WO2021090533A1 - Wireless device and illumination system comprising same - Google Patents

Wireless device and illumination system comprising same Download PDF

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Publication number
WO2021090533A1
WO2021090533A1 PCT/JP2020/026598 JP2020026598W WO2021090533A1 WO 2021090533 A1 WO2021090533 A1 WO 2021090533A1 JP 2020026598 W JP2020026598 W JP 2020026598W WO 2021090533 A1 WO2021090533 A1 WO 2021090533A1
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Prior art keywords
wireless
communication
wireless slave
wireless device
slave unit
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PCT/JP2020/026598
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French (fr)
Japanese (ja)
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圭以 亀田
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パナソニックIpマネジメント株式会社
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Publication of WO2021090533A1 publication Critical patent/WO2021090533A1/en

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L1/00Arrangements for detecting or preventing errors in the information received
    • H04L1/08Arrangements for detecting or preventing errors in the information received by repeating transmission, e.g. Verdan system
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L1/00Arrangements for detecting or preventing errors in the information received
    • H04L1/12Arrangements for detecting or preventing errors in the information received by using return channel
    • H04L1/16Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04QSELECTING
    • H04Q9/00Arrangements in telecontrol or telemetry systems for selectively calling a substation from a main station, in which substation desired apparatus is selected for applying a control signal thereto or for obtaining measured values therefrom
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B47/00Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B20/00Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
    • Y02B20/40Control techniques providing energy savings, e.g. smart controller or presence detection

Definitions

  • This disclosure relates to a wireless device and a lighting system equipped with the wireless device.
  • Dimming control by wireless communication has advantages such as no need to install a dimming signal line.
  • Japanese Unexamined Patent Publication No. 2016-058197 Japanese Unexamined Patent Publication No. 2016-058323 Japanese Patent No. 6555433 Japanese Unexamined Patent Publication No. 2019-033032 Japanese Unexamined Patent Publication No. 2000-195681
  • group control can be performed for a plurality of wireless slave units by one-to-many communication.
  • the control signal broadcasted by each of the plurality of wireless slave units is not correctly received, and it is not possible to determine whether or not the communication is correctly performed on the wireless device side which is the master unit.
  • the reliability of control is low.
  • broadcast communication in order to improve the accuracy of communication, it is common to perform retransmission processing after a certain interval.
  • the retransmission process is not necessary, and unnecessary radio waves are transmitted by the retransmission process, which causes communication congestion in situations where there are few wireless communication channels. become. Therefore, it is desired to optimize the number of retransmissions in order to reduce communication congestion without lowering the reliability of communication.
  • One aspect of the present disclosure is a wireless device that controls a plurality of wireless slave units by broadcast communication, with respect to an antenna, a transmission / reception unit that communicates with the wireless slave unit using the antenna, and communication.
  • the transmission / reception unit includes a control unit that performs control, and the transmission / reception unit performs unicast communication with each of the plurality of wireless slave units as a communication target wireless slave unit in order, and the communication target wireless with respect to the unicast communication. If there is no reply from the slave unit, the wireless slave unit to be communicated is retransmitted in unicast communication, and the control unit performs broadcast communication to the plurality of wireless slave units according to the cumulative number of retransmissions. It is a wireless device that determines the number of times of retransmission.
  • the present disclosure it is possible to provide a wireless device in which the number of times of retransmission of a control signal in broadcast communication is optimized and a lighting system including the wireless device.
  • the lighting system 100 includes a wireless device 102, a wireless slave unit 104, and a light source 106.
  • the lighting system 100 controls lighting, extinguishing, dimming, etc. of the light source 106 by transmitting a control signal from the wireless device 102 to the wireless slave unit 104.
  • FIG. 1 shows a configuration in which four wireless slave units 104 are provided, the number of wireless slave units 104 is not limited.
  • the wireless device 102 includes antennas ANT1 and ANT2, a changeover switch 10, a wireless transmission / reception unit 12, and a control unit 14.
  • the wireless device 102 is used to transmit a control signal for controlling lighting in the lighting system 100 to the wireless slave unit 104.
  • Antennas ANT1 and ANT2 are used to transmit and receive high-frequency signals, respectively.
  • the changeover switch 10 is a switch for exclusively selecting the antenna ANT1 and the antenna ANT2 and connecting them to the transmission circuit and the reception circuit of the wireless transmission / reception unit 12. That is, when the antenna ANT1 is connected to the transmitting circuit, the antenna ANT2 is connected to the receiving circuit, and when the antenna ANT2 is connected to the transmitting circuit, the antenna ANT1 is connected to the receiving circuit.
  • the wireless transmission / reception unit 12 transmits / receives a high frequency signal using the antennas ANT1 and ANT2.
  • the wireless transmission / reception unit 12 includes circuits necessary for high-frequency transmission / reception such as a high-frequency amplifier, a mixer, a local oscillator, an intermediate frequency filter (IF filter), a modulation unit, and a demodulation unit.
  • the wireless transmission / reception unit 12 can adopt, for example, a superheterodyne system.
  • the control unit 14 controls the transmission / reception of signals in the wireless transmission / reception unit 12, and also controls switching between the antennas ANT1 and ANT2.
  • the wireless slave unit 104 receives a control signal from the wireless device 102 and controls lighting, extinguishing, dimming, etc. of the light source 106. Further, when the wireless slave unit 104 receives the confirmation signal (Request) transmitted from the wireless device 102 by the unicast communication in which the transmission destination is specified, the wireless slave unit 104 returns a response signal (Ack) to the wireless device 102 accordingly.
  • Request confirmation signal
  • Ack response signal
  • the plurality of wireless slave units 104 to be broadcast communication may be all the wireless slave units 104 included in the lighting system 100, or the wireless slave units 104 may be divided into a plurality of groups and included in any of the groups. It may be a slave unit 104.
  • an identifier may be assigned to each group and the identifier may be included in the control signal and transmitted so that it can be specified whether or not the wireless slave unit 104 is the target of control. .. Further, a different communication frequency may be assigned to each group so that the wireless device 102 and the wireless slave unit 104 can communicate with each other at the assigned communication frequency.
  • the light source 106 is dimmed and controlled to a brightness corresponding to the duty ratio of the PWM signal.
  • the light source 106 is subjected to predetermined dimming control according to the signal pattern of the digital control signal.
  • the control method of the light source 106 is not limited to these, and other control methods may be adopted.
  • the control signal is retransmitted from the wireless device 102 a plurality of times. This makes it possible to increase the possibility of receiving the control signal in the wireless device 102.
  • the number of retransmissions of broadcast communication is changed according to the communication state between the wireless device 102 and the wireless slave unit 104.
  • the number of retransmissions of broadcast communication may be set to a predetermined initial value.
  • the initial value may be, for example, the maximum number of retransmissions specified in the lighting system 100.
  • Each of the wireless slave units 104 included in the lighting system 100 when the light source 106 is not controlled that is, when the control signal for controlling the light source 106 is not transmitted from the wireless device 102 to the wireless slave unit 104.
  • Unicast communication is performed in order. This is for confirming whether or not the communication connection between each of the wireless slave units 104 and the wireless device 102 is normal.
  • one of the wireless slave units 104 (wireless slave unit 1) is selected from the wireless device 102 as a communication target, and a confirmation signal (Req:) is sent to the wireless slave unit 104 (wireless slave unit 1). Request) is sent. It is assumed that each of the wireless device 102 and the wireless slave unit 104 is set to enable unicast communication by identifying each of the wireless slave units 104 in advance by pairing processing or the like.
  • the wireless slave unit 104 (wireless slave unit 1) correctly receives the confirmation signal (Req)
  • the wireless slave unit 104 returns a response signal (Ack: Acknowledge) to the wireless device 102.
  • the wireless device 102 receives the response signal (Ack), it considers that the transmission is completed.
  • the wireless slave unit 104 (wireless slave unit 1) is completed, the next wireless slave unit 104 (wireless slave unit 2) is selected as the communication target, and the wireless slave unit 104 (wireless slave unit 2) is selected. Move to the confirmation process of communication with.
  • a confirmation signal (Req) is transmitted from the wireless device 102 to the wireless slave unit 104 (wireless slave unit 2). If the wireless slave unit 104 (wireless slave unit 2) cannot correctly receive the confirmation signal (Req), the response signal (Ack) from the wireless slave unit 104 (wireless slave unit 2) even after a predetermined time has elapsed from the time of transmission. Is not returned, so the wireless device 102 is considered to have timed out. At this time, the wireless device 102 retransmits the confirmation signal (Req) to the wireless slave unit 104 (wireless slave unit 2).
  • the confirmation signal (Req) to be retransmitted may be the same signal as the previous one, and may not include special information indicating that the signal is retransmitted.
  • the wireless device 102 repeats the retransmission process until a response signal (Ack) is received from the wireless slave unit 104 (wireless slave unit 2).
  • a response signal (Ack) is returned from the wireless slave unit 104 (wireless slave unit 2) in response to the nth retransmission
  • the control unit 14 stores the number of retransmissions (n in this case) in the built-in memory or the like and counts them. To do.
  • the antennas ANT1 and ANT2 of the wireless device 102 may be switched and transmitted. As a result, the influence of communication failure can be suppressed due to the influence of fading or the like from the wireless device 102 to the wireless slave unit 104.
  • two antennas ANT1 and ANT2 are provided, but three or more antennas may be provided and these may be switched and used.
  • the wireless slave unit 104 cannot receive the retransmission even if the retransmission is repeated over a predetermined reference number of times or a predetermined reference period and there is no reply of the response signal (Ack) from the wireless slave unit 104, error processing is performed as a communication error. You may do it. For example, it may be determined that the communication has been completely cut off, and a process such as notifying an external device such as a center controlling the wireless device 102 of a communication error may be performed.
  • the other wireless slave units 104 are also subjected to the process of confirming the communication status in order.
  • the communication connection using unicast communication is confirmed for all the wireless slave units 104 included in the lighting system 100, and the cumulative number of times the confirmation signal (Request) is retransmitted at that time is obtained.
  • the control unit 14 determines the number of times the broadcast communication is retransmitted according to the cumulative number of times the confirmation signal (Req) is retransmitted in the communication connection confirmation process using unicast communication. That is, the control unit 14 is set so that the number of retransmissions of broadcast communication increases as the cumulative number of times increases.
  • the number of retransmissions of broadcast communication may be associated with the built-in memory of the control unit 14 for each cumulative number and stored in advance, and the number of retransmissions may be set according to the actually counted cumulative number.
  • a function for calculating the number of retransmissions of broadcast communication with the cumulative number of times as an argument may be defined in advance, and the number of retransmissions may be set by substituting the actually counted cumulative number of times into the function. Good.
  • the method for setting the number of retransmissions of broadcast communication is not limited to these, and may be set according to the cumulative number of times.
  • the number of retransmissions for broadcast communication is set to 2.
  • the number of times the broadcast communication is retransmitted may be increased.
  • the number of retransmissions in broadcast communication when the cumulative number of retransmissions in unicast communication is the same may be changed according to the number of wireless slave units 104 included in the lighting system 100. For example, as the number of wireless slave units 104 included in the lighting system 100 increases, the number of retransmissions in broadcast communication when the cumulative number of retransmissions in unicast communication is the same may also increase.
  • the communication status confirmation process for the wireless slave unit 104 by unicast communication may be performed every time a certain time elapses, and the number of retransmissions in the broadcast communication may be updated according to the cumulative number of retransmissions at that time. ..
  • the cumulative number of retransmissions in unicast communication is the same as the number of times of communication by the control signal by broadcast communication increases from the time of system startup of the lighting system 100, or as the time elapses from the time of system startup.
  • the number of retransmissions in the broadcast communication of the above may be reduced.
  • the maximum number of retransmissions of broadcast communication may be set immediately after the system of the lighting system 100 is started, and the number of retransmissions may be reduced each time the control signal is communicated from the wireless device 102 to the wireless slave unit 104 by broadcast communication. ..
  • the number of retransmissions is set to 8 immediately after the system of the lighting system 100 is started, and the number of retransmissions is set to 7 times ⁇ 6 times ⁇ 5 times each time the control signal is communicated by broadcast communication, and so on.
  • the number of retransmissions may be gradually reduced according to the cumulative number of retransmissions.
  • the maximum value for the number of retransmissions of broadcast communication may be set immediately after the system of the lighting system 100 is started, and the number of retransmissions may be reduced every time a certain time elapses from the setting time.
  • the number of retransmissions is set to 8 immediately after the system of the lighting system 100 is started, and the number of retransmissions is set to 7 times ⁇ 6 times ⁇ 5 times ...
  • the number of retransmissions may be gradually reduced according to the above.
  • the cumulative number of times the confirmation signal (Req) is retransmitted to all the wireless slave units 104 included in the lighting system 100 is obtained, and the number of times the control signal is retransmitted in the control by broadcast communication according to the cumulative number of times.
  • the mode of setting is described.
  • the cumulative number of times the confirmation signal (Req) is retransmitted to the wireless slave unit 104 designated as one group in the lighting system 100 is obtained, and the broadcast communication is performed to the wireless slave unit 104 included in the group according to the cumulative number of times.
  • the number of times the control signal is retransmitted in the control may be set. In this case, the number of retransmissions of the control signal in the control by broadcast communication may be reset each time the group of the wireless slave unit 104 is changed.
  • the present embodiment it is possible to provide a wireless device in which the number of retransmissions of control signals in broadcast communication is optimized and a lighting system provided with the wireless device.
  • 10 changeover switch 12 wireless transmitter / receiver, 14 control unit, 100 lighting system, 102 wireless device, 104 wireless slave unit, 106 light source, ANT1, ANT2 antenna.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Circuit Arrangement For Electric Light Sources In General (AREA)
  • Detection And Prevention Of Errors In Transmission (AREA)
  • Selective Calling Equipment (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

A wireless device (102) comprising: antenna (ANT1, ANT2); a wireless transmission and reception part (12) that uses the antenna (ANT1, ANT2) to communicate with a wireless slave unit (104); and a control part (14) that executes control on communications, wherein the wireless transmission and reception part (12) executes unicast communication to a plurality of the wireless slave units (104) in order, and if there was no reply to said unicast communication from a communication target wireless slave unit (104), the wireless transmission and reception part (12) executes a retransmission of the unicast communication to said communication target wireless slave unit (104), and the control part (14) determines, according to the number of times said retransmission occurred, the number of times a broadcast communication is retransmitted to the plurality of wireless slave units (104).

Description

無線装置及びそれを備えた照明システムWireless device and lighting system equipped with it
 本開示は、無線装置及びそれを備えた照明システムに関する。 This disclosure relates to a wireless device and a lighting system equipped with the wireless device.
 制御用の端末である無線装置から照明に繋がれた無線子機に対して制御信号を無線送信することによって照明の調光を制御する照明システムが知られている。無線通信によって調光制御を行うことで、調光信号線の施工が不要になる等の利点がある。 There is known a lighting system that controls the dimming of lighting by wirelessly transmitting a control signal from a wireless device that is a control terminal to a wireless slave unit connected to the lighting. Dimming control by wireless communication has advantages such as no need to install a dimming signal line.
 このような照明システムにおいて無線装置から無線子機に対して制御信号を送信する際に、複数の無線子機に対して同時に制御信号を送信するブロードキャスト通信を行う方法と個々の無線子機を特定して個別に制御信号を送信するユニキャスト通信を行う方法とがある(特許文献1~5)。 In such a lighting system, when a control signal is transmitted from a wireless device to a wireless slave unit, a method of performing broadcast communication for simultaneously transmitting a control signal to a plurality of wireless slave units and an individual wireless slave unit are specified. There is a method of performing unicast communication in which control signals are individually transmitted (Patent Documents 1 to 5).
特開2016-058197号公報Japanese Unexamined Patent Publication No. 2016-058197 特開2016-058323号公報Japanese Unexamined Patent Publication No. 2016-058323 特許第6555433号公報Japanese Patent No. 6555433 特開2019-033032号公報Japanese Unexamined Patent Publication No. 2019-033032 特開2000-195681号公報Japanese Unexamined Patent Publication No. 2000-195681
 ところで、ユニキャスト通信を用いた場合には1対1通信により通信及び制御の信頼性は高い。しかしながら、複数の無線子機が存在する場合に同時に通信及び制御ができないという問題がある。 By the way, when unicast communication is used, the reliability of communication and control is high due to one-to-one communication. However, there is a problem that communication and control cannot be performed at the same time when a plurality of wireless slave units exist.
 一方、ブロードキャスト通信を用いた場合には1対多通信により複数の無線子機に対して群制御ができる。しかしながら、複数の無線子機のそれぞれにおいてブロードキャストされた制御信号が正しく受信されない可能性があり、親機である無線装置側で通信が正しく行われた否かを判断することができず、通信及び制御の信頼性が低いという問題がある。ブロードキャスト通信において通信の精度を高めるためには一定間隔をおいた後に再送処理を行うことが一般的である。しかしながら、必要な無線子機のすべてと正常に通信ができたときには再送処理は不要であり、再送処理によって不要な電波を送出することになるため、無線通信チャンネルが少ない状況においては通信混雑の原因になる。したがって、通信の信頼性を低下させることなく、通信混雑を低減するために、再送回数を最適化することが望まれている。 On the other hand, when broadcast communication is used, group control can be performed for a plurality of wireless slave units by one-to-many communication. However, there is a possibility that the control signal broadcasted by each of the plurality of wireless slave units is not correctly received, and it is not possible to determine whether or not the communication is correctly performed on the wireless device side which is the master unit. There is a problem that the reliability of control is low. In broadcast communication, in order to improve the accuracy of communication, it is common to perform retransmission processing after a certain interval. However, when communication with all the necessary wireless slave units is successful, the retransmission process is not necessary, and unnecessary radio waves are transmitted by the retransmission process, which causes communication congestion in situations where there are few wireless communication channels. become. Therefore, it is desired to optimize the number of retransmissions in order to reduce communication congestion without lowering the reliability of communication.
 本開示の1つの態様は、複数の無線子機に対してブロードキャスト通信によって制御を行う無線装置であって、アンテナと、前記アンテナを用いて前記無線子機と通信を行う送受信部と、通信に対する制御を行う制御部と、を備え、前記送受信部は、前記複数の無線子機の各々を順に通信対象の無線子機としてユニキャスト通信を行い、当該ユニキャスト通信に対して前記通信対象の無線子機から返信がなかった場合には前記通信対象の無線子機に対してユニキャスト通信における再送を行い、前記制御部は、前記再送の累積回数に応じて前記複数の無線子機に対するブロードキャスト通信の再送回数を決定する、無線装置である。 One aspect of the present disclosure is a wireless device that controls a plurality of wireless slave units by broadcast communication, with respect to an antenna, a transmission / reception unit that communicates with the wireless slave unit using the antenna, and communication. The transmission / reception unit includes a control unit that performs control, and the transmission / reception unit performs unicast communication with each of the plurality of wireless slave units as a communication target wireless slave unit in order, and the communication target wireless with respect to the unicast communication. If there is no reply from the slave unit, the wireless slave unit to be communicated is retransmitted in unicast communication, and the control unit performs broadcast communication to the plurality of wireless slave units according to the cumulative number of retransmissions. It is a wireless device that determines the number of times of retransmission.
 本開示によれば、ブロードキャスト通信における制御信号の再送回数を適正化させた無線装置及びそれを備えた照明システムを提供することができる。 According to the present disclosure, it is possible to provide a wireless device in which the number of times of retransmission of a control signal in broadcast communication is optimized and a lighting system including the wireless device.
実施の形態における照明システムの構成を示す図である。It is a figure which shows the structure of the lighting system in embodiment. 実施の形態におけるブロードキャス通信での処理を示す図である。It is a figure which shows the process in broadcas communication in an embodiment. 実施の形態におけるユニキャスト通信での処理を示す図である。It is a figure which shows the process by the unicast communication in embodiment.
 以下、図面を参照しながら、本開示に係る無線装置及びそれを備えた照明システムの実施の形態について詳細に説明する。以下で説明する実施の形態は一例であって、本開示に係る無線装置及びそれを備えた照明システムはこれに限定されない。 Hereinafter, embodiments of the wireless device and the lighting system provided with the wireless device according to the present disclosure will be described in detail with reference to the drawings. The embodiment described below is an example, and the wireless device according to the present disclosure and a lighting system including the same are not limited thereto.
 本開示の実施形態における照明システム100は、図1に示すように、無線装置102、無線子機104及び光源106を含んで構成される。照明システム100では、無線装置102から無線子機104へ制御信号を送信することによって光源106の点灯・消灯・調光等の制御を行う。なお、図1では、無線子機104を4つ設けた構成を示したが無線子機104の数は限定されるものではない。 As shown in FIG. 1, the lighting system 100 according to the embodiment of the present disclosure includes a wireless device 102, a wireless slave unit 104, and a light source 106. The lighting system 100 controls lighting, extinguishing, dimming, etc. of the light source 106 by transmitting a control signal from the wireless device 102 to the wireless slave unit 104. Although FIG. 1 shows a configuration in which four wireless slave units 104 are provided, the number of wireless slave units 104 is not limited.
 無線装置102は、アンテナANT1,ANT2、切替スイッチ10、無線送受信部12及び制御部14を含んで構成される。無線装置102は、照明システム100において照明の制御を行うための制御信号を無線子機104へ送信するために用いられる。 The wireless device 102 includes antennas ANT1 and ANT2, a changeover switch 10, a wireless transmission / reception unit 12, and a control unit 14. The wireless device 102 is used to transmit a control signal for controlling lighting in the lighting system 100 to the wireless slave unit 104.
 アンテナANT1,ANT2は、それぞれ高周波信号を送受信するために用いられる。切替スイッチ10は、アンテナANT1及びアンテナANT2を排他的に選択して無線送受信部12の送信回路及び受信回路に接続するためのスイッチである。すなわち、アンテナANT1が送信回路に接続されているときにはアンテナANT2を受信回路に接続し、アンテナANT2が送信回路に接続されているときにはアンテナANT1を受信回路に接続する。無線送受信部12は、アンテナANT1,ANT2を用いて高周波信号を送受信する。無線送受信部12は、高周波増幅器、ミキサ、局部発振器、中間周波数フィルタ(IFフィルタ)、変調部及び復調部等の高周波送受信に必要な回路を含んで構成される。無線送受信部12は、例えば、スーパーヘテロダイン方式を採用することができる。制御部14は、無線送受信部12における信号の送受信を制御すると共にアンテナANT1,ANT2の切り換え制御を行う。 Antennas ANT1 and ANT2 are used to transmit and receive high-frequency signals, respectively. The changeover switch 10 is a switch for exclusively selecting the antenna ANT1 and the antenna ANT2 and connecting them to the transmission circuit and the reception circuit of the wireless transmission / reception unit 12. That is, when the antenna ANT1 is connected to the transmitting circuit, the antenna ANT2 is connected to the receiving circuit, and when the antenna ANT2 is connected to the transmitting circuit, the antenna ANT1 is connected to the receiving circuit. The wireless transmission / reception unit 12 transmits / receives a high frequency signal using the antennas ANT1 and ANT2. The wireless transmission / reception unit 12 includes circuits necessary for high-frequency transmission / reception such as a high-frequency amplifier, a mixer, a local oscillator, an intermediate frequency filter (IF filter), a modulation unit, and a demodulation unit. The wireless transmission / reception unit 12 can adopt, for example, a superheterodyne system. The control unit 14 controls the transmission / reception of signals in the wireless transmission / reception unit 12, and also controls switching between the antennas ANT1 and ANT2.
 無線子機104は、無線装置102からの制御信号を受けて光源106の点灯・消灯・調光等の制御を行う。また、無線子機104は、送信先を特定したユニキャスト通信によって無線装置102から送信されてきた確認信号(Request)を受信すると、それに応じて応答信号(Ack)を無線装置102へ返信する。 The wireless slave unit 104 receives a control signal from the wireless device 102 and controls lighting, extinguishing, dimming, etc. of the light source 106. Further, when the wireless slave unit 104 receives the confirmation signal (Request) transmitted from the wireless device 102 by the unicast communication in which the transmission destination is specified, the wireless slave unit 104 returns a response signal (Ack) to the wireless device 102 accordingly.
[ブロードキャスト通信による制御処理]
 照明システム100では、図2に示すように、無線装置102から複数の無線子機104に対してブロードキャスト通信によって制御信号を送信することによって、当該複数の無線子機104を同時に点灯・消灯・調光制御することができる。ブロードキャスト通信の対象とする複数の無線子機104は、照明システム100に含まれるすべての無線子機104としてもよいし、無線子機104を複数のグループに分けていずれかのグループに含まれる無線子機104としてもよい。無線子機104をグループ化する場合、グループ毎に識別子を割り当てて、当該識別子を制御信号に含めて送信して無線子機104において制御の対象であるか否かを特定できるようにしてもよい。また、グループ毎に別の通信周波数を割り当てて、無線装置102と無線子機104との通信を当該割り当てられた通信周波数で行うようにしてもよい。
[Control processing by broadcast communication]
In the lighting system 100, as shown in FIG. 2, by transmitting a control signal from the wireless device 102 to the plurality of wireless slave units 104 by broadcast communication, the plurality of wireless slave units 104 are turned on / off / adjusted at the same time. Light control is possible. The plurality of wireless slave units 104 to be broadcast communication may be all the wireless slave units 104 included in the lighting system 100, or the wireless slave units 104 may be divided into a plurality of groups and included in any of the groups. It may be a slave unit 104. When grouping the wireless slave units 104, an identifier may be assigned to each group and the identifier may be included in the control signal and transmitted so that it can be specified whether or not the wireless slave unit 104 is the target of control. .. Further, a different communication frequency may be assigned to each group so that the wireless device 102 and the wireless slave unit 104 can communicate with each other at the assigned communication frequency.
 例えば、無線装置102からPWM信号を制御信号として無線子機104へ送信することによって、光源106をPWM信号のデューティ比に応じた明るさに調光制御する。また、例えば、無線装置102から所定パターンを有するデジタル制御信号を制御信号として無線子機104へ送信することによって、光源106を当該デジタル制御信号の信号パターンに応じて予め定められた調光制御を行う。ただし、光源106の制御方法は、これらに限定されるものではなく、他の制御方法を採用してもよい。 For example, by transmitting a PWM signal as a control signal from the wireless device 102 to the wireless slave unit 104, the light source 106 is dimmed and controlled to a brightness corresponding to the duty ratio of the PWM signal. Further, for example, by transmitting a digital control signal having a predetermined pattern from the wireless device 102 to the wireless slave unit 104 as a control signal, the light source 106 is subjected to predetermined dimming control according to the signal pattern of the digital control signal. Do. However, the control method of the light source 106 is not limited to these, and other control methods may be adopted.
 ブロードキャスト通信では、無線装置102から制御信号を受け取ったことを示す返信を行わないので、対象となる無線子機104において制御信号が正しく受信できない状況が生じる可能性がある。そこで、無線装置102から制御信号を複数回に亘って再送する。これによって、無線装置102における制御信号の受信の可能性を高めることができる。 In broadcast communication, since a reply indicating that the control signal has been received from the wireless device 102 is not sent, there is a possibility that the control signal cannot be correctly received in the target wireless slave unit 104. Therefore, the control signal is retransmitted from the wireless device 102 a plurality of times. This makes it possible to increase the possibility of receiving the control signal in the wireless device 102.
[ブロードキャスト通信の再送回数の設定処理]
 本実施の形態では、無線装置102と無線子機104との通信状態に応じてブロードキャスト通信の再送回数を変更する。
[Processing for setting the number of retransmissions of broadcast communication]
In the present embodiment, the number of retransmissions of broadcast communication is changed according to the communication state between the wireless device 102 and the wireless slave unit 104.
 照明システム100のシステム起動時には、ブロードキャスト通信の再送回数は予め定められた初期値に設定すればよい。初期値は、例えば、照明システム100において規定した最高再送回数としてもよい。 When the lighting system 100 is started up, the number of retransmissions of broadcast communication may be set to a predetermined initial value. The initial value may be, for example, the maximum number of retransmissions specified in the lighting system 100.
 光源106に対する制御が行われていない時、すなわち無線装置102から無線子機104へ光源106を制御するための制御信号が送信されていない時間帯に照明システム100に含まれる無線子機104の各々に対してユニキャスト通信を順番に行う。これは、無線子機104の各々と無線装置102との通信接続が正常であるか否かを確認するためのものである。 Each of the wireless slave units 104 included in the lighting system 100 when the light source 106 is not controlled, that is, when the control signal for controlling the light source 106 is not transmitted from the wireless device 102 to the wireless slave unit 104. Unicast communication is performed in order. This is for confirming whether or not the communication connection between each of the wireless slave units 104 and the wireless device 102 is normal.
 図3に示すように、無線装置102から無線子機104の1つ(無線子機1)を通信対象として選択し、当該無線子機104(無線子機1)に対して確認信号(Req:Request)を送信する。無線装置102と無線子機104の各々とは、事前にペアリング処理等により無線子機104の個々を特定してユニキャスト通信が可能に設定されているものとする。無線子機104(無線子機1)は確認信号(Req)を正しく受信すると、無線子機104は無線装置102に対して応答信号(Ack:Acknowledge)を返信する。無線装置102は、当該応答信号(Ack)を受信すると送信が完了したとみなす。無線子機104(無線子機1)との通信の確認が完了すると、次の無線子機104(無線子機2)を通信対象として選択して、当該無線子機104(無線子機2)に対する通信の確認処理に移行する。 As shown in FIG. 3, one of the wireless slave units 104 (wireless slave unit 1) is selected from the wireless device 102 as a communication target, and a confirmation signal (Req:) is sent to the wireless slave unit 104 (wireless slave unit 1). Request) is sent. It is assumed that each of the wireless device 102 and the wireless slave unit 104 is set to enable unicast communication by identifying each of the wireless slave units 104 in advance by pairing processing or the like. When the wireless slave unit 104 (wireless slave unit 1) correctly receives the confirmation signal (Req), the wireless slave unit 104 returns a response signal (Ack: Acknowledge) to the wireless device 102. When the wireless device 102 receives the response signal (Ack), it considers that the transmission is completed. When the confirmation of communication with the wireless slave unit 104 (wireless slave unit 1) is completed, the next wireless slave unit 104 (wireless slave unit 2) is selected as the communication target, and the wireless slave unit 104 (wireless slave unit 2) is selected. Move to the confirmation process of communication with.
 無線装置102から無線子機104(無線子機2)に対して確認信号(Req)が送信される。無線子機104(無線子機2)では確認信号(Req)を正しく受信できない場合、送信時から所定の時間が経過しても無線子機104(無線子機2)からの応答信号(Ack)が返信されてこないので無線装置102はタイムアウトしたものとみなす。このとき、無線装置102は、無線子機104(無線子機2)に対して確認信号(Req)を再送する。再送する確認信号(Req)は前回と同じ信号でよく、再送であることを示す特別な情報は含まれていなくてもよい。無線装置102は、無線子機104(無線子機2)から応答信号(Ack)を受信するまで再送処理を繰り返す。n回目の再送に対して無線子機104(無線子機2)から応答信号(Ack)の返信があった場合、制御部14は再送回数(ここではn)を内蔵メモリ等に記憶させてカウントする。 A confirmation signal (Req) is transmitted from the wireless device 102 to the wireless slave unit 104 (wireless slave unit 2). If the wireless slave unit 104 (wireless slave unit 2) cannot correctly receive the confirmation signal (Req), the response signal (Ack) from the wireless slave unit 104 (wireless slave unit 2) even after a predetermined time has elapsed from the time of transmission. Is not returned, so the wireless device 102 is considered to have timed out. At this time, the wireless device 102 retransmits the confirmation signal (Req) to the wireless slave unit 104 (wireless slave unit 2). The confirmation signal (Req) to be retransmitted may be the same signal as the previous one, and may not include special information indicating that the signal is retransmitted. The wireless device 102 repeats the retransmission process until a response signal (Ack) is received from the wireless slave unit 104 (wireless slave unit 2). When a response signal (Ack) is returned from the wireless slave unit 104 (wireless slave unit 2) in response to the nth retransmission, the control unit 14 stores the number of retransmissions (n in this case) in the built-in memory or the like and counts them. To do.
 ここで、確認信号(Request)を再送する場合、無線装置102が有するアンテナANT1、ANT2を切り換えて送信してもよい。これによって、無線装置102から無線子機104へのフェージング等の影響によって通信障害の影響を抑制することができる。 Here, when retransmitting the confirmation signal (Request), the antennas ANT1 and ANT2 of the wireless device 102 may be switched and transmitted. As a result, the influence of communication failure can be suppressed due to the influence of fading or the like from the wireless device 102 to the wireless slave unit 104.
 なお、本実施の形態では、2つのアンテナANT1,ANT2を設ける構成としたが、3つ以上のアンテナを設けて、これらを切り換えて使用するようにしてもよい。 In the present embodiment, two antennas ANT1 and ANT2 are provided, but three or more antennas may be provided and these may be switched and used.
 また、再送を所定の基準回数又は所定の基準期間に亘って繰り返しても無線子機104で受信できず、無線子機104から応答信号(Ack)の返信がない場合、通信エラーとしてエラー処理を行うようにしてもよい。例えば、通信が完全に切れてしまったものと判断し、無線装置102を制御しているセンター等の外部装置に通信エラーを通知する等の処理を行うようにしてもよい。 Further, if the wireless slave unit 104 cannot receive the retransmission even if the retransmission is repeated over a predetermined reference number of times or a predetermined reference period and there is no reply of the response signal (Ack) from the wireless slave unit 104, error processing is performed as a communication error. You may do it. For example, it may be determined that the communication has been completely cut off, and a process such as notifying an external device such as a center controlling the wireless device 102 of a communication error may be performed.
 同様に、他の無線子機104についても順番に通信状態を確認する処理を実行する。その際に、制御部14はいずれかの無線子機104に対して確認信号(Req)を再送した場合にはその回数を累積する。例えば、無線子機104(無線子機2)に対してn回、無線子機104(無線子機4)に対してm回、・・・と確認信号(Req)を再送した場合、それぞれの再送回数を加算して累積回数=n+m+・・・を求める。 Similarly, the other wireless slave units 104 are also subjected to the process of confirming the communication status in order. At that time, when the confirmation signal (Req) is retransmitted to any of the wireless slave units 104, the control unit 14 accumulates the number of times. For example, when the confirmation signal (Req) is retransmitted n times to the wireless handset 104 (wireless handset 2), m times to the wireless handset 104 (wireless handset 4), ... The number of retransmissions is added to obtain the cumulative number of times = n + m + ....
 このような処理によって、照明システム100に含まれるすべての無線子機104に対してユニキャスト通信を用いた通信接続の確認を行い、その際に確認信号(Request)を再送した累積回数を得る。 By such processing, the communication connection using unicast communication is confirmed for all the wireless slave units 104 included in the lighting system 100, and the cumulative number of times the confirmation signal (Request) is retransmitted at that time is obtained.
 制御部14は、ユニキャスト通信を用いた通信接続の確認処理における確認信号(Req)を再送した累積回数に応じてブロードキャスト通信の再送回数を決定する。すなわち、制御部14は、当該累積回数が多いほどブロードキャスト通信の再送回数が多くなるように設定する。 The control unit 14 determines the number of times the broadcast communication is retransmitted according to the cumulative number of times the confirmation signal (Req) is retransmitted in the communication connection confirmation process using unicast communication. That is, the control unit 14 is set so that the number of retransmissions of broadcast communication increases as the cumulative number of times increases.
 例えば、制御部14の内蔵メモリ等に累積回数毎にブロードキャスト通信の再送回数を関連付けて予め記憶させておき、実際にカウントされた累積回数に応じて再送回数を設定するようにしてもよい。また、例えば、累積回数を引数としてブロードキャスト通信の再送回数を算出するための関数を予め定めておき、実際にカウントされた累積回数を当該関数に代入することによって再送回数を設定するようにしてもよい。ただし、ブロードキャスト通信の再送回数を設定する方法は、これらに限定されるものではなく、累積回数に応じて設定するものであればよい。 For example, the number of retransmissions of broadcast communication may be associated with the built-in memory of the control unit 14 for each cumulative number and stored in advance, and the number of retransmissions may be set according to the actually counted cumulative number. Further, for example, a function for calculating the number of retransmissions of broadcast communication with the cumulative number of times as an argument may be defined in advance, and the number of retransmissions may be set by substituting the actually counted cumulative number of times into the function. Good. However, the method for setting the number of retransmissions of broadcast communication is not limited to these, and may be set according to the cumulative number of times.
 具体例として、512台の無線子機104に対してユニキャスト通信にて再送の累積回数が5回であった場合にはブロードキャスト通信の再送回数を2回に設定する。同様に、累積回数が増えれば、ブロードキャスト通信の再送回数を増やすようにすればよい。 As a specific example, when the cumulative number of retransmissions for 512 wireless slave units 104 in unicast communication is 5, the number of retransmissions for broadcast communication is set to 2. Similarly, as the cumulative number of times increases, the number of times the broadcast communication is retransmitted may be increased.
 なお、照明システム100に含まれる無線子機104の台数に応じてユニキャスト通信にて再送の累積回数が同一値であったときのブロードキャスト通信における再送回数を変更するようにしてもよい。例えば、照明システム100に含まれる無線子機104の台数が増加するにつれてユニキャスト通信にて再送の累積回数が同一値であったときのブロードキャスト通信における再送回数も増加させるようにしてもよい。 Note that the number of retransmissions in broadcast communication when the cumulative number of retransmissions in unicast communication is the same may be changed according to the number of wireless slave units 104 included in the lighting system 100. For example, as the number of wireless slave units 104 included in the lighting system 100 increases, the number of retransmissions in broadcast communication when the cumulative number of retransmissions in unicast communication is the same may also increase.
 ここで、ユニキャスト通信による無線子機104に対する通信状態の確認処理を一定時間が経過する度に行い、その際の再送の累積回数に応じてブロードキャスト通信における再送回数を更新するようにしてもよい。 Here, the communication status confirmation process for the wireless slave unit 104 by unicast communication may be performed every time a certain time elapses, and the number of retransmissions in the broadcast communication may be updated according to the cumulative number of retransmissions at that time. ..
 また、照明システム100のシステム起動時からブロードキャスト通信による制御信号による通信回数が増加するにつれて、またはシステム起動時から時間が経過するにつれて、ユニキャスト通信にて再送の累積回数が同一値であったときのブロードキャスト通信における再送回数を減少させるようにしてもよい。 Further, when the cumulative number of retransmissions in unicast communication is the same as the number of times of communication by the control signal by broadcast communication increases from the time of system startup of the lighting system 100, or as the time elapses from the time of system startup. The number of retransmissions in the broadcast communication of the above may be reduced.
 例えば、ブロードキャスト通信の再送回数について照明システム100のシステム起動直後に最大値を設定し、無線装置102から無線子機104へブロードキャスト通信による制御信号の通信を行う毎に再送回数を減少させればよい。具体例として、照明システム100のシステム起動直後は再送回数を8回に設定し、ブロードキャスト通信による制御信号の通信を行う毎に再送回数を7回→6回→5回・・・とユニキャスト通信にて再送の累積回数に応じた再送回数まで漸減させればよい。 For example, the maximum number of retransmissions of broadcast communication may be set immediately after the system of the lighting system 100 is started, and the number of retransmissions may be reduced each time the control signal is communicated from the wireless device 102 to the wireless slave unit 104 by broadcast communication. .. As a specific example, the number of retransmissions is set to 8 immediately after the system of the lighting system 100 is started, and the number of retransmissions is set to 7 times → 6 times → 5 times each time the control signal is communicated by broadcast communication, and so on. The number of retransmissions may be gradually reduced according to the cumulative number of retransmissions.
 また、例えば、ブロードキャスト通信の再送回数について照明システム100のシステム起動直後に最大値を設定し、設定時から一定時間が経過する毎に再送回数を減少させればよい。具体例として、照明システム100のシステム起動直後は再送回数を8回に設定し、一定時間経過毎に再送回数を7回→6回→5回・・・とユニキャスト通信にて再送の累積回数に応じた再送回数まで漸減させればよい。 Further, for example, the maximum value for the number of retransmissions of broadcast communication may be set immediately after the system of the lighting system 100 is started, and the number of retransmissions may be reduced every time a certain time elapses from the setting time. As a specific example, the number of retransmissions is set to 8 immediately after the system of the lighting system 100 is started, and the number of retransmissions is set to 7 times → 6 times → 5 times ... The number of retransmissions may be gradually reduced according to the above.
 なお、上記実施の形態では、照明システム100に含まれるすべての無線子機104に対する確認信号(Req)を再送した累積回数を求め、当該累積回数に応じてブロードキャスト通信による制御における制御信号の再送回数を設定する態様を説明した。しかしながら、照明システム100において1つのグループとして指定された無線子機104に対する確認信号(Req)を再送した累積回数を求め、当該累積回数に応じて当該グループに含まれる無線子機104に対するブロードキャスト通信による制御における制御信号の再送回数を設定するようにしてもよい。この場合、無線子機104のグループが変更される度にブロードキャスト通信による制御における制御信号の再送回数を再設定するようにしてもよい。 In the above embodiment, the cumulative number of times the confirmation signal (Req) is retransmitted to all the wireless slave units 104 included in the lighting system 100 is obtained, and the number of times the control signal is retransmitted in the control by broadcast communication according to the cumulative number of times. The mode of setting is described. However, the cumulative number of times the confirmation signal (Req) is retransmitted to the wireless slave unit 104 designated as one group in the lighting system 100 is obtained, and the broadcast communication is performed to the wireless slave unit 104 included in the group according to the cumulative number of times. The number of times the control signal is retransmitted in the control may be set. In this case, the number of retransmissions of the control signal in the control by broadcast communication may be reset each time the group of the wireless slave unit 104 is changed.
 以上のように、本実施の形態によれば、ブロードキャスト通信における制御信号の再送回数を適正化させた無線装置及びそれを備えた照明システムを提供することができる。 As described above, according to the present embodiment, it is possible to provide a wireless device in which the number of retransmissions of control signals in broadcast communication is optimized and a lighting system provided with the wireless device.
 10 切替スイッチ、12 無線送受信部、14 制御部、100 照明システム、102 無線装置、104 無線子機、106 光源、ANT1、ANT2 アンテナ。 10 changeover switch, 12 wireless transmitter / receiver, 14 control unit, 100 lighting system, 102 wireless device, 104 wireless slave unit, 106 light source, ANT1, ANT2 antenna.

Claims (6)

  1.  複数の無線子機に対してブロードキャスト通信によって制御を行う無線装置であって、
     アンテナと、
     前記アンテナを用いて前記無線子機と通信を行う送受信部と、
     通信に対する制御を行う制御部と、
    を備え、
     前記送受信部は、前記複数の無線子機の各々を順に通信対象の無線子機としてユニキャスト通信を行い、当該ユニキャスト通信に対して前記通信対象の無線子機から返信がなかった場合には前記通信対象の無線子機に対してユニキャスト通信における再送を行い、
     前記制御部は、前記再送の累積回数に応じて前記複数の無線子機に対するブロードキャスト通信の再送回数を決定する、無線装置。
    A wireless device that controls multiple wireless slave units by broadcast communication.
    With the antenna
    A transmitter / receiver that communicates with the wireless slave unit using the antenna,
    A control unit that controls communication and
    With
    The transmission / reception unit performs unicast communication by using each of the plurality of wireless slave units in order as the wireless slave unit to be communicated, and when there is no reply from the wireless slave unit to be communicated to the unicast communication, the transmission / reception unit performs unicast communication. Retransmission in unicast communication is performed on the wireless slave unit to be communicated.
    The control unit is a wireless device that determines the number of retransmissions of broadcast communication to the plurality of wireless slave units according to the cumulative number of retransmissions.
  2.  請求項1に記載の無線装置であって、
     前記アンテナを複数備え、
     前記アンテナのうち1つを選択する切替スイッチをさらに備え、
     前記切替スイッチにて前記アンテナを切り換えてユニキャスト通信を行う、無線装置。
    The wireless device according to claim 1.
    Equipped with multiple antennas
    Further equipped with a changeover switch for selecting one of the antennas,
    A wireless device that switches the antenna with the changeover switch to perform unicast communication.
  3.  請求項2に記載の無線装置であって、
     ユニキャスト通信に対して前記通信対象の無線子機から返信がなかった場合、前記通信対象の無線子機に対して前記切替スイッチによって前記アンテナを切り換えてユニキャスト通信を再度行う、無線装置。
    The wireless device according to claim 2.
    A wireless device that, when there is no reply from the wireless slave unit to be communicated to the unicast communication, switches the antenna to the wireless slave unit to be communicated by the changeover switch to perform unicast communication again.
  4.  請求項1~3のいずれか1項に記載の無線装置であって、
     前記ユニキャスト通信は、前記無線子機に対して前記ブロードキャスト通信によって制御を行わない時間帯に行う、無線装置。
    The wireless device according to any one of claims 1 to 3.
    The unicast communication is a wireless device that is performed in a time zone in which the wireless slave unit is not controlled by the broadcast communication.
  5.  請求項1~4のいずれか1項に記載の無線装置であって、
     前記ブロードキャスト通信による通信回数の増加、又は、時間の経過に応じて、前記ブロードキャスト通信の再送回数を漸減させる、無線装置。
    The wireless device according to any one of claims 1 to 4.
    A wireless device that gradually decreases the number of retransmissions of the broadcast communication according to an increase in the number of communications by the broadcast communication or the passage of time.
  6.  請求項1~5のいずれか1項に記載の無線装置を備え、
     前記複数の無線子機に接続された照明をブロードキャスト通信によって制御する、照明システム。
    The wireless device according to any one of claims 1 to 5 is provided.
    A lighting system that controls lighting connected to the plurality of wireless slave units by broadcast communication.
PCT/JP2020/026598 2019-11-05 2020-07-07 Wireless device and illumination system comprising same WO2021090533A1 (en)

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2007201924A (en) * 2006-01-27 2007-08-09 Kyocera Corp Controller, radio communication terminal, communication control method
JP2015097348A (en) * 2013-11-15 2015-05-21 富士通株式会社 Communication method, communication device, communication program and communication system
JP2019033032A (en) * 2017-08-09 2019-02-28 パナソニックIpマネジメント株式会社 Illumination system, radio controller, control method, and program

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2007201924A (en) * 2006-01-27 2007-08-09 Kyocera Corp Controller, radio communication terminal, communication control method
JP2015097348A (en) * 2013-11-15 2015-05-21 富士通株式会社 Communication method, communication device, communication program and communication system
JP2019033032A (en) * 2017-08-09 2019-02-28 パナソニックIpマネジメント株式会社 Illumination system, radio controller, control method, and program

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