JP5382437B2 - Motion detection device and illumination device - Google Patents

Description

The present invention relates to a moving body detection apparatus including an image sensor that detects a moving body such as a human body and an illumination apparatus including the moving body detection apparatus.

For the purpose of crime prevention and the like, a human body detection device that detects an intruder from the outside has been put into practical use. Conventionally, this type of human body detection device has been proposed using, for example, a pyroelectric infrared sensor, but in addition to this, a human body detection device using a visible light image sensor has been proposed (for example, (See Patent Document 1). In the human body detection device of this prior art, the size of the moving body is not less than a predetermined size in the visible light image detected by the visible light image sensor, and the amount of infrared rays or the amount of change of infrared rays detected by the infrared sensor is large. When the predetermined value or more is reached, it is determined that the moving body is a human body. Thereby, it is possible to reliably reduce erroneous detection as compared with a human body detection device provided with a moving object detection sensor or an infrared sensor alone.

Further, an image reading apparatus having a visible light image sensor and an infrared image sensor has been proposed (see Patent Document 2). In this conventional image reading apparatus, a visible light image sensor and an infrared image sensor detect reflected light from an object as output data corresponding to its intensity, and each output data obtained from each image sensor is a pixel. By obtaining image data composed of a visible light image and an infrared image by an image processing device that corresponds to each other, it is possible to detect infrared images of human, animal, and plant images that are difficult to distinguish from background images using visible light data. By extracting an edge using data in an image, it is possible to easily perform a cutting process from a background image.

JP 2000-155177 A (page 3, FIG. 1) Japanese Patent Laid-Open No. 11-144031 (page 4, FIG. 1)

In the human body detection device of Patent Document 1, the visible light image sensor detects a visible light image in the detection area. Therefore, when the illuminance of the detection area is low or at night, the visible light image may not be reliably detected. This has the disadvantage that the human body cannot be reliably detected.

In addition, for example, when detecting only a person, the image reading apparatus of Patent Document 2 needs to further extract an image of a person from an image of a person, an animal, or a plant cut out from a background image, for example, in an image processing apparatus. It has the disadvantage of being. Further, the infrared image sensor has a disadvantage that it is very expensive.

An object of the present invention is to provide a moving object detection device that is inexpensive and can reliably detect a detection object even at night, and an illumination device including the moving object detection device.

The moving object detection apparatus according to claim 1 includes a detecting unit that detects a moving object that has entered a predetermined area; a light source that emits radiation including near infrared light in at least the predetermined area; A lighting control device that turns on the light source when the means detects a moving body; and a light receiving unit that receives light from the predetermined area, and the light receiving unit receives light from the predetermined area based on the light received by the light receiving unit. An image sensor that outputs a luminance distribution as an image; based on the image output from the image sensor, it is determined whether the moving object detected by the detection means is a preset detection object; And an image processing apparatus that outputs a determination result.

In the present invention and each of the following inventions, each configuration is as follows unless otherwise specified.

The moving body may be a moving body or a moving object in addition to a human body or an animal.

The detecting means is an infrared sensor that detects infrared rays emitted or reflected from a moving object, an opposed sensor that detects blocking of light rays such as infrared rays, a pressure sensor that detects pressure pressed by a foot, or a pressure by a foot. Any device that detects the entry of a moving object into a predetermined area, such as a switch such as a foot switch that turns on, may be used.

The light source can be, for example, a light emitting diode (LED) element or an organic electroluminescence (EL) element. One or a plurality of light sources may be used.

“The light source emits radiated light in at least a predetermined area” means that the light source radiates to the outside of the predetermined area including the inside of the predetermined area or the inside of the predetermined area. It means being attached to an object or an attachment member.

The lighting control device may be formed to supply power (current) to the light source to turn on the light source, or may be formed to control lighting of a lighting device (power supply device) that turns on the light source. .

“The light receiving unit receives light from a predetermined area” means that the light receiving unit is configured to receive at least near-infrared light and that the light receiving unit faces the direction of the predetermined area. Means that it is attached to a structure or a mounting member.

According to the present invention, when a moving object enters a predetermined area, the light source is turned on, and the radiated light emitted from the light source illuminates the predetermined area. The predetermined area is illuminated with an illuminance that can detect a moving object even at night or when the illuminance is low. Thereby, the luminance of the moving object appears in the luminance distribution of the predetermined area. And the light radiated | emitted or reflected from the predetermined area of the period when the light source is lighting at least is received by the light-receiving part of an image sensor. In addition, according to the present invention, near infrared light is difficult to be seen by a person even at night, so that a predetermined area is illuminated by emitted light from a light source without being known to a person who has entered the predetermined area. Is done.

The image sensor outputs a luminance distribution of a predetermined area as an image based on the light received by the light receiving unit. The image processing apparatus determines whether or not the moving object that has entered the predetermined area is a preset detection target from the luminance of the moving object that appears in the luminance distribution of the predetermined area, and outputs the determination result To do. As a result, a preset detection object is detected among the moving objects that have entered the predetermined area.

According to a third aspect of the present invention, there is provided the lighting device according to the first or second aspect; a lighting fixture provided with a main light source that emits visible light; and a determination result output from the moving body detection device. And a control device for controlling the lighting state of the main light source.

The main light source may be any light source that emits visible light, such as a light emitting diode (LED) element, an organic electroluminescence (EL) element, a discharge lamp such as a fluorescent lamp or a high-intensity discharge lamp, or a light bulb.

The “lighting state of the main light source” means lighting, extinguishing or dimming of the main light source.

The luminaire may be provided in a construction or an attachment member so as to illuminate a predetermined area, or may be provided so as to illuminate other areas.

The control device may turn on the main light source from being turned off, for example, or may turn off the main light source from being turned on according to the determination result output from the moving object detection device.

ADVANTAGE OF THE INVENTION According to this invention, if the detection target set beforehand in a predetermined area enters, the illuminating device with which the lighting state of the main light source of a lighting fixture is controlled is provided.

According to the first aspect of the present invention, when a moving object enters the predetermined area, the predetermined area is illuminated by the radiated light emitted from the light source. For example, when the illuminance of the predetermined area is low or at night Even so, it is possible to illuminate the moving object with at least the emitted light, and to make the luminance image of the moving object appear in the image output from the image sensor, and thereby the detection purpose set in advance in the image processing apparatus An object can be determined with certainty, and a preset detection object that has entered a predetermined area can be reliably detected.

According to the invention of claim 2, since the light source emits near-infrared light, when the detection target is a person, a predetermined area is determined by the light source without being known to the person even at night. Can be illuminated over a period of time.

According to the invention of claim 3, since the lighting state of the main light source of the luminaire changes when the moving object detection device detects a preset detection object that has entered the predetermined area, It can be notified that the set detection object has entered.

The schematic block diagram of the illuminating device which shows Example 1 of this invention. Similarly, the schematic cross-sectional view of a lighting fixture. Similarly, a moving body detection apparatus is shown, (a) is a schematic cross-sectional view, (b) is a schematic bottom view. Similarly, an explanatory view showing a predetermined area and a moving object detection area. The schematic block diagram of the illuminating device which shows Example 2 of this invention.

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

In the present invention, a moving object that enters a predetermined area is detected by the detection means and the image sensor. And if a detection means detects the moving body which entered the predetermined area, the radiated light radiated | emitted from the light source will be irradiated in a predetermined area. Thereby, even at night, the luminance of the moving object appears in the luminance distribution of the predetermined area.

The image sensor outputs the luminance distribution of a predetermined area as an image. Then, the image processing apparatus determines whether or not the moving object that has entered the predetermined area from the luminance image of the moving object is a preset detection object, and outputs the determination result.

1 to 4 show a first embodiment of the present invention, FIG. 1 is a schematic block diagram of a lighting device, FIG. 2 is a schematic cross-sectional view of a lighting fixture, FIG. 3 shows a moving object detection device, and FIG. ) Is a schematic cross-sectional view, FIG. 3B is a schematic bottom view, and FIG. 4 is an explanatory diagram showing a predetermined area and a moving object detection area.

In FIG. 1, the lighting device 1 includes a moving object detection device 2, a lighting fixture 3, and a control device 4. The moving object detection device 2 detects a preset detection object that has entered (entered) a predetermined area, for example, a human body. The lighting fixture 3 illuminates a large area including a predetermined area by turning on the arranged main light source 5. And the control apparatus 4 is built in the lighting fixture 3, for example, and when the moving body detection apparatus 2 detects the detection target (human body) set beforehand, it controls the lighting state of the main light source 5 of the lighting fixture 3 For example, the light is turned on after being turned off.

As shown in FIG. 2, the lighting fixture 3 is attached to the top side of a columnar pole 6 erected on the ground by an attachment band (not shown). In addition, the moving body detection device 2 is attached to a gantry 7 provided on the pole 6 on the ground side with respect to the lighting fixture 3. The gantry 7 is attached to the pole 6 with an attachment band or a screw (not shown). A predetermined area is provided on the ground surface near the pole 6, and the moving body detection device 2 is attached to the gantry 7 with screws (not shown) so as to face the predetermined area.

As shown in FIG. 1, the moving object detection device 2 includes a pyroelectric infrared sensor 8 as a detection means, a light emitting diode (LED) element 9 as a light source, a lighting control device 10, and a visible light image sensor 11 as an image sensor. The image processing apparatus 12 and the power supply unit 13 are included.

As shown in FIG. 3 (a), the moving body detection device 2 includes an infrared sensor 8, a light emitting diode element 9, and a visible light image sensor 11 housed in a sensor unit 14 having an opening (not shown) on its lower surface. 10, the image processing device 12 and the power supply unit 13 are accommodated in the device unit 15. The sensor unit 14 and the device unit 15 are housed in a metal case 16. Case 16 is anti-rust treated,
As for the external shape, the lower side is formed in a rectangular parallelepiped shape, and the upper side is formed in a bowl shape.

The case 16 has a rectangular opening 17 formed on the lower surface of one end side 16a thereof. A translucent plate 18 is fitted into the opening 17 and is fixed by an adhesive (not shown). The light transmitting plate 18 is made of tempered glass or plastic material that transmits infrared light or visible light. The sensor unit 14 is disposed inside the one end 16a of the case 16 so that an opening (not shown) on the lower surface thereof faces the translucent plate 18 (opening 17), and is fixed by an attachment member (not shown). Yes. The infrared sensor 8, the light emitting diode element 9, and the visible light image sensor 11 are exposed on the light transmitting plate 18 side.

The device unit 15 is disposed inside the other end 16b of the case 16 and is fixed by an attachment member (not shown). The case 16 is attached to the gantry 7 shown in FIG. 2 so that the light transmitting plate 18 (opening 17) on one end side 16a faces a predetermined area.

The infrared sensor 8 is formed so as to receive (receive) infrared rays emitted or reflected from a predetermined area. The infrared light passes through the light transmitting plate 18 of the case 16 and is received by the infrared sensor 8. Here, as shown in FIG. 4, the moving body detection device 2 is provided on the ground surface so that the infrared sensor 8 receives infrared rays somewhat from the inside of the predetermined area A. That is, the detection area C of the infrared sensor 8 is an area somewhat smaller than the predetermined area A.

The infrared sensor 8 is configured to output a detection signal of a moving object on the assumption that a moving object exists in the predetermined area A when the change in the amount of received infrared light from the predetermined area A is greater than or equal to a predetermined value. ing. That is, when a moving object enters (intrudes into) a predetermined area A, the amount of infrared light emitted from or reflected from the predetermined area A is changed by the infrared light emitted from the moving object and the infrared light reflected by the moving object. The amount of received light 8 changes by a predetermined value or more. Thereby, the infrared sensor 8 detects the moving body that has entered the predetermined area A. The infrared sensor 8 outputs the detection signal to the lighting control device 10 and the image processing device 12 as shown in FIG.

The light emitting diode elements 9 are LED bare chips that emit near-infrared light, and a plurality of the light emitting diode elements 9 are mounted on a substrate 19 as shown in FIG. The light emitting diode element 9 and the substrate 19 are formed in the LED module 20. Near-infrared light emitted from the light-emitting diode element 9 passes through the light-transmitting plate 18 of the case 16 and is irradiated to a predetermined area A. And since the light emitting diode element 9 consists of two or more, the irradiation area B is an area | region larger than the predetermined area A including the inner side of the predetermined area A, as shown in FIG. And since near-infrared light is hard to be seen by a person even at night, the irradiation area B of the light emitting diode element 9 is illuminated without being known to a person who enters the predetermined area A.

The light emitting diode element 9 is controlled to be turned on by the lighting control device 10. As illustrated in FIG. 1, the lighting control device 10 is supplied with DC power from a power supply unit 13. When a moving body detection signal output from the infrared sensor 8 is input, a constant current is supplied to the light emitting diode element 9 for a predetermined time, for example, 1 second. The light emitting diode element 9 is lit for a predetermined time (1 second) and emits near infrared light.

As shown in FIG. 3, the visible light image sensor 11 is formed in a substantially rectangular body, and a light receiving portion 11 a is provided on the lower surface side of the case 16 facing the light transmitting plate 18. The light receiving portion 11a is formed to receive near infrared light or visible light. That is, since the translucent plate 18 faces the predetermined area A, the light receiving unit 11 a emits near-infrared light or visible light that is radiated or reflected from the predetermined area A and transmitted through the translucent plate 18. Receive light. In addition, as shown in FIG. 4, the light receiving unit 11 a has a detection area D that is somewhat smaller than the detection area C of the infrared sensor 8 among the near infrared light or visible light emitted or reflected from the predetermined area A. Receives near-infrared or visible light from.

The visible light image sensor 11 is configured to calculate and generate a luminance distribution of a predetermined area A based on near infrared light or visible light received by the light receiving unit 11a, and output the luminance distribution as an image. ing. Here, if a moving object is contained in the predetermined area A, the luminance of the moving object appears in the luminance distribution of the predetermined area A, and the luminance image of the moving object appears in the image of the luminance distribution. The image of the luminance distribution is output to the image processing device 12 as shown in FIG.

The image processing apparatus 12 includes a microcomputer, a ROM, a RAM, a storage unit, and the like (not shown), and operates with a DC power supplied from the power supply unit 13. The infrared sensor 8 detects a moving object that has entered a predetermined area A (detection area C). When the detection signal is input, the visible light image sensor 11 is supplied with operating power. The operation power is supplied for a set time, for example, 2 seconds.

In the image processing device 12, the moving object that has entered the predetermined area A is preset in the microcomputer based on the luminance distribution image of the predetermined area A (detection area D) output from the visible light image sensor 11. It is determined whether the detected object is a human body. That is, the luminance image (luminance shape) of the moving object appearing in the luminance distribution image of the predetermined area A is compared with the preset image (shape) of the detection object, and the moving object of the predetermined area A is compared. Coincides with the preset detection object, and is similar to, or deformed with respect to the preset detection object, the moving object that has entered the predetermined area A is set to the preset detection object. It is judged that it is a thing. Here, the detection object (human body) set in advance has its image shape, operation state, heat quantity, etc. stored in advance in the storage unit as image data.

In this way, the image processing device 12 determines the presence / absence of a preset detection object (human body) in the predetermined area 8 and, as a result of the determination, sends a preset detection object presence / absence signal to the control device 4. It is configured to output. For example, DC5V is output as a preset detection target presence signal, and DC0V is output as a preset detection target absence signal. Here, the image processing apparatus 12 is configured to output the presence signal for a certain period of time, for example, 1 minute. That is, even if a predetermined detection object comes out from the predetermined area A and no predetermined detection object exists in the predetermined area A, the predetermined time (1 minute) from that time point. Outputs the presence signal.

The power source unit 13 is connected to a commercial AC power source Vs, and is configured to convert an AC voltage into a DC power source and supply the DC power source to the lighting control device 10 and the image processing device 12. In addition, an operating power is constantly supplied to the infrared sensor 8.

The moving object detection device 2 is configured as described above. When a moving object enters the predetermined area A, the moving object detection device 2 outputs a presence / absence signal of a predetermined detection object (human body) in the predetermined area A. And the lighting state of the main light source 5 of the lighting fixture 3 is controlled by the presence / absence signal of the detection target set in advance.

The luminaire 3 is provided with a control device 4 and a main light source 5. The main light source 5 includes, for example, a light emitting diode (LED) element that emits visible light such as white light. The control device 4 is connected to a commercial AC power supply Vs.

When the presence signal (DC5V) of the detection object (human body) set in advance is output from the image processing device 12 of the moving object detection device 2, the control device 4 converts the AC voltage into a DC voltage and supplies it to the main light source 5. Supply constant current. Further, when the presence signal (DC5V) of the preset detection target is not output from the image processing device 12 and the absence signal (DC0V) is output, the supply of the constant current to the main light source 5 is stopped.

The main light source 5 is turned on when a constant current is supplied from the control device 4, and is turned off when the constant current is not supplied. The control device 4 functions as a lighting device that controls the lighting of the main light source 5. Thus, the control device 4 is configured to control the lighting state of the main light source 5 in accordance with the preset presence / absence signal of the detection target as the determination result output from the moving object detection device 2.

As shown in FIG. 2, the control device 4 is disposed inside a fixture main body 21 formed in a substantially triangular tube shape of the lighting fixture 3. Further, the main light source 5 is formed in the LED module 22 and is disposed on the front side and the back side in the drawing of the instrument main body 21. The LED module 22 and the like are covered with a substantially bowl-shaped glove 23 attached to the instrument main body 21. A waterproof packing (not shown) is interposed between the instrument body 21 and the globe 23. The globe 23 is made of, for example, transparent acrylic.

The fitting body 24 is integrally formed with the instrument body 21. The joint bracket 24 is fixed to a mounting bracket 25 attached to the pole 6 by mounting bolts 26 and 26. Thus, the luminaire 3 is attached to the pole 6.

Next, the operation of the first embodiment of the present invention will be described.

Since the infrared sensor 8 of the moving object detection device 2 is always operated by operating power supplied from the power supply unit 13, when a moving object, for example, a human body enters the predetermined area A, the moving object is detected, and the detection signal is transmitted. This is output to the lighting control device 10 and the image processing device 12.

The lighting control device 10 lights the light emitting diode element 9 for a predetermined time (for example, 1 second) in accordance with the detection signal. The light emitting diode element 9 emits near infrared light and illuminates a predetermined area A.

For example, at night or when the illuminance of the predetermined area A is low, the difference between the luminance of the predetermined area A and the luminance of the moving object entering the predetermined area A is small, and the luminance distribution of the predetermined area A The luminance of moving objects is difficult to appear. Here, even in the case of nighttime or when the illuminance of the predetermined area A is low, if the predetermined area A is illuminated by the near-infrared light emitted from the light-emitting diode element 9, the moving object becomes near-infrared light. Therefore, the luminance of the moving object appears in the luminance distribution of the predetermined area A.

Further, when the detection signal output from the infrared sensor 8 is input, the image processing device 12 supplies control power to the visible light image sensor 11 and operates the visible light image sensor 11 for a set time, for example, 2 seconds.

The visible light image sensor 11 includes a period during which the light emitting diode element 9 is lit, and receives near-infrared light or visible light emitted or reflected from a predetermined area A at the light receiving unit 11a. Then, based on the received near-infrared light or visible light, a luminance distribution in a predetermined area A is calculated and generated, and output to the image processing device 12 as an image. Here, in the image of the luminance distribution in the predetermined area A, the luminance image of the moving object that has entered the predetermined area A appears.

The infrared sensor 8 continuously detects a moving object that moves in a predetermined area A, and outputs a detection signal of the moving object each time. The lighting control device 10 and the image processing device 12 perform the above control every time a moving body detection signal is input.

The image processing device 12 compares the luminance image of the moving object appearing in the luminance distribution image of the predetermined area A with the image data of the preset detection object stored in the storage unit. When it is determined that the moving object that has entered the predetermined area A is a preset detection target (human body), a preset detection target presence signal (DC5V) is output to the control device 4, and a predetermined target is detected. If it is determined that the moving object entering the area A is different from the preset detection target (human body), a preset detection target absence signal (DC0V) is output. Thereby, the moving body detection apparatus 2 can detect only a preset detection target that is a target human body to be detected among the moving bodies that have entered the predetermined area A.

Then, the control device 4 turns on the main light source 5 for a certain period of time (for example, 1 minute) in accordance with a preset presence signal of the detection object. Visible light (white light) emitted from the main light source 5 illuminates a large area on the ground surface including the predetermined area A. As a result, the moving object person and the outside person are notified that the preset detection object has entered the predetermined area A.

As described above, the moving object detection device 2 illuminates the predetermined area A with the near-infrared light emitted from the light emitting diode element 8 when the moving object enters the predetermined area A. For example, the predetermined area A Even when the illuminance is low or at night, the moving object can be illuminated with at least near-infrared light, and the luminance image of the moving object is added to the luminance distribution image of the predetermined area A output from the visible light image sensor 11. As a result, a preset detection object (human body) can be reliably determined in the image processing apparatus 12, and a preset detection object (entering a predetermined area A) ( (Human body) can be reliably detected. The moving object detection device 2 does not use an expensive infrared image sensor and can be formed at a low cost.

In addition, since the visible light image sensor 11 is not supplied with operating power from the image processing device 12 unless a moving object enters the predetermined area A, the visible light image sensor 11 does not consume power over a period in which the moving object does not enter the predetermined area A. Thus, power saving of the moving object detection device 2 can be achieved.

Further, the near infrared light emitted from the light emitting diode element 9 is difficult to be seen by humans even at night, so when a person enters the predetermined area A, the predetermined area is not known to the person. A can be illuminated for a predetermined time.

And since the lighting device 1 changes the lighting state of the main light source 5 of the lighting fixture 3 when the moving body detection apparatus 2 detects the preset detection target object (human body) which entered the predetermined area A, It is possible to easily notify the moving object person and an outsider that a predetermined detection object (human body) has entered the predetermined area A.

The light emitting diode element 9 as a light source may be formed to emit visible light. In this case, the lighting control device 10 can illuminate the predetermined area A without being known to a person who has entered the predetermined area A by turning on the light emitting diode element 9 instantaneously (for example, 0.1 second). .

FIG. 5 is a schematic block diagram of an illuminating device showing Embodiment 2 of the present invention. The same parts as those in FIG. 1 are denoted by the same reference numerals, and description thereof is omitted.

A lighting device 1A shown in FIG. 5 is the same as the lighting device 1 shown in FIG. 1 except that a lighting fixture 3A and a notification sound generating device 27 are provided. The control device 4A is configured to turn on and off the commercial AC power supply Vs to the lighting fixture 3A and the notification sound generator 27.

The lighting fixture 3A is provided with a main light source 5 and a lighting device 28 that controls the lighting of the main light source 5. The lighting device 28 is configured to convert an AC voltage of the commercial AC power source Vs into a DC voltage and supply a constant current to the main light source 5. The main light source 5 is turned on when the commercial AC power source Vs is supplied to the lighting device 28, and is turned off when the commercial AC power source Vs is shut off.

The notification sound generator 27 is, for example, a buzzer or a chime, and is installed at a desired location. The notification sound generator 27 generates a predetermined sound when the commercial AC power supply Vs is supplied, and does not generate a sound when the commercial AC power supply Vs is shut off.

The control device 4 </ b> A includes a control unit 29 and a switch 30. The control unit 29 is connected to the image processing device 12 of the moving object detection device 2 and inputs a preset detection target presence / absence signal as a determination result output from the image processing device 12. The normally open contacts 30a, 30a of the switch 30 are provided between the commercial AC power source Vs, the lighting fixture 3A, and the notification sound generator 27.

The control unit 29 controls the switch 30 so that the normally open contacts 30a and 30a are opened when a preset detection target absence signal (for example, DC0V) is output from the moving object detection device 2. Thereby, 3 A of lighting fixtures and the notification sound generator 27 are each interrupted | blocked from the commercial alternating current power supply Vs.

And the control part 29 will control the switch 30 so that the normally open contacts 30a and 30a will be closed, if the detection target presence signal (DC5V) preset from the moving body detection apparatus 2 is output. Thereby, 3 A of lighting fixtures and the notification sound generator 27 are each connected to commercial alternating current power supply Vs. The luminaire 3A emits visible light (white light) emitted from the main light source 5 and illuminates a large area including the predetermined area A. The notification sound generator 27 generates a sound and notifies that a predetermined detection object (for example, a human body) has entered a predetermined area A.

The illuminating device 1A includes a notification sound generating device 27 and notifies that a predetermined detection object (human body) has entered a predetermined area A, so that it can be used for crime prevention or visitor use.

The present invention detects a human body or the like entering a predetermined area such as a building or a site, generates a warning or lighting, a crime prevention control system, a lighting control system that controls lighting equipment, an air conditioning control system that controls air conditioning equipment, etc. Alternatively, the present invention can be used for a traffic control system, a physical distribution control system, a manufacturing control system, and the like that detect a vehicle or an article passing through a predetermined area and notify the information.

DESCRIPTION OF SYMBOLS 1, 1A ... Illuminating device, 2 ... Moving body detection apparatus, 3, 3A ... Lighting fixture, 4, 4A ... Control apparatus, 8 ... Infrared sensor as a detection means, 9 ... Light emitting diode (LED) element as a light source, 10 ... Lighting control device, 11 ... Visible light image sensor as an image sensor, 12 ... Image processing device

Claims (2)

Detecting means for detecting a moving object entering a predetermined area;
A light source that emits radiation including near infrared light in at least the predetermined area;
A lighting control device that turns on the light source when the detection means detects a moving object;
An image sensor that includes a light receiving unit that receives light from the predetermined area, and outputs a luminance distribution of the predetermined area as an image based on the light received by the light receiving unit;
An image processing device that determines whether or not the moving object detected by the detection means is a preset detection object based on the image output from the image sensor and outputs the determination result;
A moving object detection apparatus comprising: A moving object detection device according to claim 1;
A luminaire provided with a main light source emitting visible light;
A control device for controlling the lighting state of the main light source according to the determination result output from the moving object detection device;
An illumination device comprising:

Images