JPH06314596A - Illumination control system - Google Patents

Abstract

PURPOSE:To readily create an atmosphere similar to those in other illuminating environments. CONSTITUTION:An electronic steel camera 31 is used to record data about the illuminating environment of a shop with a good atmosphere on an IC card 51. The IC card 51 is mounted in the card reader 17 of a console 12 and the illuminating environment data are subjected to arithmetic processing by an arithmetic processing unit 14. A substitution portion 22 compares data about the measured illuminating environments of other shops with data about the illumination coordinates of space to be illuminated, and develops the data into space coordinate data. The space coordinate data are processed by a control processing portion 21 and converted to control data used for controlling a lighting unit 5. The control data are allowed to reach the lighting unit 5 via a communications circuit 11 and the color, light and the distribution characteristic of a luminaire 1 are adjusted via the lighting unit 5. An atmosphere similar to those in other illuminating environments can thus easily be recorded and reproduced.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lighting control system for performing production lighting for, for example, a store.

[0002]

2. Description of the Related Art Conventionally, a lighting device using a ceiling-embedded fluorescent lamp has been used for directing lighting in stores such as department stores,
Various kinds of downlights using halogen lamps, spot lighting fixtures, and the like are used, and these lighting fixtures are combined to illuminate displayed products and store spaces.

In many cases, such lighting fixtures are turned on and off by a power switch corresponding to each lighting fixture or a power switch corresponding to a predetermined lighting group. It is difficult to comprehensively control the light distribution characteristics such as the beam angle and the irradiation range, and the dimming and toning control.

Therefore, in order to realize a lighting environment similar to that of another lighting space, for example, another store in which a good atmosphere is produced, similar lighting devices are arranged in the same manner and individual lighting devices are arranged. It is necessary to adjust the light distribution characteristics of each.

[0005]

As described above, in order to realize an illumination environment similar to that of other illumination spaces, similar light fixtures are similarly arranged and the light distribution characteristics of the individual light fixtures are also arranged. There is a problem that complicated work is required such as adjusting each of the above.

The present invention has been made in view of the above circumstances, and an object thereof is to provide an illumination control system capable of easily producing an atmosphere similar to other illumination environments.

[0007]

A lighting control system according to claim 1, wherein: a lighting fixture having at least one of a lighting load capable of toning and dimming control and a drive unit capable of light distribution control;
A lighting unit for controlling the lighting load and the drive unit,
An operating device capable of controlling the lighting unit, and a monitoring control circuit having a communication circuit for passing control data between the lighting unit and the operating device by at least one of wired means and wireless means. The monitoring control circuit includes an input section for inputting lighting environment data for controlling the lighting unit, and a setting terminal for sending the lighting environment data to the input section.

A lighting control system according to a second aspect is the lighting control system according to the first aspect, wherein the lighting unit is based on spatial lighting environment data detected by an image recognition device that detects a three-dimensional lighting environment. The control data that has undergone arithmetic processing is input.

According to a third aspect of the present invention, in the illumination control system according to the first aspect, the setting terminal has an image recognition device having an image pickup device capable of stereoscopically detecting at least illuminance distribution data and color temperature distribution data. And an arithmetic processing unit for converting each data detected by the imaging device into control data.

The illumination control system according to a fourth aspect is the illumination control system according to the third aspect, wherein the image recognition device has at least the illuminance of the illumination light emitted from the illumination device different from the illumination fixture controlled by the monitoring control circuit. Distribution data,
The color temperature distribution data is configured to be three-dimensionally detectable, and the arithmetic processing unit includes a spatial coordinate memory that stores spatial coordinates of a space in which the lighting fixture controlled by the monitoring control circuit emits light, and the image recognition device. A detection data memory that stores the detected detection data, an illumination coordinate memory that stores the illumination coordinate data that is the arrangement position of the lighting fixture as spatial coordinates, and the space that compares the detection data with the illumination coordinate data. A replacement calculation unit that performs a replacement calculation on the coordinates and a control calculation unit that performs a calculation process to control data that can control the lighting fixture based on the replaced detection data.

The illumination control system according to claim 5 is the illumination control system according to claim 4, wherein the image recognition device visually displays at least one of the detected illuminance distribution data and color temperature distribution data. When,
A coordinate input section capable of inputting at least one of space coordinates of a space where the lighting equipment controlled by the monitoring control circuit emits light and space coordinates of the installation position of the lighting equipment, and detected illuminance distribution data and color temperature distribution data. Is output to the arithmetic processing unit.

A lighting control system according to a sixth aspect is the lighting control system according to the fifth aspect, wherein the data display unit has spatial coordinates of a position where the lighting fixture is arranged and spatial coordinates of a space where the lighting fixture emits light. Is to be entered with a pen.

A lighting control system according to a seventh aspect is the lighting control system according to any of the third to sixth aspects, wherein the arithmetic processing unit has spatial coordinate data of a space where the lighting fixture controlled by the supervisory control circuit emits light. A data correction unit capable of correcting at least one of the detection data detected by the image recognition device and the illumination coordinate data that is the arrangement position of the luminaire.

An illumination control system according to claim 8 is the illumination control system according to claim 1, wherein the setting terminal has a recording section for recording control data in a recording medium, and the input section of the monitoring control circuit is the above-mentioned. The control data recorded on the recording medium is readable.

A lighting control system according to a ninth aspect is the lighting control system according to the first aspect, wherein the setting terminal has a transmission section for transmitting control data through a public line, and the input section of the supervisory control circuit transmits the data. The control data can be received.

A lighting control system according to a tenth aspect of the present invention is the lighting control system according to the first aspect, wherein the input portion of the supervisory control circuit has control data created based on an image creating means capable of creating a three-dimensional lighting environment. It is input.

[0017]

In the illumination control system according to the present invention, a lighting fixture having at least one of a lighting load capable of color-adjusting dimming control and a drive unit capable of light distribution control, and the illumination load and the drive unit are controlled. A lighting unit, an operating device capable of controlling the lighting unit, and a monitoring control circuit having a communication circuit for transferring control data between the lighting unit and the operating device by at least one of wired means and wireless means. Since this monitoring control circuit is provided with an input section capable of inputting the lighting environment data for controlling the lighting unit and a setting terminal for sending the lighting environment data to this input section, By setting the lighting environment data in the setting terminal, it is possible to easily create an atmosphere similar to other lighting environments without having to adjust each individual lighting fixture.

In the lighting control system according to a second aspect, in addition to the operation according to the first aspect, the lighting unit calculates based on the spatial lighting environment data detected by the image recognition device that detects a three-dimensional lighting environment. Since the processed control data is input, a three-dimensional lighting environment is easily produced.

In the illumination control system according to claim 3, in addition to the operation according to claim 1, the setting terminal includes an image recognition device having an image pickup device capable of stereoscopically detecting at least illuminance distribution data and color temperature distribution data. Since the image processing device includes an arithmetic processing device that converts each data detected by the imaging device into control data, by imaging the other lighting environment, each data of the other lighting environment can be easily set in the setting terminal. The atmosphere similar to other lighting environments is easily produced.

In the illumination control system according to the fourth aspect, in addition to the operation according to the third aspect, the image recognition device has at least an illuminance distribution of illumination light emitted from an illumination device different from the illumination fixture controlled by the monitoring control circuit. The arithmetic processing unit is configured to detect data and color temperature distribution data three-dimensionally, and the arithmetic processing unit includes a spatial coordinate memory for storing spatial coordinates of a space where the lighting fixture controlled by the monitoring control circuit emits light, and the image recognition. A detection data memory that stores the detection data detected by the device, an illumination coordinate memory that stores the illumination coordinate data that is the arrangement position of the lighting fixture as spatial coordinates, and compares the detection data with the illumination coordinate data. A replacement calculation unit that performs a replacement calculation on the spatial coordinates, and a control calculation unit that performs a calculation process to control data that can control the lighting fixture based on the replaced detection data. Because with a luminaire by detected data in another illumination environment is controlled, similar to atmosphere and other desired illumination environment can be easily directed.

In the illumination control system according to the fifth aspect, in addition to the operation according to the fourth aspect, the image recognition device includes a data display section that visually displays at least one of the detected illuminance distribution data and color temperature distribution data. A coordinate input unit capable of inputting at least one of spatial coordinates of a space where the lighting fixture controlled by the monitor control circuit emits light and spatial coordinates of a position where the lighting fixture is arranged; and detected illuminance distribution data and color temperature distribution Since the data output unit for outputting data to the arithmetic processing unit is provided, the illuminance distribution data or the color temperature distribution data can be easily confirmed by the data display unit, and the spatial coordinates of the installation position of the lighting fixture can be confirmed from the coordinate input unit. Alternatively, the spatial coordinates of the irradiation light are easily input.

In the illumination control system according to the sixth aspect, in addition to the operation according to the fifth aspect, the data display unit displays the spatial coordinates of the installation position of the lighting fixture and the spatial coordinates of the space where the lighting fixture emits light. Since the pen input is performed, it becomes easy to input the spatial coordinates.

In the illumination control system according to the seventh aspect, in addition to the operation according to any one of the third to sixth aspects, the arithmetic processing unit includes spatial coordinate data of a space in which the lighting fixture controlled by the supervisory control circuit emits light, Since the data correction means capable of correcting at least one of the detection data detected by the image recognition device and the illumination coordinate data which is the arrangement position of the lighting fixture is provided, it is possible to correct these data. Thus, the atmosphere of another lighting environment is changed and rendered.

In the illumination control system according to the eighth aspect, in addition to the operation according to the first aspect, the setting terminal has a recording section for recording control data in a recording medium, and the input section of the monitor control circuit has the recording section. Since the control data recorded on the medium can be read out, the recording medium transports and stores the control data for other lighting environment.

In the lighting control system according to the ninth aspect, in addition to the operation according to the first aspect, the setting terminal has a transmission section for transmitting control data through a public line, and the input section of the supervisory control circuit is transmitted. Since it is configured to be able to receive the control data described above, the control data for other lighting environment is transmitted and received using the public line.

In the lighting control system according to claim 10,
In addition to the operation according to claim 1, the input section of the monitoring control circuit is
Since the control data created based on the image creating means capable of creating a three-dimensional lighting environment is input, the atmosphere of the lighting environment other than the actually realized lighting environment is rendered.

[0027]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The configuration of an embodiment of the illumination control system of the present invention will be described below with reference to the drawings.

In FIG. 1 and FIG. 2, reference numeral 1 is a lighting fixture, and the lighting fixture 1 includes a plurality of spotlights, downlights, direct-mounted lighting fixtures, hanging lighting fixtures, etc. And has an illumination load 2 for irradiating light rays. The lighting load 2 is composed of a straight tube type fluorescent lamp, a compact type fluorescent lamp, a full brightness (HID) lamp, an incandescent light bulb (IL), a halogen light bulb, and the like. In addition, these lighting loads 2 are provided with arc tubes of three colors such as red (R), green (G), and blue (B), or with movable filters of three colors to change color tone or color temperature. A variable color lamp that can be used, a lamp that includes a light control glass whose transparency changes according to a change in voltage, and the like are appropriately combined.

Further, a drive unit 3 for changing the light distribution state of the light beam emitted by the illumination load 2 is combined with a part of the illumination load 2. The drive unit 3 is composed of, for example, an electric motor. The electric motor is used to move, rotate, or change the shape of the reflection plate, so that the light beam is condensed, the focal length, the irradiation direction, or the like. The light distribution state can be freely changed by switching between direct light and indirect light.

For example, in store lighting, a variable color / dimming lighting fixture 1 for base lights is installed on a ceiling and a wall surface, and a variable lighting / dimming / movable lighting fixture 1 for local lighting is used for product display. Are arranged, and the lighting fixtures 1 are fed and wired by the power line 6 branched for each capacity of the breaker.

Further, 5 is a lighting unit, and a plurality of the lighting units 5 are installed adjacent to or built in each lighting fixture 1 on the ceiling surface.

Each lighting unit 5 is connected to a power line 6 wired inside the ceiling or the like, and is supplied with a commercial AC power of, for example, 100 V, and also via a power line 7 and a control line 8, respectively. It is connected to each lighting fixture 1.

In addition, each lighting unit 5 includes a communication circuit 11
The equipment-side communication circuit 11a is provided in the console 12 by a wired medium using the power line 6 or the signal line or a signal by a wireless medium such as radio waves or infrared rays. Bidirectional information transmission is performed with the operation side communication circuit 11b.

Further, the console 12 includes an arithmetic processing unit 14
And a keyboard 15 that is an operation unit of the arithmetic processing unit 14.
A display 16 connected to the arithmetic processing unit 14 for controlling the monitoring state and the like, a card reader 17 serving as an input unit,
It is composed of a modem 18 and the like connected to a public line.

Further, the arithmetic processing unit 14 includes a control arithmetic unit 21, a replacement arithmetic unit 22, and a data correction unit 23, which are each composed of a CPU, a spatial coordinate memory 25, which is a RAM, a detection data memory 26, and an illumination coordinate memory 27. Etc.

From this console 12, the power line 6
Each lighting unit 5 is controlled by control data transmitted via the lighting unit 5, and the lighting control unit 5a and the driving unit control unit 5b provided in the lighting unit 5 control the lighting load 2 and the driving unit of each lighting fixture 1. 3 is controlled so that the brightness of the illumination load 2, the color of the variable color lamp, the diffused state of the light beam, the irradiation angle, the irradiation direction, etc. can be freely changed.

In FIGS. 1 and 3, reference numeral 31 is an electronic still camera as an image recognition device. The electronic still camera 31 is connected to a main control unit 32 including a CPU and the main control unit 32, respectively. Electronic camera 33 as an image pickup device, a planar transparent touch panel as a coordinate input unit
34, a liquid crystal panel 35 as a data display unit, a card recorder 36 as a recording unit also serving as a data output unit, a modem 37 as a transmission unit, and the like.

The electronic still camera 31 is constructed so that it can be carried around, a zoom lens 33a constituting the electronic camera 33 is projected from the front end, and an operation section 41 is provided on the front side. There is. A liquid crystal panel 35 serving as a viewfinder of the camera is arranged on the front side of the operation unit 41, and a touch panel 34 is arranged along the liquid crystal panel 35 to input graphic data with an input pen (not shown). You can do it.

Further, the operation section 41 is provided with a zoom adjusting knob 42, a sensitivity adjusting knob 43, a shutter (still start button) 44, a memory erase button 45, a plurality of memory switching buttons 46 and the like.

On one side of the electronic still camera 31,
A card insertion port 48 is formed, and the card recorder 36 is arranged inside the card insertion port 48. The card recorder 36 writes data in an IC card 51 as a recording medium. The IC card 51 is detachably attached to the card reader 17 of the console 12 so that the data can be read out. .

Further, the modem 37 is detachably connected to the modem 18 of the console 12 through a public line so that the data of the electronic still camera 31 can be transmitted to the console 12.

Further, the electronic still camera 31 is provided with a battery (not shown), and the battery serves to supply the electric power of the entire electronic still camera 31.

The console 12 and the electronic still camera 31 constitute a setting terminal 54, and the setting terminal 54 and the lighting unit 5 constitute a monitoring control circuit 55.

Next, the operation of this embodiment will be described.

First, the electronic still camera 31, for example, is brought to another store where a good atmosphere is produced in the illumination space, and the shutter 44 is pushed while the zoom adjustment knob 42 or the sensitivity adjustment knob 43 is adjusted. The illumination environment such as the illuminance distribution data and the color temperature distribution data of this illumination space is recorded as the illumination environment data as the detection data which is the image data. Then, by recording at a plurality of locations, the illumination environment data that can be developed three-dimensionally is recorded.
Then, this illumination environment data is written in the IC card 51 mounted in the card recorder 36. The detected illuminance distribution data and color temperature distribution data are displayed on the liquid crystal panel 35.

Further, the electronic still camera 31 is used to input the spatial coordinates of the illumination space of the store for illumination and the spatial coordinates of the installation positions of the respective lighting fixtures 1. That is, the touch panel 34 on the liquid crystal panel is entered by tracing the spatial coordinates of the lighting space of the store and the spatial coordinates of the arrangement position of each lighting fixture 1 with a pen. Also, this input state is
Displayed at 35.

Then, the IC card 51 in which the illumination environment data is written is attached to the card reader 17 of the console 12.

Then, via the card reader 17, I
The data of the C card 51 is read and this lighting environment data is stored in the detection data memory 26.

Then, the illumination environment data such as the illuminance distribution data and the color temperature distribution data stored in the detection data memory 26 is stored in the illumination coordinate memory 27 by the replacement calculation unit 22 at the position where the lighting fixture is arranged. It is compared with certain illumination coordinate data, converted, and stored in the spatial coordinate memory 25 that stores spatial coordinates. Furthermore, this spatial coordinate memory 25
The data stored in is converted into control data for controlling the lighting unit 5 in the control calculation unit 21.

This control data is input to the lighting unit 5 via the communication circuit 11, and the control data comprehensively controls the light control, color control, and light distribution characteristics of each lighting fixture 1.

The current data of each lighting fixture 1 is input to the console 12 through the communication circuit 11 of the lighting unit 5 and monitored by the arithmetic processing unit 14 so that the control state is appropriately corrected and The monitor 16 is displayed on the display 16 of the console 12.

As described above, according to the present embodiment, the image data is recorded in the IC card 51 in another illumination space in which a good atmosphere is produced, and this IC card 51 is attached to the card reader 17 and read. In this way, the lighting unit 5 is controlled, the toning and dimming control of the lighting load 2 of each lighting fixture 1 and the light distribution control by the driving unit 3 are three-dimensionally performed, and it is not necessary to adjust each individual lighting fixture 1, and It is possible to easily create an atmosphere similar to other lighting environments without changing the arrangement of the lighting fixture 1.

Further, the illumination environment data of other illumination spaces are
Since it is recorded in the IC card 51, control data for other lighting environments can be easily transported and stored.

The console 12 and the electronic still camera 31
The data of the electronic still camera 31 can be transmitted to the console 12 via the public line by using the modems 18 and 37 of the above.

Further, the instrument side communication circuit 11a of the communication circuit 11
Between the operating side communication circuit 11b and the console 12
Information is transmitted between the electronic still camera 31 and the electronic still camera 31 via wire, radio waves, infrared rays, public line, flexible disk (F
D), an IC card, a magnetic card, a CD-ROM, a magneto-optical disk and the like can be used in an appropriate combination.

Further, by operating the keyboard 15 of the console 12 or the like to activate the data correcting means, the lighting environment data of other lighting spaces, the spatial coordinate data of the space, the lighting coordinate data, etc. are appropriately modified to obtain uniqueness. Can also be issued.

Further, the lighting environment data input to the console 12 is not only actually measured data but also data created using image creating means such as computer graphics is used to create an atmosphere of creative lighting environment. can do.

[0058]

According to the lighting control system of the first aspect, a lighting fixture having at least one of a lighting load capable of dimming control and a driving unit capable of light distribution control, and the lighting load and the driving unit. A lighting unit that controls the lighting unit, an operating unit that can control the lighting unit, and a communication circuit that transfers control data between the lighting unit and the operating unit by at least one of wired means and wireless means. A monitoring control circuit is provided, and the monitoring control circuit includes an input unit capable of inputting the lighting environment data for controlling the lighting unit and a setting terminal for sending the lighting environment data to the input unit. By setting the lighting environment data of the lighting environment in the setting terminal, you can easily create the same atmosphere as other lighting environments without having to adjust each lighting fixture individually. Rukoto can.

According to the lighting control system of the second aspect, in addition to the effect of the first aspect, the lighting unit uses the spatial lighting environment data detected by the image recognition device for detecting the three-dimensional lighting environment. Since the control data calculated based on the input is input, a three-dimensional lighting environment can be easily produced.

According to the illumination control system of the third aspect, in addition to the effect of the first aspect, the setting terminal has image recognition having an image pickup device capable of stereoscopically detecting at least illuminance distribution data and color temperature distribution data. Since the device and the arithmetic processing device for converting and calculating each data detected by the imaging device into control data are provided, by imaging the other lighting environment, each data of the other lighting environment can be easily set in the setting terminal. It can be set, and you can easily create the same atmosphere as other lighting environments.

According to the illumination control system of the fourth aspect, in addition to the effect of the third aspect, the image recognition device has at least the illumination light emitted from the illumination device different from the illumination fixture controlled by the monitoring control circuit. The illuminance distribution data and the color temperature distribution data are configured to be three-dimensionally detectable, and the arithmetic processing device includes a spatial coordinate memory that stores spatial coordinates of a space where the lighting fixture controlled by the monitoring control circuit emits light, A detection data memory that stores the detection data detected by the image recognition device, and an illumination coordinate memory that stores the illumination coordinate data that is the arrangement position of the lighting fixture as spatial coordinates,
A replacement calculation unit that performs a replacement calculation on the spatial coordinates by comparing the detection data with the illumination coordinate data, and a control calculation unit that performs a calculation process to control data that can control the lighting fixture based on the replaced detection data. Since it is provided, the lighting fixture can be controlled by the data detected in the other lighting environment to easily create the same atmosphere as in another desired lighting environment.

According to the illumination control system of the fifth aspect, in addition to the effect of the fourth aspect, the image recognizing device displays the at least one of the detected illuminance distribution data and the color temperature distribution data in a visible manner. Section, a coordinate input section capable of inputting at least one of the spatial coordinates of the space where the lighting fixture controlled by the supervisory control circuit emits light and the spatial coordinates of the installation position of the lighting fixture, and the detected illuminance distribution data and color. Since the data output unit for outputting the temperature distribution data to the arithmetic processing unit is provided, the illuminance distribution data or the color temperature distribution data can be easily confirmed by the data display unit, and the spatial coordinates of the installation position of the lighting fixture can be confirmed from the coordinate input unit. Alternatively, the spatial coordinates of the irradiation light can be easily input.

According to the illumination control system of the sixth aspect, in addition to the effect of the fifth aspect, the data display section is provided with the space coordinates of the arrangement position of the lighting fixture and the space of the space where the lighting fixture emits light. Since the coordinates are input by the pen, the spatial coordinates can be easily input.

According to the illumination control system of claim 7, in addition to the effect of any one of claims 3 to 6, the arithmetic processing unit is arranged such that the spatial coordinates of the space where the lighting fixture controlled by the supervisory control circuit emits light. At least one of the data, the detection data detected by the image recognition device, and the illumination coordinate data that is the arrangement position of the luminaire is provided with the data correction means, so that these data are corrected. As a result, the atmosphere of another lighting environment can be changed and rendered.

According to the illumination control system of the eighth aspect, in addition to the effect of the first aspect, the setting terminal has a recording section for recording control data in a recording medium, and the input section of the supervisory control circuit comprises: Since the control data recorded on the recording medium can be read out, the control data of other lighting environment can be easily transported and stored by the recording medium.

According to the lighting control system of the ninth aspect, in addition to the effect of the first aspect, the setting terminal has a transmission section for transmitting control data via a public line, and the input section of the supervisory control circuit is Since it is configured to be able to receive the transmitted control data, it is possible to easily exchange control data for other lighting environments by using the public line.

According to the illumination control system of the tenth aspect, in addition to the effect of the first aspect, the input section of the supervisory control circuit is control data created based on an image creating means capable of creating a three-dimensional illumination environment. Is input, it is possible to produce an atmosphere of an illumination environment other than the actually realized illumination environment.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of a lighting control system of the present invention.

FIG. 2 is an explanatory diagram of the above illumination control system.

FIG. 3 is a perspective view of the image recognition apparatus of the above.

[Explanation of symbols]

1 Lighting Fixture 2 Lighting Load 3 Driving Unit 5 Lighting Unit 11 Communication Circuit 14 Arithmetic Processing Device 15 Keyboard as Operation Unit 17 Card Reader as Input Unit 18 Modem as Input Unit 21 Control Operation Unit 22 Replacement Operation Unit 25 Spatial Coordinate Memory 26 Detection data memory 27 Lighting coordinate memory 34 Touch panel as coordinate input section 36 Card recorder as recording section that also functions as data output section 37 Modem as transmission section 51 IC card as recording medium 54 Setting terminal 55 Monitoring control circuit

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Junichiro Yamamoto 1-4-8 Mita, Minato-ku, Tokyo TOSHIBA LIGHTEC CORPORATION (72) Inventor Katsutomo Uchino 4-28 Mita, Minato-ku, Tokyo TOSHIBA Within Lytec Co., Ltd.

Claims (10)

[Claims] 1. A luminaire having at least one of a lighting load capable of toning and dimming control and a driving unit capable of controlling light distribution, and a lighting unit for controlling the lighting load and the driving unit.
An operating device capable of controlling the lighting unit, and a monitoring control circuit having a communication circuit for passing control data between the lighting unit and the operating device by at least one of wired means and wireless means. The monitoring control circuit includes an input section capable of inputting lighting environment data for controlling the lighting unit, and a setting terminal for sending the lighting environment data to the input section. 2. The lighting unit receives as input control data which has been arithmetically processed based on spatial lighting environment data detected by an image recognition device for detecting a three-dimensional lighting environment. Illumination control system as described. 3. A setting terminal, an image recognition device having an image pickup device capable of stereoscopically detecting at least illuminance distribution data and color temperature distribution data, and converting each data detected by the image pickup device into control data. The lighting control system according to claim 1, further comprising: an arithmetic processing unit. 4. The image recognition device is configured so as to stereoscopically detect at least illuminance distribution data and color temperature distribution data of irradiation light emitted from an illumination device different from the illumination device controlled by the monitoring control circuit. The processing device includes a spatial coordinate memory that stores spatial coordinates of a space where the lighting fixture controlled by the monitoring control circuit emits light, a detection data memory that stores detection data detected by the image recognition device, and the illumination. An illumination coordinate memory that stores illumination coordinate data, which is the position where the fixture is arranged, as spatial coordinates, a replacement computation unit that performs the replacement computation on the spatial coordinates by comparing the detection data with the illumination coordinate data, and the replaced detection The lighting control system according to claim 3, further comprising a control calculation unit that performs calculation processing on control data that can control the lighting fixture based on the data. 5. The image recognition device includes a data display unit for visually displaying at least one of the detected illuminance distribution data and color temperature distribution data, and a space of a space where a lighting fixture controlled by a supervisory control circuit emits light. A coordinate input unit capable of inputting at least one of the coordinate and the spatial coordinate of the installation position of the lighting fixture, and a data output unit for outputting the detected illuminance distribution data and color temperature distribution data to the arithmetic processing unit are provided. The lighting control system according to claim 4, characterized in that 6. The lighting control system according to claim 5, wherein the data display unit is pen-inputted with the spatial coordinates of the arrangement position of the lighting fixture and the spatial coordinates of the space where the lighting fixture emits light. . 7. The arithmetic processing device is spatial coordinate data of a space where the lighting fixture controlled by the monitoring control circuit emits light, detection data detected by the image recognition device, and an arrangement position of the lighting fixture. 7. The illumination control system according to claim 3, further comprising a data correction unit capable of correcting at least one of the illumination coordinate data. 8. The setting terminal has a recording unit for recording control data on a recording medium, and the input unit of the supervisory control circuit is configured to be able to read the control data recorded on the recording medium. The lighting control system according to claim 1. 9. The setting terminal has a transmission unit for transmitting control data via a public line, and the input unit of the supervisory control circuit is configured to be capable of receiving the transmitted control data. The lighting control system according to 1. 10. The lighting control system according to claim 1, wherein the input section of the monitoring control circuit receives control data created based on an image creating means capable of creating a three-dimensional lighting environment.