JP4826801B2 - Communications system - Google Patents

Description

  The present invention relates to a communication system that sequentially transmits messages to a plurality of devices having different communication formats.

Conventionally, when a home non-IP device (a device having a communication function other than IP, such as a refrigerator or an air conditioner) is remotely controlled from a mobile phone or personal computer connected to the Internet, an arbitrary communication protocol (B It has been supported by installing a gateway device that locally manages information that links addresses on NET etc.) and virtual addresses on other communication protocols (such as IP). For example, when a control command is transmitted from outside the house to a virtual address associated with an air conditioner, the gateway device appropriately converts the virtual address and the real address on the optional communication protocol of the air conditioner, and delivers the control command to the air conditioner. Remote control was realized (for example, refer to Patent Documents 1 and 2).
In addition to the address conversion, the gateway device has a function of appropriately converting a transmission message according to an arbitrary communication protocol of the non-IP device, so that the message sender can easily communicate with the non-IP device. A method has also been proposed (see, for example, Patent Document 3).
Japanese Patent Laid-Open No. 2005-268888 Japanese Patent Laid-Open No. 2001-007836 JP 2003-087337 A

In the prior art, when a remote control is executed by interconnecting with a device on a network system including a non-IP device, a gateway device having a function of converting the address of the non-IP device on the boundary of the non-IP communication network is provided. I had to install it.
Therefore, when remotely maintaining non-IP equipment such as hundreds of air conditioners installed in a building, the controller of the air conditioner (communication means dedicated to the air conditioner for direct connection with the air conditioner and communication using TCP / IP) The IP device having both means becomes a gateway device, and performs control from the outside of the building by holding conversion information between TCP / IP communication and communication dedicated to the air conditioner.

However, this method has the following problems.
In other words, if a large amount of additional air conditioner construction or relocation of the air conditioner becomes necessary due to renovation of the building, etc., the network environment of the air conditioner, such as addresses, will be changed in large quantities, and the controller will also change the management information accordingly. There must be. If the number of controllers is about several, the change operation is easy, but if the number of controllers is several hundred, it becomes very difficult to manage address information correctly.
Currently, the number of air conditioners that can be managed by a single controller is on the order of several tens. In view of the situation where many controllers are installed in a normal building, management information can be stored like a gateway device. Large-scale management is difficult with the local method.

The gateway device aims at mutual connection between a specific communication protocol and another communication protocol, and does not take a form that allows easy connection with various communication protocols.
Therefore, for example, FA equipment in a factory has a wide variety of communication protocols for each manufacturer, but when remotely monitoring and controlling FA equipment with the conventional technology, a gateway device is required for each manufacturer of the installed equipment, Management becomes difficult. Furthermore, depending on the case, it may not be possible to handle the device, and remote monitoring and control may not be possible.
The present invention has been made to solve the above-described problems, and even when a message must be sent sequentially through a plurality of devices having different communication formats, the identifier attached to the device is changed. It is an object of the present invention to realize a communication system that can transmit a message to a destination only by specifying.

  The control device according to the present invention includes a first receiving unit that receives a message generated by a communication terminal, transmission contents configured by identifiers of a plurality of transmission destination devices to which the message is transferred, and the first reception An identifier extracting unit that extracts an identifier of a transmission destination device to be transferred next from the plurality of identifiers received by the unit, a first transmitting unit that transmits the identifier extracted from the identifier extracting unit to the management server, and the first A second receiving unit that receives from the management server a communication protocol and address corresponding to the identifier transmitted from the transmitting unit to the management server, and the transmission content based on the communication protocol received by the second receiving unit And a second transmission unit for transmitting the transmission content converted by the conversion unit to the address received by the second reception unit. It is.

In the present invention, the control device extracts the identifier of the next destination device from the identifiers of the plurality of destination devices to which the message is transferred, and transmits the identifier to the management server. By receiving the communication protocol from the management server, even when a message is transmitted via a plurality of apparatuses having different communication formats, it is possible to transmit the message only by specifying the identifier of the transmission destination apparatus .

Embodiment 1 FIG.
FIG. 1 is a configuration diagram of a communication system according to the first embodiment.
In FIG. 1, a terminal apparatus 1 is an apparatus having an IP address and capable of communication using IP.
The management server 2 is a server device having an IP address and capable of communication using IP.
The control target device 4 is an device having an address in an arbitrary communication protocol and capable of communicating by an arbitrary communication protocol.
The device control apparatus 3 is an apparatus having an IP address and capable of communicating using IP, and having means capable of communicating using the same arbitrary communication protocol as the control target apparatus 4.
The terminal device 1, the management server 2, and the device control device 3 are connected to the Internet 5 and are configured to allow mutual communication using IP from a remote location.

The device control device 3 and the control target device 4 are configured to be able to communicate with each other using an arbitrary communication protocol.
The device control apparatus 3 has a unique and arbitrary length identifier 31 unique to the system, and similarly, the control target device 4 also has a unique and arbitrary length identifier 41 unique to the system.
In addition, the management server 2 stores address information / communication protocol information 21 which is management information composed of device identifiers such as the identifier 31 of the device control device 3 and the identifier 41 of the device 4 to be controlled, address information, and communication protocol information. Have.

Next, the processing operation of the communication system according to the present embodiment will be described.
FIG. 2 is a flowchart showing the processing operation of the communication system of the present embodiment.
First, the transmission content composed of a message from a message sender and an identifier string that is an identifier of a plurality of devices (the identifier of the device control device 3 or the identifier of the control target device 4) that sequentially transmits the message is a terminal device. 1, the terminal device 1 selects the identifier of the device to which the message is to be transmitted next from the identifier string in the transmission content, transmits this identifier to the management server 2, and then transmits the message. An inquiry is made about the address information and communication protocol information of the transmission destination device (step S11).

  When the management server 2 receives the inquiry from the terminal device 1, the management server 2 refers to the address information / communication protocol information 21 managed by itself (step S 12), and from the address information / communication protocol information 21 managed by itself, Address information and communication protocol information matching the identifier transmitted from the device 1 are acquired (step S13), and the acquired information is transmitted to the terminal device 1 (step S14).

Based on the communication protocol information transmitted from the management server 2, the terminal device 1 converts the transmission content input by the message sender into a communication format (communication protocol) suitable for the next transmission destination device. (Step S15), the converted transmission content is transmitted to the address information destination transmitted from the management server 2 (Step S16).
With the above operation, the message sender can simply send the message to the message transmission destination without knowing the address or communication protocol of the message transmission destination by simply inputting the message and the identifier of the transmission destination of the message to the terminal device 1. it can.

FIG. 3 is an explanatory diagram showing an example of the address information / communication protocol information 21 managed by the management server 2.
In FIG. 3, 100 is an identifier of the device control device 3, 101 is an address of the device control device 3 with the identifier 100, and 102 is a communication protocol when a message is transmitted to the device control device 3 with the address 101.
Reference numeral 103 denotes an identifier of the control target device 4, 104 denotes an address of the control target device 4 with the identifier 103, and 105 denotes a communication protocol when a message is transmitted to the control target device 4 with the address 104.

FIG. 4 is an explanatory diagram showing the communication operation of the communication system in the present embodiment.
The communication operation at the time of transmitting the message 202 from the terminal device 1 to the control target device 4 is shown.
The communication operation of the communication system will be described with reference to FIG.
Here, the management server 2 in FIG. 4 holds the address information / communication protocol information 21 in FIG. Further, the terminal device 1 finally transmits a message 202 to be transmitted to the control target device 4a.
The message 202 exists in the route until it reaches the control target device 4a, and holds the transmission content 200 composed of the identifier strings 201 of a plurality of devices that sequentially transmit the messages.

  First, the terminal device 1 sends the identifier string 201 to the management server 2 in order to determine the message transmission destination, and is the first identifier of the identifier string 201, that is, the identifier of the device control device 3 that transmits the message next. When the address information 101 corresponding to the identifier 100 and the communication protocol information 102 are inquired to the management server 2 (205), the management server 2 refers to the management information 21 held by itself, and the address information 101 corresponding to the identifier 100 and The communication protocol information 102 is acquired and returned to the terminal device 1 (206).

  The terminal device 1 converts the transmission content 200 configured by the message 202 and the identifier string 201 based on the communication protocol information 102 returned from the management server 2 into an appropriate communication format for transmission. The transmission contents 200 are transmitted to the address information 101 returned from the management server 2 (207). Specifically, the address information 101 (value in FIG. 4: 123.74.12.39) is an address corresponding to the identifier 100 (value in FIG. 4: AAA4435634), and the identifier 100 is the device control device 3. Therefore, the terminal device 1 transmits the transmission content 200 to the device control device 3 with the identifier 100. At this time, the terminal device 1 converts the transmission content 200 into an appropriate communication format for transmission to the device control device 3 based on the communication protocol information 102 (value in FIG. 4: IP) and transmits the converted communication format 200 to the device control device 3. To do.

When the device control device 3 receives the transmission content 200 transmitted from the terminal device 1, the device control device 3 transmits the message 202 next from the identifier column 201 of the transmission content 200 transmitted from the terminal device 1. The identifier 103 of the destination device to be transmitted is selected, this identifier is transmitted to the management server 2, and the address information and communication protocol information of the destination device to which the message is transmitted next are inquired (208).
Here, in the identifier column 201, the identifiers are arranged in the order in which the messages 202 are sequentially transmitted, and the device control apparatus 3 determines the identifier of the device to be sent next by looking at the identifier sequence in the identifier column 201. can do.

  Thereafter, when the management server 2 receives the inquiry from the device control device 3, the management server 2 refers to the address information / communication protocol information 21 managed by itself, and from the address information / communication protocol information 21 managed by itself, The address information and communication protocol information matching the identifier transmitted from the control device 3 are acquired, and the acquired information is transmitted to the device control device 3 (209).

Based on the communication protocol information transmitted from the management server 2, the device control device 3 converts the message 202 in the transmission content 200 transmitted from the terminal device 1 into a communication protocol suitable for the transmission destination device to be transmitted next. The converted message 202 is transmitted to the address information destination transmitted from the management server 2 (210).
Specifically, the address information 104 (value: 5 in FIG. 4) is an address corresponding to the identifier 103 (value: BBB 6344534 in FIG. 4), and the identifier 103 is an identifier of the control target device 4. The device control device 3 transmits the message 202 in the transmission content 200 to the control target device 4. At this time, the device control apparatus 3 converts the message 202 into an appropriate communication format for transmission to the control target device 4 based on the communication protocol information 105 (value in FIG. 4: M-NET), and controls the control target device 4. Send to.
With the above operation, the control target device 4 can receive the message 202 converted into an appropriate communication format transmitted by the device control apparatus 3.

Next, a communication operation when the management server 2 has a message conversion function will be described.
FIG. 5 is a flowchart showing the processing operation of the communication system when the management server 2 has a message conversion function.
In FIG. 5, unlike step S11 of FIG. 2, first, the terminal device 1 to which a transmission content 200 composed of a message 202 from a message sender and an identifier string 201 of a plurality of devices that sequentially transmit the message is inputted. Transmits the transmission content 200 to the management server 2 (step S21).

When the transmission content 200 is transmitted from the terminal device 1, the management server 2 refers to the address information / communication protocol information 21 managed by the management server 2 (step S 22). Then, the address information and the communication protocol information matching the first identifier in the identifier string 201 in the transmission content 200 transmitted from the terminal device 1 are acquired (step S23).
Thereafter, the management server 2 converts the message 202 in the transmission content 200 transmitted from the terminal device 1 into a communication format suitable for this communication protocol based on the acquired communication protocol information, that is, the transmission message is transmitted to the destination. Is converted into a communication format suitable for the destination communication protocol (step S24), and the converted message 202 and the address information acquired in step S23 are transmitted to the terminal device 1 (step S25).

The terminal device 1 transmits the converted message 202 to the address information destination received from the management server 2 without any operation (step S26).
With the above operation, the terminal device 1 that has received the transmission content 200 from the message sender can omit the process of converting the message, and can simply transmit the received content received from the management server 2 to the address destination as it is. .

  As described above, according to the present embodiment, the terminal device 1 uses the address information / communication protocol information 21 that the management server 2 has, so that the communication format between the terminal device 1 and the device control device 3 is It is possible to transmit a message to the control target device 4 simply by specifying the identifier of the device that transmits the message without worrying about the difference in the communication format between the device control device 3 and the control target device 4. Therefore, even when a plurality of devices having different communication formats (communication protocols) must be routed, it is possible to transmit a message to a transmission destination only by designating an identifier attached to the device.

  Further, since the management server 2 centrally manages the address information of the device control device 3 on the system and the communication protocol information of the control target device 4, for example, the number of new control target devices increases in a large scale on the scale of several hundred units. Even if the address information / communication protocol information 21 managed by the management server 2 is added to the address information and communication protocol information of the new control target device, the message can be transmitted to the new control target device. .

  Further, since the number of address information / communication protocol information 21 managed by the management server 2 is not limited, a plurality of address information and communication protocol information suitable for the message destination address and communication format can be managed. . Accordingly, a certain control target device 4 communicates with a communication protocol A and an address on the protocol, and a certain control target device 4 communicates with a communication protocol B and an address on the protocol to control the device. Assuming that the apparatus 3 has both A and B communication means, as long as the communication protocol information and address information of A and B are managed by the address information / communication protocol information 21 of the management server 2, A message can be transmitted to the target control target device 4 without changing the system.

Embodiment 2. FIG.
The basic configuration of the communication system of the present embodiment is the same as that of FIG. 1, but in this embodiment, there are a plurality of management servers, device control devices, and control target devices, and a message is transmitted in this configuration. Will be described.
FIG. 6 is a configuration diagram of a management server, a device control apparatus, and a control target device of the communication system according to the second embodiment.
In FIG. 6, there are two management servers, the management server 2a and the management server 2b. The management server 2a has an identifier 51a, and is associated with the identifier 51b of the management server 2b and the identifier 31c of the device control device 3c. Address information / communication protocol information is managed, and the management server 2b manages address information / communication protocol information associated with the identifier 31a of the device control device 3a and the identifier 31b of the device control device 3b.

There are also a plurality of device control devices 3, and the device control device 3a has an address associated with the identifier 41a of the control target device 4a, the identifier 41b of the control target device 4b, and the identifier 41c of the control target device 4c. Information / communication protocol information is obtained and managed from the management server 2b, and the device control apparatus 3b also obtains address information / communication protocol information associated with the identifier 41d of the control target device 4d from the management server 2b, and manages it. is doing.
Further, the device control apparatus 3c also receives the address information / communication protocol information associated with the identifier 41e of the control target device 4e, the identifier 41f of the control target device 4f, and the identifier 41g of the control target device 4g from the management server 2a. Acquire and manage.

FIG. 7 is an explanatory diagram showing the communication operation of the communication system in the configuration of FIG.
In FIG. 7, messages are sequentially sent from the management server 2a to the identifier 31c of the device control device 3c associated with the management server 2a and the identifier 41e of the control target device 4e associated with the device control device 3c. The case of transmitting 202 is shown.
In FIG. 7, the management server 2a has a unique identifier 51a unique to the system, holds address information / communication protocol information 21 composed of the identifier, address information, and protocol information, and the device control apparatus 3c similarly. The system has a unique identifier 31c unique to the system, and holds address information / communication protocol information 401 composed of the identifier, address information, and protocol information.

Further, the control target device 4e holds a unique identifier 41e unique to the system.
Further, the terminal device 1 holds a transmission content 200 configured by a message 202 to be transmitted to the control target device 4 and a device identifier string 402 through which the message 202 sequentially reaches the control target device 4. It is intended to transmit the message 202 to the control target device 4.

Next, an operation when the message 202 is transmitted from the terminal device 1 will be described with reference to FIGS.
First, the terminal device 1 transmits the transmission content 200 toward the identifier shown at the top of the identifier string 402 (403). In this case, the identifier shown at the top of the identifier column 402 is the identifier of the management server 2a.
When the transmission content 200 is transmitted from the terminal device 1, the management server 2 a having the identifier indicated at the head of the identifier string 402 in the transmission content 200 receives the transmission content 200.

Next, when receiving the transmission content 200, the management server 2 a refers to the identifier column 402 in the transmission content 200, and transmits the message 202 to the next transmission destination identifier and the next transmission destination identifier. Is obtained from the address information / communication protocol information 21 managed by itself, and based on the obtained communication protocol information, the message 202 transmitted from the terminal device 1 and the identifier string 402 are used. The configured transmission content 200 is converted into a communication format suitable for transmission to the next transmission destination, and the converted transmission content 200 is transmitted to the acquired address information destination (404).
Here, the management server 2a transmits the transmission content 200 to the device control device 3c if the identifier of the transmission destination to which the transmission content 200 is transmitted next is the identifier 31c of the device control device 3c associated with the management server 2a. If the identifier of the transmission destination to which the transmission content 200 is transmitted next is the identifier 51b of the management server 2b associated with the management server 2a, the message 202 is transmitted to the management server 2b.

When the device control device 3c receives the transmission content 200 transmitted from the management server 2a, the device control device 3a refers to the identifier column 402 in the transmission content 200, and next identifies the identifier of the device that transmits the transmission content 200 and the next Communication protocol information suitable for transmitting the message 202 to the device is acquired from the address information / communication protocol information 401 managed by the device, and the message 202 is transmitted to the next device based on the acquired communication protocol information. The communication format is converted to a suitable communication format, and the converted message 202 is transmitted to the acquired address information destination (405). Here, since the address information destination to which the converted message 202 is transmitted is an address corresponding to the identifier 204, and the identifier 204 is the identifier of the control target device 4a, the device control apparatus 3a displays the converted message 202. It transmits to the control object apparatus 4a.
Through the above operation, the control target device 4a can receive the message 202.

Next, the processing operation of the communication system when a control target device is newly added to the communication system of the present embodiment will be described.
FIG. 8 shows that when a control target device is newly added to the communication system of the present embodiment, the management server 2 automatically generates an identifier and adds this new identifier to its own address information / communication protocol information. It is a flowchart which shows the processing operation of the communication system when doing.
In FIG. 8, when a control target device is newly added (step S31) and address information and communication protocol information of the control target device are added to the management server 2 (step S32), the management server 2 is newly added to the system. A unique identifier is generated (step S33), the identifier managed by itself is referred to (step S34), and it is checked whether the same identifier exists (step S35). If the same identifier does not exist, that is, if the identifier is not duplicated, the identifier is added to the address information / communication protocol information managed by itself as a newly generated identifier (step S36).

Next, the processing operation of the communication system when the control target device is deleted from the communication system according to the present embodiment will be described.
FIG. 9 is a flowchart showing the processing operation of the communication system when the control target device is deleted from the communication system.
In FIG. 9, when the control target device is deleted from the communication system (step S41), based on the identifier of the control target device, the management server 2 performs the control from the address information / communication protocol information held by itself. Information corresponding to the identifier of the target device is deleted (step S42).
Thereafter, the management server 2 sends a deletion notification to the device control apparatus connected to the control target device (step S43), and if the device control apparatus holds the address information / communication protocol information. (Step S44), all the information associated with the identifier is deleted, that is, the information of the device to be controlled is deleted from the address information / communication protocol information held by the device control apparatus (Step S45) and held. If not, the process ends.

  As described above, according to the present embodiment, the management server 2 has a unique identifier unique to the system in the same manner as the device control apparatus 3a and the control target device 4a, and the device control of the message transmission destination specified by the identifier. The management server 2 itself has a function of directly transmitting a message to the device 3a, and the device control device 3a holds the address information / communication protocol information acquired from the management server 2 and has a message conversion function. 1 determines the message transmission destination, without inquiring the management server 2 each time for address information and communication protocol information corresponding to the identifier, the message 200 is directed toward the identifier shown at the top of the identifier string 402. By sending messages, you can send messages, so extra tokens on the network It is possible to Fick reduced.

Further, when the device control device 3a is newly added, an identifier of the newly added device control device 3a can be automatically generated, and the new identifier is included in the address information / communication protocol information held by itself. Can be added to.
Furthermore, when the control target device 4a is deleted, the terminal device 1 or the device control device can be simply deleted by deleting the identifier of the control target device 4a from the address information / communication protocol information held by the management server 2a. The identifier of the control target device 4a in the address information / communication protocol information held by each 3a can also be deleted.

Embodiment 3 FIG.
FIG. 10 is a configuration diagram of the communication system according to the third embodiment. In FIG. 10, reference numeral 500 denotes a newly added system management server 500, which is held by all management servers existing in the system. It is a server having a function of periodically collecting address information / communication protocol information and managing them collectively.
In addition, since the system management server 500 knows the identifiers of all management servers, device control apparatuses, and control target devices, it is possible to provide identifier path information in response to an inquiry.
Furthermore, since the system management server 500 knows the identifiers of all management servers, device control devices, and control target devices, the message transmitted from the terminal device 1 is sent to the control target devices via the shortest device path. Can be obtained and notified to the terminal device 1.

Next, a description will be given of a processing operation when the system management server 500 is used to acquire route information for transmitting a message to a message transmission destination control target device.
FIG. 11 is an explanatory diagram showing the processing operation of the system management server 500 when ensuring the uniqueness of the identifier.
FIG. 11 shows a case where three management servers (600, 601 and 602) exist on the communication system as an example of the present embodiment. Therefore, the address information / communication protocol information of the three management servers becomes the management information of the entire system.

The system management server 500 collects address information and communication protocol information held by the three management servers (600, 601 and 602), respectively (603, 604 and 605), thereby managing all management existing in the system. Address information and communication protocol information held by the server are managed collectively.
In the above state, when the terminal device 1 makes an inquiry to the system management server 500 based on the identifier of the control target device that is the message transmission destination (606), the system management server 500 manages the address information / communication managed by itself. The shortest identifier route information for the message to reach the control target device is acquired from the protocol information, and this shortest identifier route information is notified to the terminal device 1 (607).

  The shortest identifier path information notified by the system management server 500 is an identifier string 402 in the transmission content 200 held by the terminal device 1 shown in FIG. That is, the system management server 500 generates the identifier string 402 of the transmission content 200 held by the terminal device 1 based on the acquired shortest identifier path information.

Next, since the system management server 500 manages the identifier of the entire system, it is possible to ensure the uniqueness of the identifier. The processing operation at this time will be described below.
FIG. 12 is a flowchart showing the processing operation of the system management server 500 when ensuring the uniqueness of the identifier.
First, the system management server 500 refers to the address information / communication protocol information of the entire system managed by itself (step S51), and checks whether or not the same identifier exists, that is, whether or not the identifier is duplicated (step S52). .

If the same identifier does not exist, the process ends. If the same identifier exists, a new identifier is generated (step S53).
In order to confirm that the newly generated identifier is not duplicated again with other identifiers, the system management server 500 refers to the address information / communication protocol information held by itself (step S54). That is, it is confirmed whether or not the same identifier exists (step S55).

If the same identifier exists, the process returns to step S53 and repeats from the process of generating a new identifier to the confirmation.
If the same identifier does not exist, the original duplicate identifier and the newly generated identifier are replaced (step S56), and the management server and device control apparatus holding the duplicate identifier as management information are detected. (Step S57), and notifies that there is an overlap (Step S58).
The management server and device control apparatus that have received the notification replace the corresponding identifier with the newly generated identifier received from the system management server 500 (step S59).

As described above, according to the present embodiment, the system management server 500 manages the address information and communication protocol information of the entire system even when the terminal device does not know the route information for reaching the control target device. Therefore, it is possible to obtain route information for transmitting a message based on the identifier of the control target device that is the transmission destination of the message sent from the terminal device.
Further, when the system management server 500 grasps the identifier of the entire system, it is possible to ensure the uniqueness of the identifier in the entire system. As a result, it is possible to uniquely define the route information by specifying the identifier, and an incorrect identifier is not sent to the terminal device.

1 is a configuration diagram of a communication system according to a first embodiment. 4 is a flowchart showing processing operations of the communication system in the first embodiment. FIG. 3 is an explanatory diagram showing an example of address information / communication protocol information 21 managed by the management server 2 in the first embodiment. FIG. 3 is a communication operation explanatory diagram of the communication system in the first embodiment. 6 is a flowchart showing processing operations of the communication system when the management server 2 has a message conversion function in the first embodiment. FIG. 3 is a configuration diagram of a communication system according to a second embodiment. FIG. 10 is a diagram illustrating a communication operation of the communication system according to the second embodiment. 9 is a flowchart showing a processing operation of the communication system when a control target device is newly added in the second embodiment. 9 is a flowchart showing a processing operation of the communication system when a control target device is deleted from the communication system in the second embodiment. FIG. 4 is a configuration diagram of a communication system according to a third embodiment. FIG. 10 is an explanatory diagram of processing operations of the system management server 500 when ensuring the uniqueness of an identifier in the third embodiment. 10 is a flowchart showing processing operations of the system management server 500 when ensuring the uniqueness of an identifier in the third embodiment.

Explanation of symbols

  1 Terminal device, 2 (2a, 2b) Management server, 3 (3a, 3b, 3c) Device control device, 4 (4a, 4b, 4c, 4d, 4e, 4f, 4g) Control target device, 5 Internet, 21 address Information / communication protocol information, 31 (31a, 31b, 31c) identifier, 4 (41a, 41b, 41c, 41d, 41e, 41f, 41g) identifier, 51a identifier, 100 identifier, 103 identifier, 101 address information, 104 address information , 102 communication protocol information, 105 communication protocol information, 200 transmission message, 201 identifier string, 202 message, 203 identifier, 204 identifier, 205 inquiry processing to the management server, 206 reply processing from the management server, 207 message transmission processing, 208 Questions to the management server Matching processing, 209 Reply processing from the management server, 210 Message transmission processing, 400 identifier, 401 Address information / communication protocol information, 402 Identifier string, 403 Message transmission processing, 404 Message transmission processing, 405 Message transmission processing, 500 system management server, 600 management server, 601 management server, 602 management server, 603 management information collection processing, 604 management information collection processing, 605 management information collection processing, 606 route information inquiry processing, 607 route information response processing.

Claims (9)

A first reception unit that receives a message generated by a communication terminal and a transmission content configured by identifiers of a plurality of transmission destination devices to which the message is transferred;
  An identifier extraction unit that extracts an identifier of a transmission destination device to be transferred next from the plurality of identifiers received by the first reception unit;
  A first transmitter that transmits the identifier extracted from the identifier extractor to the management server;
  A second receiving unit that receives from the management server a communication protocol and address corresponding to the identifier transmitted from the first transmitting unit to the management server;
  A conversion unit that converts the transmission content into a communication format of a transmission destination device based on the communication protocol received by the second reception unit;
  And a second transmission unit that transmits the transmission content converted by the conversion unit to the address received by the second reception unit. A receiving unit that receives an identifier of a destination device to which a message generated at a communication terminal is transferred next;
  An information management unit for managing information in which a plurality of destination device identifiers, addresses, and communication protocols when transmitting a message to the destination device are associated;
  An information acquisition unit for acquiring an address and a communication protocol corresponding to the identifier received by the reception unit from the information management unit;
  A management server comprising: a transmission unit that transmits an address and a communication protocol acquired by the information acquisition unit to the transmission source device. A management server for managing information in which a plurality of destination device identifiers, addresses, and communication protocols for sending a message to the destination device are associated with each other;
  Receiving a transmission content composed of a message generated by a communication terminal and identifiers of a plurality of transmission destination devices to which the message is transferred, and extracting an identifier of a transmission destination device to be transferred next from the plurality of identifiers; A controller that transmits an identifier to the management server, receives an address and a communication protocol corresponding to the identifier from the management server, converts the transmission content based on the communication protocol, and transmits the transmission content to the address A communication system characterized by the above. A terminal device that transmits a transmission content composed of a message and identifier strings of a plurality of devices to which the message is sequentially transmitted;
Having first management information in which identifiers of a plurality of devices, addresses of the plurality of devices, and communication protocols when transmitting the message to the plurality of devices are stored in association with each other,
Based on the transmission content transmitted by the terminal device, the communication protocol and the address corresponding to the identifier of the device that transmits the message next are selected from the first management information. A first management server that converts the transmission content transmitted by the terminal device based on the address into a communication format of a transmission destination and transmits the converted transmission content;
Second management information stored in association with an identifier of a plurality of devices, an address of the plurality of devices, and a communication protocol when transmitting the message to the plurality of devices,
Based on the transmission content transmitted by the terminal device, the communication protocol and the address corresponding to the identifier of the device that transmits the message next are selected from the second management information, and the communication protocol A second management server that converts the transmission content transmitted by the terminal device based on the address into a communication format of a transmission destination and transmits the converted transmission content;
Third management information stored in association with identifiers of a plurality of devices, addresses of the plurality of devices, and communication protocols when transmitting the message to the plurality of devices,
The communication protocol corresponding to an identifier of a device that transmits the message next out of the third management information based on the transmission content transmitted by either the first management server or the second management server. And the address, and the message in the transmission content transmitted by either the first management server or the second management server on the basis of the communication protocol and the address is set as the communication format of the transmission destination A plurality of device control devices that convert and send the converted message;
A communication system, comprising: a plurality of devices to be controlled that receive the message transmitted by any of the plurality of device control apparatuses. A terminal device that transmits a transmission content composed of a message and identifier strings of a plurality of devices to which the message is sequentially transmitted;
Management information stored in association with each of the identifiers of a plurality of devices, the addresses of the plurality of devices, and the communication protocol when transmitting the message to the plurality of devices, and transmitted by the terminal device A plurality of management servers that select the communication protocol and the address corresponding to the identifier of the device that transmits the message from the management information based on the transmission content;
Based on the communication protocol selected by one of the plurality of management servers and the address, the message transmitted by the terminal device is converted into a communication format of a transmission destination, and the converted message is transmitted to the address. A plurality of device control devices,
A communication system comprising: a plurality of devices to be controlled that receive the message transmitted by any of the plurality of device control apparatuses. The terminal device transmits an identifier of a control target device to which the message is transmitted;
When the identifier of the control target device is transmitted by the terminal device, the management information of the plurality of management servers is periodically collected, and a message reaches the control target device based on the plurality of management information 6. The system management server according to claim 5 , further comprising: a system management server that obtains the shortest identifier path information of the terminal device and generates the identifier string in the transmission content transmitted by the terminal device based on the shortest identifier path information. Communications system. The system management server generates a new identifier when the same identifier exists among the identifiers of the plurality of management information collected periodically, and when the new identifier does not exist in the plurality of management information, 7. The communication system according to claim 6, wherein the new identifier is replaced with a duplicate identifier managed by the management server . The plurality of management servers generate a new identifier corresponding to the new control target device when a new control target device is added, and add the new identifier, the address of the new control target device, and the new control target device to the new control target device. 6. The communication system according to claim 5, wherein the communication protocol is added to the management information stored by itself in association with a communication protocol used when the message is transmitted. When the control target device is deleted, the plurality of management servers communicates when the deletion target device identifier corresponding to the deletion control target device, the address of the deletion control target device, and the message is transmitted to the deletion control target device 6. The communication system according to claim 5 , wherein the protocol is deleted from the management information stored by itself.

Images