WO2014057597A1 - Lighting control system - Google Patents

Abstract

A lighting control system comprises: an operation unit (3) for inputting attribute information relating to a user; an attribute/light distribution database (6) for storing a first light distribution pattern associated with the attribute information; a motion sensor (4) for extracting the motion of the user; and a motion/light distribution database (7) for storing a second light distribution pattern associated with a behavior scene, and a lighting control unit (2) controls the light distribution pattern of a lighting device (1) to the first light distribution pattern associated with the inputted attribute information, corrects the controlled light distribution pattern by the second light distribution pattern associated with the behavior scene determined from the motion, and on the basis of the determination result of the degree of satisfaction, corrects again the light distribution pattern corrected on the basis of the second light distribution pattern associated with the behavior scene.

Description

Lighting control system

The following Patent Document 1 is known as a technique for controlling illumination. This Patent Document 1 describes that the illumination is controlled in a pattern registered in advance according to user information.

By the way, in the illumination control described in Patent Document 1 described above, it is desired to further improve the user satisfaction.

Therefore, the present invention has been proposed in view of the above-described circumstances, and an object of the present invention is to provide an illumination control system that can further improve user satisfaction.

JP 2008-181874 A

A lighting control system according to a first aspect of the present invention is a lighting control system for controlling a lighting fixture, and includes an attribute input means for inputting attribute information of a user, and a first arrangement associated with the attribute information. A first storage means for storing a light pattern; an action extracting means for extracting the user's action; a scene judging means for judging a user action scene based on the action extracted by the action extracting means; The second storage means for storing the second light distribution pattern associated with the action scene, the satisfaction extraction means for extracting the user's satisfaction with the current light distribution pattern, and the satisfaction extraction means Satisfaction determination means for determining whether or not the satisfaction level exceeds a predetermined value, and the light distribution pattern by the lighting fixture is the first corresponding to the attribute information input by the attribute input means Based on the determination result of the satisfaction determination means, the control is performed so as to be a light distribution pattern, the controlled light distribution pattern is corrected by the second light distribution pattern corresponding to the action scene determined by the scene determination means. And a light distribution control means for re-correcting the corrected light distribution pattern based on the second light distribution pattern corresponding to the action scene determined by the scene determination means.

The lighting control system according to the second aspect of the present invention is the lighting control system according to the first aspect, wherein the indoor situation extracting means for extracting the indoor situation used by the user and the indoor situation extracting means extract the indoor situation. Indoor condition determination means for determining what the indoor condition is, the third storage means for storing a third light distribution pattern associated with the indoor condition, and the light distribution control means Is characterized in that the light distribution pattern modified based on the second light distribution pattern is modified by a third light distribution pattern corresponding to the indoor condition determined by the indoor condition determining means.

An illumination control system according to a third aspect of the present invention is the illumination control system according to the first or second aspect, and includes an external light detection unit that detects external light, and the light distribution control unit includes the light distribution control unit, When the illuminance detected by the external light detection unit does not exceed the target illuminance adjusted by the luminaire included in the re-corrected light distribution pattern, the target illuminance of the light distribution pattern is determined from the detected illuminance. The light distribution pattern is corrected again so that

An illumination control system according to a fourth aspect of the present invention is the illumination control system according to the first or second aspect, and includes an external light blocking unit that blocks external light, and the light distribution control unit includes the light distribution control unit, When the illuminance detected by the external light detection unit exceeds the illuminance of the target illuminance included in the re-corrected light distribution pattern, a part or all of the external light is blocked by the external light blocking means. It is characterized by.

An illumination control system according to a fifth aspect of the present invention is the illumination control system according to any one of the first to fourth aspects, wherein the light distribution control means is any of direct light, indirect light, and spot light. The light distribution pattern is controlled.

A lighting control system according to a sixth aspect of the present invention is the lighting control system according to any one of the first to fifth aspects, wherein the scene determination means includes a study scene, a tranquil scene, One of the video appreciation scene and the relaxation scene is judged.

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 block diagram showing the configuration of the camera in the illumination control system shown as the embodiment of the present invention. FIG. 3 is a diagram showing an attribute-light distribution database in the lighting control system shown as the embodiment of the present invention. FIG. 4 is a diagram showing an operation-light distribution database in the illumination control system shown as the embodiment of the present invention. FIG. 5 is a diagram showing a light distribution pattern in the illumination control system shown as an embodiment of the present invention, where (a) is indirect light, (b) is spot light, (c) is direct light, and (d) is other light. An example of indirect light is shown. FIG. 6 shows lighting states corresponding to action scenes controlled by the lighting control system shown as an embodiment of the present invention, where (a) is a study scene, (b) is a tranquil scene, (c) is a movie appreciation scene, d) is a relaxation scene. FIG. 7 is a diagram showing the degree of satisfaction in the lighting control system shown as the embodiment of the present invention. FIG. 8 is a diagram illustrating a satisfaction level including an arousal feeling and a comfortable feeling for each action scene in the lighting control system shown as the embodiment of the present invention. FIG. 9 is a flowchart showing an operation in the illumination control system shown as the embodiment of the present invention. FIG. 10 is a diagram showing a change in satisfaction in the lighting control system shown as the embodiment of the present invention. FIG. 11 is a diagram showing an example of (a) a light distribution pattern suitable for attributes and (b) a light distribution pattern suitable for action scenes in the lighting control system shown as the embodiment of the present invention. 12A and 12B show a lighting control system according to an embodiment of the present invention. FIG. 12A shows a light distribution pattern before correction, FIG. 12B shows a light distribution pattern after correction, and FIG. A state (d) shows the state in the room after the light distribution is adjusted. FIG. 13 is an explanatory diagram of increasing the illuminance in the room from the situation where weak external light is contained to the reference illuminance in the illumination control system shown as the embodiment of the present invention. 14A and 14B show a lighting control system according to an embodiment of the present invention. FIG. 14A shows a light distribution pattern before correction, FIG. 14B shows a light distribution pattern after correction, and FIG. 14C shows a room containing external light. A state (d) shows the state in the room after the light distribution is adjusted. FIG. 15 is an explanatory diagram for reducing the illuminance in the room from the situation where strong external light is contained to the reference illuminance in the illumination control system shown as the embodiment of the present invention. FIG. 16 is a flowchart showing an operation in the lighting control system shown as the embodiment of the present invention. FIG. 17 is a diagram showing a room condition-light distribution database in the lighting control system shown as the embodiment of the present invention. FIG. 18 is a flowchart showing an operation in the lighting control system shown as the embodiment of the present invention. FIG. 19 is another diagram showing the degree of satisfaction in the illumination control system shown as the embodiment of the present invention. FIG. 20 is a diagram showing an example of (a) an attribute, a light distribution pattern suitable for an action scene, and (b) a light distribution pattern suitable for an indoor situation in the lighting control system shown as the embodiment of the present invention. is there.

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

The illumination control system shown as an embodiment of the present invention is configured as shown in FIG. The lighting control system includes a plurality of lighting fixtures 1, a lighting control unit 2, an operation unit 3, a motion sensor 4, a room condition sensor 5, an attribute-light distribution database 6, an operation-light distribution database 7, and a room condition-light distribution database. 8 and an external light blocking unit 9.

The lighting fixture 1 is a fixture that emits various types of illumination light. In addition, in this embodiment, the structure with which the lighting fixture 1 exists is shown. The luminaire 1 may be capable of changing the brightness and color of the illumination light, or may be capable of changing either the brightness or the color. Moreover, as the lighting fixture 1, what can emit any one or more of direct light, indirect light, and spot light can be used. The light distribution pattern of the lighting fixture 1 is controlled by a control signal from the lighting control unit 2. As will be described later, this light distribution pattern represents a combination of direct light, indirect light, and spot light, and brightness and color for each of direct light, indirect light, and spot light.

The illumination control unit 2 controls the light distribution pattern of the luminaire 1 according to the operation on the operation unit 3 and the user's operation. At this time, the illumination control unit 2 applies the light distribution pattern (first light distribution pattern) corresponding to the attribute stored in the attribute-light distribution database 6 and the action scene of the user stored in the operation-light distribution database 7. The corresponding light distribution pattern (second light distribution pattern) is referred to.

The operation unit 3 is, for example, a switch group exposed from the wall surface of the indoor space where the lighting fixture 1 is installed. The switch group of the operation unit 3 is operated, for example, when inputting user attribute information (attribute input means). The attribute information may include at least one of age, gender, race, and eye disease. In addition, the operation unit 3 may include switches for setting various light distribution patterns of the lighting control system and turning on / off the lighting fixture 1.

The motion sensor 4 detects the movement of the user at the place where the lighting fixture 1 is installed. The motion detected by the motion sensor 4 is acquired by the illumination control unit 2. The motion sensor 4 may be a camera 41 as shown in FIG. As the camera 41, for example, as shown in FIG. 2, a camera having a vertical detection range of 45 degrees and a distance capable of detecting a user's movement of about 5 m can be used. The motion sensor 4 may include a thermoviewer, a human sensor, and a microphone that detects a user's voice.

The lighting control unit 2 extracts the user's motion according to the output of the motion sensor 4 (motion extraction means). This operation includes the state where the user is sitting, the state of the user's line of sight, the sound of the user himself / herself and the surroundings of the user, and the like. The lighting control unit 2 determines a user's action scene based on the extracted user's action (scene determination unit). The illumination control unit 2 (scene determination means) may determine, for example, any one of a study scene, a danran scene, a video viewing scene, and a relaxation scene as the action scene. For example, when a voice like a user's sigh is detected and the camera 41 is sitting and the movement is low, the lighting control unit 2 determines that the current action scene is a relaxation scene. In addition, the lighting control unit 2 can determine a study scene, a tranquil scene, and a movie appreciation scene according to the voice, the user's action, and the user's line of sight.

In addition, the illumination control unit 2 may input the user's attribute according to the output of the camera 41 or the microphone constituting the motion sensor 4 (attribute input means). The lighting control unit 2 determines the age, sex, and race according to the video and audio.

The attribute-light distribution database (first storage means) 6 stores the attribute information input by the illumination control unit 2 and the first light distribution pattern corresponding to the attribute information. This first light distribution pattern is registered in advance as a light distribution pattern of the lighting fixture 1 that increases the satisfaction of the user specified by the attribute information. For example, as shown in FIG. 3, brightness and color for each of direct light, indirect light, and spot light are stored in the attribute-light distribution database 6 for each age of teens to 70s as attribute information. For example, when the age of 20's is input as the attribute information, the illumination control unit 2 takes out the first light distribution pattern corresponding to the 20's. The illumination control unit 2 controls the brightness by adjusting the various lights according to the extracted first light distribution pattern, and controls the color by adjusting the colors of the various lights (light distribution control means). Thereby, the illumination control part 2 controls illumination light so that it may be suitable for attribute information, such as 20's, and improves a user's satisfaction.

The operation-light distribution database (second storage means) 7 stores the action scene determined by the illumination control unit 2 and the second light distribution pattern associated with the action scene. This 2nd light distribution pattern is registered beforehand as a light distribution pattern of the lighting fixture 1 which makes the satisfaction of the user specified by an action scene high. For example, for each action scene as shown in FIG. 4, brightness and color for each of direct light, indirect light, and spot light are stored in the operation-light distribution database 7. For example, when a studying action scene is determined as the action scene, the illumination control unit 2 extracts a second light distribution pattern corresponding to the study. In accordance with the extracted second light distribution pattern, the illumination control unit 2 controls the brightness by dimming various lights and controls the colors by toning the various lights (light distribution control means).

At this time, the illumination control unit 2 corrects the light distribution pattern controlled by the attribute information based on the second light distribution pattern. Thereby, the illumination control part 2 controls illumination light so that it is suitable not only for an attribute but for a user's action scene, and improves the satisfaction of the user who is performing the said action.

The brightness (dimming) and color (toning) such as ◯ and Δ shown in FIGS. 3 and 4 represent the degree of light dimming and the degree of toning by the illumination control unit 2. Although the same symbols are used in FIGS. 3 and 4, they do not represent the same dimming degree and toning degree, but merely represent that arbitrary values can be input.

As the light distribution pattern of direct light, indirect light, and spot light of the lighting fixture 1 controlled by the illumination control unit 2, for example, the light distribution can be controlled as shown in FIGS. The light distribution pattern shown in FIG. 5A distributes indirect light L3 from the lighting fixture 1 toward the ceiling. Such a light distribution pattern is selected in a relaxing scene as shown in FIG. In the light distribution pattern of FIG. 5B, the spot light L <b> 1 is distributed toward the table 102. This light distribution pattern is selected in a study scene using the table 102 as shown in FIG. 6A or a relaxation scene as shown in FIG. The light distribution pattern in FIG. 5C distributes light L 1 and L 2 directly to the entire television 101, table 102, and sofa 103. This light distribution pattern is selected in a gradual scene as shown in FIG. The light distribution pattern in FIG. 5D distributes indirect light L3 only to the ceiling on the television 101 side. This light distribution pattern is selected in a movie appreciation scene as shown in FIG. Such a plurality of light distribution patterns are registered in the attribute-light distribution database 6 or the operation-light distribution database 7 in combination according to the attribute or action scene.

The illumination control unit 2 extracts user satisfaction with respect to the current light distribution pattern after controlling the illumination light with the first light distribution pattern and the second light distribution pattern (satisfaction extraction means). The illumination control unit 2 performs, for example, parameter extraction that represents the user's facial expression using the camera 41. The lighting control unit 2 calculates the user's satisfaction level using a relational expression between the satisfaction level and facial expression parameters such as the degree of looseness of the mouth corner. Thereby, the illumination control part 2 can obtain relaxation satisfaction [%] as shown, for example in FIG.

Also, the lighting control unit 2 may calculate the user's satisfaction from the psychological state represented by a feeling of comfort and a feeling of arousal extracted from the facial expression parameters. For example, as shown in FIG. 8, the relationship between comfort and arousal with high user satisfaction differs for each action scene. Therefore, the illumination control unit 2 may extract the satisfaction degree from the degree of divergence between the comfort feeling and the awakening feeling extracted from the facial expression parameters and the comfort feeling and the awakening feeling corresponding to each action scene. Moreover, the illumination control part 2 may detect a user's brain wave, heartbeat, operation | movement, perspiration, body temperature, body odor, etc. as satisfaction.

When the satisfaction control unit 2 extracts the satisfaction level, the lighting control unit 2 determines whether or not the extracted satisfaction level exceeds a predetermined value (satisfaction level determination means). This satisfaction level may be a predetermined constant value or may be a satisfaction level extracted immediately before correcting the light distribution pattern. When the satisfaction level does not exceed the predetermined value, the illumination control unit 2 recorrects the light distribution pattern corrected based on the second light distribution pattern (light distribution control means). Thereby, the illumination control part 2 recorrects the light distribution pattern corrected based on the 2nd light distribution pattern corresponding to an action scene based on the determination result of satisfaction. Such a light distribution control unit controls the light distribution pattern by the lighting fixture 1 to be the first light distribution pattern corresponding to the attribute information input by the attribute input unit, and the action scene determined by the scene determination unit The light distribution pattern controlled by the second light distribution pattern corresponding to is corrected. Then, the light distribution control unit re-corrects the light distribution pattern corrected based on the second light distribution pattern corresponding to the action scene determined by the scene determination unit based on the determination result of the satisfaction determination unit.

Note that the light distribution control means only needs to be able to control any light distribution pattern of direct light, indirect light, and spot light.

Next, an operation procedure in the illumination control system as described above will be described with reference to FIG.

First, in step S1, the illumination control unit 2 inputs user attribute information by an input operation of the operation unit 3 or the like. In the next step S2, the illumination control unit 2 takes out the first light distribution pattern corresponding to the attribute information input in step S1 from the attribute-light distribution database 6 and determines the light distribution pattern. In the next step S3, the illumination control unit 2 dimmes and adjusts the lighting fixture 1 so as to be the light distribution pattern A determined in step S2. Thereby, the illumination control system realizes a light distribution pattern A having a high degree of satisfaction in view of user attributes.

In the next step S4, the illumination control unit 2 extracts the user's action according to the signal from the motion sensor 4. In the next step S5, the lighting control unit 2 determines the action scene of the user from the operation extracted in step S4. In step S6, the illumination control unit 2 extracts the second light distribution pattern corresponding to the action scene determined in step S5 from the operation-light distribution database 7, and determines the light distribution pattern. In step S <b> 7, the illumination control unit 2 dimmes and adjusts the luminaire 1 so that the light distribution pattern B determined in step S <b> 6 is reflected in the light distribution pattern A. Thereby, the lighting control system corrects the light distribution pattern A having a high degree of satisfaction in view of the user's attribute, and realizes a light distribution pattern having a high degree of satisfaction in view of the action scene.

In the next step S8, the illumination control unit 2 extracts the satisfaction level of the user after step S7. At this time, the illumination control unit 2 uses the image data of the camera 41 and the like included in the motion sensor 4 to extract the user satisfaction A based on the facial expression parameters of the user. In the next step S9, the lighting control unit 2 determines whether or not the user satisfaction A extracted in step S8 exceeds a predetermined value Ath. If the satisfaction level A of the user extracted this time exceeds the predetermined value Ath, the process ends, and if not, the process returns to step S4.

The predetermined value Ath of the satisfaction level is set to an arbitrary value when the satisfaction level is expressed between 0 and 100% as shown in FIG. For example, as shown in FIG. 10, when the predetermined value Ath of satisfaction is set to 70%, the satisfaction after the operation (1) for controlling to the first light distribution pattern is A1. Thereafter, the process proceeds from step S9 to step S4, and the satisfaction after the control operation (2) for correcting the first light distribution pattern with the second light distribution pattern is A2. Thereafter, the process proceeds from step S9 to step S4, and the satisfaction after the control operation (3) for correcting the light distribution pattern again by the second light distribution pattern is A3. As a result, the satisfaction level A3 exceeds 70% of the predetermined value Ath, so this process ends.

In addition, as shown in FIG. 8, when the range of satisfaction for each action scene is set according to the combination of the arousal feeling and the comfort feeling, the arousal feeling and the comfort feeling satisfy the satisfaction level according to the action scene. It is determined whether it is in the range. For example, if the action scene is determined to be a study scene and the arousal and comfort are plotted on P1 in FIG. 8, the user's satisfaction A exceeds the predetermined value Ath because the comfort is insufficient. Judge that there is no. Thereby, in the next step S4 and after, the light distribution pattern is re-corrected so as to improve the feeling of comfort and fall within the satisfaction range of the study scene.

Further, in the study scene, when the arousal and comfort are plotted at the position P2 in FIG. 8, when the satisfaction degree A (%) obtained by the facial expression parameter or the like is lower than the predetermined value Ath, The illumination control unit 2 recorrects the light distribution pattern. At this time, the illumination control unit 2 re-corrects the light distribution pattern so that the satisfaction level (%) exceeds the predetermined value Ath, for example, P3 in the satisfaction range of the study scene in which the arousal feeling is lowered.

As described above, according to this lighting control system, the light distribution pattern is controlled so as to be suitable for the user's attribute, and the light distribution pattern is corrected according to the user's action scene. Thereby, the lighting control system can automatically correct the light distribution pattern set according to the user's attribute according to the user's action scene, and can further improve the user's satisfaction.

For example, when the user enters the room, the light distribution pattern suitable for the attribute is controlled, and when the user's action scene (study etc.) can be specified, the light distribution pattern suitable for the action scene can be corrected. Specifically, as shown in FIG. 11A, the user P sits on the chair 104 in front of the table 105 in a state where the illumination light L11 having a low color temperature is irradiated from the ceiling light 1A to the entire room. To do. As a result, the illumination control system determines that it is a study scene, and can irradiate illumination light L12 having a high color temperature from the ceiling light 1A toward the user P and the table 105 as shown in FIG. 11B. . Thereby, the lighting control system can increase the satisfaction of the user in the study scene.

Next, in the above-described lighting control system, a description will be given of correcting a light distribution pattern in consideration of external light in addition to user attributes and action scenes.

This lighting control system constitutes an outside light detection unit for detecting outside light in the room by the room condition sensor 5 shown in FIG. The room condition sensor 5 as the outside light detection unit can be realized by, for example, an indoor camera. The indoor state sensor 5 outputs a sensor signal corresponding to the detected illuminance of outside light to the illumination control unit 2.

The illumination control unit 2 obtains the illuminance of outside light based on the sensor signal output from the room condition sensor 5. The illumination control unit 2 controls the luminaire 1 and the external light blocking unit (external light blocking unit) 9 according to the illuminance of external light. The outside light blocking unit 9 includes, for example, an electric curtain or an electric blind. The illumination control unit 2 adjusts the light distribution in the room by controlling the luminaire 1 and the external light blocking unit 9.

When the illuminance of the external light detected by the room condition sensor 5 is lower than the illuminance (target illuminance) in the light distribution pattern, the illumination control unit 2 recorrects the light distribution pattern. For example, it is assumed that there is a light distribution pattern 100 in which the illuminance in the room is the reference illuminance as shown in FIG. At this time, if there is outside light La as shown in FIG. 12C, only a part of the room 110 with outside light La becomes bright (t1 in FIG. 13). At this time, the illuminance detected by the room condition sensor 5 does not exceed the reference illuminance (target illuminance) adjusted by the luminaire 1 included in the re-corrected light distribution pattern 100. In this case, the illumination control unit 2 re-corrects the light distribution pattern 100 from the illuminance detected by the room condition sensor 5 so as to be the target illuminance of the light distribution pattern 100. Thereby, the illumination control part 2 changes the light distribution pattern 100 into the light distribution pattern 101 which supplements a dark location to reference | standard illumination intensity.

Specifically, as shown in FIG. 12B, the illumination control unit 2 provides a region 101a having a low illuminance in the light distribution pattern 101 only in a region where the external light La exists as shown in FIG. 12C. That is, the illumination control unit 2 weakens the light emitted from the luminaire 1 in a region where the external light La is present. Thereby, as shown in FIG.12 (d), an actual indoor can be made into fixed illumination intensity similarly to the light distribution pattern 100 of Fig.12 (a) (t2 of FIG.13).

On the other hand, for example, as shown in FIG. 14C, the outside light Lb entering the room may be higher than the reference illuminance in the light distribution pattern 100. In this case, the illumination control unit 2 drives the external light blocking unit 9. Thereby, the external light blocking unit 9 blocks a part or all of the external light Lb. That is, when the illuminance detected by the external light detection unit exceeds the illuminance of the target illuminance included in the re-corrected light distribution pattern, the light distribution control unit performs a part of the external light with the external light blocking unit. Or block everything. By blocking a part of the external light Lb, as shown in FIG. 15, the illuminance (t1) higher than the reference illuminance is reduced to the reference illuminance (t2). Further, the illumination control unit 2 re-corrects the light distribution pattern 101 as shown in FIG. 14B in order to obtain a constant reference illuminance as shown in FIG. As a result, as shown in FIG. 14D, the actual room can have a constant illuminance as in the light distribution pattern 100 of FIG. 14A (t2 in FIG. 15). When all the outside light Lb is blocked by the outside light blocking unit 9, the light distribution pattern 100 may be corrected according to the illuminance in the room after blocking.

For example, as shown in FIG. 16, such an illumination control system detects outside light by the room condition sensor 5 in step S11 after determining the light distribution pattern corresponding to the action scene in step S6. And in step S7, the illumination control part 2 corrects a light distribution pattern according to external light, and light-controls and colors the lighting fixture 1. FIG.

Moreover, the illumination control system may operate the external light blocking unit 9 in step S7 when the illuminance of external light is higher than the reference illuminance.

As described above, according to this illumination control system, it is possible to suppress that the illumination control cannot be performed according to the light distribution pattern due to the outside light entering the room. For example, when the sunset is inserted into the room, if the lighting fixture 1 is controlled without correcting the light distribution pattern, the light of the lighting fixture 1 and the outside light are mixed. In this case, the brightness and color temperature cannot be balanced even though it is desired to maintain a constant illuminance indoors. On the other hand, according to the illumination control system, the illuminance of the luminaire 1 in the region where the external light is incident is lowered. Thereby, according to an illumination control system, while maintaining the balance of a light distribution pattern, power saving can be implement | achieved.

Further, according to this lighting control system, for example, when a relaxing light distribution pattern (low color temperature) is set in a state where a sunset is incident, the illuminance of the lighting apparatus 1 is reduced according to the sunset. As a result, a well-balanced light distribution pattern can be obtained in the room and power saving can be realized.

Furthermore, for example, when setting the light distribution pattern (high color temperature) of the study scene in the state where the sunset is incident, the light fixture 1 close to the area where the sunset is inserted irradiates light of the ultra high color temperature. Thereby, the sunset of low color temperature and the light of super high color temperature can be mixed, and the light of high color temperature corresponding to the study scene can be produced | generated.

Thus, according to the lighting control system, it is possible to suppress the power consumption of the lighting fixture 1 by mixing outside light and room light. Furthermore, according to this lighting control system, even if the balance of indoor brightness and color temperature is lost due to the influence of outside light, the lighting fixture 1 is controlled so that the balance remains constant, so that a comfortable space without a sense of incongruity is achieved. realizable.

Next, in the above-described lighting control system, a description will be given of correcting the light distribution pattern according to the room condition in addition to the user attribute and the action scene.

This lighting control system has a room condition sensor 5 for detecting the room condition, as shown in FIG. The room condition sensor 5 acquires information on the room condition such as the room layout, the type of wallpaper, the type and position of furniture.

The indoor condition sensor 5 includes, for example, a camera 41 that is also used as the motion sensor 4. The camera 41 may have an angle of view that can capture an entire indoor situation, and may include a scanning mechanism. The camera 41 supplies the captured camera image to the illumination control unit 2. Further, the indoor state sensor 5 may be an ultrasonic sensor. The room condition sensor 5 outputs an ultrasonic wave to the entire room, detects an ultrasonic reflection signal, and supplies it to the illumination control unit 2. Thereby, the room condition sensor 5 functions as a room condition extracting unit that extracts the room condition used by the user.

The lighting control unit 2 calculates the size of the room and the floor plan according to the camera image and the ultrasonic signal supplied from the room condition sensor 5. Further, the illumination control unit 2 determines parameters related to the degree of reflection of illumination light, such as color as the type of wallpaper, surface finish, and reflectance, based on the camera video. At this time, the illumination control unit 2 compares the determined parameter with a plurality of preset standard wallpaper parameters to determine which type of indoor wallpaper is. Moreover, the illumination control part 2 may measure the reflection characteristic in a room when irradiated with several illumination light. Thereby, the illumination control part 2 judges what kind of room condition the extracted room condition is (room condition judgment means).

The indoor situation / light distribution database (third storage means) 8 stores a third light distribution pattern associated with the indoor situation. As the third light distribution pattern, a light distribution pattern of the lighting fixture 1 that increases the satisfaction of the user based on the indoor condition is registered in advance. For example, as shown in FIG. 17, the brightness and color of direct light, indirect light, and spot light are stored in the indoor condition / light distribution database 8 for each room type, wallpaper type, furniture type and position. Has been. For example, when the position of the study desk and the surrounding wallpaper are acquired as room conditions, the lighting control unit 2 uses the illumination light of a color suitable for study and the position of the study desk in consideration of the reflectance of the wallpaper. A third light distribution pattern to be irradiated is taken out. In accordance with the extracted third light distribution pattern, the illumination control unit 2 controls the brightness by dimming various lights to control the color by toning the various lights (light distribution control means). Thereby, the illumination control part 2 controls illumination light so that it may suit a room condition, and improves a user's satisfaction. In other words, the light distribution control means corrects the light distribution pattern corrected based on the second light distribution pattern by the third light distribution pattern corresponding to the room condition determined by the room condition determination means.

As shown in FIG. 18, such an illumination control system performs the processes in and after step S21 after correcting the first light distribution pattern with the second light distribution pattern in step S9. In step S <b> 21, the illumination control unit 2 acquires a room condition by inputting a camera image or an ultrasonic signal from the room condition sensor 5. In step S <b> 22, the illumination control unit 2 determines the indoor conditions such as the size of the room, the floor plan, and the type of wallpaper. In step S23, the illumination control unit 2 takes out the third light distribution pattern corresponding to the room condition determined in step S22 from the room condition-light distribution database 8, and determines the light distribution pattern. In step S24, the illumination control unit 2 dimmes and adjusts the luminaire 1 so that the light distribution pattern C determined in step S13 is reflected in the light distribution patterns A and B. Accordingly, the lighting control system corrects the light distribution pattern so that the satisfaction degree is high in view of the user's attribute and the satisfaction degree is high in the action scene.

In the next step S25, the illumination control unit 2 extracts the satisfaction level of the user after step S24. At this time, the illumination control unit 2 uses the image data of the camera 41 and the like included in the motion sensor 4 to extract the user satisfaction level B based on the facial expression parameters of the user. In the next step S26, the lighting control unit 2 determines whether or not the user satisfaction B extracted in step S25 exceeds a predetermined value Bth. If the extracted user satisfaction B exceeds the predetermined value Bth, the process is terminated, and if not, the process returns to step S4.

The predetermined value Bth of the satisfaction level may be 0 to 100% as shown in FIG. 7, and is set for each action scene based on the arousal feeling and the comfort feeling shown in FIG. There may be. However, the satisfaction level B is improved so as to exceed the predetermined value Bth so as not to exceed the satisfaction range corresponding to the action scene shown in FIG.

For example, as shown in FIG. 19, when the predetermined value Ath of satisfaction is set to 70% and the predetermined value Bth of satisfaction is set to 85%, the operation after the operation (1) for controlling to the first light distribution pattern is performed. The satisfaction level is A11. Thereafter, the process proceeds from step S9 to step S4, and the satisfaction after the control operation (2) for correcting the first light distribution pattern by the second light distribution pattern is A12. Thereafter, the process proceeds from step S9 to step S10 and thereafter, and the satisfaction B after the control operation (3) for correcting the light distribution pattern again with the third light distribution pattern exceeds 85% of the predetermined satisfaction value Bth. The processes after step S4 are repeated. As a result, if the satisfaction level B exceeds 85% of the predetermined value Bth, this process ends.

As described above, according to this lighting control system, the light distribution pattern can be corrected according to the user's attributes and action scenes, and this light distribution pattern can be corrected according to the indoor conditions. As a result, the lighting control system can automatically correct the light distribution pattern not only according to the user's attributes and action scenes but also in the room conditions, and can further improve the user's satisfaction. Specifically, as shown in FIG. 20 (a), the color of the wallpaper is dark when the entire room is illuminated with illumination light L13 having a low color temperature according to the user's attributes and action scenes. Assume that you have determined. In response to this, the illumination control system can change the light distribution pattern so as to brighten the illumination light L13 in the entire room, as shown in FIG. More specifically, the lighting control system can automatically correct the light distribution pattern so as to increase the degree of satisfaction according to the room condition in a specific place where the user is acting. Further, even if the position of the furniture is changed, the lighting control system can automatically correct the light distribution pattern in response to the change.

Note that the operation shown in FIG. 18 may include correcting the light distribution pattern in consideration of external light or operating the external light blocking unit 9. In this case, the illumination control unit 2 can correct the light distribution pattern according to the user's attributes, action scenes, and external light, and can further correct the light distribution pattern according to the room condition.

The above embodiment is an example of the present invention. For this reason, the present invention is not limited to the above-described embodiment, and various modifications can be made depending on the design and the like as long as the technical idea according to the present invention is not deviated from this embodiment. Of course, it is possible to change.

The entire contents of Japanese Patent Application No. 2012-225172 (filing date: October 10, 2012) and Japanese Patent Application No. 2013-057195 (March 19, 2013) are incorporated herein by reference.

According to the present invention, the light distribution pattern suitable for the user's attribute is controlled, and the light distribution pattern is modified according to the user's action scene. Thereby, the light distribution pattern set according to the user's attribute can be automatically corrected according to the user's action scene, and the user's satisfaction can be further improved.

DESCRIPTION OF SYMBOLS 1 Lighting fixture 2 Lighting control part (Scene determination means, satisfaction determination means, light distribution control means, indoor condition determination means)
3 Operation part (attribute input means)
4 motion sensor (motion extraction means)
5 Indoor situation sensor (Indoor situation extraction means)
6 attribute-light distribution database (first storage means)
7 Operation-Light distribution database (second storage means)
8 Indoor situation-light distribution database (third storage means)
41 Camera

Claims (6)

1. A lighting control system for controlling a lighting fixture,
   Attribute input means for inputting user attribute information;
   First storage means for storing a first light distribution pattern associated with the attribute information;
   Action extracting means for extracting the action of the user;
   Scene judging means for judging a behavior scene of the user based on the action extracted by the action extracting means;
   Second storage means for storing a second light distribution pattern associated with the action scene;
   A satisfaction extraction means for extracting the user's satisfaction with the current light distribution pattern;
   Satisfaction determination means for determining whether the satisfaction extracted by the satisfaction extraction means exceeds a predetermined value,
   The light distribution pattern by the lighting fixture is controlled to become the first light distribution pattern corresponding to the attribute information input by the attribute input means, and the second corresponding to the action scene determined by the scene determination means. The light distribution pattern controlled by the light distribution pattern is corrected, and the correction is performed based on the second light distribution pattern corresponding to the action scene determined by the scene determination unit based on the determination result of the satisfaction determination unit. An illumination control system comprising: a light distribution control means for recorrecting the light distribution pattern.
2. Room condition extraction means for extracting the room condition used by the user;
   A room condition judging means for judging what kind of room condition the room condition extracted by the room condition extracting means is;
   Third storage means for storing a third light distribution pattern associated with the indoor situation;
   The light distribution control means corrects the light distribution pattern modified based on the second light distribution pattern with a third light distribution pattern corresponding to the room condition determined by the room condition determination means. The lighting control system according to claim 1.
3. Provided with an external light detector for detecting external light,
   When the illuminance detected by the external light detection unit does not exceed the target illuminance adjusted by the luminaire included in the re-corrected light distribution pattern, the light distribution control means The illumination control system according to claim 1 or 2, wherein the light distribution pattern is re-corrected so as to be a target illuminance of the light distribution pattern.
4. With external light blocking means for blocking external light,
   When the illuminance detected by the external light detection unit exceeds the illuminance of the target illuminance included in the re-corrected light distribution pattern, the light distribution control means The lighting control system according to claim 3, wherein part or all of the lighting control system is blocked.
5. The illumination control system according to any one of claims 1 to 4, wherein the light distribution control unit controls a light distribution pattern of any one of direct light, indirect light, and spot light.
6. 6. The scene determination unit according to claim 1, wherein the scene determination unit determines any one of a study scene, a danran scene, a video viewing scene, and a relaxation scene as the action scene. Lighting control system.

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