WO2013027581A1 - 照明制御システム、照明制御装置及び照明制御用端末 - Google Patents

照明制御システム、照明制御装置及び照明制御用端末 Download PDF

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Publication number
WO2013027581A1
WO2013027581A1 PCT/JP2012/070171 JP2012070171W WO2013027581A1 WO 2013027581 A1 WO2013027581 A1 WO 2013027581A1 JP 2012070171 W JP2012070171 W JP 2012070171W WO 2013027581 A1 WO2013027581 A1 WO 2013027581A1
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WIPO (PCT)
Prior art keywords
unit
command
lighting
psychological
psychological state
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PCT/JP2012/070171
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English (en)
French (fr)
Japanese (ja)
Inventor
透 中村
百合子 上垣
山本 松樹
ゆり 藤原
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パナソニック株式会社
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Application filed by パナソニック株式会社 filed Critical パナソニック株式会社
Priority to CN201280040953.XA priority Critical patent/CN103765989B/zh
Priority to JP2013529959A priority patent/JP5842115B2/ja
Publication of WO2013027581A1 publication Critical patent/WO2013027581A1/ja

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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B47/00Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
    • H05B47/10Controlling the light source
    • H05B47/175Controlling the light source by remote control
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B47/00Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
    • H05B47/10Controlling the light source
    • H05B47/155Coordinated control of two or more light sources

Definitions

  • the present invention relates to a lighting control system, a lighting control device, and a lighting control terminal for controlling a lighting fixture.
  • Patent Document 1 Since the technique described in Patent Document 1 described above is an interface by simple button operation, it is difficult to understand the correspondence between the illumination scene and the user's psychological state. Therefore, there is a problem that an intuitive operation is difficult to set a lighting scene.
  • the present invention has been proposed in view of the above-described circumstances, and an object thereof is to provide an illumination control system, an illumination control device, and an illumination control terminal that can easily set an illumination scene that matches a psychological state. To do.
  • a lighting control system displays a lighting control unit that controls a lighting fixture, a command unit that supplies a command for controlling the lighting fixture to the lighting control unit, and the command.
  • An interface unit having a display unit and a selection unit for selecting the command, wherein the command represents a user's psychological state, and the interface unit is a user's psychological space corresponding to a lighting state realized by the lighting device. Is displayed by the display unit, the command is displayed at a coordinate position in the psychological space corresponding to the psychological state represented by the command, and the displayed command is selected by the selection unit. It is.
  • a lighting control system is the lighting control system according to the first aspect, and includes an input unit for inputting a user's psychological state, and the interface unit is input by the input unit.
  • the psychological state is displayed at a coordinate position in the psychological space corresponding to the psychological state.
  • the illumination control system is the illumination control system according to the second aspect, wherein the input unit is a detection unit that detects a psychological state of a user, and the interface unit is The psychological state detected by the detection unit is displayed at a coordinate position in the psychological space corresponding to the psychological state.
  • the lighting control system is the lighting control system according to the second or third aspect, wherein the command unit is configured such that when the psychological state of the user is input by the input unit, Prior to supplying a command selected by the selection unit to the illumination control unit, a prior state representing a psychological state between the psychological state input by the input unit and the psychological state represented by the command selected by the selection unit A command is supplied to the illumination control unit.
  • the illumination control system is the illumination control system according to the fourth aspect, wherein the command unit includes the psychological state input by the input unit and the command selected by the selection unit.
  • the command unit includes the psychological state input by the input unit and the command selected by the selection unit.
  • the lighting is sequentially issued so as to approach the psychological state represented by the command selected by the selection unit from the psychological state close to the psychological state input by the input unit. It supplies to a control part, It is characterized by the above-mentioned.
  • the illumination control system is the illumination control system according to any one of the first to third aspects, wherein a plurality of the instructions can be selected by the selection unit, and the selection unit A storage unit that stores a plurality of commands selected by the control unit and a supply order of the plurality of commands to the illumination control unit, and the command unit includes a plurality of commands according to the supply order stored in the storage unit. Is supplied to the illumination control unit.
  • the illumination control system according to a seventh aspect of the present invention is the illumination control system according to any one of the first to sixth aspects, wherein the display unit and the selection unit of the interface unit are configured by a touch panel. It is characterized by that.
  • An illumination control device includes a lighting control unit that controls a lighting fixture, and a command unit that supplies a command for controlling the lighting fixture to the lighting control unit, the command Represents the psychological state of the user, causes the display device to display the user's psychological space corresponding to the lighting state realized by the lighting device, and coordinates the command in the psychological space according to the psychological state represented by the command. It is displayed at a position, and the displayed command is selected by a selection device.
  • a lighting control terminal includes an interface unit including a display unit that displays a command for controlling a lighting fixture, and a selection unit that selects the command.
  • the interface unit displays a user's psychological space corresponding to the lighting state realized by the lighting fixture by the display unit, and the command is displayed in the psychological space according to the psychological state represented by the command. And the displayed instruction is selected by the selection unit.
  • FIG. 1 is a block diagram showing a configuration of a lighting control system shown as an embodiment of the present invention.
  • FIG. 2 is a diagram illustrating a relationship between a psychological space and a lighting scene in the lighting control system shown as an embodiment of the present invention, where (a) is a psychological space, (b) is a lighting scene A, and (c) is a diagram. Illumination scene B, (d) is illumination scene C, and (e) is illumination scene D.
  • FIG. 3 is an explanatory diagram for setting a lighting scene and analyzing a psychological state corresponding to a psychological space in the lighting control system shown as an embodiment of the present invention, and (a) shows a state in which the scene is set.
  • FIG. 4 is a diagram showing an example of a database stored in the database unit in the lighting control system shown as an embodiment of the present invention.
  • FIG. 5 is a block diagram showing another configuration of the illumination control system shown as an embodiment of the present invention.
  • FIG. 6 is a block diagram showing still another configuration of the illumination control system shown as an embodiment of the present invention.
  • FIG. 7 is a diagram showing a psychological space including the current psychological state in the lighting control system shown as one embodiment of the present invention.
  • FIG. 8 is a diagram illustrating a change example of a command when a plurality of commands are selected in the illumination control system shown as an embodiment of the present invention.
  • FIG. 9 is a diagram showing another example of changes in commands when a plurality of commands are selected in the illumination control system shown as an embodiment of the present invention.
  • FIG. 10 is a diagram illustrating an example in which moods in the psychological space are displayed in different forms.
  • the illumination control system shown as an embodiment of the present invention is configured as shown in FIG.
  • This lighting control system includes a lighting control device 1 and a plurality of lighting fixtures 2a, 2b,..., 2n (hereinafter simply referred to as “lighting fixture 2” when collectively referred to).
  • the lighting fixture 2 is installed in the space where the user is.
  • These lighting fixtures 2a, 2b,..., 2n include, for example, those provided on the ceiling, wall surface, floor surface, etc. of the room. Specifically, a ceiling light, a bracket light, a downlight, a pendant light, a floor light, a horizontal light, etc. are mentioned.
  • These lighting fixtures 2 are connected to the lighting control device 1.
  • the lighting fixture 2 operates according to a control signal from the lighting control device 1 and controls lighting or extinction, dimming degree (brightness), color temperature (hue), and the like.
  • the lighting control device 1 is connected to a plurality of lighting fixtures 2.
  • the lighting control device 1 supplies a control signal to the plurality of lighting fixtures 2.
  • the lighting control device 1 includes an interface unit 11, a command unit 12, a lighting control unit 13, and a database unit 14.
  • the lighting control device 1 is, for example, an equipment built-in type.
  • the illumination control device 1 is configured such that a display screen is exposed from a wall surface, and a control CPU and a communication I / F are incorporated in the wall surface.
  • the lighting control unit 13 supplies a control signal to the plurality of lighting fixtures 2.
  • the command unit 12 causes the lighting control unit 13 to output a control signal to the lighting fixture 2 to generate a command for controlling the operation of the lighting fixture 2.
  • the command unit 12 supplies the generated command to the illumination control unit 13.
  • the interface unit 11 includes a display unit 21 and a selection unit 22.
  • the interface unit 11 is configured by a touch panel, for example.
  • the interface unit 11 causes the display unit 21 to display information for selecting a lighting scene for the user of the lighting control system.
  • the interface unit 11 operates the selection unit 22.
  • the information for selecting the lighting scene is the user's psychological space corresponding to the lighting state realized by the lighting fixture 2.
  • the psychological space is associated with a command for controlling the lighting scene.
  • a psychological space that is, a command is selected by the selection unit 22 in a state where the command is displayed on the display unit 21.
  • the interface unit 11 supplies the selected command to the command unit 12 and causes the command unit 12 to supply the command to the illumination control unit 13.
  • the command unit 12 When the command is supplied from the interface unit 11, the command unit 12 causes the lighting control unit 13 to control the lighting fixture 2.
  • the command unit 12 refers to the database unit 14 according to the command supplied from the interface unit 11.
  • the database unit 14 stores the lighting state of the lighting fixture 2 according to the lighting scene.
  • the database unit 14 supplies a command indicating the lighting state of the lighting fixture 2 to the lighting control unit 13.
  • the illumination control unit 13 controls the lighting fixture 2 in accordance with the command supplied from the command unit 12.
  • the illumination control unit 13 generates a control signal indicating lighting or extinguishing as a lighting state of each lighting fixture 2, brightness, and hue in response to a command from the command unit 12.
  • the lighting control unit 13 outputs a control signal to each lighting fixture 2.
  • the lighting control system controls the lighting fixture 2 by the lighting control device 1 so that the lighting scene is in accordance with the psychological state of the user.
  • the interface unit 11 displays the user's psychological space 100 corresponding to the illumination state (illumination scene) realized by the lighting fixture 2 on the display unit 21 as shown in FIG.
  • the psychological space 100 is a spatial representation of a plurality of psychological states.
  • a psychological space 100 in FIG. 2A represents a two-dimensional space formed by a coordinate axis 100a for arousal as a psychological state and a coordinate axis 100b for a comfortable feeling.
  • a command for a psychological state in which both an arousal feeling and a comfortable feeling are high is located at the coordinates of the upper right quadrant of the psychological space 100.
  • a psychological state command with a low arousal feeling but a high comfort feeling is located at the coordinates of the lower right quadrant of the psychological space 100.
  • a command for a psychological state that is high in arousal but low in comfort is located at the coordinates of the upper left quadrant of the psychological space 100.
  • the command of the psychological state where both the arousal feeling and the comfortable feeling are low is located at the coordinates of the lower left quadrant of the psychological space 100.
  • the relationship between the psychological space 100 shown in FIG. 2 and the commands 101a to 101d is as follows. (A) Illumination scene setting step, (b) Mood measurement step, (c) Scene It can be set by the psychological analysis process. Each step will be described later.
  • instructions 101a to 101d for controlling the luminaire 2 are displayed in a superimposed manner.
  • the commands 101a to 101d represent the user's psychological state.
  • the psychological state of the user is, for example, “feeling of being in a movie theater” shown in FIG.
  • the commands 101a to 101d are displayed at coordinate positions in the psychological space 100 corresponding to the psychological state represented by the commands.
  • the displayed commands 101a to 101d are selected by the selection unit 22. These commands 101a to 101d make the lighting state of the lighting fixture 2 be an illumination scene according to the psychological state.
  • the command 101a in FIG. 2 (a) causes the lighting state of the lighting fixture 2 to be a “smooth mood” lighting scene.
  • This command 101 a is displayed at the coordinate position of the upper right quadrant in the psychological space 100.
  • the illumination state of the space corresponding to this command 101a is as shown in the illumination scene A in FIG.
  • the light fixture 2a has a lightness of 100%
  • the light fixture 2b has a lightness of 100%
  • the light fixture 2c has a lightness of 100%
  • the light fixture 2d has a lightness of 100%
  • the light fixture 2e has a lightness of 100%.
  • the brightness of the lighting fixture 2f is 100%.
  • Specific types of lighting fixtures are as follows.
  • the lighting fixture 2a is a bracket light (square type).
  • the lighting fixture 2b is a bracket light (line type).
  • the lighting fixture 2c is a downlight.
  • the lighting fixture 2d is a pendant light.
  • the lighting fixture 2e is a floor light.
  • the command 101b in FIG. 2A causes the lighting state of the lighting fixture 2 to be a lighting scene of “Danran mood”.
  • This command 101b is displayed in the upper right quadrant in the psychological space 100 and at a lower right coordinate position than the command 101a.
  • the illumination state of the space corresponding to this command 101b is as shown in the illumination scene B in FIG.
  • the brightness of the lighting fixture 2a is 70%
  • the brightness of the lighting fixture 2b is 70%
  • the brightness of the lighting fixture 2c is 70%
  • the brightness of the lighting fixture 2d is 0%
  • the brightness of the lighting fixture 2e is 100%
  • the brightness of the lighting fixture 2f is 0%.
  • the command 101c in FIG. 2 (a) causes the lighting state of the lighting fixture 2 to be a lighting scene of “feeling of being in a movie theater”.
  • This command 101 c is displayed at the coordinate position of the lower right quadrant in the psychological space 100.
  • the illumination state of the space corresponding to this command 101c is as shown in the illumination scene C in FIG.
  • the brightness of the lighting fixture 2a is 40%
  • the brightness of the lighting fixture 2b is 0%
  • the brightness of the lighting fixture 2c is 0%
  • the brightness of the lighting fixture 2d is 100%
  • the brightness of the lighting fixture 2e is 100%
  • the brightness of the lighting fixture 2f is 0%.
  • the command 101d in FIG. 2A causes the lighting state of the lighting fixture 2 to be a lighting scene of “healing mood”.
  • This command 101d is the lower right quadrant in the psychological space 100, and is displayed at a lower left coordinate position than the command 101c.
  • the illumination state of the space corresponding to this command 101d is as shown in the illumination scene D of FIG.
  • the brightness of the lighting fixture 2a is 40%
  • the brightness of the lighting fixture 2b is 40%
  • the brightness of the lighting fixture 2c is 80%
  • the brightness of the lighting fixture 2d is 0%
  • the brightness of the lighting fixture 2e is The brightness of the lighting fixture 2f is 0% and 100%.
  • the instructions 101a to 101d are selected by the selection unit 22 while the psychological space 100 on which the commands 101a to 101d are superimposed is displayed on the display unit 21. Is done. Then, the command is supplied from the interface unit 11 to the command unit 12.
  • the command unit 12 refers to the database unit 14 when a command is supplied from the interface unit 11.
  • the database unit 14 stores the database shown in FIG.
  • a numerical value representing comfort a numerical value representing a feeling of arousal
  • lighting states of the lighting fixtures 2a, 2b,..., 2n are associated with each mood indicating the psychological state of the user.
  • the psychological space 100 is not expressed by the two axes 100a and 100b of the comfortable feeling and the arousal feeling, it may be a numerical value indicating another feeling.
  • the lighting state of the lighting fixture 2 is set by the dimming degree of each lighting fixture 2a, 2b, ..., 2n and color temperature for every lighting scene.
  • This dimming degree is represented by a numerical value between 0 and 100%.
  • the color temperature can be adjusted by the respective lighting fixtures 2a, 2b,.
  • the numerical value representing the feeling of comfort and the numerical value representing the feeling of arousal are acquired by the user's psychological measurement process and physiological measurement process performed in a state where the illumination scene is set as shown in FIG. It is desirable to perform the psychological measurement process and the physiological measurement process simultaneously. Moreover, it is desirable to perform a psychometric measurement process and a physiological measurement process with respect to a some user.
  • Physiological measurement is carried out by a questionnaire (SD method (semantic difference discrimination method, semantic differential method), etc.) regarding comfort and arousal.
  • Physiological measurement includes measurement of the central nervous system (electroencephalogram, cerebral blood flow, etc.) and measurement of the autonomic nervous system (electrocardiogram, skin potential, etc.).
  • This psychological measurement and physiological measurement are performed for each lighting scene, and a measurement result is acquired. Based on this measurement result, a feeling of arousal and a feeling of comfort as a psychological state for each lighting scene are acquired.
  • the coordinate showing the psychological state of the illumination scene in psychological space is acquirable like FIG.3 (c).
  • the coordinate position of the relaxed psychological state can be acquired.
  • the coordinate position of the refreshed psychological state can be acquired.
  • the coordinate position of the psychological state where the arousal feeling and the comfortable feeling are neutral and the patient is at rest can be acquired.
  • a multiple regression equation with a physiological index as an explanatory variable is constructed for comfort and arousal.
  • the comfort and arousal are as follows.
  • Comfort f (central index, peripheral index)
  • Arousal sensation g (central index, peripheral index)
  • a feeling of comfort is acquired as a numerical value by performing a calculation of a predetermined function f using an index of the central nervous system and an index of the peripheral system (autonomic nervous system).
  • the arousal sensation is acquired as a numerical value by performing a calculation of a predetermined function g using a central nervous system index and a peripheral system (autonomic nervous system) index.
  • what physiological measurement result is obtained for the questionnaire result that the user feels comfortable is acquired.
  • the functions f and g are calculated using the physiological measurement result, and the obtained numerical values are used as the comfortable feeling and the arousal feeling.
  • the comfort feeling can be calculated by Equation 1 below.
  • the arousal feeling can be calculated by the following equation 2.
  • A1, B1, C1, A2, B2, and C2 in Formulas 1 and 2 are constants.
  • Equation 1 for finding comfort X is an electroencephalogram correlation coefficient obtained by measurement of the central nervous system.
  • a comfortable feeling can be calculated
  • the comfort can be quantified by measuring only the electroencephalogram correlation coefficient.
  • the comfortable feeling may be quantified by measuring cerebral blood flow, brain wave left-right difference, and ⁇ 2 power (electroencephalogram power) as parameters of the central nervous system.
  • the feeling of comfort may be quantified using the heartbeat as the measurement result of the autonomous system.
  • the multiple correlation coefficient R in the multiple regression equation of comfort is 0.84.
  • the arousal sensation can be obtained from ⁇ 2 wave power (electroencephalogram power) obtained by measurement of the central nervous system and a constant A2 for the electroencephalogram power as shown in Equation 2.
  • the arousal feeling can be quantified by measuring only the electroencephalogram power.
  • the arousal sensation may be quantified by measuring the left-right difference of brain waves and the brain wave correlation coefficient as parameters of the central nervous system.
  • the comfortable feeling may be quantified by using mental sweating as the measurement result of the autonomous system.
  • this lighting control system since the instruction representing the user's psychological state is displayed superimposed on the psychological space 100 and can be selected by the user, there is a case where there are a plurality of lighting fixtures 2. However, the user can operate intuitively. Therefore, according to this lighting control system, it is possible to easily set a lighting scene that matches the psychological state of the user.
  • the interface unit 11 is configured by a touch panel, whereby the psychological space 100 can be displayed on the display screen as the display unit 21 and the selection unit 22 can be built in the display screen.
  • the illumination control system it is possible to intuitively select a command displayed superimposed on the psychological space 100 from the display screen. Therefore, according to this lighting control system, the lighting scene can be set by performing an operation more intuitively.
  • the illumination control system may configure the function of the interface unit 11 as a remote controller 30 among the functions provided in the illumination control device 1 described above.
  • the illumination control device 1 and the remote controller 30 exchange signals by infrared communication or wireless communication.
  • the remote controller 30 is not limited to a remote controller for home lighting, but may be various mobile devices. As a result, for example, the lighting device 2 can be operated while staying on a sofa in a house.
  • the remote controller 30 includes the display unit 21 and the selection unit 22 described above.
  • the remote controller 30 serves as a lighting control terminal for controlling the lighting fixture 2.
  • this remote controller 30 displays the user's psychological space corresponding to the illumination state realized by the lighting fixture 2 on the display unit 21, and the command is a coordinate in the psychological space corresponding to the psychological state represented by the command. Display in position. Then, the remote controller 30 selects the displayed command by the selection unit 22.
  • the illumination control apparatus 1 provided with the remote controller 30 will have the instruction
  • FIG. The lighting control device 1 causes the display device (remote controller 30) to display the user's psychological space corresponding to the lighting state realized by the lighting fixture 2, and the command is in the psychological space corresponding to the psychological state represented by the command. It is displayed at the coordinate position. Then, the lighting control device 1 causes the displayed command to be selected by the selection device (remote controller 30).
  • the lighting control system includes the psychological state input unit in the selection unit 22 as described above.
  • the lighting control system displays the psychological space 100 on the display unit 21.
  • the vertical axis is an arousal feeling and the horizontal axis is a comfort feeling.
  • the lighting control system displays “mood” as the contents of each command arranged in the psychological space 100.
  • the current psychological state of the user is input by the selection unit 22.
  • the selection unit 22 detects a contact position on the psychological space 100.
  • the selection unit 22 can input the user's current psychological state, which includes a numerical value of arousal and a comfortable value, from the relationship between the contact position and the coordinate position on the psychological space 100.
  • the lighting control system can display the input user's current psychological state 102 superimposed on the psychological space 100.
  • this lighting control system has an input unit (selection unit 22) for inputting a user's psychological state. And the interface part 11 displays the psychological state 102 input by the input part in the coordinate position in the psychological space 100 according to the said psychological state.
  • Such a lighting control system can superimpose and display the psychological state of the user as subjective information in the psychological space 100, and intuitively perform an operation of shifting from the current psychological state 102 to the desired psychological state. Can do. Therefore, according to this lighting control system, it is possible to more easily set a lighting scene that matches the user's psychological state after having the user refer to the current psychological state 102.
  • another lighting control system includes a detection unit 23 for inputting a user's psychological state.
  • the detection unit 23 detects the current psychological state 102 of the user and inputs it to the lighting control device 1.
  • This detection part 23 detects a user's biometric information.
  • the user's biometric information includes the user's fingertip pulse wave and facial expression.
  • the detection unit 23 includes a fingertip sensor.
  • the detection unit 23 includes a camera device.
  • other information may be included as the biological information of the user.
  • the detection unit 23 detects the user's psychological state based on the detected biological information.
  • the detection unit 23 supplies the detected psychological state of the user to the command unit 12.
  • the command unit 12 supplies information representing the psychological state to the interface unit 11 so that the psychological state of the user supplied from the detecting unit 23 is superimposed on the psychological space 100 and displayed.
  • the information representing the psychological state is a feeling of arousal and a feeling of comfort that are digitized as described above.
  • the interface part 11 displays the psychological state detected by the detection part 23 in the coordinate position in the psychological space 100 according to the said psychological state.
  • this lighting control system can superimpose the current psychological state 102 on the psychological space 100 and display it, so that the lighting apparatus 2 for shifting from the current psychological state 102 to the desired psychological state can be displayed. Operation can be performed intuitively. Therefore, according to this lighting control system, similarly to the above-described lighting control system, it is possible to more easily set a lighting scene suitable for the user's psychological state by making the user compare with the current psychological state 102.
  • the lighting control system that inputs the current psychological state as described above may cause the lighting scene to transition from the current psychological state 102 to the psychological state desired by the user.
  • the command unit 12 of this lighting control system sends a prior command to the lighting control unit before supplying the command selected by the selection unit 22 to the lighting control unit 13 when the input current psychological state 102 is input. 13 is supplied.
  • This prior command represents a psychological state between the input current psychological state 102 and the psychological state represented by the command selected by the selection unit 22.
  • This prior command includes outputting a command of a psychological state close to the current psychological state 102.
  • the initial prior command is a command for a psychological state close to the current psychological state 102
  • the subsequent prior commands are commands for a psychological state that gradually approaches the final command.
  • the command unit 12 of the lighting control system is supplied from the interface unit 11 with a command 101 a for setting the “smooth mood” lighting scene.
  • the command unit 12 generates commands 101d, 101c, and 101b as a plurality of prior commands between the current psychological state 102 and the final command 101a.
  • the command unit 12 supplies a command to turn on the lighting fixture 2 to the lighting control unit 13 so that the lighting scene corresponds to the command 101d.
  • the command unit 12 supplies the lighting control unit 13 with a command to turn on the lighting fixture 2 so that the lighting scene corresponds to the command 101c.
  • the command unit 12 supplies the lighting control unit 13 with a command to turn on the lighting fixture 2 so that the lighting scene corresponds to the command 101b.
  • the lighting control system changes from the current psychological state 102 to a lighting scene corresponding to “feeling of healing”, a lighting scene corresponding to “mood in a movie theater”, and a lighting scene corresponding to “danran mood”.
  • the lighting fixture 2 is controlled. After this, the lighting control system can control the lighting fixture 2 in the lighting scene corresponding to the “clean mood”.
  • the lighting scene can be changed step by step from the lighting scene close to the current psychological state 102 and changed to the lighting scene selected by the selection unit 22.
  • the illumination control system can guide the illumination scene smoothly up to the illumination scene corresponding to the psychological state selected by the user.
  • a plurality of commands may be selectable by the selection unit 22.
  • the illumination control system includes a storage unit that stores a plurality of commands selected by the selection unit 22 and a supply order of the plurality of commands to the illumination control unit 13.
  • the storage unit can use the database unit 14.
  • a plurality of commands are associated with the supply order of the plurality of commands.
  • the command unit 12 acquires the supply order stored in the database unit 14 using the selected commands as search keys. Thereby, the command unit 12 supplies a plurality of commands to the illumination control unit 13 according to the supply order.
  • the selection unit 22 selects a plurality of commands 103 that shift from “healing mood” to “clean mood” as a psychological state.
  • the selected commands 103 are not limited to “healing mood” and “refreshing mood”, but from the current psychological state 102, “healing mood” and “healing mood” to “refreshing mood” It may be a psychological state on the psychological space 100 connecting the two. That is, a plurality of commands 103 may be continuous coordinate positions connecting a plurality of psychological states.
  • this lighting control system it is possible to select a plurality of commands 103 in the order in which the psychological state is desired to be changed, and it is possible to more easily set a lighting scene that matches the psychological state of the user.
  • the illumination control system when the interface unit 11 is configured by a touch panel, a plurality of commands 103 can be selected so that the user can trace with a finger. Thereby, operation which transfers the illumination scene corresponding to a psychological state can be performed intuitively. Therefore, according to this lighting control system, it is possible to more easily set a lighting scene that matches the psychological state of the user.
  • the characters superimposed on the psychological space 100 described above may be automatically changed to content suitable for attributes such as who the user is and the age of the user, as shown in FIG. For example, you may change the wording of mood, font, size, etc.
  • attributes personal authentication by a camera or the like can be used.
  • the instruction representing the user's psychological state is displayed superimposed on the psychological space and can be selected by the user, the user can operate intuitively even when there are multiple lighting fixtures. It can be carried out. Therefore, according to the present invention, it is possible to easily set an illumination scene that matches the psychological state of the user.

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PCT/JP2012/070171 2011-08-24 2012-08-08 照明制御システム、照明制御装置及び照明制御用端末 WO2013027581A1 (ja)

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CN201280040953.XA CN103765989B (zh) 2011-08-24 2012-08-08 照明控制系统、照明控制装置以及照明控制用终端
JP2013529959A JP5842115B2 (ja) 2011-08-24 2012-08-08 照明制御システム、照明制御装置及び照明制御用端末

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JP2017004618A (ja) * 2015-06-04 2017-01-05 パナソニックIpマネジメント株式会社 スケジュールコントローラ、照明システム及び照明制御方法
JP2017068681A (ja) * 2015-09-30 2017-04-06 ソフトバンク株式会社 サービス提供システム
WO2020121995A1 (ja) * 2018-12-12 2020-06-18 パナソニックIpマネジメント株式会社 環境制御システム、及び、環境制御方法
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