JP7388884B2 - Communication device, communication control system, and communication control method - Google Patents

Description

The present invention relates to a communication device, a communication control system, and a communication control method.

BACKGROUND ART Facility management systems that manage various types of equipment installed in buildings have been known. In addition, as shown in FIG. 8, conventionally, an engineering terminal such as a notebook PC or a tablet terminal is used to set parameters for each controller, which is a communication device connected via Ethernet (registered trademark) communication or serial communication. Facility management systems are known in which engineering work such as setting and checking I/O input/output is performed. For example, Patent Document 1 discloses a technology in which a controller and a mobile terminal device exchange data using NFC communication.

In conventionally known equipment management systems, the method of accessing a controller from a terminal for performing engineering work such as a mobile terminal device (hereinafter sometimes referred to as an "engineering terminal") is based on the communication supported by each controller. Protocol dependent. In recent years, in-house communication protocols such as the Building Automation and Control Networking (BACnet (registered trademark)) protocol for intelligent buildings have been used in facility management systems, and some systems use Modbus (registered trademark). .

When multiple different communication protocols as mentioned above are adopted, in order to communicate with the target controller, it is necessary to specify the communication protocol used and the communication parameters (for example, IP address, etc.) according to the communication protocol. It is necessary to know this in advance. In order to establish communication between a controller that is the target of engineering work and a mobile terminal device that is another device, the user, for example, in the mobile terminal device, provides information regarding communication parameters such as a communication protocol and an IP address used by the target controller. It was necessary to select and input information.

For example, as shown in FIG. 9, in a conventional equipment management system, a user selects a communication protocol supported by a target controller from among multiple communication protocols on the display screen of an engineering terminal, and then selects an IP address. I was inputting things like: Therefore, the procedure for another device such as a mobile terminal device to access a communication device such as a controller is complicated. Furthermore, because the procedure for accessing a communication device such as a controller is complicated, there is a risk that an incorrect address may be entered and the wrong controller may be accessed.

JP 2019-124998 Publication

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to more reliably establish communication with other devices with a simpler configuration.

In order to solve the above-mentioned problems, a communication device according to the present invention retains the type of communication protocol for communicating with other devices and the communication parameters necessary for communicating according to the communication protocol. and a notification unit configured to notify the other device of the type of communication protocol and the communication parameters held in the holding unit , the holding unit configured to further retains the type of communication protocol of a higher-level device connected to the host device via the host device and communication parameters necessary for performing communication according to the communication protocol of the higher-level device; The method is characterized in that the type of communication protocol of the higher-level device and the communication parameters are notified to the other device .

Furthermore, in the communication device according to the present invention, the notification unit notifies the other device of the type of communication protocol and the communication parameter when the distance to the other device falls below a predetermined value. You can.

Further, in the communication device according to the present invention, the holding unit includes a non-volatile memory, the type of the communication protocol and the communication parameters are stored in the non-volatile memory, and the notification unit includes a short-range wireless communication device. The holding section and the notification section may include an antenna compatible with a communication standard, and the holding section and the notification section may be provided in an IC tag.

Furthermore, in the communication device according to the present invention, the holding section may include a two-dimensional code, and the notification section may include a display section that displays the two-dimensional code.

In order to solve the above problems, a communication control system according to the present invention includes the above communication device and another device that communicates with the communication device, and the other device is notified by the notification unit. a reading unit configured to read the type of the communication protocol and the communication parameters; and based on the type of the communication protocol and the communication parameters read by the reading unit, make a connection request using the communication protocol. , and a communication unit configured to establish communication with the communication device.

In order to solve the above-mentioned problems, a communication control method according to the present invention includes a communication device that controls equipment connected via a communication line, and another device that communicates with the communication device. A communication control method executed by a system, wherein the communication device holds a type of communication protocol necessary for communicating with the other device and a communication parameter necessary for communicating according to the communication protocol. a first step of holding the communication protocol and the communication parameters held in the holding unit to the other device; and a second step of notifying the other device of the communication protocol and the communication parameters held in the holding unit; a third step of reading the type of the communication protocol and the communication parameters; and a third step of reading the type of the communication protocol and the communication parameters read in the third step. a fourth step of making a connection request via a communication line and establishing communication with the communication device; The second step includes the step of holding in the holding unit communication parameters necessary for performing communication according to a communication protocol of the device, and the second step includes the step of holding in the holding unit communication parameters necessary for communicating according to the communication protocol of the device, and the second step The method is characterized by including the step of notifying the other device of communication parameters necessary for performing communication according to a communication protocol of the device .

According to the present invention, since the type of communication protocol for communicating with other devices and the communication parameters necessary for communicating according to the communication protocol are notified to other devices, the configuration is simpler and more reliable. Communication can be established between the communication device and other devices.

FIG. 1 is a block diagram showing the configuration of a communication control system according to a first embodiment of the present invention. FIG. 2 is a block diagram showing an example of the hardware configuration of the controller according to the first embodiment. FIG. 3 is a flowchart for explaining the operation of the controller according to the first embodiment. FIG. 4 is an operation sequence diagram of the communication control system according to the first embodiment. FIG. 5 is a block diagram showing the configuration of a communication control system according to a modification of the first embodiment. FIG. 6 is a block diagram showing the configuration of a communication control system according to the second embodiment. FIG. 7 is an operation sequence diagram of the communication control system according to the second embodiment. FIG. 8 is a diagram for explaining the configuration of a conventional equipment management system. FIG. 9 is a diagram for explaining the establishment of communication in a conventional equipment management system.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to FIGS. 1 to 7.

[First embodiment]
In the communication control system according to the first embodiment, a controller (communication device) 1 that is the object of engineering work and a mobile terminal device (another device) 2 used by a user perform short-range wireless communication. Through this short-range wireless communication, the mobile terminal device 2 is notified in advance of the type of communication protocol that the controller 1 supports and the communication parameters necessary to perform communication according to the communication protocol. In this embodiment, Near Field Communication (NFC communication) is used as an example of near field communication.

As described above, in this embodiment, the controller 1 and the mobile terminal device 2 can be connected to each other in a predetermined manner without searching for the controller 1 to be subjected to engineering work through user input operations or setting information including communication protocols. One of its characteristics is that communication is established using a communication protocol.

[Communication control system configuration]
First, an overview of a communication control system according to an embodiment of the present invention will be explained. As shown in FIG. 1, the communication control system is provided in an equipment management system having a logical hierarchical structure of two or three layers.

The communication control system includes, for example, a controller 1, a mobile terminal device 2, and a field device 3. In an equipment management system, the controller 1 is a lower-level controller that monitors and controls field devices 3 such as pressure gauges and air conditioners, or a higher-level controller that monitors and controls a plurality of lower-level controllers.

The controller 1 is connected to field devices 3 such as sensors installed in facilities such as buildings via a communication line L2. In this embodiment, the controller 1 controls and manages the field device 3 via the communication line L2 using, for example, the BACnet communication protocol. In this case, as the BACnet communication protocol, for example, the BACnet MS/TP protocol using the communication line L2 having an RS-485 standard cable is used.

Further, the controller 1 according to the present embodiment communicates with the mobile terminal device 2 and a central monitoring device (not shown) via the communication line L1 using the BACnet communication protocol. In this case, the BACnet communication protocol is, for example, the BACnet IP protocol for communicating BACnet services over Ethernet.

In this embodiment, the user uses the mobile terminal device 2 to establish communication using the BACnet communication protocol with the controller 1 that is the target of engineering work, and performs parameter settings, I/O confirmation, and the like. However, the user is unable to know which communication protocol the controller 1 for which engineering work is being performed is compatible with, or the communication parameters corresponding to the communication protocol supported by the controller 1, such as the IP address of the controller 1. It may be. The communication parameters include identification information such as the IP address and port number of the controller 1.

The controller 1, which is the subject of engineering work, notifies the mobile terminal device 2 of the type of communication protocol set in the controller itself and the communication parameters necessary for communicating according to the communication protocol through NFC communication. Based on this, the mobile terminal device 2 and the controller 1 can establish communication using the BACnet protocol, which is the set communication protocol, and start communication.

[Controller functional block]
First, the functional configuration of the controller 1, which is an example of a communication device targeted for engineering work, will be described.
The controller 1 includes an NFC tag (IC tag) 10, a control section 13, a storage section 14, and a communication section 15, as shown in FIG.

The NFC tag 10 includes an antenna (notification section) 11 and a nonvolatile memory (holding section) 12.
The NFC tag 10 establishes NFC communication in response to a connection request from the NFC tag reader 20 of the mobile terminal device 2, and starts NFC communication.

The antenna 11 is an antenna compatible with NFC communication.
The nonvolatile memory 12 is a nonvolatile memory built into the NFC tag. The nonvolatile memory 12 is realized by, for example, EEPROM (Electrically Erasable Programmable Read-Only Memory: registered trademark).

The nonvolatile memory 12 holds the type of communication protocol for communicating with other devices such as the mobile terminal device 2, and communication parameters necessary for communicating according to the communication protocol. In this embodiment, information indicating "BACnet" as the type of communication protocol is held in the nonvolatile memory 12. Furthermore, the nonvolatile memory 12 includes identification information such as the IP address of the controller 1, for example, as a communication parameter.

The type of communication protocol and communication parameters held in the nonvolatile memory 12 are written and registered in advance by an external terminal or the like when the controller 1 is installed in an equipment management system, for example.

The NFC tag 10 establishes NFC communication in response to an NFC communication connection request from an NFC tag reader 20 included in the mobile terminal device 2 . Furthermore, when NFC communication with the mobile terminal device 2 is established, the NFC tag 10 reads out the communication protocol and communication parameters held in the nonvolatile memory 12 and sends them to the mobile terminal device 2 through the antenna 11.

More specifically, when the distance to the mobile terminal device 2 falls below a predetermined value, the antenna 11 sends the type of communication protocol and communication parameters that can be stored in the nonvolatile memory 12 to the mobile terminal device 2. We will notify you. For example, the antenna 11 transmits the type of communication protocol and communication parameters within a communication range where NFC communication is possible, for example, within a distance of 10 cm.

The control unit 13 controls and manages the field devices 3 and the like connected to the controller 1 via the communication line L2. The control unit 13 controls the field device 3 through communication using, for example, BACnet MS/TP. Further, the control unit 13 executes necessary engineering work such as setting parameters of the own device and checking I/O in response to commands from the mobile terminal device 2 .

The storage unit 14 stores information regarding the field devices 3 to be controlled and managed.

The communication unit 15 establishes communication with the mobile terminal device 2 according to a communication protocol supported by the controller 1, and exchanges data with the mobile terminal device 2. For example, when the controller 1 supports communication using the BACnet protocol, BACnet IP communication can be established via the communication line L1 in response to a connection request from the mobile terminal device 2.

[Functional blocks of mobile terminal device]
Next, the functional configuration of the mobile terminal device 2 will be explained.
The mobile terminal device 2 is realized by, for example, a terminal device such as a smartphone, a tablet terminal, and a notebook PC. The mobile terminal device 2 is carried by a user who performs work at the site. The mobile terminal device 2 can communicate with the controller 1, which is the object of engineering work, by wireless communication or wired communication.

The mobile terminal device 2 includes an NFC tag reader 20, a communication section 22, and a storage section 23, as shown in FIG. The NFC tag reader (reading section) 20 includes an antenna 21 and a control section (not shown).

The NFC tag reader 20 sends a connection request for NFC communication to the controller 1 that is the target of engineering work, and establishes NFC communication.

Further, the NFC tag reader 20 receives communication protocols and communication parameters transmitted from the controller 1 via the antenna 21.

Based on the communication protocol type and communication parameters of the controller 1 read by the NFC tag reader 20, the communication unit 22 issues a communication connection request to the controller 1 using the communication protocol, and establishes communication with the controller 1. The communication unit 22 can communicate using a plurality of preset communication protocols employed in the equipment management system.

The storage unit 23 stores information regarding a plurality of communication protocols used in the equipment management system. The storage unit 23 stores information necessary for setting a plurality of communication protocols such as BACnet communication protocol, in-house communication protocol, and Modbus communication protocol and generating communication paths. The information related to the communication protocol stored in the storage unit 23 includes information related to the type of specific communication protocol and the type of communication parameters used by the controller 1 during communication.

[Controller hardware configuration]
Next, an example of the hardware configuration of the controller 1 having the above-described functions will be described with reference to FIG. 2.

As shown in FIG. 2, the controller 1 includes, for example, a computer connected via a bus 101, including a processor 102, a main storage device 103, a communication interface 104, an auxiliary storage device 105, and an input/output I/O 106; This can be realized by a program that controls hardware resources.

The main storage device 103 stores in advance programs for the processor 102 to perform various controls and calculations. The processor 102 and the main storage device 103 realize each function of the controller 1, such as the control unit 13 shown in FIG.

The communication interface 104 is an interface circuit for establishing a network connection between the controller 1 and various external electronic devices such as the mobile terminal device 2. The communication interface 104 implements the communication unit 15 described in FIG.

The auxiliary storage device 105 includes a readable and writable storage medium and a drive device for reading and writing various information such as programs and data to and from the storage medium. For the auxiliary storage device 105, a semiconductor memory such as a hard disk or a flash memory can be used as a storage medium.

The auxiliary storage device 105 has a program storage area in which a program for the controller 1 to control and manage the field device 3 via the communication line L2 is stored. The auxiliary storage device 105 implements the storage unit 14 described in FIG. Furthermore, for example, it may have a backup area for backing up the data, programs, etc. mentioned above.

The input/output I/O 106 is composed of I/O terminals that input signals from external devices and output signals to external devices.

The input device 107 includes physical keys, a touch panel, and the like, and receives operation input and generates a corresponding signal.

The display device 108 is configured with a liquid crystal display or the like.

The NFC tag 10 corresponds to the NFC tag 10 described in FIG. The NFC tag 10 is placed, for example, on the outer surface of the casing of the controller 1.

Note that the mobile terminal device 2 according to this embodiment can also be realized by a hardware configuration similar to the configuration shown in FIG. 2. Specifically, the mobile terminal device 2 includes a computer that is connected via a bus and includes a processor, a main storage device, a communication interface, an auxiliary storage device, and input/output I/O, and a program that controls these hardware resources. This can be achieved by

[Communication control method]
Next, the operation of the controller 1 having the above-described configuration will be explained using the flowchart of FIG. 3. In the following, it is assumed that the controller 1 stores in advance the type of communication protocol and communication parameters of its own device. When the mobile terminal device 2 carried by the user moves within the range of communication distance covered by NFC communication with the controller 1, the following process is executed.

First, the NFC tag 10 receives an NFC communication connection request from the mobile terminal device 2 through the antenna 11 (step S1). Next, the NFC tag 10 establishes NFC communication with the mobile terminal device 2, reads the communication protocol type and communication parameters of the controller 1 from the nonvolatile memory 12, and transmits them from the antenna 11 to the NFC tag reader 20 ( Step S2). For example, the controller 1 transmits information indicating the BACnet protocol supported by the controller, an IP address, etc. to the mobile terminal device 2.

After that, the controller 1 ends the NFC communication with the mobile terminal device 2 (step S3). Next, in response to the connection request based on the communication protocol of the controller 1 sent from the communication unit 22, the communication unit 15 establishes communication with the mobile terminal device 2 using the BACnet protocol (step S4). Specifically, in response to a connection request via BACnet communication from the mobile terminal device 2, authentication processing is performed to establish BACnet communication.

Thereafter, when the necessary engineering work through BACnet communication with the mobile terminal device 2, such as parameter setting and I/O confirmation by the mobile terminal device 2, is completed, the communication unit 15 ends the BACnet communication with the mobile terminal device 2. (Step S5).

[Operation sequence of communication control system]
Next, the operation of the communication control system according to this embodiment will be explained using the sequence diagram of FIG. 4.

First, the mobile terminal device 2 moves from the controller 1, which is the target of engineering work, to a communication distance range, such as 10 cm, where NFC communication with the controller 1 is possible. Next, the mobile terminal device 2 sends a connection request via NFC communication to the controller 1 (step S100). Next, the controller 1 that received the connection request establishes NFC communication with the mobile terminal device 2 (step S101).

Thereafter, the controller 1 receives information indicating the BACnet protocol that its own device supports, which is stored in the nonvolatile memory 12 of the NFC tag 10, and the IP address of the controller 1, which is a communication parameter necessary for communicating according to the BACnet protocol. The information is read out and transmitted to the mobile terminal device 2 (step S102). After that, the controller 1 and the mobile terminal device 2 end the NFC communication (step S103).

Next, the mobile terminal device 2 sends a message to the controller 1 based on the information indicating the BACnet protocol supported by the controller 1 that is the target of the engineering work and the IP address of the controller 1, which was received in advance through NFC communication. A connection request via BACnet communication is sent (step S104).

Thereafter, the controller 1 responds to the connection request and performs necessary authentication processing, and establishes BACnet communication with the mobile terminal device 2 (step S105). Thereby, the controller 1 and the mobile terminal device 2 start BACnet communication. For example, the user performs necessary engineering work such as parameter setting and I/O confirmation of the controller 1 from the mobile terminal device 2 through BACnet communication.

After that, the controller 1 and the mobile terminal device 2 end the BACnet communication (step S106).

As described above, according to the first embodiment, the controller 1 stores the type of communication protocol supported by its own device and the communication parameters necessary for communicating according to the communication protocol in the non-volatile memory of the NFC tag 10. It is stored in the gender memory 12. Since the controller 1 notifies the mobile terminal device 2 of its own communication protocol type and communication parameters in advance through NFC communication, it is possible to establish communication with the mobile terminal device 2 more reliably with a simpler configuration. .

Therefore, it is possible to prevent the mobile terminal device 2 from becoming unable to access the controller due to an input error or the like during the procedure until the mobile terminal device 2 accesses the controller 1. Furthermore, as a result, it is possible to prevent incorrect settings of parameters due to accessing the wrong controller.

[Modified example]
Next, a modification of the first embodiment will be described. FIG. 5 is a block diagram showing the configuration of a communication control system according to this modification.

In the communication control system according to this modification, a controller 1 that is connected to a field device 3 via a communication line L2 is connected to a higher-level controller (upper-level device) 4 via a communication line L1. Furthermore, the mobile terminal device 2 communicates with the controller 1, which is the target of engineering work, via the host controller 4.

For example, a communication protocol such as Modbus may be used for the communication lines L1 and L2, and a communication protocol such as BACnet IP may be used for the communication line L3.

In this case, the nonvolatile memory 12 included in the NFC tag 10 of the controller 1 that is the target of engineering work stores the communication protocol type and communication parameters of the controller 1 and the communication protocol type and communication parameters of the upper controller 4. has been done.

The mobile terminal device 2 obtains information including the type of communication protocol of the upper controller 4 and the communication parameters of the upper controller 4 in advance through NFC communication with the controller 1, and configures parameter settings of the controller 1 etc. via the upper controller 4. It can be carried out.

As explained above, according to this modification, even if the controller 1 to be engineered and the mobile terminal device 2 communicate via the host controller 4, the mobile terminal device can communicate with the controller 1 by NFC communication. 2 can obtain the type of communication protocol and communication parameters of the upper controller 4 in advance. Therefore, communication can be established between the mobile terminal device 2 and the controller 1 more reliably with a simpler configuration.

[Second embodiment]
Next, a second embodiment of the present invention will be described. In the following description, the same components as those in the first embodiment described above will be denoted by the same reference numerals, and the description thereof will be omitted.

In the first embodiment, the controller 1 that is the target of engineering work notifies the mobile terminal device 2 carried by the user of the type of communication protocol and communication parameters used by the controller 1 in advance through NFC communication. We have explained the case where In contrast, in the second embodiment, the type of communication protocol and communication parameters of the controller 1A are held by a two-dimensional code (holding unit) and displayed by the display unit 17 (notification unit). Hereinafter, a description will be given focusing on configurations that are different from the first embodiment.

[Controller functional block]
As shown in FIG. 6, the controller 1A includes a QR code 16, a display section 17, a control section 13, a storage section 14, and a communication section 15. In the controller 1A, the configuration other than the QR code 16 and the display section 17 is the same as that of the first embodiment.

The QR code 16 is a two-dimensional code in which a communication protocol and communication parameters compatible with the controller 1A are embedded.

The display unit 17 displays the QR code 16. The display unit 17 can display the QR code 16 on, for example, a liquid crystal screen or a tag. The display section 17 is provided on the outer surface of the casing of the controller 1A.

[Functional blocks of mobile terminal device]
The mobile terminal device 2A includes a camera 24, a reading section 25, a communication section 22, and a storage section 23. The configuration other than the camera 24 and the reading section 25 is the same as that of the first embodiment.

The camera 24 acquires an image of the QR code 16 displayed on the display section 17. The camera 24 can capture still images and moving images of the QR code 16 from a distance where the QR code 16 can be viewed from the display unit 17 of the controller 1A.

The reading unit 25 reads the QR code 16 acquired by the camera 24 and decodes it into data indicating the type of communication protocol and communication parameters used by the controller 1A indicated by the QR code 16.

Based on the type of communication protocol and communication parameters read by the reading unit 25, the communication unit 22 sends a connection request using the communication protocol to the controller 1A, and establishes communication with the controller 1A.

[Operation sequence of communication control system]
Next, the operation of the communication control system according to this embodiment will be explained using the sequence diagram of FIG. 7.

First, the user carries the mobile terminal device 2A and moves to a location in the building where the controller 1A to be engineered is installed. For example, the mobile terminal device 2A moves to a distance where the camera 24 can take an image, such as a distance where the QR code 16 displayed on the display section 17 provided on the outer surface of the casing of the controller 1A is visible.

The mobile terminal device 2A uses the camera 24 to take an image of the QR code 16 displayed on the display unit 17 provided on the outer surface of the housing of the controller 1A (step S200). Next, the mobile terminal device 2A reads the QR code 16 in which the type of communication protocol and communication parameters used by the controller 1A are embedded (step S201). For example, consider a case where the communication protocol supported by the controller 1A is the BACnet protocol and the communication parameters include an IP address.

Next, the mobile terminal device 2A sends a connection request to the controller 1A through BACnet communication (step S202). Thereafter, the controller 1A responds to the connection request, performs authentication, establishes BACnet communication with the mobile terminal device 2A, and starts BACnet communication (step S203).

Thereafter, the mobile terminal device 2A performs necessary engineering work such as parameter setting and I/O confirmation of the controller 1A through BACnet communication, and then ends the BACnet communication (step S204).

As explained above, according to the second embodiment, the communication protocol type and communication parameters of the controller 1A that is the target of engineering work are held in the QR code 16, and the QR code 16 displayed on the display unit 17 is read by the mobile terminal device 2A. Therefore, communication can be established more reliably between the controller 1A and the mobile terminal device 2A with a simpler configuration.

In addition, in the embodiment described, the case where there is one controller 1, 1A is illustrated and explained, but the case where there is a plurality of controllers 1, 1A is also included. In this embodiment, the user selects communication protocols used by each of the plurality of controllers 1 and 1A, such as BACnet, own company communication protocol, Modbus, etc., and communication parameters such as identification information corresponding to the communication protocols, and performs input operations. It is not necessary to do this. At the site, the user carries the mobile terminal device 2 and reliably accesses the controller 1, 1A to be engineered by simply moving to a distance where the controller 1, 1A to be engineered can be seen, for example. be able to.

Although the embodiments of the controller, communication control system, and communication control method of the present invention have been described above, the present invention is not limited to the described embodiments, and is applicable within the scope of the invention described in the claims. It is possible to make various modifications that a trader can imagine.

DESCRIPTION OF SYMBOLS 1... Controller, 2... Mobile terminal device, 10... NFC tag, 11, 21... Antenna, 12... Non-volatile memory, 13... Control section, 14, 23... Storage section, 15, 22... Communication section, 20... NFC tag reader , 101...Bus, 102...Processor, 103...Main storage device, 104...Communication interface, 105...Auxiliary storage device, 106...I/O I/O, 107...Input device, 108...Display device, L1, L2, L... communication line.

Claims (6)

a holding unit configured to hold a type of communication protocol for communicating with another device and communication parameters necessary for communicating according to the communication protocol;
a notification unit configured to notify the other device of the type of communication protocol and the communication parameters held in the holding unit ;
The holding unit further holds a communication protocol type of a higher-level device connected to the own device via a communication line and communication parameters necessary for performing communication according to the communication protocol of the higher-level device,
The notification unit notifies the other device of the type of communication protocol of the higher-level device held in the holding unit and communication parameters necessary for performing communication according to the communication protocol of the higher-level device.
A communication device characterized by : The communication device according to claim 1,
The communication device is characterized in that the notification unit notifies the other device of the type of communication protocol and the communication parameters when a distance from the other device falls below a predetermined value. The communication device according to claim 1 or 2,
The holding unit includes a nonvolatile memory, and the nonvolatile memory stores the type of the communication protocol and the communication parameter,
The notification unit includes an antenna compatible with a short-range wireless communication standard,
The communication device, wherein the holding section and the notification section are provided in an IC tag. The communication device according to claim 1 or 2,
The holding part includes a two-dimensional code,
The communication device, wherein the notification section includes a display section that displays the two-dimensional code. A communication device according to any one of claims 1 to 4 ,
and another device that communicates with the communication device,
The other device is
a reading unit configured to read the type of communication protocol and the communication parameters notified by the notification unit;
and a communication unit configured to issue a connection request using the communication protocol and establish communication with the communication device based on the type of the communication protocol and the communication parameters read by the reading unit. Characteristic communication control system. a communication device that controls devices connected via a communication line;
Another device that communicates with the communication device,
A communication control method executed by a communication control system comprising:
The communication device includes:
a first step of holding in a holding unit a type of communication protocol necessary for communicating with the other device and communication parameters necessary for communicating according to the communication protocol;
a second step of notifying the other device of the communication protocol and the communication parameters held in the holding unit;
The other device is
a third step of reading the type of communication protocol and the communication parameters notified in the second step;
A fourth step of making a connection request using the communication protocol to the communication device based on the type of communication protocol and the communication parameters read in the third step, and establishing communication with the communication device. including and
The first step is to retain in the holding unit the type of communication protocol of a higher-level device connected to the communication device via a communication line and communication parameters necessary for performing communication according to the communication protocol of the higher-level device. including steps,
The second step includes the step of notifying the other device of the type of communication protocol of the higher-level device held in the holding unit and communication parameters necessary for performing communication according to the communication protocol of the higher-level device.
A communication control method characterized by :

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