JP3987643B2 - Home network system - Google Patents

Description

エネルギー管理集中制御装置１、セキュリティ集中制御装置２、モニタリング集中制御装置３は、通信路上に送出される全ての通信データを受信し、エアコン４、照明５、換気扇６、人感センサ７は、送信先識別子が自己の識別子と一致する通信データのみを受信する。
【００１２】
以上のシステム構成で、通信を行う場合の第１の例を図２を参照して説明する。モニタリング集中制御装置３は、識別子付与手段を有し、エアコン４に「停止」というメッセージを送る場合、送信先識別子をｄ、送信元識別子をｃとして送信する。このとき、エネルギー管理集中制御装置１、セキュリティ集中制御装置２はメッセージ受信手段を有し、送信先識別子に関わらず全てのメッセージを受信するので、エアコン４に「停止」というメッセージ送られたことを知っている。ただし、セキュリティ集中制御装置２は、エアコン４と通信をしない端末なので、このメッセージを無視する。一方、エアコン４、照明５、換気扇６、人感センサ７は識別子判別受信手段を有し、送信先識別子が自己の識別子と一致するメッセージのみを受信するので、エアコン４のみが「停止」というメッセージを受け取る。
【００１３】
次に、図３に示すように、使用者がエアコン４の設定温度をリモコンで変えたとき、その設定状態を通信関係を有する集中制御装置に知らせる必要がある。エアコン４から「設定温度２５℃」というメッセージを送信する場合、送信先識別子は付与されず、送信元識別子のみが付与される。送信先識別子を付与しない場合は、送信パケットの宛先アドレスを全て０とする。あるいは、送信先識別子無しのフラグをたてることによって行う。
【００１４】
エネルギー管理集中制御装置１、セキュリティ集中制御装置２、モニタリング集中制御装置３は、全てのメッセージを受信するので、エアコン４が設定温度２５℃であることを知ることができる。ただし、セキュリティ集中制御装置２は、エアコン４と通信をしない端末なので、このメッセージを無視する。エアコン４、照明５、換気扇６、人感センサ７は、送信先識別子が自己の識別子と異なるのでこのメッセージを受信しない。
【００１５】
次に、第２の例を図４を参照して説明する。本実施の形態では、図１に示す構成に識別子サーバ８が付加されている。識別子サーバ８には、識別子ｈが付与されている。識別子サーバ８は、以下の表２に示す、システム内にある全ての集中制御装置、機器端末の識別子テーブルと、どの集中制御装置と機器端末とが通信するかを示す通信関係テーブルを保持している。
【００１６】
【表２】

この状態で、例えば、セキュリティ集中制御装置２は識別子取得手段を有し、新たにエアコン４と通信する必要が生じた場合、セキュリティ集中制御装置２が識別子サーバ８に対して、エアコン４の識別子を要求し、これに応じて、識別子サーバ８が、エアコン４の識別子ｄをセキュリティ集中制御装置２に送ると共に通信関係テーブルを更新する。その結果、新たな通信関係テーブルは、以下の表３に示すようになる。
【００１７】
【表３】

このシステム構成で、第３の例を図５を参照して説明する。図５の前の段階として、モニタリング集中制御装置３が、照明５に「点灯」を指示したものとし、図５では、照明５は確認応答送信手段を有して、その実行の確認応答を返した状態を示す。「点灯」指示は、送信先識別子としてｅ、送信元識別子としてｃが指定されていたが、エネルギー管理集中制御装置１、セキュリティ集中制御装置２、識別子サーバ８もメッセージ受信手段および確認応答送信手段を有し、この「点灯」指示を受信しており、このため、これらの集中制御装置も「点灯」指示を正しく受信したことをモニタリング集中制御装置３に知らせるため、図５に示すように、エネルギー管理集中制御装置１、セキュリティ集中制御装置２、識別子サーバ８も照明５と同様に送信元である識別子ｃの装置に対して確認応答を送信する。このようにして、全ての集中制御装置が、照明５が消灯状態から点灯状態に遷移したという事実を共有している確認が行える。
【００１８】
次に、第４の例を図６を参照して説明する。図６の前の段階として、モニタリング集中制御装置３がエアコン４に「動作開始」を指示したものとし、図６では、エアコン４は確認応答送信手段を有して、その実行の確認応答を返した状態を示す。このときの各集中制御装置と機器端末との通信関係は、表２に従う。「動作開始」指示の通信先識別子としてｄ、送信元識別子としてｃが指定されていたものである。このとき、まずエアコン４が送信元識別子ｄとすると共に送信先識別子を無しとして確認応答を送信する。各集中制御装置の内、エアコン４と通信する関係にあり、モニタリング集中制御装置３以外のもの、すなわちエネルギー管理集中制御装置１は確認応答送信手段を有し、先の「動作開始」指示を受信したことを受けて、識別子サーバ８に対して、送信先識別子ｈを付与した確認応答を送信する。識別子サーバ８は集約応答送信手段を有し、自己の持つ通信関係テーブルを参照し、エアコン４と通信関係にある集中制御装置でかつ「動作開始」指示を送信したもの以外の全ての集中制御装置、すなわちエネルギー管理集中制御装置１からの確認応答を確認した時点で、送信元であるモニタリング集中制御装置３に対して、送信元識別子ｈを付与した確認応答を送信する。モニタリング集中制御装置３は、エアコン４からの確認応答と識別子サーバ８からの確認応答を受けることによって、エアコン４が確実に動作開始したことを確認すると共に、エアコン４が動作開始したことを知るべき集中制御装置がその事実を確認したことを確認することができる。
【００１９】
第５の例では、第４の例において識別子サーバ８からの確認応答が無い場合、モニタリング集中制御装置３がメッセージ再送手段を有し、エアコン４の動作状態が「動作開始」となるメッセージを再送信する。
【００２０】
第６の例では、第４の例において識別子サーバ８がメッセージ再送要求手段を有し、自己の持つ通信関係テーブルを参照して、エアコン４と通信関係にある集中制御装置の全てから一定時間内に確認応答を受け取らなかった場合、モニタリング集中制御装置３に対して、エアコン４の動作状態が「動作開始」となるメッセージを再送信することを要求する。
【００２１】
第７の例では、第４の例において識別子サーバ８がメッセージ再送手段を有し、自己の持つ通信関係テーブルを参照して、エアコン４と通信関係にある集中制御装置の全てから一定時間内に確認応答を受け取らなかった場合、モニタリング集中制御装置３から受信した内容に従って、エアコン４の動作状態が「動作開始」となるメッセージを再送信する。
【００２２】
次に、図７は本発明の他の構成例を示し、エネルギー管理集中制御装置１、セキュリティ集中制御装置２、モニタリング集中制御装置３、識別子サーバ８にそれぞれ順位を示す符号として番号▲１▼〜▲４▼が付与されている場合を示す。
【００２３】
以上の構成で、第８の例を図８を参照して説明する。照明５が自己の状態として、「消灯状態」のメッセージを送信先識別子無し、送信元識別子ｅとして送信する（実線の矢印参照）。エネルギー管理集中制御装置１、セキュリティ集中制御装置２、モニタリング集中制御装置３、識別子サーバ８は符号順応答手段を有し、いずれもこのメッセージを受信する。一番大きい番号▲４▼を付された識別子サーバ８は、メッセージ「消灯状態」を受け取った場合、確認応答（４．３）を次に小さい番号▲３▼を付されたモニタリング集中制御装置３に送信する。確認応答（４．３）を受信したモニタリング集中制御装置３は、メッセージ「消灯状態」を受け取っている場合、次に小さい番号▲２▼を付されたセキュリティ集中制御装置２に確認応答（３．２）を送信する。同様に、確認応答（３．２）を受信したセキュリティ集中制御装置２は、メッセージ「消灯状態」を受け取っている場合、次に小さい番号▲１▼を付されたエネルギー管理集中制御装置１に確認応答（２．１）を送信する。エネルギー管理集中制御装置１は最終応答手段を有し、次に確認応答を転送する集中制御装置が存在しないので、メッセージ「消灯状態」を受け取っている場合、送信元の照明５に確認応答を送信する。以上の制御の流れの中で、いずれか一つの集中制御装置がメッセージ「消灯状態」を受信していない場合、そこで確認応答がとぎれ、最終的に送信元の照明５に確認応答が戻らない。以上の制御で、照明５は全ての集中制御装置がメッセージ「消灯状態」を受信したか否か確認できる。しかも順番に確認応答を転送して、最後の番号を付された集中制御装置が最終応答を送信するので、通信路に対するデータ送出が同時に行われることが無く、通信混雑を緩和できる。
【００２４】
次に図９を参照して、第９の例を説明する。まずエアコン４から自己の状態として「動作中」のメッセージを送信先識別子無し、送信元識別子ｅとして送信する（実線の矢印参照）。このときの各集中制御装置と機器端末との通信関係は、表２に従う。エネルギー管理集中制御装置１、セキュリティ集中制御装置２、モニタリング集中制御装置３、識別子サーバ８は確認応答送信手段を有し、いずれもこのメッセージを受信する。エネルギー管理集中制御装置１、セキュリティ集中制御装置２、モニタリング集中制御装置３は、エアコン４からメッセージ「動作中」を受け取ったとき、エアコン４と通信関係のある集中制御装置、すなわちエネルギー管理集中制御装置１とモニタリング集中制御装置３は、識別子サーバ８に対して、それぞれ確認応答（ａ．ｈ）、確認応答（ｃ．ｈ）を送信する。識別子サーバ８は総括応答手段を有し、通信関係テーブルを参照して、エアコン４と通信関係のある全ての集中制御装置からの確認応答の受信を確認した後、エアコン４に対して確認応答を送信する。送信元であるエアコン４は、一定時間内に確認応答が無い場合、再度「動作中」のメッセージを送信する。
【００２５】
第１０の例では、上記第９の例において、エアコン４と通信関係のあるエネルギー管理集中制御装置１とモニタリング集中制御装置３からの確認応答が一定時間内に無かった場合、識別子サーバ８がメッセージ再送手段を有し、確認応答の無かった集中制御装置に対し、エアコン４のメッセージ「動作中」を送信する。例えば、エネルギー管理集中制御装置１から確認応答（ａ．ｈ）があり、モニタリング集中制御装置３から確認応答（ｃ．ｈ）が無い場合、モニタリング集中制御装置３に対して、エアコン４の「動作中」メッセージを送信する。
【００２６】
第１１の例では、上記第９の例において、エアコン４と通信関係のあるエネルギー管理集中制御装置１とモニタリング集中制御装置３からの確認応答が一定時間内に無かった場合、識別子サーバ８がメッセージ再送要求手段を有し、エアコン４に対し「動作中」メッセージを再送信することを要求する。
【００２７】
次に、第１２の例では、識別子サーバ８が識別子送出手段を有し、自己の持っている、システム内にある全ての集中制御装置、機器端末の識別子テーブルと、どの集中制御装置と機器端末とが通信するかを示す通信関係テーブルとを、例えば、モニタリング集中制御装置３に送る。モニタリング集中制御装置３は識別子取得手段を有し、識別子テーブルと通信関係テーブルとを受け取って、識別子サーバの役割を果たす。
【００２８】
【発明の効果】
以上説明した通り、本発明のホームネットワークシステムは、集中制御装置が、送られてくるメッセージの送信先識別子に関わらず全てのメッセージを受信し、機器端末が、送信先を指定するための識別子テーブルを持たず、送信するメッセージに送信先識別子を付与することなく送信する一方、自己宛の送信先識別子を有するメッセージのみを受信するので、機器端末は集中制御装置の識別子を記憶する必要が無く、自己宛のメッセージのみを受信し、機器端末の制御回路を簡略化して低コストとすることができる。また、集中制御装置は、ネットワークに送出される通信データを全てモニタして、複数の集中制御装置が同じ機器端末を制御対象としている場合、機器端末の状態変化が全ての集中制御装置に伝わり、また集中制御装置から機器端末に対して状態変化の指示メッセージを送出した場合、そのメッセージが他の集中制御装置に伝えられる。
【００２９】
さらに、通信相手の集中制御装置または機器端末間だけでなく、他の集中制御装置間でも確認応答を送受することによって、確実な通信を行うことができる。
【００３０】
また、識別子サーバを付加することによって、機器端末の追加、削除などのネットワークの状態変化に柔軟に対応できる。
【図面の簡単な説明】
【図１】本発明のホームネットワークシステムの構成図である。
【図２】本発明の第１の例を説明する図である。
【図３】本発明の通信状態を説明する図である。
【図４】本発明の第２の例を説明する図である。
【図５】本発明の第３の例を説明する図である。
【図６】本発明の第４の例を説明する図である。
【図７】本発明の他の構成例を示す図である。
【図８】本発明の第８の例を説明する図である。
【図９】本発明の第９の例を説明する図である。
【符号の説明】
１…エネルギー管理集中制御装置，２…セキュリティ集中制御装置，３…モニタリング集中制御装置，４…エアコン，５…照明，６…換気扇，７…人感センサ，８…識別子サーバ。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a home network system that manages an identifier for specifying a communication partner in the entire system, reduces the burden on each device, and can be flexibly operated.
[0002]
[Prior art]
In recent years, home networks that centrally control various electrical appliances such as air conditioners and microwave ovens used in the home from the home controller via the network are becoming popular.
[0003]
[Problems to be solved by the invention]
However, if each device terminal such as an air conditioner or a microwave oven stores all identifiers for communication with each other via a network, the control information of each equipment device increases, which complicates the control circuit and costs. To rise.
[0004]
In addition, it is considered that the number of cases in which each facility device is controlled by a plurality of centralized control devices increases.
[0005]
SUMMARY OF THE INVENTION An object of the present invention is to provide a home network system that simplifies the control of equipment that is a terminal and can perform flexible operation and reliable communication even when a plurality of centralized control devices are connected to a network.
[0006]
[Means for Solving the Problems]
In order to solve the above-described problems, a home network system according to the present invention provides a message transmitted from a central control device in a network in which a device terminal and a central control device that centrally controls the device terminal are connected via a communication path. An identifier for assigning a transmission destination identifier and a message receiving means for receiving all messages regardless of the transmission destination identifier of the message to be sent. The identifier for designating the transmission destination by the device terminal The present invention is characterized by having means for transmitting without adding a transmission destination identifier to a message to be transmitted without having a table, and identifier discrimination receiving means for receiving only a message having a transmission destination identifier addressed to itself.
[0007]
With the above configuration, the device terminal does not need to store the identifier of the central control device, receives only the message addressed to itself, and the central control device monitors all communication data sent to the network.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 shows the configuration of a home network system according to the present invention. An energy management central control device 1, a security central control device 2, and a monitoring central control device 3 are connected to a communication path using a power line as a communication medium, and an air conditioner 4, an illumination 5, a ventilation fan 6, and a human sensor 7 as device terminals. Is connected. The human sensor 7 is a sensor integrated with a control circuit that detects the movement of a person by infrared detection or the like to detect the presence of a person.
[0009]
The energy management centralized control device 1 adjusts the power consumption in the home by changing the capabilities of the device terminals connected to the network. The centralized security control device 2 performs home security management. The centralized monitoring control device 3 performs remote centralized control of equipment terminals on the network and monitors the status of the equipment. The air conditioner 4, the lighting 5, the ventilation fan 6, and the human sensor 7 have their state changed and control information transmitted and received by each central control device via a communication path, and a control terminal that communicates with each central control device. It is decided in advance. The energy management central control device 1 communicates with the air conditioner 4, the illumination 5, and the human sensor 7, the security central control device 2 communicates with the illumination 5 and the human sensor 7, and the monitoring central control device 3 includes the air conditioner. 4. Communicate with the illumination 5, the ventilation fan 6, and the human sensor 7.
[0010]
The energy management central control device 1, the security central control device 2, and the monitoring central control device 3 are assigned identifiers a, b, and c, respectively. The air conditioner 4, the illumination 5, the ventilation fan 6, and the human sensor 7 have Identifiers d, e, f, and g are given, respectively. The energy management central control device 1, the security central control device 2, and the monitoring central control device 3 each have an identifier table shown in Table 1 below in order to designate a communication partner. The air conditioner 4, the illumination 5, the ventilation fan 6, and the human sensor 7 do not have such an identifier table.
[0011]
[Table 1]

The energy management central control device 1, the security central control device 2, and the monitoring central control device 3 receive all communication data transmitted on the communication path, and the air conditioner 4, the illumination 5, the ventilation fan 6, and the human sensor 7 transmit Only communication data whose destination identifier matches its own identifier is received.
[0012]
A first example in which communication is performed with the above system configuration will be described with reference to FIG. The monitoring central control apparatus 3 has an identifier assigning unit, and when a message “stop” is sent to the air conditioner 4, the monitoring destination control apparatus 3 transmits the transmission destination identifier as d and the transmission source identifier as c. At this time, the energy management central control device 1 and the security central control device 2 have message receiving means and receive all messages regardless of the transmission destination identifier, so that the message “stop” is sent to the air conditioner 4. know. However, since the security central control apparatus 2 is a terminal that does not communicate with the air conditioner 4, this message is ignored. On the other hand, the air conditioner 4, the lighting 5, the ventilation fan 6, and the human sensor 7 have an identifier discrimination receiving unit, and receive only a message whose destination identifier matches its own identifier. Receive.
[0013]
Next, as shown in FIG. 3, when the user changes the set temperature of the air conditioner 4 with the remote controller, it is necessary to inform the centralized control device having a communication relationship of the set state. When transmitting the message “set temperature 25 ° C.” from the air conditioner 4, the transmission destination identifier is not given, but only the transmission source identifier is given. When no destination identifier is assigned, all destination addresses of transmission packets are set to 0. Alternatively, it is performed by setting a flag without a transmission destination identifier.
[0014]
Since the energy management central control device 1, the security central control device 2, and the monitoring central control device 3 receive all the messages, it is possible to know that the air conditioner 4 is at the set temperature 25 ° C. However, since the security central control apparatus 2 is a terminal that does not communicate with the air conditioner 4, this message is ignored. The air conditioner 4, the illumination 5, the ventilation fan 6, and the human sensor 7 do not receive this message because the transmission destination identifier is different from its own identifier.
[0015]
Next, a second example will be described with reference to FIG. In the present embodiment, an identifier server 8 is added to the configuration shown in FIG. The identifier server 8 is assigned an identifier h. The identifier server 8 holds an identifier table of all centralized control devices and device terminals in the system shown in Table 2 below, and a communication relation table indicating which centralized control device and device terminal communicate with each other. Yes.
[0016]
[Table 2]

In this state, for example, the security central control apparatus 2 has an identifier acquisition unit, and when it becomes necessary to newly communicate with the air conditioner 4, the security central control apparatus 2 sends the identifier of the air conditioner 4 to the identifier server 8. In response to this request, the identifier server 8 sends the identifier d of the air conditioner 4 to the security central control apparatus 2 and updates the communication relation table. As a result, the new communication relationship table is as shown in Table 3 below.
[0017]
[Table 3]

With this system configuration, a third example will be described with reference to FIG. As the previous stage of FIG. 5, it is assumed that the monitoring central control device 3 instructs the lighting 5 to “light on”, and in FIG. 5, the lighting 5 has a confirmation response transmission unit, and returns a confirmation response of its execution. Indicates the state. In the “lighting” instruction, e is specified as the transmission destination identifier and c is specified as the transmission source identifier. However, the energy management central control device 1, the security central control device 2, and the identifier server 8 also use message reception means and confirmation response transmission means. Therefore, the central control apparatus 3 also receives the “lighting” instruction, and the central control apparatus 3 informs the monitoring central control apparatus 3 that it has correctly received the “lighting” instruction. The management central control device 1, the security central control device 2, and the identifier server 8 also transmit a confirmation response to the device with the identifier c that is the transmission source, similarly to the lighting 5. In this way, it can be confirmed that all the centralized control devices share the fact that the lighting 5 has transitioned from the off state to the on state.
[0018]
Next, a fourth example will be described with reference to FIG. As the previous stage of FIG. 6, it is assumed that the monitoring central control device 3 instructs the air conditioner 4 to “start operation”, and in FIG. 6, the air conditioner 4 has a confirmation response transmission means and returns a confirmation response of its execution. Indicates the state. The communication relationship between each central control device and the equipment terminal at this time follows Table 2. In this case, d is designated as the communication destination identifier of the “operation start” instruction, and c is designated as the transmission source identifier. At this time, the air conditioner 4 first transmits a confirmation response with the transmission source identifier d and no transmission destination identifier. Of each centralized control device, it is in communication with the air conditioner 4, and other than the centralized control device 3, that is, the energy management centralized control device 1 has an acknowledgment transmission means, and receives the previous “operation start” instruction. In response to this, a confirmation response with the destination identifier h is transmitted to the identifier server 8. The identifier server 8 has aggregate response transmission means, refers to its own communication relationship table, and is a centralized control device that is in communication relationship with the air conditioner 4 and all the centralized control devices other than those that have transmitted the “operation start” instruction. That is, when the confirmation response from the energy management central control device 1 is confirmed, the confirmation response with the transmission source identifier h is transmitted to the monitoring central control device 3 that is the transmission source. The monitoring centralized control device 3 receives the confirmation response from the air conditioner 4 and the confirmation response from the identifier server 8 to confirm that the air conditioner 4 has started to operate reliably and to know that the air conditioner 4 has started to operate. It can be confirmed that the central control device has confirmed the fact.
[0019]
In the fifth example, when there is no confirmation response from the identifier server 8 in the fourth example, the monitoring central control device 3 has a message re-sending means, and a message indicating that the operation state of the air conditioner 4 is “operation start” is re-executed. Send.
[0020]
In the sixth example, the identifier server 8 in the fourth example has a message retransmission request means and refers to its own communication relation table within a certain period of time from all of the central control devices in communication relation with the air conditioner 4. If the confirmation response is not received, the monitoring central control device 3 is requested to retransmit a message indicating that the operation state of the air conditioner 4 is “operation start”.
[0021]
In the seventh example, the identifier server 8 in the fourth example has a message retransmission means and refers to its own communication relation table within a certain time from all of the centralized control devices in communication relation with the air conditioner 4. When the confirmation response is not received, the message indicating that the operation state of the air conditioner 4 is “operation start” is retransmitted according to the content received from the monitoring central control device 3.
[0022]
Next, FIG. 7 shows another configuration example of the present invention. Numbers {circle around (1)} are used as codes indicating the ranks of the energy management central control device 1, the security central control device 2, the monitoring central control device 3, and the identifier server 8, respectively. The case where (4) is given is shown.
[0023]
With the above configuration, an eighth example will be described with reference to FIG. As the lighting 5 is in its own state, a message “OFF” is transmitted as no transmission destination identifier and transmission source identifier e (see solid line arrow). The energy management central control device 1, the security central control device 2, the monitoring central control device 3, and the identifier server 8 have code order response means, and all receive this message. When the identifier server 8 to which the largest number (4) is assigned receives the message “light-off state”, the monitoring central control device 3 to which the confirmation response (4.3) is assigned the next smallest number (3) is provided. Send to. The monitoring central control apparatus 3 that has received the confirmation response (4.3), when receiving the message “light-off state”, sends the confirmation response (3. 2) is transmitted. Similarly, the security central control apparatus 2 that has received the confirmation response (3.2) confirms with the energy management central control apparatus 1 that is assigned the next smallest number {circle around (1)} when the message “light-off state” is received. A response (2.1) is transmitted. The energy management centralized control device 1 has a final response means, and since there is no centralized control device that forwards the confirmation response next, when the message “light-off state” is received, the confirmation response is transmitted to the illumination 5 of the transmission source To do. In the above control flow, when any one central control apparatus does not receive the message “light-off state”, the confirmation response is interrupted there, and the confirmation response does not return to the source illumination 5 in the end. With the above control, the lighting 5 can confirm whether or not all the central control devices have received the message “light-off state”. In addition, the confirmation responses are transferred in order, and the centralized control device assigned with the last number transmits the final response, so that data transmission to the communication path is not performed simultaneously, and communication congestion can be alleviated.
[0024]
Next, a ninth example will be described with reference to FIG. First, the air conditioner 4 transmits a message of “in operation” as its own state without a transmission destination identifier and as a transmission source identifier e (see solid line arrow). The communication relationship between each central control device and the equipment terminal at this time follows Table 2. The energy management central control device 1, the security central control device 2, the monitoring central control device 3, and the identifier server 8 have an acknowledgment transmission means, and all receive this message. When the energy management central control device 1, the security central control device 2, and the monitoring central control device 3 receive the message “in operation” from the air conditioner 4, the central control device that is in communication with the air conditioner 4, that is, the energy management central control device. 1 and the monitoring centralized control device 3 transmit a confirmation response (ah) and a confirmation response (ch) to the identifier server 8, respectively. The identifier server 8 has a general response means, confirms receipt of confirmation responses from all the central control devices in communication relation with the air conditioner 4 with reference to the communication relation table, and then sends a confirmation response to the air conditioner 4. Send. If there is no confirmation response within a certain time, the air conditioner 4 that is the transmission source transmits an “in operation” message again.
[0025]
In the tenth example, in the ninth example, when there is no confirmation response from the energy management central control device 1 and the monitoring central control device 3 that are in communication with the air conditioner 4 within a predetermined time, the identifier server 8 sends a message A message “in operation” of the air conditioner 4 is transmitted to the centralized control device that has a retransmitting means and has not received a confirmation response. For example, when there is a confirmation response (ah) from the energy management central control device 1 and no confirmation response (ch) from the monitoring central control device 3, the “operation” of the air conditioner 4 with respect to the monitoring central control device 3 Send a "medium" message.
[0026]
In the eleventh example, in the ninth example, when there is no confirmation response from the energy management central control device 1 and the monitoring central control device 3 that are in communication with the air conditioner 4 within a predetermined time, the identifier server 8 sends a message It has a retransmission request means, and requests the air conditioner 4 to retransmit the “in operation” message.
[0027]
Next, in the twelfth example, the identifier server 8 has identifier sending means, and has an identifier table of all the centralized control devices and device terminals in the system, and which centralized control device and device terminal it has. A communication relation table indicating whether or not to communicate is sent to the monitoring central control apparatus 3, for example. The monitoring central control apparatus 3 has an identifier acquisition unit, receives the identifier table and the communication relation table, and plays the role of an identifier server.
[0028]
【The invention's effect】
As described above, in the home network system of the present invention, the centralized control device receives all messages regardless of the destination identifier of the message to be sent , and the device terminal specifies an identifier table for specifying the destination. Without transmitting the destination identifier to the message to be transmitted, while receiving only the message having the destination identifier addressed to itself, the equipment terminal does not need to store the centralized control device identifier, Only the message addressed to itself can be received, and the control circuit of the device terminal can be simplified and the cost can be reduced. In addition, the centralized control device monitors all communication data sent to the network, and when a plurality of centralized control devices target the same device terminal, the state change of the device terminal is transmitted to all the centralized control devices, Further, when a state change instruction message is transmitted from the central control apparatus to the equipment terminal, the message is transmitted to another central control apparatus.
[0029]
Furthermore, reliable communication can be performed by transmitting and receiving confirmation responses not only between the communication partner's central control device or device terminal but also between other central control devices.
[0030]
In addition, by adding an identifier server, it is possible to flexibly cope with changes in the network status such as addition and deletion of device terminals.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a home network system of the present invention.
FIG. 2 is a diagram illustrating a first example of the present invention.
FIG. 3 is a diagram illustrating a communication state according to the present invention.
FIG. 4 is a diagram illustrating a second example of the present invention.
FIG. 5 is a diagram for explaining a third example of the present invention.
FIG. 6 is a diagram for explaining a fourth example of the present invention.
FIG. 7 is a diagram showing another configuration example of the present invention.
FIG. 8 is a diagram for explaining an eighth example of the present invention.
FIG. 9 is a diagram for explaining a ninth example of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Energy management central control device, 2 ... Security central control device, 3 ... Monitoring central control device, 4 ... Air conditioner, 5 ... Lighting, 6 ... Exhaust fan, 7 ... Human sensor, 8 ... Identifier server.

Claims (2)

In a network in which a device terminal and a central control device that centrally controls the device terminal are connected via a communication path,
The centralized control device, an identifier giving means for giving a destination identifier to a message to be transmitted;
Message receiving means for receiving all messages regardless of the destination identifier of the message to be sent,
The device terminal does not have an identifier table for designating a transmission destination, means for transmitting without adding a transmission destination identifier to a message to be transmitted, and identifier determination for receiving only a message having a transmission destination identifier addressed to itself A home network system comprising receiving means. An identifier corresponding to each central control device and device terminal, and an identifier server for storing the communication relationship between them,
2. The home network system according to claim 1, wherein the central control device includes an identifier acquisition unit that receives the identifier of the device terminal from the identifier server and communicates with the device terminal.

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