WO2023112161A1 - Erroneous connection prevention system, erroneous connection prevention method, and program - Google Patents

Abstract

An erroneous connection prevention system according to one embodiment comprises: a first identification unit configured so as to, when a change in power of a power port is detected, reference physical configuration information indicating a physical connection relationship pertaining to a communication line and a power line, and thereby identify a first apparatus connected to the power port via the power line and identify a communication port connected to the first apparatus via the communication line; a setting instruction unit configured so as to instruct an apparatus connected to the communication port to set setting information corresponding to the first apparatus; a second identification unit configured so as to, if setting of the setting information has been successful, reference physical configuration information indicating a logical connection relationship between apparatuses, and thereby identify a first opposing apparatus present in a manner opposing the first apparatus; a mutual communication confirmation instruction unit configured so as to instruct the first opposing apparatus to confirm mutual communication with a second opposing apparatus present in a manner opposing the first opposing apparatus; and a notification unit configured so as to, if setting of the setting information has failed or if confirmation of the mutual communication has failed, issue notification that there is a connection error in the communication line and/or the power line.

Description

ERROR-CONNECTION PREVENTION SYSTEM, ERROR-CONNECTION PREVENTION METHOD, AND PROGRAM

The present invention relates to an erroneous connection prevention system, an erroneous connection prevention method, and a program.

In the data centers of telecommunications carriers, etc., new installations and removals of communication equipment are carried out for various purposes such as increasing communication resources and updating equipment. When new communication equipment is installed or removed, it is necessary to correctly connect or remove communication lines and power lines as designed in advance. For this reason, workers in charge of these operations refer to design drawings to check whether communication lines and power lines are correctly connected or removed. Also, when removing communication lines and power lines, a technique called ring threading is sometimes used to prevent erroneous removal (for example, Non-Patent Documents 1 and 2).

However, it takes a lot of work to check whether the communication lines and power lines are correctly connected according to the pre-design. This is because communication lines and power lines are generally tied up in many cases, and often pass under double floors. For this reason, the confirmation work becomes insufficient in the limited working time, and there is a possibility that erroneous connection of communication lines and power lines may occur.

An embodiment of the present invention has been made in view of the above points, and aims to prevent erroneous connection of communication lines and power lines.

In order to achieve the above object, an incorrect connection prevention system according to one embodiment refers to physical configuration information representing a physical connection relationship between a communication line and a power line when a change in power of a power port is detected. a first identification unit configured to identify a first device connected to the power port via a power line, and a communication port connected to the first device via the communication line; a setting instruction unit configured to instruct a device connected to the communication port to set setting information corresponding to the first device; and when the setting information is successfully set, a second identifying unit configured to refer to logical configuration information representing a logical connection relationship between devices and identify a first opposed device existing opposite to the first device; a communication confirmation instructing unit configured to instruct a first counterpart device to confirm communication with a second counterpart device existing on the opposite side of the first counterpart device; and a notification unit configured to notify that there is a connection error in at least one of the communication line and the power line in the event of failure or failure in the communication confirmation.

It is possible to prevent incorrect connection of communication lines and power lines.

1 is a diagram showing an example of the overall configuration of an erroneous connection prevention system according to this embodiment; FIG. FIG. 4 is a diagram for explaining an example of the flow of work and incorrect connection prevention processing when a communication device is newly installed; It is a figure showing an example of functional composition of a detecting device concerning this embodiment. It is a figure showing an example of functional composition of a monitoring device concerning this embodiment. 6 is a flow chart showing an example of the flow of processing executed by the detection device in connection error prevention processing according to the present embodiment. 6 is a flow chart showing an example of the flow of processing executed by the monitoring device in connection error prevention processing according to the present embodiment; It is a figure which shows an example of the hardware constitutions of a computer.

An embodiment of the present invention will be described below. In this embodiment, it is possible to prevent erroneous connection of communication lines and power lines when newly installing (including replacement, renewal, etc.) a communication device at a site such as a data center of a telecommunications carrier. The erroneous connection prevention system 1 will be described. According to the erroneous connection prevention system 1 according to the present embodiment, erroneous connection between the communication line and the power line is prevented when a new communication device is installed. be able to. For example, the system configuration should be designed to ensure redundancy by being connected to multiple power supply devices, but the communication device is connected to only one power source due to misconnection of the power line, and as a result, It is possible to prevent failures such as service impact due to failure of the power supply device.

<Overall Configuration Example of Incorrect Connection Prevention System 1>
FIG. 1 shows an example of the overall configuration of an erroneous connection prevention system 1 according to this embodiment. As shown in FIG. 1, the incorrect connection prevention system 1 according to the present embodiment includes a detection device 10, a monitoring device 20, a configuration server 30, one or more communication devices 40, and one or more power distribution devices 50. and one or more concentrators 60 . These are installed in a base such as a data center, and the detection device 10, the monitoring device 20, the configuration server 30, the communication device 40, and the line concentrator 60 are communicably connected via an intra-base network, for example. .

The detection device 10 is a computer or computer system that detects that the communication device 40 and the power port of the power distribution device 50 are connected by a power line and identifies the communication device 40 or the like that should be connected to the power port.

The monitoring device 20 is a computer or computer system that notifies a predetermined notification destination of a warning to the effect that there is a possibility of erroneous connection when there is a possibility of erroneous connection with respect to at least one of the communication line and the power line.

The configuration server 30 is a computer or computer system that implements configuration of the communication device 40 corresponding to an instruction from the monitoring device 20 . Note that configuration is an abbreviation for configuration, and refers to reflecting a setting file in the communication device 40 .

The communication device 40 is, for example, a network device (switch, router, etc.). However, the communication device 40 is not limited to this, and may be, for example, a server (such as a rack mount server). Note that the communication device 40 is generally installed in a facility called a rack.

The power distribution device 50 is a device called a PDU (Power Distribution Unit) or the like, and distributes and supplies power from a power supply device (for example, various power sources such as a system power supply and a UPS (Uninterruptible Power Supply)). The power distribution device 50 has a plurality of power ports (power ports P ₁ to P _N in the example shown in FIG. 1) connected to power lines (power cables). It is assumed that only one communication device 40 is connected to one power port, and multiple communication devices 40 are not connected to one power port.

The line concentrator 60 is, for example, a network device such as a hub, switch, router, or the like. The concentrator 60 has a plurality of communication ports (communication ports Q ₁ to Q _M in the example shown in FIG. 1) connected to communication lines (LAN (Local Area Network) cables).

The overall configuration of the erroneous connection prevention system 1 shown in FIG. 1 is an example, and is not limited to this. For example, all or part of the detection device 10, the monitoring device 20, and the configuration server 30 may be integrated.

<Flow of Work and Misconnection Prevention Processing When Newly Installing Communication Device 40>
In the following, the flow of work and incorrect connection prevention processing when a communication device 40 is newly installed will be described with reference to FIG. 2 . Hereinafter, the newly installed communication device 40 will be referred to as "new communication device 40-1". When the communication device 40 is newly installed, the following works 1 and 2 are performed, and the following S1 to S13 are executed as the erroneous connection prevention process.

Work 1) The worker connects the new communication device 40-1 and the power port of the power distribution device 50 with a power line. At this time, the worker connects the power line to a predetermined power port among the power ports P ₁ to P _N of the power distribution device 50, for example, by referring to the design drawing.

Work 2) Also, the operator connects the new communication device 40-1 and the communication port of the line concentrator 60 with a communication line. At this time, the worker connects the communication line to a predetermined communication port among the power ports Q ₁ to Q _M of the line concentrator 60, for example, referring to the design drawing.

S1) When the new communication device 40-1 and the power port of the power distribution device 50 are connected by a power line, the detection device 10 receives current change information indicating that a current change has occurred in the power port. Thereby, the detection device 10 detects that the new communication device 40-1 and the power port of the power distribution device 50 are connected by the power line.

S2) Based on the physical configuration information and the current change information, the detection device 10 identifies the communication device 40 connected to the power port where the current change occurs (hereinafter referred to as communication device ID) and the communication device 40 to which the communication device 40 is connected. identification information of the communication port (hereinafter referred to as communication port ID). Here, the physical configuration information means the correct physical connection configuration between the communication device 40 and the power port of the power distribution device 50 and the correct physical connection configuration between the communication device 40 and the communication port of the concentrator 60. connection configuration (that is, information representing a pre-designed physical connection configuration). The communication port ID is identification information for identifying which communication port of which concentrator 60 .

S3) The detection device 10 transmits the communication device ID and communication port ID identified in S2 above to the monitoring device 20.

S4) When the monitoring device 20 receives the communication device ID and the communication port ID, it sends a configuration instruction including the communication device ID and the communication port ID to the configuration server 30 .

S5) Upon receiving the configuration instruction, the configuration server 30 performs settings corresponding to the communication device ID included in the configuration instruction for the communication device 40 connected to the communication port of the communication port ID included in the configuration instruction. Perform file configuration. Here, for example, the configuration server 30 stores, for each communication device ID, a setting file to be reflected in the communication device 40 of that communication device ID in a database or the like. The configuration file is information related to settings required for operation of the communication device 40, and includes routing information and the like when the communication device 40 is a router or the like, for example.

S6) The configuration server 30 receives the configuration result from the communication device 40 configured in S5 above. The config result includes at least information indicating whether the config was successful or unsuccessful.

S7) The configuration server 30 transmits the configuration result received in S6 above to the monitoring device 20.

S8) When the monitoring device 20 receives a configuration result indicating configuration failure, it notifies a predetermined notification destination of a warning indicating that at least one of the communication line and the power line is incorrectly connected. This is because, if the configuration fails, the wrong communication device 40 (for example, a communication device 40 of a type that cannot reflect the setting file) is connected to the communication port of the communication port ID specified in S2 above. This is because it is considered that the physical connection relation of at least one of the communication line and the power line is incorrect.

S9) When the monitoring device 20 receives the configuration result indicating that the configuration is successful, the monitoring device 20 determines from the logical configuration information and the communication device ID the communication device 4-0 (hereinafter referred to as the opposing communication device 40). Hereinafter, this counterpart communication device 40 will be referred to as "opponent communication device 40-2". Here, the logical configuration information is information representing a logical connection relationship between the communication devices 40 (that is, information representing a pre-designed logical connection relationship).

S10) The monitoring device 20 transmits an instruction to confirm communication with the communication device 40 to the opposite communication device 40-2 identified in S9 above.

S11) The opposite communication device 40-2 confirms communication with the communication device 40 that is the opposite of itself.

S12) The monitoring device 20 receives the communication confirmation result from the opposite communication device 40-2. The communication confirmation result includes at least information indicating whether the communication confirmation with the communication device 40 that is the counterpart of the counterpart communication device 40-2 is successful or unsuccessful.

S13) When the monitoring device 20 receives a communication confirmation result indicating communication confirmation failure in the above S12, it notifies a predetermined notification destination of a warning indicating that at least one of the communication line and the power line is incorrectly connected. This is because, if the communication check fails, the communication port of the communication port ID identified in S2 above has an incorrect communication device 40 (that is, a communication device 40 that is not in a facing relationship with the counterpart communication device 40-2, etc.). This is because it means that they are connected, and it is considered that the physical connection relation of at least one of the communication line and the power line is incorrect.

In the example shown in FIG. 2, only the tasks 1 and 2 are described for the sake of simplicity, but it goes without saying that when installing the new communication device 40, various other tasks are performed. As an example, if it is confirmed that there is no misconnection of the communication line and the power line, setting work or the like is performed to enable remote monitoring of the new communication device 40 .

<Example of Functional Configuration of Detecting Device 10 and Monitoring Device 20>
Hereinafter, functional configuration examples of the detection device 10 and the monitoring device 20 according to the present embodiment will be described.

<<detection device 10>>
FIG. 3 shows an example of the functional configuration of the detection device 10 according to this embodiment. As shown in FIG. 3 , the detection device 10 according to this embodiment has a power port identification unit 101 and a connection relationship identification unit 102 . These units are implemented by, for example, one or more programs installed in the detection device 10 causing a processor such as a CPU (Central Processing Unit) to execute processing. Further, the detection device 10 according to this embodiment has a physical configuration information DB 103 . The DB is implemented, for example, by an auxiliary storage device such as a HDD (Hard Disk Drive) or SSD (Solid State Drive). Note that the physical configuration information DB 103 may be realized by, for example, a storage device (database server or the like) communicably connected to the detection device 10 .

When the power port identification unit 101 receives current change information indicating that a current change has occurred in the power port of the power distribution device 50, the power port identification unit 101 identifies the power port from this current change information. The current change information includes at least identification information of the power port (hereinafter referred to as power port ID). Here, the current change information may be transmitted, for example, when a device (for example, a clamp meter, etc.) that measures the current of each power port of the power distribution device 50 detects a change in current. The distribution device 50 itself may measure the current at each power port and transmit when it detects a change in current at a power port. In addition to this, for example, the detection device 10 receives a current measurement value from a device (for example, a clamp meter, etc.) that measures the current of each power port of the power distribution device 50, and the power port identification unit 101 current measurements may be used to detect changes in current and identify power ports. The power port ID is identification information for identifying which power port of which power distribution device 50 .

The connection relation specifying unit 102 uses the physical configuration information stored in the physical configuration information DB 103 and the power port specified by the power port specifying unit 101 to determine the communication device ID of the communication device 40 connected to this power port. and the communication port ID of the communication port to which the communication device 40 is connected. Further, the connection relationship identifying unit 102 transmits the identified communication device ID and communication port ID to the monitoring device 20 .

The physical configuration information DB 103 stores physical configuration information. The physical configuration information includes the correct physical connection configuration between the communication device 40 and the power port of the power distribution device 50 and the correct physical connection configuration between the communication device 40 and the communication port of the concentrator 60, as described above. It is information that represents a typical connection configuration. Specifically, the physical configuration information includes a correspondence between communication device IDs and power port IDs and a correspondence between communication device IDs and communication port IDs.

<<monitoring device 20>>
FIG. 4 shows a functional configuration example of the monitoring device 20 according to this embodiment. As shown in FIG. 4 , the monitoring device 20 according to this embodiment has a configuration instructing unit 201 , a counterpart device identifying unit 202 , a communication confirmation instructing unit 203 , and a notification unit 204 . These units are implemented by, for example, one or more programs installed in the monitoring device 20 causing a processor such as a CPU to execute processing. Also, the monitoring device 20 according to this embodiment has a logical configuration information DB 205 . The DB is realized by, for example, an auxiliary storage device such as HDD or SSD. Note that the logical configuration information DB 205 may be realized by, for example, a storage device (such as a database server) communicably connected to the monitoring device 20 .

Upon receiving the communication device ID and the communication port ID from the detection device 10, the configuration instruction unit 201 transmits to the configuration server 30 a configuration instruction including the communication device ID and the communication port ID. Also, the configuration instruction unit 201 receives the configuration result corresponding to the configuration instruction from the configuration server 30 .

When receiving a configuration result including information indicating successful configuration from the configuration server 30 , the opposing device identifying unit 202 identifies the logical configuration information stored in the logical configuration information DB 205 and the communication device ID received from the detection device 10 . is used to specify the opposite communication device 40 that is opposite to the communication device 40 with this communication device ID.

The communication confirmation instruction unit 203 transmits an instruction to confirm communication with the communication device 40 that is the opposite communication device 40 to the communication device 40 identified by the communication device identification unit 202 . The communication confirmation instruction unit 203 also receives the communication confirmation result for the communication confirmation instruction.

When the notification unit 204 receives a configuration result including information indicating a configuration failure from the configuration server 30 or receives a communication confirmation result including information indicating a communication confirmation failure from the opposite communication device 40, the communication line and the power line , and notifies a predetermined notification destination of a warning indicating that there is an erroneous connection in at least one of On the other hand, when the notification unit 204 receives a communication confirmation result including information indicating successful communication confirmation from the opposite communication device 40, the notification unit 204 notifies the predetermined notification destination of the information indicating that the installation of the new communication device 40 was successful. do. Note that the predetermined notification destination may be, for example, a display device such as a display provided in the monitoring device 20, or a terminal (smartphone, tablet terminal, PC, etc.) communicably connected to the monitoring device 20. There may be.

The logical configuration information DB 205 stores logical configuration information. The logical configuration information is information representing the logical connection relationship between the communication devices 40 as described above. Specifically, the logical configuration information includes a correspondence between the communication device ID of the communication device 40 and the communication device ID of the opposing communication device 40 that is the opposing communication device 40 .

<Example of Processing Executed by Detection Device 10 and Monitoring Device 20 in Misconnection Prevention Processing>
The flow of processing executed by the detection device 10 and the monitoring device 20 in the erroneous connection prevention processing according to this embodiment will be described below. In the following description, it is assumed that the new communication device 40 has been installed and that the above tasks 1 and 2 have been performed by the operator.

<<Flow of processing executed by the detection device 10>>
An example of the flow of processing executed by the detection device 10 in the erroneous connection prevention processing according to this embodiment will be described with reference to FIG.

Upon receiving the current change information, the power port identifying unit 101 identifies the power port from this current change information (step S101). That is, the power port identification unit 101 acquires the power port ID included in the current change information.

Next, the connection relationship specifying unit 102 uses the physical configuration information stored in the physical configuration information DB 103 and the power port specified in step S101 to determine the communication device 40 connected to this power port. The communication device ID and the communication port ID of the communication port to which the communication device 40 is connected are specified (step S102).

Then, the connection relationship identifying unit 102 transmits the communication device ID and the communication port ID identified in step S102 above to the monitoring device 20 (step S103).

<<Process flow executed by monitoring device 20>>
An example of the flow of processing executed by the monitoring device 20 in the erroneous connection prevention processing according to this embodiment will be described with reference to FIG.

Upon receiving the communication device ID and communication port ID from the detection device 10, the configuration instruction unit 201 transmits a configuration instruction including these communication device ID and communication port ID to the configuration server 30 (step S201). As a result, the configuration server 30 that has received the configuration instruction sets the communication device 40 connected to the communication port of the communication port ID included in the configuration instruction to the configuration corresponding to the communication device ID included in the configuration instruction. File configuration is performed. Further, when the configuration server 30 receives from the communication device 40 a configuration result including at least information indicating whether the configuration has succeeded or failed, the configuration result is transmitted to the monitoring device 20 .

The configuration instruction unit 201 receives from the configuration server 30 the configuration result corresponding to the configuration instruction sent in step S201 (step S202).

If a configuration result including information indicating successful configuration is received in step S202 above (YES in step S203), the opposing device identification unit 202 uses the logical configuration information stored in the logical configuration information DB 205 and the detection device 10 The communication device ID received from the communication device ID is used to identify the opposite communication device 40 that is the opposite of the communication device 40 with this communication device ID (step S204).

Next, the communication confirmation instructing unit 203 instructs the communication device 40 (that is, the communication device ID received from the detection device 10) to correspond to the communication device 40 identified in step S204. (step S205). As a result, the counterpart communication device 40 that has received the communication confirmation instruction performs communication confirmation with respect to the communication device 40 opposite to the counterpart communication device 40 . In addition, the opposite communication device 40 transmits to the monitoring device 20 a communication confirmation result including at least information indicating whether the communication confirmation is successful or unsuccessful. The connectivity check may be performed using existing technology (for example, if the connectivity check is on the L2 layer, whether there is a link up or not, if the connectivity check is on the L3 layer, ping, etc.).

The communication confirmation instruction unit 203 receives the communication confirmation result for the communication confirmation instruction sent in step S205 (step S206).

When the communication confirmation result including the information indicating the communication confirmation success is received in the above step S206 (YES in step S207), the notification unit 204 receives the information indicating that the installation of the new communication device 40 was successful (or the communication Information indicating that there is no connection error between the line and the power line) is notified to a predetermined notification destination (step S208).

On the other hand, if a configuration result including information indicating configuration failure is received in step S202 above (NO in step S203) or if a communication confirmation result including information indicating communication confirmation failure is received in step S206 above (NO in step S207), the notification unit 204 notifies a predetermined notification destination of a warning indicating that there is a connection error in at least one of the communication line and the power line of the new communication device 40 (step S209). As a result, for example, a worker or the like who installs the new communication device 40 can know that there is a connection error in at least one of the communication line and the power line.

<Hardware configuration example>
The detection device 10 and the monitoring device 20 according to this embodiment are realized by, for example, the hardware configuration of a computer 500 shown in FIG. Note that the configuration server 30 may also be implemented by the hardware configuration of the computer 500 shown in FIG.

A computer 500 shown in FIG. 7 has an input device 501 , a display device 502 , an external I/F 503 , a communication I/F 504 , a processor 505 and a memory device 506 . Each of these pieces of hardware is communicably connected via a bus 507 .

The input device 501 is, for example, a keyboard, mouse, touch panel, various physical buttons, and the like. The display device 502 is, for example, a display, a display panel, or the like. Note that the computer 500 may not have at least one of the input device 501 and the display device 502, for example.

The external I/F 503 is an interface with an external device such as a recording medium 503a. Examples of the recording medium 503a include CD (Compact Disc), DVD (Digital Versatile Disk), SD memory card (Secure Digital memory card), USB (Universal Serial Bus) memory card, and the like.

The communication I/F 504 is an interface for connecting the computer 500 to a communication network such as an intra-site network. The processor 505 is, for example, various arithmetic units such as a CPU. The memory device 506 is, for example, various storage devices such as HDD, SSD, RAM (Random Access Memory), ROM (Read Only Memory), and flash memory.

Note that the hardware configuration of the computer 500 shown in FIG. 7 is an example, and other hardware configurations may be used. For example, the computer 500 may have multiple processors 505 and multiple memory devices 506, and may have various hardware other than the illustrated hardware.

<Summary>
As described above, in the incorrect connection prevention system 1 according to the present embodiment, when the communication device 40 is newly installed (including replacement, renewal, etc.), the physical configuration of the communication line and the power line for the communication device 40 is changed. Physical configuration information and logical configuration information representing the logical connection relationship between the communication devices 40 are used to perform configuration and communication confirmation. be warned that Accordingly, the worker who newly installs the communication device 40 can know that the connection relationship between at least one of the communication line and the power line of the communication device 40 is incorrect. Therefore, the operator can refer to the design drawing or the like to check whether the communication line and the power line are correct, thereby preventing erroneous connection.

The present invention is not limited to the specifically disclosed embodiments described above, and various modifications, alterations, combinations with known techniques, etc. are possible without departing from the scope of the claims. .

1 Misconnection Prevention System 10 Detection Device 20 Monitoring Device 30 Config Server 40 Communication Device 50 Power Distribution Device 60 Concentrator 101 Power Port Identification Unit 102 Connection Relationship Identification Unit 103 Physical Configuration Information DB
201 configuration instruction unit 202 opposite device identification unit 203 communication confirmation instruction unit 204 notification unit 205 logical configuration information DB
500 computer 501 input device 502 display device 503 external I/F
503a recording medium 504 communication I/F
505 processor 506 memory device 507 bus

Claims (6)

1. When a power change in the power port is detected, referring to physical configuration information representing a physical connection relationship between the communication line and the power line, a first device connected to the power port via the power line; a first identifying unit configured to identify a communication port connected to the first device via a communication line;
   a setting instruction unit configured to instruct a device connected to the communication port to set setting information corresponding to the first device;
   When the setting information is successfully set, the logical configuration information representing the logical connection relationship between the devices is referenced to specify the first counterpart device existing opposite the first device. a second specific part containing
   a communication confirmation instructing unit configured to instruct the first counterpart device to confirm communication with a second counterpart device existing opposite the first counterpart device;
   a notification unit configured to notify that there is a connection error in at least one of the communication line and the power line when setting of the setting information fails or when the communication confirmation fails;
   misconnection prevention system.
2. The first specifying unit
   When power change information indicating that the power port has changed is received from a measuring device that measures the power of the power port or a power distribution device that includes the power port, the power change of the power port is detected. 2. The misconnection prevention system according to claim 1, wherein:
3. The notification unit
   3. The incorrect connection prevention system according to claim 1 or 2, configured to notify that there is no connection error between said communication line and said power line when said communication confirmation is successful.
4. The physical configuration information is information representing a pre-designed physical connection relationship, and includes a physical connection relationship of a communication line connecting the device and the communication port, and a physical connection relation of the power line connecting the device and the power port. 4. The incorrect connection prevention system according to any one of claims 1 to 3, wherein the information is information representing a connection relationship and a connection relationship.
5. When a power change in the power port is detected, referring to physical configuration information representing a physical connection relationship between the communication line and the power line, a first device connected to the power port via the power line; a first identification procedure for identifying a communication port connected to the first device via a communication line;
   a setting instruction procedure for instructing a device connected to the communication port to set setting information corresponding to the first device;
   a second specification for specifying a first counterpart device existing opposite the first device by referring to logical configuration information representing a logical connection relationship between devices when the setting information is successfully set; Department and
   a communication confirmation instruction procedure for instructing the first counterpart device to confirm communication with a second counterpart device existing opposite the first counterpart device;
   a notification procedure for notifying that there is a connection error in at least one of the communication line and the power line when the setting of the setting information fails or the communication confirmation fails;
   A misconnection prevention method that the computer implements.
6. A program that causes a computer to function as the incorrect connection prevention system according to any one of claims 1 to 4.

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