JP2022152152A - Control device and lighting system - Google Patents

Abstract

To provide a control device that allows the operation status of a lighting fixture to be acquired while ensuring the accuracy of controlling the operation of the lighting fixture in the state the operation of the lighting fixture is controlled.SOLUTION: According to an embodiment, a control device includes a communication unit capable of communication and a communication control unit. The communication control unit determines based on an operation command regarding operation of a lighting fixture transmitted to the lighting fixture whether a request to notify operation status of the lighting fixture should be transmitted from the communication unit to the lighting fixture.SELECTED DRAWING: Figure 3

Description

Embodiments of the invention relate to controllers and lighting systems.

In a lighting system, an operator, such as a dimming console, can communicate with the lighting fixtures. The operator controls the operation of the lighting fixture by sending an operation command regarding the operation of the lighting fixture, including a dimming signal, to the lighting fixture. Further, in the lighting system, the control device, which is an operation device or a processing device or the like separate from the operation device, acquires the operation status of the lighting device by performing two-way communication with the lighting device. At this time, the control device transmits a request to notify the lighting fixture of the operation status. Then, the lighting equipment transmits the operation status of the lighting equipment to the control device as a response to the request from the control device. The operating status of the lighting fixture includes alarm information indicating malfunctions in the lighting fixture, such as temperature anomaly and circuit board anomaly. In the above-mentioned lighting system, it is possible to acquire the operating status of lighting fixtures while ensuring the accuracy of controlling the operation of lighting fixtures in a state in which the operation of lighting fixtures is controlled by the operation command sent from the controller. It is required to be

JP 2018-055844 A

A problem to be solved by the present invention is to provide a control device capable of acquiring the operation status of a lighting fixture while ensuring accuracy in controlling the operation of the lighting fixture in a state in which the operation of the lighting fixture is being controlled; An object of the present invention is to provide a lighting system equipped with the control device.

According to an embodiment, the control device comprises a communicable communication section and a communication control section. The communication control unit determines whether or not to transmit a request for notifying the operation status of the lighting fixture from the communication section to the lighting fixture based on the operation command regarding the operation of the lighting fixture sent to the lighting fixture.

ADVANTAGE OF THE INVENTION According to this invention, the control apparatus which can acquire the operating condition of a lighting fixture can be provided, ensuring the precision of the control of the operation|movement of a lighting fixture in the state which is controlling the operation|movement of a lighting fixture. Further, it is possible to provide a lighting system including the control device.

FIG. 1 is a block diagram schematically showing an example of a lighting system according to the first embodiment. FIG. 2 is a flowchart schematically showing an example of processing performed by a lighting control unit of one lighting fixture in the first embodiment. 3 is a flowchart schematically showing an example of processing performed by a communication control unit of a control device in the first embodiment; FIG. FIG. 4 is a schematic diagram showing an example of temporal change of information communicated between each of the lighting fixtures, the operation device, and the control device in the lighting system according to the first embodiment. FIG. 5 is a schematic block diagram of a lighting system according to a variant.

The control device (12; 13) of the embodiment includes a communicable communication section (113; 121) and a communication control section (125). A communication control unit (125) sends a request to notify the operation status of the lighting device (11) based on the operation command regarding the operation of the lighting device (11) transmitted to the lighting device (11). 121) to the lighting fixture (11). As a result, in a state where the operation of the lighting fixture (11) is being controlled, the operating status of the lighting fixture (11) can be controlled by the control device (12; 13) while ensuring the accuracy of the control of the operation of the lighting fixture (11). becomes available.

In the control device (12; 13) of the embodiment, the communication control section (125) determines whether or not the command content of the actuation command is changing with time. The communication control unit (125) does not transmit a request from the communication unit (113; 121) to the lighting fixture (11) when the command content of the operation command changes over time, and issues the operation command. A request is transmitted from the communication unit (113; 121) to the lighting fixture (11) based on the fact that the command content has not changed for a predetermined period of time. As a result, the control device (12; 13) transmits the above-described request to the lighting fixture (11) only at appropriate timing. The aforementioned request is transmitted only at the timing when the accuracy of the control of the operation of the lighting fixture (11) is ensured.

In the control device (13) of the embodiment, the communication control unit (125) acquires the operation command when the communication unit (121) receives the operation command transmitted from the operation device (12). As a result, the controller (13), which can communicate with the operator (12) via a network or the like, operates the lighting fixture (11) according to the operation command sent from the operator (12) to the lighting fixture (11). In the controlled state, it is possible to acquire the operation status of the lighting fixture (11) while ensuring the accuracy of controlling the operation of the lighting fixture (11).

The lighting system (1) of the embodiment comprises the aforementioned control device (13), operator (12) and lighting equipment (11). An operation related to the operation of the lighting fixture (11) is input to the operation device (12), and the operation device (12) generates and transmits an operation command having command content corresponding to the operation input. When the lighting fixture (11) receives the operation command transmitted from the operation device (12) and receives the above-described request from the communication unit (121) of the control device (13), the control device (13) to notify the operating status. As a result, in the lighting system (1) in which the controller (12) can communicate with the control device (13) via a network or the like, the lighting fixture (11) is controlled by the operation command sent from the controller (12) to the lighting fixture (11). In the state where the operation of (11) is being controlled, the control device (13) can acquire the operation status of the lighting equipment (11) while ensuring the accuracy of controlling the operation of the lighting equipment (11).

The control device (12) of the embodiment further includes an operation input section (111) and a command generation section (115). An operation input unit (111) receives an operation related to the operation of the lighting fixture (11), and a command generation unit (115) generates an operation command having command content corresponding to the operation input in the operation input unit (111). . A communication control unit (125) transmits the operation command generated by the command generation unit (115) from the communication unit (113) to the lighting fixture (11). As a result, the control device (12), which also functions as a controller for inputting operations related to the operation of the lighting equipment (11), controls the operation of the lighting equipment (11) by transmitting an operation command to the lighting equipment (11). In this state, it is possible to acquire the operation status of the lighting equipment (11) while ensuring the accuracy of controlling the operation of the lighting equipment (11).

The lighting system (1) of the embodiment comprises the aforementioned control device (12) and lighting fixture (11). When the lighting fixture (11) receives the operation command transmitted from the communication unit (113) of the control device (12) and receives the above-mentioned request from the communication unit (113) of the control device (12), , to inform the control device (12) of the operating situation. As a result, in the lighting system (1) in which the control device (12) is an operation device for inputting an operation related to the operation of the lighting fixture (11), an operation command sent from the control device (12) to the lighting fixture (11) The control device (12) can acquire the operation status of the lighting fixture (11) while ensuring the accuracy of controlling the operation of the lighting fixture (11) in a state where the lighting fixture (11) is controlled by Become.

Hereinafter, embodiments will be described with reference to the drawings.

(First embodiment)
FIG. 1 shows an example of a lighting system 1 according to a first embodiment. As shown in FIG. 1 , the lighting system 1 comprises one or more lighting fixtures 11 , controls 12 , controllers 13 and intermediate equipment 15 . In one example of FIG. 1, a plurality of lighting fixtures 11 are provided. The lighting equipment 11 is, for example, a moving light, a spotlight, a floodlight, a downlight, or the like installed in a studio, a theater, or the like. Further, the operating device 12 is, for example, a light adjustment console, etc., and the control device 13 is, for example, a processing device different from the operating device 12, such as a personal computer.

Each of the luminaires 11 can communicate with each of the controllers 12 and controllers 13 via an intermediate device 15 therebetween. The intermediate device 15 can communicate with each of the operation device 12 and the control device 13 via a network. Examples of networks that enable the intermediate device 15 to communicate with the operation device 12 and the control device 13 include an IP (Internet Protocol) network, Ethernet (registered trademark), LAN (Local Area Network), and the like. In one example, the operation device 12 communicates with each of the operation device 12 and the control device 13 by performing broadcast communication via an IP network based on User Datagram Protocol (UDP).

Further, the intermediate device 15 can communicate with each of the lighting fixtures 11 based on a communication standard unique to lighting-related devices. In one example, the intermediate device 15 is a DMX (Digital Multiplex) node, and based on DMX as a communication standard specific to lighting-related devices, or RDM (Remote Device Management), which is an extension of DMX, etc., of the lighting device 11. communicate with each. In this case, each of the lighting fixtures 11 communicates with the intermediate device 15 by sending and receiving DMX signals to and from the intermediate device 15 . Note that in one example, one or more of the lighting fixtures 11 may not support DMX and RDM. In this case, a converter is provided between the lighting fixture 11 and the intermediate device 15 that are not compatible with DMX and RDM. The converter then converts the DMX signal into a signal compatible with the lighting fixture 11 and transmits the converted signal to the lighting fixture 11 . The converter also converts the signal corresponding to the lighting fixture 11 into a DMX signal and transmits the DMX signal to the intermediate device 15 . Here, the signal corresponding to the lighting fixture 11 is, for example, a PWM (Pulse Width Modulation) signal.

Each lighting fixture 11 includes a lighting unit 101 , a communication unit 102 and a lighting control unit 103 . 1 shows the illumination unit 101, the communication unit 102, and the illumination control unit 103 for only one lighting fixture 11, but the illumination unit 101, the communication unit 102, and A lighting control unit 103 is provided. The lighting unit 101 includes a light-emitting element such as an LED. Light emitted from the light emitting element is irradiated as illumination light in each lighting unit 101 of the lighting device 11 . In each of the lighting fixtures 11, the communication unit 102 is composed of an interface and the like, and communicates with other lighting-related equipment as described above. Also, each of the lighting fixtures 11 may be provided with a user interface. In the user interface, an operator inputs various operations and information to be notified to the operator is notified by display or the like. In one example, the user interface includes a display, touch panel, and the like. Also, the user interface may be provided separately from the lighting fixture.

The operation and the like of each of the lighting fixtures 11 are controlled by the lighting control unit 103 . In each lighting fixture 11, the lighting controller 103 is composed of one or more computers and includes a processor and a storage medium. The processor includes any one of CPU (Central Processing Unit), ASIC (Application Specific Integrated Circuit), FPGA (Field Programmable Gate Array), DSP (Digital Signal Processor), and the like. A storage medium may include an auxiliary storage device in addition to a main storage device such as a memory. The storage medium is, for example, a semiconductor memory or the like. In each lighting control unit 103 of the lighting device 11, only one processor and storage medium may be provided, or a plurality of them may be provided. In each lighting control unit 103 of the lighting fixture 11, the processor executes processing by executing a program or the like stored in a storage medium or the like.

An operation device 12 such as a light control console includes an operation input unit 111 , a control unit 112 and a communication unit 113 . The control unit 112 is composed of one or more computers, and includes a processor and a storage medium, similar to the lighting control unit 103 described above. However, the program executed by the processor may be stored in a computer (server) connected via the network described above or a network different from the network described above, a server in a cloud environment, or the like. In this case, the processor downloads the program via the network. A communication unit 113 of the operation device 12 is configured by an interface and the like, and communicates with other lighting-related devices via the network described above. Further, the operation device 12 may be provided with a notification section. In this case, the notification section is configured by a user interface. In the notification unit, information to be notified to the operator is notified by display or the like. In one example, the notification unit includes a display, a touch panel, and the like. Also, the notification unit may be provided separately from the operation device 12 .

Further, in the operation device 12, the operation input section 111 is configured by a user interface. The user interface of the operation device 12 allows the operator to input various operations. The operation input unit 111 can input operations related to the operation of the lighting fixtures 11 provided in the lighting system 1 . The control unit 112 includes a command generation unit 115 , and the command generation unit 115 executes part of the processing of the control unit 112 . The command generation unit 115 generates an actuation command regarding the actuation of the lighting fixture 11 provided in the lighting system 1 based on the operation input from the operation input unit 111 . For this reason, for all the operations of the plurality of lighting fixtures 11 , operation commands are generated that have command content corresponding to the operation input from the operation input unit 111 . Then, the control unit 112 transmits the generated activation command to each of the lighting fixtures 11 .

An operation command for the lighting fixture 11 is converted from a network signal to a signal corresponding to a lighting-related device-specific communication standard, such as a DMX signal, in an intermediate device 15 such as a DMX node. Then, the operation command converted into a signal corresponding to the communication standard unique to lighting-related equipment is transmitted to each of the lighting fixtures 11 . The communication unit 102 receives the activation command in each of the lighting fixtures 11 . The operation of each of the lighting fixtures 11 is controlled by the lighting control unit 103 based on the operation command received by the communication unit 102 .

The operation command for the lighting fixture 11 includes a dimming signal that is a command regarding the brightness of the illumination light of each lighting fixture 11 . The contents of the command (dimming signal) relating to the brightness of the illumination light of each of the lighting fixtures 11 include, for example, setting the dimming ratio to 50% in a specific one of the lighting fixtures 11 . In one example, one or more lighting fixtures 11 can change the light color of the illumination light. The operation command for the lighting fixture 11 includes a toning signal that is a command regarding the light color of the illumination light in the lighting fixture 11 whose light color is changeable. In another example, the one or more lighting fixtures 11 can change the irradiation direction of the illumination light, such as by controlling the attitude. The operation command for the lighting device 11 includes a command regarding the irradiation direction of the illumination light in the lighting device 11 whose irradiation direction of the illumination light can be changed. Therefore, in each of the lighting fixtures 11, the lighting control unit 103 controls any one of the brightness of the illumination light, the light color of the illumination light, and the irradiation direction of the illumination light based on the operation command transmitted from the operation device 12. to adjust.

While the operation of each lighting fixture 11 is being controlled, the operation device 12 continuously transmits the operation command, for example, one packet at a predetermined cycle. Therefore, each of the lighting fixtures 11 receives one packet of the activation command at a predetermined cycle. In one example, the predetermined period is 30ms. In one packet of the operation command, signal levels are set for each of the plurality of channels. In one example, each of the lighting fixtures 11 receives DMX signals based on DMX 512 or DMX 512-A as activation commands. In this case, the signal level is set for each of the 512 channels in one packet of the operation command, and the signal level is set to any value from 0 to 255, for example, for each channel.

A corresponding channel is set for each of the lighting fixtures 11 out of a plurality of channels for operation commands. In each of the lighting fixtures 11, when the communication unit 102 receives the operation command, the lighting control unit 103 controls the operation based on the signal level of the corresponding channel. In one example, in a specific one of the plurality of channels of the activation command, the signal level is set as the command content for the dimming rate in the specific one of the lighting fixtures 11, and the signal level in the specific one lighting fixture 11 The signal level, which is the content of the command regarding the dimming rate, is set to any value between 0 and 255. In this example, when the signal level is set to 255 in one specific channel as described above, the content of the command is to set the dimming rate of one specific lighting fixture 11 to 100%. When the signal level is set to 127 in , the content of the command is to set the dimming rate of one specific lighting fixture 11 to 50%.

When the operating state of the lighting device 11 is to be maintained over time, the controller 112 of the operation device 12 continuously transmits the operating command with the same command content. In this case, the operation command is repeatedly transmitted with the same command content as the previous transmission, and for example, the lighting is performed in a state where the signal level in each of the plurality of channels becomes the same value as the previously transmitted operation command. An activation command is repeatedly sent to each of the instruments 11 . On the other hand, when the operation status of one or more lighting fixtures 11 is to be changed over time, the controller 112 of the operation device 12 continuously transmits the operation command while changing the command content over time. In this case, the operation command is repeatedly transmitted while changing the command content from the time of the previous transmission, and for example, the signal level in the corresponding channel among the plurality of channels becomes a value different from that of the previously transmitted operation command. In this state, an activation command is repeatedly transmitted to each of the lighting fixtures 11 .

In using the lighting system 1, the brightness of the illumination light of each of the lighting fixtures 11 may gradually weaken (fading) over time. In this case, the control unit 112 of the operation device 12 continuously transmits the operation command while gradually decreasing the value corresponding to the content of the command regarding the dimming rate of the lighting device 11 over time. For example, in a state in which the signal level in the channel related to the dimming rate of the lighting fixture 11 among the plurality of channels is slightly lower than the previously transmitted activation command, each of the lighting fixtures 11 is issued an activation command. is sent repeatedly. Accordingly, in each of the lighting fixtures 11, the lighting control unit 103 gradually weakens the brightness of the illumination light of the lighting unit 101 over time based on the operation command.

The control device 13 , which is a processing device different from the operation device 12 , includes a communication section 121 , a control section 122 and a notification section 123 . The control unit 122 is composed of one or more computers, and includes a processor and a storage medium, like the lighting control unit 103 and the control unit 112 described above. The program executed by the processor of the control unit 122 may be stored in a computer (server) connected via the network described above or a network different from the network described above, or a server in a cloud environment. Again, the processor downloads the program over the network. A communication unit 121 of the control device 13 includes an interface and the like, and communicates with other lighting-related devices via the network described above.

The notification unit 123 is configured by a user interface. The notification unit 123 notifies the operator of information and the like by means of display or the like. In one example, notification unit 123 includes a display, a touch panel, and the like. Also, the notification unit 123 may be provided separately from the control device 13 . Further, the control device 13 may be provided with an operation input unit. In this case, the operation input unit is configured by a user interface. The user interface of the control device 13 allows the operator to input various operations.

The communication unit 121 of the control device 13 receives the activation command for the lighting fixture 11 transmitted from the operation device 12 via the network described above. For example, the communication unit 113 of the operation device 12 broadcasts an operation command, so that the communication unit 121 of the control device 13 can receive the operation command. Further, as described above, the operation device 12 continuously transmits the operation command one packet at a predetermined cycle. Therefore, the control device 13 receives the operation command packet by packet at a predetermined cycle. Also, the communication unit 121 of the control device 13 is capable of two-way communication with each of the lighting fixtures 11 . The control unit 122 of the control device 13 includes a communication control unit 125 , and the communication control unit 125 executes part of the processing of the control unit 122 . The communication control section 125 controls the communication state in the communication section 121 including transmission from the communication section 121 .

The communication control unit 125 acquires the operation status of each of the lighting fixtures 11 by performing two-way communication with each of the lighting fixtures 11 via the communication section 121 . When acquiring the operation status of each of the lighting fixtures 11 , the communication control unit 125 transmits to each of the lighting fixtures 11 a request to notify the operation status. In each of the lighting fixtures 11, when the communication section 102 receives a request from the control device 13, the lighting control section 103 transmits a signal indicating the operation status to the control device 13 as a response to the request.

The signal requesting notification of the operating status is converted in the intermediate device 15 from a network signal into a signal corresponding to a communication standard specific to lighting-related devices, such as a DMX signal. Then, the request signal converted into a signal corresponding to the communication standard unique to lighting-related equipment is transmitted to each of the lighting fixtures 11 . In addition, the intermediate device 15 converts the signal for notifying the operation status of the lighting device 11 from a signal corresponding to a communication standard specific to lighting-related devices into a network signal. Then, the converted network signal is sent to the control device 13 as a signal notifying the operation status of the lighting fixture 11 . The operation status of the lighting fixture 11 includes alarm information indicating malfunctions in the lighting fixture 11 , such as abnormal temperature and abnormal substrates in the lighting fixture 11 . Therefore, by acquiring the operation status of each lighting fixture 11 , the control device 13 can acquire alarm information indicating a problem with each lighting fixture 11 . The control unit 122 may cause the notification unit 123 to notify the operation status of each of the acquired lighting fixtures 11 .

In the control device 13 , the communication control section 125 acquires the operation command received by the communication section 121 . Then, when the communication unit 121 receives the operation command, the communication control unit 125 transmits a request to notify the operation status of the lighting device 11 from the communication unit 121 based on the received operation command regarding the operation of the lighting device 11 . and whether or not to transmit to each of them. A determination as to whether or not to transmit a request is made, for example, each time the communication unit 121 receives one packet of an operation command. In determining whether or not to transmit a request, the communication control unit 125 determines whether or not the command content of the operation command is changing over time based on the operation command received by the communication unit 121. do. At this time, the communication control unit 125 compares the signal level of each of the plurality of channels with the previously received operation command to determine whether the signal level has changed from the previously received operation command.

In one example, the communication control unit 125 determines that the command content of the operation command has not changed for a predetermined period based on a state in which the signal level has not changed in all of the plurality of channels for a predetermined number of receptions or more. , and it is determined that the command content of the operation command is not changing with time. That is, it is determined that the command content of the operation command has not changed for a predetermined period based on the fact that the signal level has not changed in all of the plurality of channels for a predetermined number of packets or longer. Here, in one example, the predetermined number of receptions is any number of times between 2 and 5, and the predetermined number of packets is any number of packets between 2 and 5 packets. On the other hand, if the signal level in any of the plurality of channels has changed from the previously received activation command, the communication control unit 125 determines that the command content of the activation command has changed over time. do.

When the command content of the operation command changes over time, the communication control unit 125 does not transmit a request for notification of the operation status from the communication unit 121 to each of the lighting fixtures 11 . Therefore, in a state in which the command content of the operation command changes over time, the lighting control unit 103 of each lighting fixture 11 does not transmit a signal for notifying the operation status to the control device 13, and the control device 13 The control unit 122 does not acquire the operation status of the lighting fixture 11 . On the other hand, the communication control unit 125 transmits a request for notification of the operation status from the communication unit 121 to each of the lighting fixtures 11 based on the fact that the command content of the operation command has not changed for a predetermined period of time. Therefore, in a state in which the command content of the operation command has not changed for a predetermined period, the lighting control unit 103 of each lighting device 11 transmits a signal indicating the operation status to the control device 13 as a response to the request, and controls the control device 13. The control unit 122 of the device 13 acquires the operation status of each of the lighting fixtures 11 .

FIG. 2 shows an example of processing performed by the lighting control unit 103 of one lighting fixture 11 . In each of the lighting fixtures 11, the lighting controller 103 repeatedly performs the processing shown in FIG. 2 over time. When the process of FIG. 2 is started, the lighting control unit 103 of each lighting fixture 11 determines whether the communication unit 102 has received an operation command (S21). If the operation command has been received (S21-Yes), the lighting control unit 103 controls the operation of the lighting device 11 based on the received operation command (S22). In this case, the lighting control unit 103 adjusts the operation of the lighting device 11 to the operating condition corresponding to the received operation command. Then, any one of the brightness of the illumination light, the light color of the illumination light, and the irradiation direction of the illumination light is adjusted to the situation corresponding to the received operation error. Then, the process proceeds to S23. On the other hand, if the activation command has not been received (S22-No), the lighting control unit 103 maintains the lighting fixture 11 in the real-time activation status. Then, the process proceeds to S23.

Then, the lighting control unit 103 determines whether or not the communication unit 102 has received a request to notify the operation status of the lighting device 11 (S23). If the request has been received (S23-Yes), the lighting control unit 103 transmits a signal notifying the operation status of the lighting device 11 to the control device 13 to notify the operation status (S24). On the other hand, if the request has not been received (S23-No), the lighting control unit 103 does not transmit a signal for notifying the operation status of the lighting device 11 and does not notify the operation status. Then, the process returns to S21, and the lighting control unit 103 performs the processes after S21.

FIG. 3 shows an example of processing performed by the communication control unit 125 of the control device 13. As shown in FIG. In a state in which an operation command is transmitted from the operation device 12 to each of the lighting fixtures 11 and the operation of the lighting fixtures 11 is being controlled, the processing shown in FIG. will be When the process of FIG. 3 is started, the communication control unit 125 acquires an operation command transmitted from the operation device 12, for example, by the communication unit 121 receiving it (S31). Then, based on the acquired actuation command, the communication control unit 125 determines whether or not the contents of the actuation command are changing with time (S32). Determination as to whether or not the contents of the command are changing over time is performed as described above.

If the command contents change over time (S32-Yes), the communication control unit 125 does not send a request for notifying the operation status to each of the lighting fixtures 11. FIG. Therefore, the communication control unit 125 does not acquire the operation status of the lighting device 11 . On the other hand, if the command content of the operation command has not changed for a predetermined period of time, that is, if the command content has not changed over time (S32-No), the communication control unit 125 notifies the operation status. A request is sent to each of the lighting fixtures 11 (S33). Thereby, the communication unit 121 receives a signal that notifies the operation status of each of the lighting fixtures 11 , and the communication control unit 125 acquires the operation status of each of the lighting fixtures 11 . Then, the process returns to S31, and the communication control unit 125 performs the processes after S31.

FIG. 4 shows an example of changes over time of information communicated between each of the lighting fixtures 11, the operator 12 and the control device 13. FIG. In the example of FIG. 4, in the time range Y1, the operating device 12 continues to transmit the activation command to each of the lighting fixtures 11 without changing the command content from the command content A1. On the other hand, in the time range Y2, the operating device 12 continues to issue operation commands to the lighting fixtures 11 while changing the command content over time in the order of the command content A1, the command content A2, the command content A3, and the command content A4. and send. For example, the command content A1 is the command content to set the dimming rate of all the lighting fixtures 11 to 100%, the command content A2 is the command content to set the dimming rate of all the lighting fixtures 11 to 90%, The command content A3 is the command content to set the dimming rate of all the lighting fixtures 11 to 80%, and the command content A4 is the command content to set the dimming rate of all the lighting fixtures 11 to 70%. In this case, in the time range Y2, control is performed to gradually weaken (fade) the brightness of the illumination light of each of the lighting fixtures 11 over time.

In the present embodiment, the processing as described above is performed. Therefore, in a state in which the command content of the operation command such as the time range Y1 has not changed for a predetermined period, the control device 13 does not issue a request to notify the operation status. Send to each of the appliances 11 . In a state where the instruction content of the operation command has not changed for a predetermined period, each of the lighting fixtures 11 notifies the control device 13 of the operation status as a response to the request from the control device 13 . On the other hand, in a state where the command content of the operation command such as the time range Y2 changes over time, the control device 13 does not send a request for notifying the operation status to each of the lighting fixtures 11 . Therefore, in a state where the instruction content of the operation command changes with time, each of the lighting fixtures 11 does not notify the control device 13 of the operation status.

In this embodiment, when the command content of the operation command changes over time, the request signal is not transmitted from the control device 13 to each of the lighting fixtures 11, and each of the lighting fixtures 11 transmits the operation status to the control device 13. is not sent. That is, in a state where the command content of the operation command changes with time, two-way communication between the control device 13 and each of the lighting fixtures 11 is not performed. Therefore, in a state where the command content of the operation command changes over time, for example, interference between the intermediate device 15 and the lighting fixture 11 with the above-described two-way communication signal may occur. This effectively prevents the number of activation command packets received by each of the lighting fixtures 11 from dropping. Therefore, the accuracy of the control of the operation of the lighting fixture 11 is ensured in a state where the command content of the operation command changes with time. For example, it is effective for the lighting device 11 to change from the operating state corresponding to the command content A1 to the operating state corresponding to the command content A3 without intervening the operating state corresponding to the command content A2 in the time range Y2. is prevented.

In addition, in the present embodiment, the control device 13 performs two-way communication with each of the lighting fixtures 11 based on the fact that the command content of the operation command has not changed for a predetermined period of time, and determines the operating status of each of the lighting fixtures 11. to get Even if the command content of the operation command does not change for a predetermined period of time, if the control device 13 performs two-way communication with each of the lighting fixtures 11, the operation command interferes with the above-described two-way communication signal, and the lighting fixture 11 may reduce the number of packets of activation commands received by each of the . However, in a state where the command content of the operation command has not changed for a predetermined period, even if the number of packets of the operation command received by each lighting device 11 decreases, each lighting device 11 can perform two-way communication with the operation command. Based on the actuation commands received before and after the timing at which the signals from the control devices interfere with each other, the actuation conditions corresponding to the actuation commands are maintained over time. Therefore, in a state where the command content of the operation command does not change for a predetermined period of time, even if the number of packets of the operation command received by each lighting device 11 decreases, the accuracy of controlling the operation of the lighting device 11 can be ensured. be done.

Therefore, in the present embodiment, even if the number of operation command packets received by each of the lighting fixtures 11 is reduced, the control device 13 detects the operating status only at the timing when the accuracy of controlling the operation of the lighting fixtures 11 is ensured. is sent to each of the lighting fixtures 11. Therefore, in a state where the operation of each of the lighting fixtures 11 is being controlled, the control device 13 can acquire the operation status of the lighting fixtures 11 while ensuring the accuracy of controlling the operation of the lighting fixtures 11 .

As described above, in the present embodiment, the communication control unit 125 determines whether or not to transmit a request for notifying the operation status from the communication unit 121 to each of the lighting fixtures 11 based on the operation command regarding the operation of the lighting fixture 11. judge. As a result, while the operation of the lighting fixture 11 is being controlled, the control device 13 transmits the above-described request only at appropriate timing, and for example, the number of packets of the operation command received by each lighting fixture 11 is reduced. The above-mentioned request is transmitted only at the timing when the accuracy of the control of the operation of the lighting fixture 11 is ensured. Therefore, the control device 13 is provided that can acquire the operation status of the lighting fixture 11 while ensuring the accuracy of controlling the operation of the lighting fixture 11 while controlling the operation of the lighting fixture 11 . As a result, even when a program is being performed in a studio, theater, etc., it is possible to collect information on the operating status of the lighting fixture 11 while ensuring the accuracy of lighting control in the program, etc. Failure or the like can be grasped.

(Modification)
Note that, in a modification, the processing of the communication control unit 125 of the control device 13 described above may be performed by the control unit 112 of the operating device 12 such as a light control console. In this case, as shown in FIG. Run. Also in this modification, the command generation unit 115 generates an actuation command regarding the actuation of the lighting device 11 . Then, the communication control unit 125 acquires the generated activation command, and transmits the activation command from the communication unit 113 to each of the lighting fixtures 11 . The activation command is transmitted to each of the lighting fixtures 11 in the same manner as in the above-described embodiments.

In addition, in this modification, the communication control unit 125 of the operation device 12 acquires the operation status of each of the lighting fixtures 11 by performing two-way communication with each of the lighting fixtures 11 via the communication section 113 . Also in this case, the communication control unit 125 transmits a request to notify the operation status to each of the lighting fixtures 11 . In each of the lighting fixtures 11, when the communication unit 102 receives a request from the operation device (control device) 12, the lighting control unit 103 transmits a signal indicating the operation status to the operation device 12 as a response to the request. . Note that the communication control unit 125 may cause the notification unit 123 to notify the operation status of each of the acquired lighting fixtures 11 .

Also in this modified example, the communication control unit 125 performs the same processing as in the above-described embodiment and the like. Therefore, the communication control unit 125 determines whether or not to transmit a request to notify the operation status from the communication unit 113 to each of the lighting fixtures 11 based on the operation command regarding the operation of the lighting fixture 11 . Then, the communication control unit 125 does not transmit the above-described request from the communication unit 113 to each of the lighting fixtures 11 when the command content of the operation command changes over time. Then, the communication control unit 125 transmits the above-described request from the communication unit 113 to each of the lighting fixtures 11 based on the fact that the command content of the operation command has not changed for a predetermined period of time. Therefore, also in this modification, the communication control unit 125 acquires the operation status of each of the lighting fixtures 11 in a state where the command content of the operation command has not changed for a predetermined period.

Since the processing as described above is performed, this modified example also has the same functions and effects as those of the above-described embodiment and the like. That is, in a state in which the operation of the lighting fixture 11 is being controlled, the operation device (control device) 12 transmits the above-described request only at an appropriate timing. The above-described request is transmitted only at the timing when the accuracy of controlling the operation of the lighting fixtures 11 is ensured even if the number of lighting fixtures 11 decreases. Therefore, even in this modified example, in a state where the operation of the lighting fixture 11 is being controlled, an operation device (control device) capable of acquiring the operating status of the lighting fixture 11 while ensuring the accuracy of controlling the operation of the lighting fixture 11 12 are provided.

According to at least one of these embodiments, the communication control unit of the control device sends a request for notifying the operation status of the lighting fixture from the communication section based on the operation command regarding the operation of the lighting fixture that has been transmitted to the lighting fixture. Determines whether or not to transmit to the appliance. Accordingly, it is possible to provide a control device capable of acquiring the operation status of a lighting fixture while ensuring the accuracy of controlling the operation of the lighting fixture while controlling the operation of the lighting fixture.

While several embodiments of the invention have been described, these embodiments have been presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and modifications can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the scope of the invention described in the claims and equivalents thereof.

DESCRIPTION OF SYMBOLS 1... Lighting system, 11... Lighting fixture, 12... Operation device (control apparatus), 13... Control apparatus, 15... Intermediate apparatus, 101... Lighting part, 102... Communication part, 103... Lighting control part, 111... Operation input part , 112... control unit, 113... communication unit, 115... command generation unit, 121... communication unit, 122... control unit, 123... notification unit, 125... communication control unit.

Claims (6)

a communicable communication unit;
a communication control unit that determines whether or not to transmit a request for notifying the operation status of the lighting fixture from the communication unit to the lighting fixture based on an operation command regarding the operation of the lighting fixture that has been transmitted to the lighting fixture; ;
A control device comprising: The communication control unit determines whether or not the command content of the actuation command is changing over time,
The communication control unit does not transmit the request from the communication unit to the lighting fixture when the command content of the actuation command changes over time, and the command content of the actuation command is changed. transmitting the request from the communication unit to the lighting fixture based on no change for a predetermined period of time;
2. The controller of claim 1. The control device according to claim 1 or 2, wherein the communication control section acquires the actuation command when the communication section receives the actuation command transmitted from an operation device. a controller of claim 3;
the operation unit to which an operation related to the operation of the lighting fixture is input, and which generates and transmits the operation command having command content corresponding to the operation input;
the lighting fixture that receives the operation command transmitted from the operation device and notifies the control device of the operation status when receiving the request from the communication unit of the control device;
A lighting system comprising: an operation input unit for inputting an operation related to the operation of the lighting fixture;
a command generation unit that generates the actuation command having command content corresponding to the operation input at the operation input unit;
further comprising
wherein the communication control unit transmits the operation command generated by the command generation unit from the communication unit to the lighting fixture;
3. A control device according to claim 1 or 2. a controller of claim 5;
the lighting fixture receiving the operation command transmitted from the communication unit of the control device and notifying the operation status to the control device when receiving the request from the communication unit of the control device; ;
A lighting system comprising:

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