accordance with a light control signal conforming to the DMX512 standard from the light control console 101.
[0004]
In such a lighting system, the operation unit 111 in the dimming control console 101 is operated by the user, and the dimming control signal is output from the control unit 112 of the dimming control console 101 to the dimming device 104. Dimming control such as on / off of the lighting device 103 and brightness / darkness is performed via the device 104. Further, in the conventional lighting system, the lighting device 103 is controlled using the data stored in the storage unit 113.
[0005]
In the illumination system shown in FIG. 9, there is a downlight in which only on / off by a power source and only light and dark are controlled as the illumination device 103A having a simple function.
[0006]
In order to control such an illuminating device 103A, an operation for controlling the illuminating device 103A from the control unit 112 is performed on the operation unit 111, and a dimming control signal according to the operation content is controlled by the control unit 112 according to the DMX512 standard. It transmits to the control part 121 of 104. Then, in the control unit 121, the dimmer 122 connected to the plurality of lighting devices 103A supplies the power from the power source trunk 123 to each lighting device 103A according to the dimming control signal. Thereby, in the illumination system, ON / OFF of the illumination device 103A and brightness control are realized.
[0007]
Furthermore, in the conventional illumination system, as the highly functional illumination device 103B, a mirror type moving light that is reflected by a mirror to control the irradiation direction of illumination light, or a colored film provided on the front surface of a lighting fixture is changed. There are color changers that control the color of illumination light.
[0008]
In order to control such an illuminating device 103B, an operation for controlling the illuminating device 103B from the control unit 112 is performed on the operation unit 111, and a dimming control signal and an operation control signal according to the operation content are controlled according to the DMX512 standard. Is transmitted to the control unit 131 of the light control device 104. Then, in the control part 131, the light controller 132 connected with the some illuminating device 103B supplies the power supply from the power supply trunk | 123 123 to each illuminating device 103B according to a light control signal. In addition, the control unit 131 transmits an operation control signal to a certain lighting device 103B, and sequentially transmits a serial signal including control signals for channels 1 to 512 from the lighting device 103B. Control the behavior. Thereby, in the illumination system, on / off of the illumination device 103B, brightness control, and illumination light irradiation direction and color control are realized.
[0009]
In this DMX512 standard, transmission is performed using a feed wiring (daisy chain), and the dimming control signal and the operation control signal for each lighting device are transmitted in a serial manner and transmitted by the lighting device to be controlled. It stipulates to receive and operate.
[0010]
By the way, in an actual stage provided with a plurality of lighting devices, it is often necessary to control not only the lighting devices but also sound and video.
[0011]
Conventionally, a method conforming to the above-mentioned DMX512 standard is used to control a lighting device using a lighting system, and the MIDI standard is often used to control sound. In many cases, transmission is performed using a method such as SMPTE (Society of Motion Picture and Television Engineers). Therefore, conventionally, different standards are used for each type of data to be transmitted, and as shown in FIG. 10, the wiring for transmission is often different.
[0012]
In the lighting system shown in FIG. 10, the dimming control console 101 and the display monitor 102 operated by the user for dimming the stage 201, the video operating console 141 and the display monitor 142 operated by the user for video adjustment. In addition, an acoustic console 143 and a display monitor 144 that are operated by the user to perform acoustic adjustment are separately provided.
[0013]
The video console 141 is connected to the camera device 145 and is operated by the user to control the orientation of the camera device 145 and the like, and the content captured on the stage 201 is controlled. The video is input to the video console 141 via the video dedicated line. In addition, the video console 141 outputs video captured by the camera device 145 to a monitor 146 provided alongside the stage 201 in accordance with the SMPTE standard.
[0014]
In addition, the sound console 143 outputs sound data stored therein to the converter 147 via the sound data dedicated line when operated by the user, and releases sound related to the stage 201 by the amplifier 148 and the speaker 149. Sound.
[0015]
That is, in the illumination system as shown in FIG. 10, the association of dimming, video, and sound is often left to manual operation by the user.
[0016]
In order to solve this, conventionally, an illumination system as shown in FIGS. 11 and 12 is disclosed in Japanese Patent Laid-Open No. 9-320766. This lighting system is provided with a converter 151 that performs protocol conversion between the dimming control console 101 and the dimming device 104 using a general-purpose communication protocol such as Ethernet, for example, and the dimming control console 101 and the video console. 141 and the acoustic console 143 are connected via a hub 161 by a general-purpose communication protocol such as Ethernet. Then, a common control command is set in the dimming control console 101, the video operation console 141, and the sound operation console 143 so that they can be controlled mutually.
[0017]
In this lighting system, it is possible to transmit / receive data to / from each other by connecting each desk via Ethernet, and when controlling the lighting device 103, a signal is transmitted from the dimming control console 101 to the converter 151 according to the Ethernet, The converter 151 converts the signal into the DMX512 standard and operates the light control device 104 and the illumination device 103.
[0018]
[Problems to be solved by the invention]
In the conventional lighting system, the display monitor 102 that is a man-machine output device for a control screen at a dimming level and the display monitor 142 that displays the image of the stage 201 are often separated.
[0019]
However, in the lighting system having such a configuration, after confirming the dimming level on the display monitor 102, in order to actually confirm the lighting state of the stage 201 with the lighting device 103, it is displayed on the display monitor 142. There is a problem that it is complicated for the user because it is necessary to visually check the video.
[0020]
In addition, the dimming level list indicating the current dimming level displayed on the normal display monitor 102 is often an enumerated display of numbers, and the actual lighting state of the stage 201 is often displayed as an annotation. Therefore, it is difficult for the user to intuitively grasp the lighting situation.
[0021]
Therefore, the present invention has been proposed in view of the above-described circumstances, and provides a lighting control device and a lighting system that can improve the operability of a user when controlling a lighting device such as a stage. For the purpose.
[0022]
[Means for Solving the Problems]
  In order to solve the above-described problem, in the invention according to claim 1, a communication bus that is referred to in order to perform dimming control of a plurality of lighting devices and that has a plurality of data generation devices that respectively generate different types of data. A lighting control device connected to a plurality of lighting devices to be dimmed and connected to the common communication bus, and transmitting / receiving means for receiving different types of data from the plurality of data generating devices; Display image generation for generating display data for displaying as a main screen an illumination control screen for controlling the operation of the illumination device while displaying as a secondary display screen based on a plurality of data received by the transmission / reception means Means, display means for displaying the display data generated by the display image generation means, and display by the user according to the display contents displayed by the display means. An operation input unit that is operated to control and generates an operation input signal according to the operation content, and a dimming control signal that controls the lighting device based on the operation input signal generated by the operation input unit Control means for controlling the transmission / reception means to transmit to the apparatus.The data generation device is an image pickup device that picks up an image of a portion illuminated by the lighting device and generates image pickup data. The display image generation unit is configured to output image pickup data received from the image pickup device by the transmission / reception unit. The image processing data is processed into the display data for screen display on the display means as a sub-screen..
[0023]
  In the invention which concerns on Claim 2, the said data generation device images the illumination part by the said illuminating device, and images it.As the above imaging dataAn image pickup apparatus that generates moving image pickup data, wherein the display image generation unit performs image processing on the moving image pickup data received from the image pickup apparatus by the transmission / reception unit and displays the moving image pickup data as a sub-screen on the display unit. Display data for screen display.
[0024]
The invention according to claim 3 further includes still image storage means for storing a still image indicating a portion illuminated by the lighting device, and when performing dimming control, an operation input signal for referring to the still image by the user is generated. In response, the still image stored in the still image storage means is displayed on the display means as a sub-screen.
[0025]
In the invention according to claim 4, the data generation device is a state monitoring device that generates a monitoring signal for monitoring a state of the lighting device, and the display image generation unit is received by the transmission / reception unit from the state monitoring device. The state of each lighting device based on the monitored signal is used as display data for screen display on the display means as a sub-screen.
[0026]
In the invention which concerns on Claim 5, the said transmission / reception means is connected with the acoustic apparatus which emits the acoustic data regarding the illumination part by the said illuminating device, and the operation input signal which controls the said acoustic apparatus by the user was produced | generated. In response, the acoustic device is controlled by transmitting an acoustic control signal according to the operation content from the transmission / reception means to the acoustic generation device.
[0027]
  In order to solve the above-mentioned problem, in the invention according to claim 6, a plurality of lighting devices that input a control signal according to the first protocol and operate according to the input control signal are different from the first protocol. A transmission / reception means for receiving different types of data in accordance with two protocols, and a sub-display screen based on a plurality of data received by the transmission / reception means, and a lighting control screen for controlling the operation of the lighting device. Display image generating means for generating display data for display as a display, display means for displaying the display data generated by the display image generating means, and lighting control by the user according to the display contents displayed by the display means The operation input means for generating the operation input signal according to the operation content and the operation input signal generated by the operation input means And a dimming control device comprising a control means for controlling the transmitting / receiving means to transmit a dimming control signal for controlling the lighting device, and the dimming control device according to the second protocol. A data processing device having transmission / reception means for transmitting / receiving data of a type, connected to the lighting device and the dimming control device, receiving means for receiving a dimming control signal according to the second protocol, and received by the receiving means A conversion device comprising: conversion means for converting the dimming control signal into an information form according to the first protocol; and transmission means for transmitting the dimming control signal converted by the conversion means to the illumination device.The data processing device is a video console that holds video data that captures the state of the stage..
[0029]
  Claim7In the present invention, the first protocol is a DMX standard, and the second protocol is a general-purpose LAN standard.
[0030]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0031]
The present invention is applied to, for example, an illumination system configured as shown in FIG.
[0032]
[Configuration of lighting system (Fig. 1)]
As shown in FIG. 1, the lighting system includes a plurality of lighting devices 2 that illuminate the stage 1 to be illuminated, and performs lighting effects on the stage 1 by controlling each lighting device 2 in accordance with a user instruction. It is.
[0033]
Illumination device 2 may be a simple illumination device such as a downlight that can be controlled only by light and dark, or a mirror type moving light that is reflected by a mirror to control the direction of illumination light, There is a highly functional lighting device that can control the color of illumination light by changing a colored film provided on the front surface of a lighting fixture. In this example, both a simple function lighting device and a high-function lighting device are applicable, and the present invention is not limited to any one.
[0034]
In the illumination system, in order to control the illumination device 2 having a simple function, a dimming control signal for controlling on / off of the illumination device 2 and brightness and darkness is transmitted in accordance with the DMX512 standard. Further, in the illumination system, in order to control the highly functional illumination device 2, a dimming control signal and an operation control signal for controlling the illumination direction and color of the illumination light are transmitted according to the DMX512 standard.
[0035]
The DMX512 standard transmits information using dimming control signals and operation control signals, and transmission lines (daisy chains), and transmits dimming control signals and operation control signals for each lighting device. It is defined that it is transmitted in a cyclic manner according to a serial method and received by a lighting device to be controlled.
[0036]
Such a lighting system is connected to the lighting control device 11 that is instructed by the user, the display monitor 12 that is controlled by the lighting control device 11, and the lighting control device 11 using a general-purpose communication protocol. The light control device 13 and the light control converter 14 are installed in a control room at a location different from the stage 1.
[0037]
In addition, the lighting system includes a camera device 15, a monitor 16, a first wireless communication device 17, and a first wireless communication device 17 wirelessly connected to the illumination control device 11 using a general-purpose communication protocol. Two wireless communication devices 18 and an acoustic output unit 19 are installed on the stage 1 side.
[0038]
In this lighting system, the general-purpose communication protocol for transmitting and receiving data and the like between the lighting control device 11, the light control device 13, the light control converter 14, the camera device 15, the monitor 16, and the first wireless communication device 17 is: For example, so-called Ethernet, which is a general-purpose LAN (Local Area Network) standard, is used. In this lighting system, when data is transmitted between the lighting control device 11 and each device connected thereto, the data is stored in a packet conforming to Ethernet.
[0039]
The illumination control device 11 presents various information to the user through the display monitor 12 and is operated by the user, and generates a dimming control signal and an operation control signal according to the operation content. The illumination control device 11 stores the generated dimming control signal and operation control signal in a packet conforming to Ethernet, and transmits the packet to the dimming device 13 and the dimming converter 14. The detailed configuration of the illumination control device 11 will be described later.
[0040]
The dimming device 13 includes an Ethernet interface and a DMX 512 interface, receives a packet from the lighting control device 11 through the Ethernet interface, and extracts a dimming control signal, or dimming control from the dimming converter 14 The signal is received by the DMX512 interface. The dimming device 13 controls on / off of the power supplied to the lighting device 2 and the amount of power supply according to the received dimming control signal.
[0041]
The dimming converter 14 includes an Ethernet interface, receives a packetized dimming control signal or operation control signal from the lighting control device 11, and transmits the dimming control signal or operation control signal according to the DMX512 standard. Convert to form. The dimming converter 14 outputs a dimming control signal obtained by the conversion to the dimming device 13 and transmits an operation control signal to the lighting device 2.
[0042]
The camera device 15 captures an image of the stage 1 and generates image data according to, for example, the MPEG (Moving Picture Experts Group) standard. The camera device 15 transmits the generated imaging data to the illumination control device 11 in a packet conforming to Ethernet. In addition, the camera device 15 is operated according to the control signal, for example, when a control signal for changing the imaging direction is transmitted from the illumination control device 11.
[0043]
The monitor 16 is provided alongside the stage 1 and displays various information from the lighting control device 11. The monitor 16 includes an Ethernet interface, and for example, video data indicating the state of the stage 1 currently captured by the camera device 15 is packetized and transmitted to be displayed.
[0044]
The first wireless communication device 17 includes an Ethernet interface, and the acoustic data from the illumination control device 11 is packetized and transmitted. The first wireless communication device 17 takes out the acoustic data through the Ethernet interface and transmits the wireless data to the second wireless communication device 18 in accordance with a communication protocol for wireless communication.
[0045]
The second wireless communication device 18 implements a communication protocol common to the first wireless communication device 17, receives wireless data from the first wireless communication device 17, and extracts acoustic data included in the wireless data. For example, when the sound output unit 19 is a headset or a speaker compatible with VoIP (Voice over Internet Protocol), the second wireless communication device 18 packetizes and transmits sound data according to the Internet protocol.
[0046]
“Types of data used in lighting systems (Figure 2)”
FIG. 2 shows the types of data used in the lighting control device 11 connected by Ethernet in the above-described lighting system.
[0047]
In this lighting system, as shown in FIG. 2, a dimming control signal transmitted between the lighting control device 11, the dimming device 13, and the dimming converter 14, the lighting control device 11 and the dimming device 13 A state monitoring signal is transmitted between them. The dimming device 13 monitors each lighting device 2, and the dimming device 13 monitors the leakage of power supplied to the lighting device 2, the temperature of the lighting device 2, and the overload of the lighting device 2. Is generated. This state monitoring signal is converted into a packet conforming to Ethernet by the light control device 13 and transmitted to the illumination control device 11.
[0048]
In this lighting system, an external interlocking signal that is controlled between the video operation device and the sound operation device arranged at a different location from the illumination control device 11 is transmitted over the Ethernet. The external interlocking signal includes a video operation device (not shown) that operates in accordance with a user's instruction with respect to video data captured by the camera device 15 and an acoustic operation device that operates in accordance with a user's instruction with respect to acoustic data stored therein ( This is a signal for controlling the interlocking with the control device and the like, and the taking-in of data between the respective operation devices. The external interlocking signal is generated by the lighting control device 11, the video operation device, and the acoustic operation device by implementing a common control command among the lighting control device 11, the video operation device, and the acoustic operation device, and is transmitted over the Ethernet. It is transmitted with.
[0049]
Furthermore, in this illumination system, acoustic data generated by an acoustic operation device or a microphone (not shown) is transmitted over Ethernet. The acoustic data is transmitted from the acoustic operation device to the illumination control device 11, for example, and stored in the illumination control device 11 when the acoustic operation device and the illumination control device 11 are operated by the external interlocking signal.
[0050]
Furthermore, in this lighting system, video data generated by the camera device 15 and video data stored in a video operation device functioning as a video server are transmitted over the Ethernet. The video data includes both moving image data and still image data. When the video operation device and the illumination control device 11 are operated by the external interlocking signal, for example, the video data is transmitted from the video operation device to the illumination control device 11 and illuminated. It is stored in the control device 11.
[0051]
"Configuration of lighting control device (Fig. 3)"
FIG. 3 shows the configuration of the illumination control device 11. According to FIG. 3, an operation unit 21 configured by a user operated fader, an on / off switch, and the like, a display control unit 22 connected to the display monitor 12, a media control unit 23, a LAN control connected on the Ethernet The unit 24, an illumination control unit 25 configured by a CPU (Central Processing Unit) that controls each unit, and a storage unit 26 used as a work area of the illumination control unit 25 are connected to an internal bus 27. ing.
[0052]
The operation unit 21 is operated by the user to generate an operation input signal according to the operation content, and outputs the operation input signal to the illumination control unit 25 via the bus 27.
[0053]
The display control unit 22 is controlled by the illumination control unit 25, converts various signals and data input from the media control unit 23 via the bus 27 according to the display monitor 12, and generates display data to display the display monitor. 12 is output.
[0054]
In addition, the display control unit 22 performs processing for creating display data obtained by synthesizing a main screen showing the illumination control content described later and a sub-screen based on other data and displaying the display data on the display monitor 12.
[0055]
The media control unit 23 obtains video data indicating a still image received via the Ethernet, and a video processing unit 31 that performs MPEG decoding on the video data indicating the moving image received via the Ethernet. An image processing unit 32 that performs capture and the like, an image memory 33 that stores video data indicating a still image, and a process of outputting acoustic data received via Ethernet to the first wireless communication device 17 via the LAN control unit 24 And an acoustic processing unit 34.
[0056]
The LAN control unit 24 is connected to the light control device 13, the light control converter 14, the camera device 15, the monitor 16, and the first wireless communication device 17, and an Ethernet standard communication protocol is implemented. The LAN control unit 24 converts various signals and data into Ethernet-compliant packets, transmits them, analyzes packets from the outside, extracts various signals and data, and transmits the various signals and data via the bus 27 to the lighting control device 11. Output to each part.
[0057]
The illumination control unit 25 controls each unit of the illumination control device 11 according to an operation input signal from the operation unit 21 and controls each unit of the illumination control device 11 according to a signal received from the outside via the LAN control unit 24. . The processing content of the illumination control unit 25 will be described later.
[0058]
"Configuration of the light control device (Fig. 4)"
FIG. 4 shows the configuration of the light control device 13. According to FIG. 4, a dimming control unit 41 connected to the dimming converter 14 and the lighting device 2 via a signal line that transmits and receives a signal conforming to the DMX512 standard, and a dimming control for supplying power to each lighting device 2. The optical device 42 includes a power source main body 43 that takes in a power source for driving the lighting device 2 from the outside and supplies the power source 42 to the dimmer 42.
[0059]
The dimming control unit 41 includes an Ethernet interface and a DMX512 interface, and is connected to the lighting control device 11 via Ethernet, and is connected to the dimming converter 14 and the lighting device 2 via DMX512.
[0060]
The dimming control unit 41 drives the dimmer 42 in accordance with the dimming control signal from the dimming converter 14, and controls on / off and power amount of power supplied from the dimmer 42 to each lighting device 2. Thus, the on / off and brightness of each lighting device 2 are controlled.
[0061]
In addition, the dimming control unit 41 monitors the state of power leakage and overload of the power main trunk 43 and the dimmer 42 and is connected to each lighting device 2 to use the lighting device 2 using the DMX512 signal. Monitor the status of leakage, overload and temperature. Thereby, the dimming control part 41 produces | generates a state monitoring signal, and transmits to the illumination control apparatus 11 via Ethernet.
[0062]
[Operation of Lighting System (FIGS. 5 to 8)]
Next, the operation of the above-described illumination system will be described. In this lighting system, when the lighting control device 11 causes the user to operate when creating the dimming control signal, the state monitoring signal, the acoustic data, the video data, and the external interlocking signal captured in advance by the LAN control unit 24 via Ethernet are used. Thus, the audio data and video data captured from the video operation device and the audio operation device, and the video data from the camera device 15 in real time are received.
[0063]
When the user controls the lighting device 2, the lighting control unit 25 displays a cue list screen in which the operations (queues) of the respective lighting devices 2 are listed in time series in accordance with an operation input signal from the operation unit 21. The dimming level list screen displaying the dimming levels, which are the brightness levels of the respective illumination devices 2 in each operation, is displayed. The dimming control information for displaying the cue list screen and the dimming level information for displaying the dimming level list screen are stored in, for example, the storage unit 26 and displayed according to the operation input signal for displaying each screen. It is controlled by the illumination control unit 25 so as to be read by the control unit 22 and displayed on the display monitor 12.
[0064]
In the state where the cue list screen is displayed, the lighting control unit 25 edits the operation content of each lighting device 2 in response to an operation input signal that designates a change in the operation content by operating the operation unit 21. Perform processing. In addition, the illumination control unit 25 changes and determines the dimming level of each lighting device 2 in response to the input of an operation input signal designating the dimming level in a state where the dimming level list screen is displayed. do.
[0065]
The illumination control unit 25 displays a sub-screen having a smaller screen than the entire screen when displaying the main screen such as the cue list screen and the dimming level list screen as described above. The lighting control unit 25 displays a sub-screen based on the state monitoring signal, a sub-screen based on the external interlock signal, a sub-screen based on the audio data, and a sub-screen based on the video data on the main screen according to the operation input signal. To do. In addition, the illumination control unit 25 can automatically display a sub screen related to the content of the main screen.
[0066]
Further, as illustrated in FIG. 5, the illumination control unit 25 performs a process of setting the cue list screen as the main screen 51 and displaying the sub screen 52 related to the cue list on the cue list screen.
[0067]
Here, on the cue list screen, a fade time corresponding to a cue (operation) number, each cue number, and a time for gradually changing the brightness of each lighting device 2 when switching from one scene to the next scene, A delay time from when an operation execution command for each cue number is issued to when the operation is actually started in the lighting device 2 and a wait time that is a time for maintaining the state of the lighting device 2 are set and displayed. The operation of the lighting device 2 corresponding to each cue number is started when the dimming control device 1 is operated.
[0068]
In the example illustrated in FIG. 5, the illumination control unit 25 captures video data from the camera device 15 in real time to the LAN control unit 24 in a state where the cue list screen is displayed, performs decoding processing on the display monitor 12. The video processing unit 31 and the display control unit 22 are controlled so as to be displayed as the sub screen 52.
[0069]
Further, as illustrated in FIG. 6, the illumination control unit 25 sets the dimming level list screen as the main screen 51 and performs a process of displaying the sub screen 52 related to the dimming level list on the dimming level list screen.
[0070]
Here, on the dimming list screen, a number (Ch) assigned to each lighting device 2, a numerical value indicating the dimming level (LV) corresponding to each number, and a symbol (−) indicating non-operation are displayed. is doing. This dimming list screen can be displayed for each queue number described above.
[0071]
In the example illustrated in FIG. 6, the lighting control unit 25 displays the image of the stage 1 of the next scene stored in the image memory 33 in advance from the image memory 33 while the dimming level list screen is displayed. The display control unit 22 is controlled so as to read and display the sub-screen 52 on the display monitor 12.
[0072]
Specifically, a scene-specific illumination control table as shown in FIG. 7 is stored in the storage unit 26, and the illumination control unit 25 reads the scene-specific illumination control table from the storage unit 26 and displays the sub-screen 52.
[0073]
This lighting control table for each scene shows the scene number added to the scene on the stage 1, the dimming level list indicating the on / off and brightness of each lighting device 2 in each scene, and the scene corresponding to the scene number. The file name of the still image (image image) and the remarks regarding each scene are stored in association with each other.
[0074]
When adjusting the dimming level for each scene, the illumination control unit 25 refers to the scene-specific illumination control table for the image of the scene being adjusted, reads a still image corresponding to the scene from the image memory 33, and displays the image on the display monitor 12. The display control unit 22 is controlled so as to display.
[0075]
Further, as illustrated in FIG. 8, the illumination control unit 25 sets the cue list screen as the main screen 51 and performs a process of displaying the sub screen 52 related to the cue list on the cue list screen. In the example illustrated in FIG. 8, the illumination control unit 25 captures the state monitoring signal from the dimming device 13 in real time in the LAN control unit 24 and displays the sub screen 52 on the display monitor 12 while the cue list screen is displayed. The display control unit 22 is controlled to display as
[0076]
[Effect of the embodiment]
As described above in detail, according to the illumination system according to the present embodiment, not only the illumination control device 11, the dimming device 13, and the dimming converter 14, but also the camera device 15, the monitor 16, and the first radio. Since the communication device 17 is connected to the communication device 17 by a common communication bus according to a general-purpose communication protocol such as Ethernet, various information and data of the connected device can be captured by the lighting control device 11. Therefore, according to this lighting system, when controlling the plurality of lighting devices 2, various information and data contents can be presented to the display monitor 12 by the display monitor 12. Can be improved.
[0077]
Further, according to this illumination system, the video data captured by the camera device 15 can be displayed with the cue list screen as the main screen and the content of the video data as the sub screen, so that the illumination can be performed while referring to the real-time video. The device 2 can be controlled. Therefore, according to this lighting system, the movement distance of the user's line of sight can be reduced as compared with the case where the cue list screen and video are displayed on a separate monitor, and the operability of the user can be further improved. it can.
[0078]
Furthermore, according to this illumination system, still image data necessary for illumination control is stored in the image memory 33 in advance, and the screen necessary for illumination control is displayed as the main screen and the still image is displayed as the sub screen. Lighting control can be set while referring to a still image, and user operability can be further improved. Here, the still image data is a still image when the lighting device 2 is operated in advance during the rehearsal of the stage 1, or an image such as a storyboard. By storing still images necessary for such illumination control in the image memory 33, it is possible to perform illumination control so that the actual illumination condition matches the image-like illumination condition, and further the operability of the user. Can be improved.
[0079]
Furthermore, according to the lighting system, a state monitoring signal for each lighting device 2 is transmitted from the light control device 13 to the lighting control device 11, and the lighting control screen is changed to the main screen by the lighting control device 11 to change the state of the lighting device 2. It can be displayed as a sub screen. Therefore, according to this lighting system, the malfunctioning lighting device 2 can be recognized and the dimming level list or the like can be corrected, and the dimming level list can be referred to by referring to the overload state of each lighting device 2. Can be corrected. According to this lighting system, it is possible to prepare the cause of the failure in lighting control caused by the state of the lighting device 2 and the execution of a workaround, and to further improve the operability for the user.
[0080]
Furthermore, according to the illumination system, the acoustic processing unit 34 is provided in the illumination control device 11, and the audio equipment connected to the illumination control device 11 via Ethernet can be controlled. Further, according to this lighting system, by using a headset that supports VoIP as an audio device, for example, when a lighting fixture is placed, a user who operates the lighting control device 11 and a person who places the lighting fixture. It is possible to make a call with Furthermore, it is possible to use more easily by making a part of the network wireless.
[0081]
The above-described embodiment is an example of the present invention. For this reason, the present invention is not limited to the above-described embodiment, and various modifications can be made depending on the design and the like as long as the technical idea according to the present invention is not deviated from this embodiment. Of course, it is possible to change.
[0082]
In the above-described embodiment, an example in which one sub-screen is displayed on the main screen has been described. However, the present invention is not limited to this, and a plurality of sub-screens may be displayed on the main screen. is there. For example, the operability of the user can be further improved by displaying an image showing the actual state of the stage 1 as a sub-screen together with an image image as a sample of lighting conditions.
[0083]
【The invention's effect】
  According to the first aspect of the present invention, when performing illumination control according to a user's operation using different types of data that are referred to for dimming control of a plurality of illumination devices, the operation of the illumination device is controlled. Therefore, it is possible to display the lighting control screen for the main screen as the main screen, so that various information and data contents can be displayed and presented to the user, and the operability of the user can be improved.According to the first aspect of the present invention, image processing is performed on the image capturing data received from the image capturing apparatus and the image capturing data is displayed as a sub-screen. Since it can be displayed as a sub-screen, the lighting device can be controlled while referring to the image. Therefore, according to the invention which concerns on Claim 1, compared with the case where an illumination control screen and an image | video are displayed on a separate display apparatus, the movement distance of a user's eyes | visual_axis can be reduced, and also a user's operativity is improved. Can be improved.
[0084]
According to the second aspect of the present invention, the moving image imaging data received from the imaging device is subjected to image processing and the moving image imaging data is displayed as a sub-screen. Therefore, the lighting device can be controlled with reference to a real-time video. Therefore, according to the invention which concerns on Claim 2, compared with the case where an illumination control screen and an image | video are displayed on a separate display apparatus, the movement distance of a user's eyes | visual_axis can be reduced and also a user's operativity is improved. Can be improved.
[0085]
According to the third aspect of the present invention, when the dimming control is performed, the still image is displayed as the sub-screen in response to the generation of the operation input signal that refers to the still image by the user. The necessary still images are stored in the memory, and the lighting control screen is set as the main screen, and the still image is displayed as the sub screen, so that the lighting control can be set while referring to the still images. Operability can be improved.
[0086]
According to the invention according to claim 4, since the state of each lighting device based on the monitoring signal received from the state monitoring device is displayed as a sub-screen, for example, the lighting device that has failed is recognized and the content of lighting control is corrected. In addition, the content of the lighting control can be corrected with reference to the overload state of each lighting device.
[0087]
According to the invention which concerns on Claim 5, according to the operation input signal which controls the said audio apparatus by the user being produced | generated, an audio apparatus is controlled by the sound control signal according to the operation content to the sound generation apparatus. Can do.
[0088]
  According to the sixth aspect of the invention, different types of data referred to for dimming control of a plurality of lighting devices are received by the second protocol, and the operation of the lighting device controlled according to the first protocol is controlled. Since the lighting control screen for doing so can be displayed as the main screen, the contents of various information and data can be displayed and presented to the user, and the operability for the user can be improved.The invention according to claim 6 is a video console that holds video data obtained by imaging the state of the stage, can display the lighting control screen to the user with the video content as a sub-screen, and the user The operability can be improved.
[0090]
  Claim7In the present invention, the first protocol is the DMX standard and the second protocol is a general-purpose LAN standard. Therefore, different types of data can be received from different devices by the second protocol, and the DMX standard for lighting control can be received. Thus, the lighting device can be controlled.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a lighting system to which the present invention is applied.
FIG. 2 is a diagram for explaining types of data used in a lighting system to which the present invention is applied.
FIG. 3 is a block diagram showing a configuration of a lighting control apparatus to which the present invention is applied.
FIG. 4 is a block diagram illustrating a configuration of a light control device.
FIG. 5 is a diagram for explaining a display on a display monitor with a cue list screen as a main screen and a video screen as a sub screen by the lighting control device;
FIG. 6 is a diagram for explaining the display on the display monitor with the light control level list screen as the main screen and the still image screen as the sub screen by the illumination control device.
FIG. 7 is a diagram for explaining information included in a scene-specific illumination control table;
FIG. 8 is a diagram for explaining the display on the display monitor with the dimming level list screen as a main screen and the state monitoring screen as a sub screen by the lighting control device;
FIG. 9 is a block diagram showing a configuration of a conventional lighting system.
FIG. 10 is a block diagram showing another configuration of a conventional lighting system.
FIG. 11 is a block diagram showing a configuration of a conventional lighting system in which devices are connected by Ethernet.
FIG. 12 is a diagram for explaining a conventional lighting system in which devices are connected via Ethernet.
[Explanation of symbols]
1 stage
2 Lighting equipment
11 Lighting control device
12 Display monitor
13 Light control device
14 Dimming converter
15 Camera device
16 Monitor
17 First wireless communication device
18 Second wireless communication device
19 Sound output unit
21 Operation unit
22 Display controller
23 Media control unit
24 LAN controller
25 Lighting control unit
26 Memory unit
27 Bus
31 Video processor
32 Image processing unit
33 Image memory
34 Sound processor
41 Light control unit
42 Dimmer
43 Power Manager

Claims (7)

A plurality of data generating devices that are referred to for dimming control of a plurality of lighting devices and generate different types of data are connected on a common communication bus, and a plurality of lighting devices to be dimmed are connected. In the illumination control device,
A transmitting / receiving means connected to the common communication bus and receiving different types of data from the plurality of data generating devices;
Display image generation means for generating display data for displaying as a main screen an illumination control screen for controlling the operation of the illumination device, while displaying as a sub display screen based on a plurality of data received by the transmission / reception means When,
Display means for displaying the display data generated by the display image generating means;
An operation input means that is operated so as to control lighting by the user according to the display content displayed on the display means, and generates an operation input signal according to the operation content;
Control means for controlling the transmission / reception means so as to transmit a dimming control signal for controlling the illumination device to the illumination device based on an operation input signal generated by the operation input means ,
The data generation device is an image pickup device that generates an image pickup data by picking up an image of a lighting portion by the lighting device,
The display image generating means performs video processing on the image pickup data received from the image pickup apparatus by the transmission / reception means to convert the image pickup data into display data for screen display on the display means as a sub screen. A lighting control device. The data generation device is an image pickup device that picks up an image of a lighting portion by the lighting device and generates moving image pickup data as the image pickup data.
The display image generation means performs video processing on the moving image imaging data received from the imaging device by the transmission / reception means to convert the moving image imaging data into display data for screen display on the display means as a sub screen. The illumination control device according to claim 1, wherein Still further comprising a still image storage means for storing a still image indicating an illumination part by the illumination device,
When performing the dimming control, the still image stored in the still image storage means is displayed on the display means as a sub-screen in response to the generation of an operation input signal referring to the still image by the user. The illumination control device according to claim 1, wherein The data generation device is a state monitoring device that generates a monitoring signal for monitoring a state of the lighting device,
The display image generating means converts the state of each lighting device based on the monitoring signal received from the state monitoring device by the transmission / reception means into display data for screen display on the display means as a sub-screen. Item 2. The lighting control device according to Item 1. The transmission / reception means is connected to an acoustic device that emits acoustic data related to the illumination part by the illumination device,
In response to generation of an operation input signal for controlling the acoustic device by a user, the acoustic device is controlled by transmitting an acoustic control signal according to the operation content from the transmission / reception means to the acoustic generation device. The illumination control device according to any one of claims 1 to 4. A plurality of lighting devices that input a control signal according to a first protocol and operate according to the input control signal;
Transmission / reception means for receiving different types of data according to a second protocol different from the first protocol, and a sub-display screen based on a plurality of data received by the transmission / reception means, and controlling the operation of the illumination device Display image generating means for generating display data for displaying an illumination control screen as a main screen, display means for displaying display data generated by the display image generating means, and display displayed by the display means The operation input means is operated so as to control the lighting according to the content, and generates an operation input signal according to the operation content, and the lighting device is controlled based on the operation input signal generated by the operation input means. A dimming control device comprising: control means for controlling the transmission / reception means so as to transmit a light control signal;
A data processing device having transmission / reception means for transmitting / receiving different types of data to / from the dimming control device according to the second protocol;
Receiving means connected to the lighting device and the dimming control device and receiving a dimming control signal according to the second protocol, and the dimming control signal received by the receiving means in an information form according to the first protocol A conversion device comprising: conversion means for conversion; and transmission means for transmitting the dimming control signal converted by the conversion means to the illumination device ,
The lighting system according to claim 1, wherein the data processing device is a video console that holds video data obtained by imaging the state of the stage . The lighting system according to claim 6 , wherein the first protocol is a DMX standard, and the second protocol is a general-purpose LAN standard.

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