JP2023007645A - Illumination system and illumination control method - Google Patents

Abstract

To provide an illumination system and the like capable of performing presentation illumination without pressing a communication band used for radio communication between a controller and an illumination apparatus.SOLUTION: An illumination system 1 comprises: a first illumination apparatus 10 for radiating illumination light; and a controller 30 for performing light emission control of the first illumination apparatus 10 on the basis of a presentation pattern. The controller 30 distributes data showing the presentation pattern to the first illumination apparatus 10 using radio communication in a time zone in which a communication band for communication between the controller 30 and the first illumination apparatus 10 is available. The first illumination apparatus 10 stores the distributed data showing the presentation pattern in a storage unit of the first illumination apparatus 10. After distributing the data showing the presentation pattern, the controller 30 transmits presentation instruction information having a data amount smaller than that of the data showing the presentation pattern to the first illumination apparatus 10 using radio communication to make the first illumination apparatus 10 read and reproduce the data showing the presentation pattern stored in the storage unit.SELECTED DRAWING: Figure 1

Description

The present disclosure relates to lighting systems and lighting control methods.

2. Description of the Related Art Conventionally, there has been proposed a lighting system that controls lighting for presentation from a lighting control device using wireless communication. Patent Document 1 discloses an image presentation system that can greatly reduce the amount of data to be transmitted by storing information about the group to which cheering light emitting devices belong in advance and transmitting only the information about the color of each group by radio at the performance site. is disclosed.

Japanese Patent Application Laid-Open No. 2020-004703

However, the conventional technology described above has a problem that the communication band used for wireless communication between the lighting fixture and the control device is squeezed.

Therefore, the present disclosure provides a lighting system and the like that can perform dramatic lighting while suppressing pressure on the communication band used for wireless communication between the control device and the lighting fixture.

A lighting system according to an aspect of the present disclosure includes a first lighting fixture that emits illumination light, and a control device that controls light emission of the first lighting fixture based on an effect pattern, wherein the control device is the control device. and the first lighting fixture, during a time period when the communication band for communicating with the first lighting fixture is available, the data indicating the effect pattern is distributed to the first lighting fixture by wireless communication, and the first lighting fixture 1. Store the distributed data indicating the effect pattern in a storage unit provided in the lighting fixture, and after the control device distributes the data indicating the effect pattern, the data amount is smaller than the data indicating the effect pattern. By transmitting the effect instruction information to the first lighting fixture by wireless communication, the first lighting fixture is caused to read out and reproduce the data indicating the effect pattern stored in the storage unit.

A lighting control method according to an aspect of the present disclosure is a lighting control method executed by a lighting system including a first lighting fixture that emits illumination light and a control device that controls light emission of the first lighting fixture based on an effect pattern. wherein the control device transmits data indicating the effect pattern to the first lighting fixture by wireless communication during a time period when a communication band for communication between the control device and the first lighting fixture is available. a distribution step of distributing; a storage step of storing data indicating the distributed effect pattern in a storage unit included in the first lighting device; and a control device indicating the effect pattern. By transmitting performance instruction information having a data volume smaller than that of the data to the first lighting device by wireless communication, the first lighting device is caused to read and reproduce the data indicating the performance pattern stored in the storage unit. and a control step.

In addition, these general or specific aspects may be realized by an apparatus, method, integrated circuit, computer program, or a recording medium such as a computer-readable CD-ROM. and any combination of recording media.

A lighting system according to an aspect of the present disclosure can perform dramatic lighting while suppressing compression of a communication band used for wireless communication between a control device and lighting fixtures.

FIG. 1 is a diagram showing an outline of a lighting system according to an embodiment. FIG. 2 is a block diagram showing the functional configuration of the lighting system according to the embodiment. FIG. 3 is a flowchart representing the operation of the lighting system according to the embodiment. FIG. 4 is a flow chart showing the operation of determining a time zone in which the communication band is available by statistical processing of the lighting system according to the embodiment. FIG. 5 is a flow chart showing the operation of determining a time slot in which the communication band is available by traffic monitoring of the lighting system according to the embodiment. FIG. 6 is a flow chart showing the operation of determining a time zone in which the communication band is available, based on the information on the time zone in which the space in which the first lighting fixture of the lighting system is installed in the embodiment is used. FIG. 7 is a flow chart showing an operation of receiving data indicating an additional effect pattern of the lighting system in the embodiment.

Hereinafter, embodiments will be specifically described with reference to the drawings. It should be noted that the embodiments described below are all comprehensive or show specific examples. Numerical values, shapes, materials, components, arrangement positions and connection forms of components, steps, order of steps, and the like shown in the following embodiments are examples, and are not intended to limit the present disclosure. Further, among the constituent elements in the following embodiments, constituent elements not described in independent claims will be described as optional constituent elements.

Each figure is a schematic diagram and is not necessarily strictly illustrated. Moreover, in each figure, the same code|symbol is attached|subjected with respect to substantially the same structure, and the overlapping description may be abbreviate|omitted or simplified.

(Embodiment)
[overview]
First, an outline of a lighting system according to one aspect of the present disclosure will be described. Drawing 1 is a figure showing an outline of a lighting system in an embodiment.

A lighting system 1 is a production lighting system used in a store or the like. As shown in FIG. 1 , the lighting system 1 includes multiple first lighting fixtures 10 , multiple second lighting fixtures 20 , and a control device 30 . In a general lighting system for production, when the timing for producing a production comes, the control device transmits data indicating the production pattern, which is the lighting mode of the lighting fixture, to the lighting fixture. However, if the data indicating the effect pattern is transmitted at the timing when the effect is performed in this way, all the data indicating the effect pattern will be sent every time the effect is performed, so the communication band will be compressed and the data distribution will be delayed. There is a detrimental effect of

Therefore, in the lighting system 1, the performance pattern is transmitted in advance, and at the timing when the performance is performed, only a signal with a smaller capacity than the data indicating the performance pattern, which serves as a trigger for reading the transmitted data, is transmitted. It is possible to suppress the compression of the communication band. In addition, since it is possible to suppress the occurrence of delays in data distribution, it is difficult for delays in rendering to occur.

Specifically, the control device 30 controls the first lighting fixture 10 and the second lighting fixture 20 . For example, the control device 30 may control multiple first lighting fixtures 10 and multiple second lighting fixtures 20 . The first lighting fixture 10 stores data indicating the effect pattern distributed from the control device 30, and performs lighting control in accordance with the data indicating the effect pattern.

The control device 30 wirelessly communicates with the first lighting fixture 10, and transmits data indicating the effect pattern to the first lighting fixture 10 during a time period when the communication band for communication between the control device 30 and the first lighting fixture 10 is free. Deliver to 10. When the control device 30 causes the first lighting fixture 10 to perform control according to the data indicating the effect pattern, the control device 30 uses wireless communication to transmit the effect instruction information having a smaller data amount than the data indicating the effect pattern to the first lighting fixture 10 . Send to lighting fixture 10 .

The first lighting control unit 11 of the first lighting fixture 10 reads out data indicating the effect pattern from the first lighting storage unit 12 based on the effect instruction information transmitted from the control device 30, and performs lighting according to the data indicating the effect pattern. to control the first light source 14 . It should be noted that reading the data indicating the effect pattern from the first lighting storage unit 12 and controlling the first light source 14 in accordance with the data indicating the effect pattern may be expressed as reproducing the data indicating the effect pattern.

[Constitution]
Next, the configuration of the lighting system 1 according to the embodiment will be described. FIG. 2 is a block diagram showing the functional configuration of the lighting system 1 according to the embodiment. As shown in FIG. 2, the lighting system 1 includes a plurality of first lighting fixtures 10 (only one shown in FIG. 2), a plurality of second lighting fixtures 20 (only one shown in FIG. 2), and a control A device 30 is provided. Note that the lighting system 1 may include at least one first lighting fixture 10 . Also, the lighting system 1 may not include the second lighting fixture 20 .

First, the first lighting fixture 10 will be described. The first lighting fixture 10 is a lighting fixture mainly used for presentation, and is, for example, a spotlight or a projector. The first lighting fixture 10 may be a ceiling light having a rectangular shape in plan view, a ceiling light having a circular shape in plan view, a base light, a downlight, or the like. The first lighting fixture 10 specifically includes a first lighting control unit 11 , a first lighting storage unit 12 , a first lighting communication unit 13 , and a first light source 14 .

The first lighting control unit 11 is realized by a circuit and a memory. The first lighting controller 11 controls the first light source 14 to emit light from the first light source 14 . Further, the first lighting control unit 11 reads the data indicating the effect pattern from the first lighting storage unit 12, and then controls the first light source 14 in accordance with the read data indicating the effect pattern. Here, the effect pattern indicates the timing at which light is emitted from the first light source 14, the illuminance of the light from the first light source 14, or the like. Also, the first lighting control unit 11 may function as a lighting circuit.

The first lighting storage unit 12 is implemented by a memory. The first lighting storage unit 12 stores data indicating the effect pattern distributed from the control device 30 . The first lighting storage unit 12 is a specific example of a storage unit.

The first lighting communication unit 13 is realized by a communication circuit. The first lighting communication unit 13 communicates with the control communication unit 33 of the control device 30 by wireless communication. The first lighting communication unit 13 may have a function of performing wired communication.

Specifically, the first light source 14 may be an incandescent lamp, a fluorescent lamp, an organic EL (Electro-Luminescence), an LED (Light Emitting Diode), or the like. The first light source 14 emits light under the control of the first lighting controller 11 .

Next, the second lighting fixture will be described. The second lighting fixture 20 is mainly a lighting fixture used for illuminating a space, and is, for example, a downlight. The second lighting fixture 20 may be a ceiling light having a rectangular shape in plan view, a ceiling light having a circular shape in plan view, a spotlight, a base light, or the like. The second lighting fixture 20 specifically includes a second lighting control section 21 , a second lighting storage section 22 , a second lighting communication section 23 , and a second light source 24 .

The second lighting control section 21 is realized by a circuit and a memory. The second lighting controller 21 controls the second light source 24 to emit light from the second light source 24 . Further, the second lighting control unit 21 reads the control information and the like of the second light source 24 from the second lighting storage unit 22, and then controls the second light source 24 according to the read control information and the like. Also, the second lighting control unit 21 may function as a lighting circuit.

The second lighting storage unit 22 is realized by a memory. The second lighting storage unit 22 stores control information and the like distributed from the control device 30 . The storage capacity of the second lighting storage section 22 is different from the storage capacity of the first lighting storage section 12 . For example, the storage capacity of the second lighting storage section 22 may be smaller than the storage capacity of the first lighting storage section 12 .

The second lighting communication unit 23 is realized by a communication circuit. The second lighting communication unit 23 communicates with the control communication unit 33 of the control device 30 by wireless communication. The second lighting communication unit 23 may have a function of performing wired communication.

The second light source 24 is a light source realized by an incandescent lamp, a discharge tube, a liquid crystal, a semiconductor, or the like. Specifically, the second light source 24 may be an incandescent lamp, a fluorescent lamp, an organic EL, an LED, or the like. The second light source 24 emits light under the control of the second lighting controller 21 .

Next, the control device 30 will be explained. The control device 30 is a controller that controls the first lighting fixture 10 and the second lighting fixture 20 . The control device 30 is installed, for example, on a wall or the like, and has a liquid crystal screen or the like. The control device 30 may be installed on the ceiling or the like, and in this case, a mobile terminal such as a tablet terminal or a smartphone is used as a UI (User Interface) of the control device 30 . The control device 30 specifically includes a control unit 31 , a control storage unit 32 , and a control communication unit 33 .

The control unit 31 is realized by a circuit and a memory. The control unit 31 distributes data indicating the effect pattern to the first lighting fixture 10 by wireless communication during a time period when the communication band for communication between the control device 30 and the first lighting fixture 10 is available. Further, after distributing the data indicating the effect pattern, by transmitting to the first lighting fixture 10 the effect instruction information having a data amount smaller than the data indicating the effect pattern to the first lighting fixture 10 by wireless communication, the first lighting fixture 10 The data indicating the performance pattern stored in the lighting storage unit 12 is read out and reproduced.

In addition, the control unit 31 statistically determines the time zone in which the communication band for communication between the control device 30 and the first lighting fixture 10 is available, based on the data indicating the control history of the first lighting fixture 10 for at least one day. Use to find out. In addition, the control unit 31 determines a time zone in which the communication band for communication between the control device 30 and the first lighting fixture 10 is available by monitoring the traffic in the communication band. In addition, the control device 30 stores information about the time period in which the space in which the first lighting fixture 10 is installed is used, and the time when the communication band for communication between the control device 30 and the first lighting fixture 10 is available. The time period is determined based on the information regarding the time period in which the space in which the first lighting fixture 10 is installed is used.

Further, the control device 30 receives input of data indicating an additional effect pattern while the first lighting fixture 10 reads and reproduces the data indicating the effect pattern stored in the first lighting storage part 12.例文帳に追加

The control memory unit 32 is realized by a memory. The control storage unit 32 stores data that the control unit 31 transmits to the first lighting fixture 10 or the second lighting fixture 20 . Further, the control storage unit 32 may store data used when the control unit 31 performs a calculation to determine a time slot in which the communication band for communication between the control device 30 and the first lighting fixture 10 is available. . In addition, the control storage unit 32 stores information regarding the time zone in which the space in which the first lighting fixture 10 is installed is used.

The control communication unit 33 is realized by a communication circuit. The control communication section 33 wirelessly communicates with the first lighting communication section 13 of the first lighting fixture 10 or the second lighting communication section 23 of the second lighting fixture. The control communication unit 33 may have a function of performing wired communication.

[motion]
Next, operation of the lighting system 1 will be described. FIG. 3 is a flow chart showing the operation of the lighting system 1 according to the embodiment.

First, the control unit 31 of the control device 30 transmits data indicating the effect pattern to the control communication unit 33 during a time zone when the communication band is available, and transmits the data to the first lighting communication unit 13 of the first lighting fixture 10 by wireless communication. Distribute (step S10). The control part 31 has a clocking function, and automatically causes the control communication part 33 to distribute the data indicating the performance pattern by wireless communication when the pre-determined communication band is available in the time zone. The time period during which the control unit 31 causes the control communication unit 33 to transmit data indicating the effect pattern may be determined by a predetermined method described later.

Here, the communication band is a band in which wireless communication is performed between the control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting fixture 10 . Also, the time zone in which the communication band is available means a time zone in a day when the traffic in the communication band is relatively small. Alternatively, the time period in which the communication band is available may be a time period in which the amount of communication in the communication band is less than or equal to a predetermined amount.

Further, the data indicating the effect pattern is data indicating the illuminance of the first light source 14 of the first lighting fixture 10 and the timing of light emission. Wireless communication may be Wi-Fi (registered trademark), ZigBee (registered trademark), Bluetooth (registered trademark), or the like. Also, the communication band for wireless communication may be the 920 MHz band or the 2.4 GHz band.

For example, the control unit 31 may cause the control communication unit 33 to distribute data indicating the effect pattern to the first lighting communication unit 13 of the first lighting device 10 at midnight by wireless communication.

Next, the first lighting control unit 11 of the first lighting fixture 10 causes the first lighting storage unit 12 to store the data indicating the distributed effect pattern (step S11). The first lighting control unit 11 causes the first lighting storage unit 12 to store the data indicating the effect pattern distributed from the control communication unit 33 in step S10.

Subsequently, the control unit 31 of the control device 30 causes the control communication unit 33 to transmit the effect instruction information to the first lighting fixture 10 by wireless communication (step S12). Here, the effect instruction information is a signal having a smaller data amount than the data representing the effect pattern. The effect instruction information is information that instructs the first lighting control unit 11 to read data indicating the effect pattern from the first lighting storage unit 12 .

Subsequently, the control unit 31 of the control device 30 causes the first lighting control unit 11 of the first lighting fixture 10 to read out and reproduce the data representing the effect pattern from the first lighting storage unit 12 (step S13). Here, the control unit 31 transmits data indicating the effect pattern from the first lighting storage unit 12 to the first lighting control unit 11 of the first lighting device 10 by transmitting the effect instruction information to the first lighting device 10 . read out. Further, that the first illumination control unit 11 reproduces data means that the data is read from the first illumination storage unit 12 and the first light source 14 is controlled according to the data.

[Operation 1 for determining the time zone when the communication band is available]
Next, an operation performed by the control device 30 to determine a time zone in which the communication band for wireless communication between the control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting fixture 10 is available will be described. do. First, the operation of the control device 30 to determine the idle time by statistical processing will be described. FIG. 4 is a flow chart showing the operation of determining a time zone when the communication band is available by statistical processing of the lighting system 1 according to the embodiment.

First, the control unit 31 of the control device 30 performs statistical processing of data indicating the control history of the first lighting fixture 10 for one day (step S20). The control unit 31 performs statistical processing on data indicating the control history of the first lighting fixture 10 for at least one day. For example, the control unit 31 may calculate the mode of the time period during which the first lighting fixture 10 is controlled. The statistical processing may be performed on the data indicating the control history of the first lighting fixtures 10 for one day, or performed on the data indicating the control history of the first lighting fixtures 10 for one week. may be broken. Specifically, the control unit 31 may divide a day into a plurality of time slots and count the number of times the control unit 31 controls the first lighting fixture 10 in each time slot. .

Then, based on statistical processing, the control unit 31 selects a time period when the communication band for wireless communication between the control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting fixture 10 is available. index (step S21). Specifically, in step S20, the control unit 31 divides a day into a plurality of time periods, and counts the number of times the control unit 31 controls the first lighting fixture 10 in each time period. After that, a period of time during which the control unit 31 controls the first lighting fixture 10 less than a predetermined number of times may be determined. A plurality of free time periods of the communication band for wireless communication between the control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting fixture 10 may be determined. When a plurality of free time periods of the communication band for wireless communication between the control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting fixture 10 are determined, the control unit 31 One of the determined time periods may be selected and the control communication unit 33 may be caused to transmit data indicating the effect pattern. Alternatively, when a plurality of free time periods of the communication band for wireless communication between the control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting fixture 10 are determined, the control unit 31 Alternatively, the control communication unit 33 may be caused to transmit the data indicating the effect pattern for several time slots out of the determined multiple time slots.

[Operation 2 for determining the time zone when the communication band is available]
Next, the operation of the control device 30 to determine the free time by monitoring traffic will be described. FIG. 5 is a flow chart showing the operation of determining a time zone when the communication band is available by traffic monitoring of the lighting system 1 according to the embodiment.

First, the control unit 31 of the control device 30 monitors the traffic of the communication band in which the control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting fixture 10 perform wireless communication (step S30). . The control unit 31 determines whether or not the amount of communication in the communication band for wireless communication between the control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting fixture 10 is less than a predetermined amount. good too.

Then, based on the monitoring result, the control unit 31 selects a time period in which the communication band for wireless communication between the control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting fixture 10 is available. index (step S31). Specifically, in step S31, the control unit 31 divides a day into a plurality of time periods, and controls the control communication unit 33 of the control device 30 and the first light of the first lighting fixture 10 in each time period. After determining whether or not the amount of communication in the communication band for wireless communication with the lighting communication unit 13 is less than a predetermined amount, the control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting fixture 10 may determine a time zone in which the amount of communication in the communication band for wireless communication is less than a predetermined amount.

Alternatively, in step S30, the control unit 31 divides the day into a plurality of time zones, and in each time zone, the control communication unit 33 of the control device 30 and the first lighting communication unit of the first lighting fixture 10 13 may determine a time period in which the amount of communication in the communication band for wireless communication is relatively small. For example, even if the control unit 31 selects one time period in which the amount of communication in the communication band in which the control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting device 10 wirelessly communicate with each other is the smallest, Alternatively, the control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting fixture 10 wirelessly communicate with each other in a communication band in which the amount of communication is the least. You can choose.

[Operation 3 for determining the time zone when the communication band is available]
Next, the operation of the control device 30 to determine the time when the communication band is available based on the information about the time zone in which the space in which the first lighting fixture 10 is installed will be described. FIG. 6 is a flow chart showing the operation of determining a time zone in which the communication band is available, based on the information on the time zone in which the space in which the first lighting fixture 10 of the lighting system 1 is installed in the embodiment is used. .

First, the control unit 31 of the control device 30 stores, in the control storage unit 32, information about the time zone in which the space in which the first lighting fixture 10 is installed is used (step S40). For example, the control unit 31 stores the time at which the space in which the first lighting fixture 10 is installed begins to be used and the time at which the use of the space in which the first lighting fixture 10 is installed ends, in the control storage unit 32. may be stored. If the space in which the lighting system 1 is installed is a store or the like, the control storage unit 32 may store a store opening and closing schedule for seven days of the week.

Next, the control unit 31 of the control device 30 controls the control communication unit 33 of the control device 30 and the control communication unit 33 of the first lighting device 10 based on the information about the time zone in which the space in which the first lighting device 10 is installed is used. A time slot in which the communication band for wireless communication with the first lighting communication unit 13 is available is determined (step S41). For example, the control unit 31 allows the control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting device 10 to control the time period when the space in which the first lighting device 10 is installed is not in use. It may be determined that the communication band for wireless communication is available.

The control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting fixture 10 described in FIGS. Each method may be performed in combination. 4 to 6, each method for determining a free time zone of the communication band for wireless communication between the control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting fixture 10 However, when implemented in combination, all the time zones determined by each method are used as time zones in which the communication band for wireless communication with the first lighting communication unit 13 of the first lighting fixture 10 is available. may decide.

Then, the control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting fixture 10 wirelessly communicate all of the time periods determined by the respective methods of the control unit 31. By determining the free time zone, the control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting fixture 10 wirelessly communicate with each other. When one is determined, the control unit 31 may select one of the multiple determined time periods and cause the control communication unit 33 to transmit data indicating the effect pattern. Alternatively, when a plurality of free time periods of the communication band for wireless communication between the control communication unit 33 of the control device 30 and the first lighting communication unit 13 of the first lighting fixture 10 are determined, the control unit 31 Alternatively, the control communication unit 33 may be caused to transmit the data indicating the effect pattern for several time slots out of the determined multiple time slots.

[Operation for accepting additional production patterns]
Next, the operation of the lighting system 1 for receiving data indicating an additional effect pattern will be described. FIG. 7 is a flow chart showing an operation of receiving data indicating an additional effect pattern of lighting system 1 in the embodiment.

First, the first lighting control section 11 of the first lighting fixture 10 reads out and reproduces the data representing the effect pattern from the first lighting storage section 12 (step S50). The first lighting control unit 11 reads data indicating the effect pattern from the first lighting storage unit 12 and controls the first light source 14 in accordance with the read data indicating the effect pattern.

Next, the control unit 31 of the control device 30 accepts input of data indicating an additional effect pattern (step S51). Simultaneously with the readout and reproduction of the data indicating the effect pattern from the first lighting storage unit 12 by the first lighting control unit 11 in step S50, the control unit 31 allows the user to manually read the data indicating the additional effect pattern. Input may be accepted.

[Effects, etc.]
A lighting system 1 according to an aspect of the present disclosure includes a first lighting fixture 10 that emits illumination light, and a control device 30 that controls light emission of the first lighting fixture 10 based on an effect pattern. During a time period when the communication band for communication between the control device 30 and the first lighting fixture 10 is available, data indicating the effect pattern is distributed to the first lighting fixture 10 by wireless communication, and the first lighting fixture 10 The data indicating the distributed effect pattern is stored in a storage unit provided in the first lighting fixture 10, and after the control device 30 distributes the data indicating the effect pattern, the control device 30 generates a effect whose data amount is smaller than that of the data indicating the effect pattern. By transmitting the instruction information to the first lighting fixture 10 by wireless communication, the first lighting fixture 10 is caused to read out and reproduce the data indicating the effect pattern stored in the storage unit.

Thereby, the lighting system 1 can transmit data to the first lighting fixture 10 without congesting the band used for wireless communication between the control device 30 and the first lighting fixture 10 . Therefore, the lighting system 1 can perform dramatic lighting without restricting the communication band used for wireless communication between the control device 30 and the first lighting fixture 10 .

In addition, for example, the control device 30 specifies a time period in which the communication band for communication between the control device 30 and the first lighting fixtures 10 is free, as data indicating the history of control over the first lighting fixtures 10 for at least one day. may be calculated using statistics from

Thereby, the lighting system 1 can accurately determine the time zone in which the communication band for communication between the control device 30 and the first lighting fixture 10 is available.

Also, for example, the control device 30 determines a time slot in which the communication band for communication between the control device 30 and the first lighting fixture 10 is available, by monitoring the traffic in the communication band.

Thereby, the lighting system 1 can accurately determine the time period in which the communication band for communication between the control device 30 and the first lighting fixture 10 is available, depending on the situation.

In addition, for example, the control device 30 stores information about the time zone in which the space in which the first lighting fixture 10 is installed is used, and the communication band for communication between the control device 30 and the first lighting fixture 10 is available. The time zone in which the first lighting fixture 10 is installed is determined based on the information on the time zone in which the space in which the first lighting fixture 10 is installed is used.

Thereby, the lighting system 1 can accurately determine the time zone in which the communication band for communication between the control device 30 and the first lighting fixture 10 is available.

Further, for example, the control device 30 receives input of data indicating an additional effect pattern while the first lighting fixture 10 is reading and reproducing data indicating the effect pattern stored in the storage unit.

As a result, the lighting system 1 can perform more elaborate lighting effects than normal lighting effects.

Also, for example, the lighting system 1 accepts manual input by the user of data indicating an additional effect pattern.

As a result, the lighting system 1 can perform lighting that is more elaborate than normal lighting that is manually performed by the user.

Further, for example, the lighting system 1 further includes a first lighting fixture 10 and a second lighting fixture 20 having a different storage capacity for storing data. to adjust.

As a result, the lighting system 1 can perform not only dramatic lighting but also base lighting that illuminates the entire space.

Further, in the lighting control method according to the embodiment of the present disclosure, the lighting system 1 including the first lighting fixture 10 that emits illumination light and the control device 30 that controls light emission of the first lighting fixture 10 based on the effect pattern In the lighting control method to be executed, the control device 30 transmits data indicating the effect pattern to the first lighting fixture 10 during a time period when the communication band for communication between the control device 30 and the first lighting fixture 10 is available. a storage step of storing data indicating the distributed effect pattern in a storage unit provided in the first lighting device 10, and a control device 30 transmitting the effect pattern By transmitting to the first lighting fixture 10 the performance instruction information having a data volume smaller than that of the data indicating to the first lighting fixture 10 by wireless communication, the first lighting fixture 10 is caused to read out and reproduce the data indicating the performance pattern stored in the storage unit. and a control step.

Thereby, the lighting control method according to the embodiment of the present disclosure can achieve the same effect as the lighting system 1 .

As described above, the lighting system 1 and the like of the present disclosure have been described based on the embodiment, but the present disclosure is not limited to this embodiment. As long as it does not deviate from the spirit of the present disclosure, various modifications that a person skilled in the art can think of are applied to the present embodiment, and a form constructed by combining the components of different embodiments is also included within the scope of the present disclosure. .

The lighting system 1 of the present disclosure can be used for lighting effects in a store or the like.

1 Lighting System 10 First Lighting Fixture 20 Second Lighting Fixture 30 Control Device

Claims (8)

a first lighting fixture that emits illumination light;
A control device that controls light emission of the first lighting fixture based on the effect pattern,
The control device distributes data indicating the effect pattern to the first lighting fixture by wireless communication during a time period when a communication band for communication between the control device and the first lighting fixture is available, and
The first lighting fixture stores data indicating the distributed effect pattern in a storage unit included in the first lighting fixture,
After distributing the data indicating the effect pattern, the control device transmits the effect instruction information having a smaller data amount than the data indicating the effect pattern to the first lighting fixture by wireless communication, thereby causing the device to read and reproduce the data indicating the production pattern stored in the storage unit;
lighting system. The control device uses statistics from data indicating a history of control of the first lighting device for at least one day to determine a time zone in which a communication band for communication between the control device and the first lighting device is available. divide,
10. The lighting system of claim 1. The control device determines, by monitoring the traffic in the communication band, a time zone in which a communication band for communication between the control device and the first lighting fixture is available,
10. The lighting system of claim 1. The control device stores information about a time zone in which the space in which the first lighting fixture is installed is used,
A time zone in which a communication band for communication between the control device and the first lighting fixture is available is determined based on the information regarding the time zone in which the space in which the first lighting fixture is installed is used. ,
10. The lighting system of claim 1. The control device receives input of data indicating an additional effect pattern while the first lighting fixture reads and reproduces the data indicating the effect pattern stored in the storage unit.
Illumination system according to any one of claims 1-4. Receiving manual input by the user of data indicating the additional production pattern;
6. A lighting system according to claim 5. Further, comprising the first lighting fixture and a second lighting fixture having a different storage capacity for storing data,
The second lighting fixture adjusts the illuminance and color temperature of the space,
Illumination system according to any one of the preceding claims. A lighting control method executed by a lighting system including a first lighting fixture that emits illumination light and a control device that controls light emission of the first lighting fixture based on a production pattern,
A distribution step in which the control device distributes the data indicating the effect pattern to the first lighting fixture by wireless communication during a time period when the communication band for communication between the control device and the first lighting fixture is available. When,
a storage step in which the first lighting fixture stores data indicating the distributed effect pattern in a storage unit included in the first lighting fixture;
The control device transmits to the first lighting fixture the performance instruction information having a smaller data volume than the data indicating the performance pattern by wireless communication, so that the first lighting fixture stores the information stored in the storage unit. A control step of reading and reproducing data indicating the effect pattern,
lighting control method.

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