JP6155529B2 - Lighting system - Google Patents

Description

  The present invention relates to a lighting system.

  As a conventional lighting system, a lighting system for road lighting described in Patent Document 1 is exemplified. The lighting system described in Patent Literature 1 includes a plurality of lighting fixtures (road lights) installed along a road. Each luminaire includes a sensor that detects a moving body (for example, an automobile) that passes through a road, and a wireless communication unit that performs wireless communication using radio waves as a medium. And if the sensor of any lighting fixture detects a moving body, while the said lighting fixture will light its own light source, a detection signal will be wirelessly transmitted with respect to another lighting fixture from a wireless communication part. Other luminaires turn on their light sources when receiving a detection signal by the wireless communication unit. As a result, since any lighting fixture detects a moving body, and a plurality of lighting fixtures work together to turn on the light source, it is possible to ensure safety during movement of the moving body while avoiding unnecessary illumination. Energy saving can be achieved.

JP 2012-226993 A

  By the way, the plurality of lighting fixtures that light the light sources in conjunction with each other as described above are grouped so that each belongs to the same group. For example, when a plurality of roads intersect vertically and horizontally, the plurality of lighting fixtures that illuminate each road are grouped so as to belong to different groups.

  Here, a case is considered in which a car traveling on the road A and a car traveling on the road B travel on the same road C after changing the course. In this case, in the group C of lighting fixtures corresponding to the road C, detection signals are received from both the group A of lighting fixtures corresponding to the road A and the group B of lighting fixtures corresponding to the road B. However, the detection signal (radio wave) transmitted from the lighting fixture of group A and the detection signal (radio wave) transmitted from the lighting fixture of group B collide, and the lighting fixture of group C cannot be received. There is a possibility that the timing when the lighting fixture turns on the light source will be delayed.

  The present invention has been made in view of the above problems, and an object of the present invention is to suppress detection information transmission delay.

The illumination system of the present invention includes a plurality of illumination devices and one to a plurality of relay devices. The illumination device receives a light source, a lighting circuit unit that lights the light source, and a radio signal using radio waves as a medium. A wireless communication unit that transmits and receives; a moving body detection unit that detects a moving body; and when the moving body detection unit detects the moving body, the lighting circuit unit is controlled to light the light source, and the moving body A control unit that causes the wireless communication unit to transmit a wireless signal including detection information of the moving body by the detection unit, and the control unit acquires the detection information from the wireless signal received by the wireless communication unit The relay device includes: a relay communication unit that transmits and receives the wireless signal; and a relay processing unit that controls the relay communication unit and relays the wireless signal. The lighting device In the lighting system in which a unique identification code is assigned to each relay device, and the lighting devices are grouped into a plurality of groups by the identification code, the relay processing unit is a unique group assigned to each of the plurality of groups. Number and a correspondence relationship between the group numbers, and when the relay communication unit receives the wireless signal, the transmission address of the wireless signal is set based on the correspondence relationship. The wireless communication unit is configured to transmit the wireless signal in which the group number corresponding to the group number to which the identification code belongs is set as a transmission destination address from the relay communication unit, and the wireless communication unit transmits the received wireless signal When the group number set in the destination address matches the group number to which the group belongs, When acquiring the detection information from the signal, the relay processing unit may be transmitted multiple times from the relay communication section to the radio signals are set to the same the group number to the destination address within a predetermined time period, said plurality of times The wireless signal is transmitted from the relay processing unit by thinning out one to a plurality of times .
The illumination system of the present invention includes a plurality of illumination devices and one to a plurality of relay devices. The illumination device receives a light source, a lighting circuit unit that lights the light source, and a radio signal using radio waves as a medium. A wireless communication unit that transmits and receives; a moving body detection unit that detects a moving body; and when the moving body detection unit detects the moving body, the lighting circuit unit is controlled to light the light source, and the moving body A control unit that causes the wireless communication unit to transmit a wireless signal including detection information of the moving body by the detection unit, and the control unit acquires the detection information from the wireless signal received by the wireless communication unit The relay device includes: a relay communication unit that transmits and receives the wireless signal; and a relay processing unit that controls the relay communication unit and relays the wireless signal. The lighting device In the lighting system in which a unique identification code is assigned to each relay device, and the lighting devices are grouped into a plurality of groups by the identification code, the relay processing unit is a unique group assigned to each of the plurality of groups. Number and a correspondence relationship between the group numbers, and when the relay communication unit receives the wireless signal, the transmission address of the wireless signal is set based on the correspondence relationship. The wireless communication unit is configured to transmit the wireless signal in which the group number corresponding to the group number to which the identification code belongs is set as a transmission destination address from the relay communication unit, and the wireless communication unit transmits the received wireless signal When the group number set in the destination address matches the group number to which the group belongs, The detection information is acquired from a signal, and the relay processing unit only when the identification code set in the transmission source address is the identification code to be relayed among the radio signals received by the relay communication unit The relay communication unit transmits the wireless signal.

  In this illumination system, it is preferable that the wireless communication unit or the relay communication unit transmits the wireless signal including the detection information a plurality of times within a predetermined transmission period.

  In this illumination system, it is preferable that the wireless communication unit or the relay communication unit includes information indicating an order of transmission within the transmission period in the wireless signal.

  In this illumination system, the relay processing unit is configured to perform the relay communication only when the identification code set in the transmission source address is the identification code to be relayed among the radio signals received by the relay communication unit. It is preferable that the wireless signal is transmitted to the unit.

  In the lighting system of the present invention, each lighting device exchanges detection information within each group, but the relay device relays the detection information between lighting devices belonging to different groups. There is an effect that transmission delay of information can be suppressed.

1 shows an embodiment of a lighting system according to the present invention, where (a) is a block diagram of a lighting device, and (b) is a block diagram of a relay device. It is operation | movement explanatory drawing same as the above. It is explanatory drawing of the frame format of a radio signal same as the above.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of an illumination system according to the present invention will be described in detail with reference to the drawings.

  The lighting system according to the present embodiment includes a plurality of lighting devices 1 and one to a plurality of relay devices 2. As shown in FIG. 2, the lighting device 1 is attached to the tip of a pole (not shown) installed along a two-lane road 5A, 5B on which a moving body (automobile 6) travels face to face. In addition, although illustration is abbreviate | omitted, the relay apparatus 2 is installed in the place which can communicate with each illuminating device 1 wirelessly.

  Each lighting device 1 is a road light that illuminates the road 5, and has an oval light distribution characteristic along the traveling direction of the automobile 6 (the horizontal direction and the vertical direction in FIG. 3). A power line (not shown) branched from a power cable (not shown) buried in the ground is wired inside the pole, and power is supplied to the lighting device 1 through the power line. .

  Moreover, each illuminating device 1 is provided with the control part 10, the light source 11, the lighting circuit part 12, the moving body detection part 13, the radio | wireless communication part 14, etc. as shown to Fig.1 (a). However, the control unit 10, the light source 11, the lighting circuit unit 12, the moving body detection unit 13, the wireless communication unit 14, and the like are stored in a housing (not shown) formed by processing a metal plate into a box shape. Is done.

  The light source 11 is composed of a light emitting diode, but may be a high-intensity discharge lamp or the like. The lighting circuit unit 12 converts AC power fed through the power line into DC power, supplies the converted DC power to the light source 11 to light it, and adjusts the amount of light from the light source 11 by increasing or decreasing the DC power ( Dimming). However, since such a lighting circuit unit 12 can be realized by using a conventionally well-known technique, illustration and description of a detailed circuit configuration are omitted.

  The radio communication unit 14 corresponds to, for example, a “low power radio station” defined in the Radio Law, and is configured to perform radio communication using radio waves in a frequency band defined in the Radio Law as a medium. However, since such a wireless communication unit 14 can be realized by using a conventionally known technique, illustration and description of a detailed configuration are omitted.

  The mobile body detection unit 13 includes, for example, an active type mobile body detection sensor using radio waves as a detection medium, detects the presence of the automobile 6 in the monitoring area including the road 5 and the direction in which the automobile 6 travels. It is configured to pass detection information to the control unit 10. However, since such an active-type moving body detection sensor is well known in the art, detailed configuration and operation illustration and description are omitted.

  The control unit 10 includes a microcontroller as a main component, a process for controlling the lighting circuit unit 12 according to detection information passed from the moving body detection unit 13 (illumination control process), and a wireless signal including the detection information as a wireless communication unit 14 is configured to perform processing (notification processing) to be transmitted from 14. The illumination control process includes a process of controlling the lighting circuit unit 12 according to the detection information received from the other illumination device 1 by the wireless communication unit 14.

  Here, the control unit 10 stores an identification code and a group number in a built-in memory of the microcontroller. The identification code is a unique code assigned to each lighting device 1 and is used for an address in wireless communication. The group number is a unique identification code assigned to a group to which a plurality of lighting devices 1 belong. That is, the group number m is assigned to the lighting devices 1 belonging to the group having the group number m (m = 1, 2,..., N), and the group number m is stored in the built-in memory of the control unit 10.

For example, as shown in FIG. 2, a road 5A extending from east to west intersects with a road 5B extending from north to south, and 22 lighting devices 1 _i (i = 1, 2,..., 22) are within the range shown in the figure. is set up. These 22 lighting devices 1 _i are grouped into 8 groups G1 to G8. That is, two lighting devices 1 ₁ and 1 ₂ installed on the southwest side of the intersection of the road 5A belong to the first group G1, and the second group G2 belongs to the northwest side of the intersection of the road 5A. Three installed lighting devices 1 ₃ to ₁₅ belong. The third group G3 includes three lighting devices ₁₆ to ₁₈ installed on the southwest side of the intersection of the road 5B, and the fourth group G4 is located on the southeast side of the intersection of the road 5B. Three installed lighting devices 1 ₉ to ₁₁ belong. The fifth group G5 includes two lighting devices 1 ₁₂ and 1 ₁₃ installed on the southeast side from the intersection of the road 5A, and the sixth group G6 is located on the northeast side from the intersection of the road 5A. lighting device _{1 14-1 16} of three of the installed belongs. Furthermore, the seventh group G7 includes three lighting devices 1 ₁₇ to 1 ₁₉ installed on the northeast side of the intersection of the road 5B, and the eighth group G8 is located on the northwest side of the intersection of the road 5B. installed three lighting device _{1 20-1 22} were belongs. These eight groups G1 to G8 are assigned group numbers 1 to 8.

  Further, the relay device 2 includes a relay processing unit 20, a relay communication unit 21, a storage unit 22, and the like as shown in FIG.

  Similar to the wireless communication unit 14 of the lighting device 1, the relay communication unit 21 corresponds to a “low-power radio station” defined in the Radio Law, and is a radio that uses radio waves in the frequency band defined in the Radio Law as a medium. It communicates. However, since such a relay communication unit 21 can be realized by using a conventionally known technique, illustration and description of a detailed configuration are omitted.

  The relay processing unit 20 includes a microcontroller as a main component, and is configured to perform relay processing described later. The storage unit 22 is composed of an electrically rewritable nonvolatile semiconductor memory (flash memory or the like), and stores a data table to be described later. However, the data table may be stored in a built-in memory of a microcontroller constituting the relay processing unit 20.

The data table shows the correspondence between each group number m as well as the correspondence between the identification codes of the plurality of lighting devices 1 _i and the group number m. The latter correspondence relationship for each group number m means that when a car is detected in an arbitrary group Gk (k = 1, 2,...), The car may pass through after that. The group Gk is collectively shown as the transmission destination of the detection information. For example, if a car passing through the second group G2 goes straight through the intersection, it passes through the sixth group G6, if turning left at the intersection, it passes through the eighth group G8, and if turning right at the intersection, the fourth group G4. Pass through. Therefore, the fourth, sixth, and eighth groups G4, G6, and G8 can be associated with the second group G2.

  FIG. 3 shows a frame format of a wireless signal (frame) exchanged between the wireless communication unit 14 of the lighting device 1 and the relay communication unit 21 of the relay device 2. This frame format includes fields of a preamble, a unique word, a transmission destination address, a transmission source address, data, and a check code. In the preamble field, for example, a 32-bit bit string (preamble) in which 1 and 0 alternate is stored, and is used to establish bit synchronization of radio signals received by the radio communication unit 14 and the relay communication unit 21. The bit example (unique word) stored in the unique word field is used by the wireless communication unit 14 and the relay communication unit 21 to establish frame synchronization.

  Further, the identification code of the illuminating device 1 or relay device 2 that is the transmission source of the wireless signal is stored in the transmission source address field, and the illumination device 1 or relay device that is the transmission destination of the wireless signal is stored in the transmission destination address field. 2 identification codes and group numbers are stored.

  Next, operation | movement of the illumination system of this embodiment is demonstrated in detail with reference to FIG.

First, when there is no automobile 6 traveling on the roads 5A and 5B, in each lighting device _1i , the control unit 10 controls the lighting circuit unit 12 to reduce the light amount of the light source 11 (for example, the light amount during rated lighting). Is adjusted to light with a light amount of 30 to 60% (first light amount).

The automotive 6A as shown in FIG. 2 travels to the west road 5A east, and is detected by the moving body detecting section 13 of the eastern end of the lighting device 1 ₁₃ of the fifth group G5. In the illumination device 1 _13, the light source 11 control unit 10 which has received the detection information from the moving body detection unit 13 controls the lighting circuit unit 12 causes the rated lighting, the radio signal including the detection information from the wireless communication unit 14 Send it. The control unit 10, the destination address of the wireless signal, and set the multicast address for broadcasting to other illumination device 1 ₁₂ and the relay device 2 in the group itself belongs (Fifth group G5) Yes. Therefore, the detection information transmitted by radio signals from the illumination device 1 _13, only the lighting device 1 ₁₂ and the relay device 2 is able to obtain in the same group.

Control unit 10 of the other lighting device 1 ₁₂ receives the detection information from the radio signal received by the wireless communication unit 14, the light source 11 is turned rated by controlling the lighting circuit unit 12.

Relay processing section 20 of the relay device 2 receives the detection information from the radio signal received by the relay communication section 21 and the source address (identification code of the illumination device 1 _13), referring to illuminate the data table of the storage unit 22 device 1 ₁₃ to obtain the other group number m associated with the group number m belongs. For example, the group numbers 1, 4, and 8 of the first, fourth, and eighth groups G1, G4, and G8 are associated with the fifth group G5. The relay processing unit 20 sets these three group numbers 1, 4 and 8 as transmission destination addresses, generates a frame in which detection information is set in the data field, and transmits the generated frame from the relay communication unit 21 to a radio signal. Send as.

When the control unit 10 of the lighting devices 1 ₁ ,... Belonging to the first, fourth, and eighth groups G1, G4, and G8 receives the detection information from the radio signal received by the radio communication unit 14, the lighting circuit unit 12 To turn on the light source 11. However, the respective control unit 10, since the transmission source of the detection information is another lighting device 1, _i without repeater 2 belonging to the same group, than less and the first light amount than the amount at the time of lighting the rated light source 11 Dimming and lighting with a large amount of light (second light amount).

When the car 6A enters the monitoring area at the second lighting device 1 ₁₂ from the eastern end, it is detected by the moving body detecting section 13 of the illumination device 1 _12. Control unit 10 of the illumination device 1 ₁₂ may cause broadcast radio signals comprising detection information from the wireless communication unit 14 (multicast). Further, when the motor vehicle. 6A exits the monitoring area in the illumination device 1 ₁₃ of the easternmost, moving body detection unit 13 of the lighting device 1 ₁₃ does not detect a car 6A. Therefore, the control unit 10 of the lighting device 1 ₁₃ controls the lighting circuit unit 12 after a predetermined time (several seconds to several tens of seconds) has elapsed from the time when the detection information from the moving body detection unit 13 are not input source 11 is returned to the dimming lighting state of the first light quantity.

Then, this car 6A enters the first group G1 are straight at the intersection, and is detected by the first easternmost lighting apparatus groups G1 1 ₂ of the moving body detecting section 13. In the illumination device 1 _2, the light source 11 control unit 10 which has received the detection information from the moving body detection unit 13 controls the lighting circuit unit 12 causes the rated lighting, the radio signal including the detection information from the wireless communication unit 14 Send it. Note that the control unit 10 sets a multicast address for broadcasting to the other lighting devices ₁₁ and the relay device 2 in the group (first group G1) to which the control unit 10 belongs, as the transmission destination address of the wireless signal. Yes. Therefore, detection information from the illumination device 1 ₂ is transmitted by radio signal, only the lighting device 1 ₁ and the relay device 2 is able to obtain in the same group.

Control unit 10 of the other lighting device 1 ₁ receives the detection information from the radio signal received by the wireless communication unit 14, the light source 11 is turned rated by controlling the lighting circuit unit 12.

Relay processing section 20 of the relay device 2 receives the detection information from the radio signal received by the relay communication section 21 and the source address (the lighting device 1 ₂ of the identification code), referring to illuminate the data table of the storage unit 22 device 1 ₂ acquires another group number m associated with the group number m belongs. Then, the relay processing unit 20 sets the acquired group number m as a transmission destination address, generates a frame in which detection information is set in the data field, and transmits the generated frame as a radio signal from the relay communication unit 21 .

On the other hand, the control unit 10 of the lighting devices 1 ₉ ,... Belonging to the fourth and eighth groups G4, G8 does not acquire detection information from any of the relay device 2 and other lighting devices 1 belonging to the same group, In addition, the duration of the situation in which the mobile unit detection unit 13 does not detect the mobile unit is counted. And when this continuation time reaches predetermined time, the control part 10 will control the lighting circuit part 12, and will return the light source 11 to the light control lighting state of a 1st light quantity.

As described above, the lighting system according to the present embodiment includes the plurality of lighting devices 1 _i and the one or more relay devices 2. The lighting device 1 _i includes a light source 11, a lighting circuit unit 12 that lights the light source 11, a wireless communication unit 12 that transmits and receives a radio signal using radio waves as a medium, and a moving body detection unit 13 that detects a moving body. . Further, the lighting device 1 _i controls the lighting circuit unit 12 to turn on the light source 11 when the moving object detection unit 13 detects the moving object, and also includes a wireless signal including information on detection of the moving object by the moving object detection unit 13. Is transmitted from the wireless communication unit 14. When the detection information is acquired from the radio signal received by the radio communication unit 14, the control unit 10 controls the lighting circuit unit 12 to turn on the light source 11.

  The relay device 2 includes a relay communication unit 21 that transmits and receives radio signals, and a relay processing unit 20 that controls the relay communication unit 21 to relay radio signals.

A unique identification code is assigned to each of the lighting device 1 _i and the relay device 2, and the lighting device 1 _i is grouped into a plurality of groups by the identification code.

  The relay processing unit 20 stores a unique group number assigned to each of a plurality of groups and a correspondence relationship between the group numbers. In addition, when the relay communication unit 21 receives a radio signal, the relay processing unit 20 transmits a group number corresponding to the group number to which the identification code set in the transmission source address of the radio signal belongs based on the correspondence relationship. A radio signal set in the address is configured to be transmitted from the relay communication unit 21.

  The wireless communication unit 14 of each lighting device 1 acquires detection information from the wireless signal when the group number set in the transmission destination address of the received wireless signal matches the group number to which the lighting device 1 belongs.

  As described above, according to the lighting system of this embodiment, the individual lighting devices 1 exchange detection information within each group, but the relay device 2 relays the detection information between the lighting devices 1 belonging to different groups. Therefore, the transmission delay of detection information can be suppressed as compared with the conventional example.

  Here, it is preferable that the radio communication unit 14 or the relay communication unit 21 transmits a radio signal including detection information a plurality of times within a predetermined transmission period. In this way, detection information can be reliably transmitted even if communication failure occurs due to noise or the like, compared to a case where a wireless signal is transmitted only once. Note that the radio communication unit 14 or the relay communication unit 21 preferably includes information indicating the order of transmission within the transmission period in the radio signal. Thereby, the receiving side can determine whether or not the received radio signal is retransmitted (second or later).

  In addition, when the relay processing unit 20 transmits a radio signal having the same group number as the transmission destination address from the relay communication unit 21 a plurality of times within a predetermined period, the relay processing unit 20 skips one to a plurality of times and relays It is preferable to transmit a radio signal from the processing unit 21. For example, as shown in FIG. 2, it is assumed that a car 6A travels on the road 5A from east to west, and a car 6B travels on the road 5B from south to north. At this time, the detection information relayed by the relay device 2 is transmitted to the first group G1 and the eighth group G8 where two automobiles 6A and 6B may enter. Become. However, the object of lighting control is achieved if only one of the detection information is transmitted to the first and second groups G1 and G8 without transmitting the detection information of the respective automobiles 6A and 6B. The Therefore, when the relay processing unit 20 is in a situation where a wireless signal including detection information is transmitted to the same group a plurality of times, for example, when the wireless signal is transmitted twice, the relay communication unit 21 is thinned out once. If it is transmitted from the wireless communication, useless wireless communication can be suppressed and radio wave congestion can be suppressed.

Further, the relay processing unit 20 transmits the radio signal to the relay communication unit 21 only when the identification code set in the transmission source address is the identification code to be relayed among the radio signals received by the relay communication unit 21. It is preferable to transmit. That is, when there are a plurality of relay devices 2, the number of relay devices 2 that relay radio signals transmitted from the respective lighting devices 1 _i is limited to one, and therefore a plurality of radio signals transmitted from the same lighting device 1 _i are used. It is possible to prevent the relay apparatus 2 from being redundantly relayed.

1 Lighting device 2 Relay device
10 Control unit
11 Light source
12 Lighting circuit
13 Moving object detector
14 Wireless communication unit
20 Relay processing section
21 Relay communication unit

Claims (6)

It is composed of a plurality of lighting devices and one or more relay devices,
The illumination device includes a light source, a lighting circuit unit that lights the light source, a wireless communication unit that transmits and receives a radio signal using radio waves as a medium, a moving body detection unit that detects a moving body, and the moving body detection unit. A control unit that controls the lighting circuit unit when the moving body is detected to turn on the light source, and transmits a wireless signal including detection information of the moving body by the moving body detection unit from the wireless communication unit; With
The control unit controls the lighting circuit unit when the detection information is acquired from the wireless signal received by the wireless communication unit, and turns on the light source.
The relay device includes a relay communication unit that transmits and receives the radio signal, and a relay processing unit that controls the relay communication unit to relay the radio signal,
In the lighting system in which a unique identification code is assigned to each of the lighting device and the relay device, and the lighting devices are grouped into a plurality of groups by the identification code,
The relay processing unit stores a unique group number assigned to each of the plurality of groups and a correspondence relationship between the group numbers, and when the relay communication unit receives the radio signal, the correspondence Based on the relationship, the relay communication unit transmits the wireless signal in which the group number corresponding to the group number to which the identification code set in the transmission source address of the wireless signal belongs is set as a transmission destination address. Configured,
The wireless communication unit acquires the detection information from the wireless signal when the group number set in the transmission destination address of the received wireless signal matches the group number to which the wireless communication unit belongs ,
When the relay processing unit transmits the radio signal in which the same group number is set to the transmission destination address from the relay communication unit a plurality of times within a predetermined period, the relay processing unit thins out one to a plurality of times And transmitting the wireless signal from the relay processing unit . It is composed of a plurality of lighting devices and one or more relay devices,
The illumination device includes a light source, a lighting circuit unit that lights the light source, a wireless communication unit that transmits and receives a radio signal using radio waves as a medium, a moving body detection unit that detects a moving body, and the moving body detection unit. A control unit that controls the lighting circuit unit when the moving body is detected to turn on the light source, and transmits a wireless signal including detection information of the moving body by the moving body detection unit from the wireless communication unit; With
The control unit controls the lighting circuit unit when the detection information is acquired from the wireless signal received by the wireless communication unit, and turns on the light source.
The relay device includes a relay communication unit that transmits and receives the radio signal, and a relay processing unit that controls the relay communication unit to relay the radio signal,
In the lighting system in which a unique identification code is assigned to each of the lighting device and the relay device, and the lighting devices are grouped into a plurality of groups by the identification code,
The relay processing unit stores a unique group number assigned to each of the plurality of groups and a correspondence relationship between the group numbers, and when the relay communication unit receives the radio signal, the correspondence Based on the relationship, the relay communication unit transmits the wireless signal in which the group number corresponding to the group number to which the identification code set in the transmission source address of the wireless signal belongs is set as a transmission destination address. Configured,
The wireless communication unit acquires the detection information from the wireless signal when the group number set in the transmission destination address of the received wireless signal matches the group number to which the wireless communication unit belongs,
The relay processing unit transmits the radio signal to the relay communication unit only when the identification code set in the transmission source address is the identification code to be relayed among the radio signals received by the relay communication unit. lighting system that is characterized in that to transmit the. The wireless communication unit or the relay communication section, an illumination system of claim 1, wherein the radio signal, and transmits a plurality of times within a predetermined transmission period including the detection information. The illumination system according to claim 2, wherein the wireless communication unit or the relay communication unit transmits the wireless signal including the detection information a plurality of times within a predetermined transmission period . The lighting system according to claim 3 or 4, wherein the wireless communication unit or the relay communication unit includes information indicating an order of transmission within the transmission period in the wireless signal . The relay processing unit transmits the radio signal to the relay communication unit only when the identification code set in the transmission source address is the identification code to be relayed among the radio signals received by the relay communication unit. The illumination system according to claim 1, wherein the illumination system is transmitted.

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