JP3632729B2 - Remote monitoring system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a remote monitoring system that manages a state of a managed device such as an information processing apparatus with a monitoring device via a predetermined line.
[0002]
[Prior art]
In recent years, various management data such as operation history and billing information for office equipment such as copiers and facsimiles, or power equipment and vending machines has been collected, and the data is sent to a monitoring device at a management center via a public line. Many remote monitoring systems that transmit data are applied.
[0003]
In Japanese Patent Laid-Open No. 6-253035, a slave station connected to a plurality of controlled devices is connected by extension, and a representative one of the slave stations and a master station are connected by an external line. There is disclosed a remote monitoring and control device that performs data communication using an extension line and performs data communication between a representative of a slave station and the master station using an external line.
[0004]
[Problems to be solved by the invention]
However, in such a remote monitoring control device, one of the slave stations (master communication terminal) has two communication line ports, but the monitoring device uses an external line and other The extension is fixed to the slave station (slave communication terminal) such that an extension is used, and the case where another communication line is used cannot be handled.
[0005]
That is, there is a problem that it is not possible to cope with the case where a separate communication line is used for each monitoring device or each slave station, and it can be applied only to an environment using an extension facility and an outside line facility.
[0006]
In this remote monitoring control device, when setting a slave communication terminal, the master communication terminal performs registration to that effect, but once the master communication terminal receives a registration request from the slave communication terminal, The data communication is disconnected, and an acquisition request for identification information (ID) of a new slave communication terminal is made to the monitoring device at the center.
[0007]
FIG. 14 is a diagram for explaining the registration procedure of the slave communication terminal in the conventional example. In this example, each of the slave communication terminals T1 to T3 is registered from the external device G. First, the external device G instructs the slave communication terminal T1 to register to the master communication terminal M ((1)).
[0008]
Next, the slave communication terminal T1 makes a registration request to the master communication terminal M ((2)). In response to this request, the master communication terminal M makes an ID request for one slave to the monitoring device ((3)). As a result, the monitoring device K issues one ID to the master communication terminal (4).
[0009]
The master communication terminal M transmits the ID issued from the monitoring device K to the requesting slave communication terminal T1, and performs registration ((5)). Then, the master communication terminal M sends the registration result of the slave communication terminal T1 to the monitoring device K ((6)).
[0010]
This completes registration of the slave communication terminal T1. In addition, the registration of the other slave communication terminals T2 and T3 is performed by repeating the processes (1) to (6) for each communication terminal.
[0011]
As described above, when attempting to register IDs of a plurality of slave communication terminals at a time, the master communication terminal must interrupt data communication many times, resulting in a deterioration in work efficiency.
[0012]
[Means for Solving the Problems]
The present invention is a remote monitoring system designed to solve such problems. That is, the present invention is connected to a plurality of managed devices, a plurality of communication terminals set as one master and the other as a slave, a communication terminal set as a master among a plurality of communication terminals, and a predetermined A monitoring device that communicates via a line and a communication terminal that is set as a master and a communication terminal or a monitoring device that is set as a slave, and a plurality of data communication units that perform data communication via a predetermined line Communication means, communication information holding means provided in a communication terminal set as a master, each communication terminal set as a slave, and communication information holding means for holding correspondence information indicating which of the plurality of communication means can be communicated with by the monitoring device ,An identification information setting unit that is provided in each of the plurality of communication terminals and sets identification information unique to each communication terminal issued by the monitoring device, and the monitoring device is provided for a plurality of communication terminals set as masters. The identification information is transmitted in a batch, and the communication terminal set as the master transmits the identification information for a plurality of devices collectively transmitted from the monitoring device to each identification information setting means of the communication terminal set as the slave. DoIt is a remote monitoring system.
[0013]
In the present invention, by using the communication information holding unit provided in the communication terminal set as the master, each of the communication terminals set as the slave and the monitoring device communicate with any of the plurality of communication units. It becomes possible to judge whether it is possible. That is, the communication terminal set as the master can perform data communication using various communication means capable of communicating with individual communication partners.In addition, since the communication terminal set as the master can transmit information related to the settings of a plurality of communication terminals to the monitoring device at once, and the monitoring device can also transmit identification information related to the plurality of communication terminals to the master at one time. In addition, the registration work for the communication terminal can be efficiently performed without interrupting the data communication.
[0014]
In the remote monitoring system of the present invention, a communication terminal set as a master collectively transmits information related to settings of a plurality of communication terminals connected to the communication terminal to the monitoring device.
[0015]
As a result, a communication terminal set as a master can transmit information related to the settings of a plurality of communication terminals to the monitoring device at once, and can efficiently register settings without interrupting data communication many times. become able to.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the remote monitoring system of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram for explaining the overall configuration of the remote monitoring system of the present invention. That is, in this system, a plurality of information processing devices S1 to S4 such as copiers are managed devices, and communication terminals are connected to each of them, one of which is a master communication terminal M and the other is a slave communication terminal. T1 to T3.
[0017]
Various data in each of the information processing devices S1 to S4 is collected by the master communication terminal M and the slave communication terminals T1 to T3, and sent from the master communication terminal M to the monitoring device K through a communication line such as a telephone line network. In some cases, the master communication terminal M and the slave communication terminals T1 to T3 collect data of each information processing apparatus according to an instruction from the monitoring apparatus K, and the master communication terminal M transmits the data to the monitoring apparatus K.
[0018]
In the remote monitoring system of the present embodiment configured as described above, wireless communication means and wired communication means are provided as communication means of the master communication terminal M. A transceiver card is used as the wireless communication means, and a built-in modem is used as the wired communication means.
[0019]
The slave communication terminals T1 to T3 are each provided with communication means for performing data communication with the master communication terminal M. For example, the slave communication terminals T1 and T2 are provided with a built-in modem so that a line connection can be established with the built-in modem of the master communication terminal M via the private branch exchange PBX. The slave communication terminal T3 is provided with a transceiver card, and is connected to the transceiver card of the master communication terminal M by radio.
[0020]
The transceiver card of the master communication terminal M and the slave communication terminal T3 is inserted into a card port provided in the main body housing, and a card other than the transceiver card (for example, a modem card or a LAN card) is inserted into the card port. Can be connected to a private branch exchange PBX, a telephone network, or a LAN (Local Area Network).
[0021]
The external device G is used to set the master communication terminal M and the slave communication terminals T1 to T3 and request registration start, and can be connected to each communication terminal via an interface such as RS232C. By giving a predetermined instruction from the external device G, various settings of the master communication terminal M and the slave communication terminals T1 to T3 can be performed efficiently. That is, even if each communication terminal is not provided with a function for performing a registration process, various registration and setting processes can be performed in an integrated manner according to an instruction from the external device G.
[0022]
In the remote monitoring system of the present embodiment having such a configuration, the master communication terminal M and the slave communication terminals T1 to T3 can be connected by various communication means. The slave communication terminals T1 to T3 and the monitoring device K are characterized in that correspondence information indicating which communication means can be used for communication is provided.
[0023]
FIG. 2 is a diagram for explaining the internal information of each slave communication terminal. (A) is for the slave communication terminal T1, (b) is for the slave communication terminal T2, and (c) is for the slave communication terminal T3.
[0024]
As described above, each of the slave communication terminals T1 to T3 has a unique ID for distinguishing from other communication terminals, an ID of the master communication terminal, and a telephone used for line connection with the master communication terminal. A number and information indicating the type of the incoming device which is a communication means.
[0025]
The unique IDs of the slave communication terminals T1 to T3 are assigned by the monitoring device when the slave communication terminals T1 to T3 are registered in the master communication terminal. By assigning this ID, the master communication terminal and the monitoring device can identify each of the slave communication terminals T1 to T3 as a slave. In addition, the information on the incoming device is also registered in the master communication terminal.
[0026]
FIG. 3 is a diagram for explaining internal information (corresponding information of each slave communication terminal) provided in the master communication terminal M. Also in the internal information of the master communication terminal M, an ID indicating the master communication terminal M itself is registered. This ID is assigned when the master communication terminal M is registered as a master in the monitoring apparatus.
[0027]
Also, in the master communication terminal M, information indicating the ID of the monitoring device, the telephone number used when the line connection with the monitoring device is made, and the information indicating the type of the incoming device as the communication means are registered.
[0028]
Further, in this master communication terminal M, a telephone number and a type of incoming call device used for line connection with the slave communication terminal are registered corresponding to the ID of each slave communication terminal. By referring to the type of registered incoming call device, it is possible to determine which communication means can be used to communicate with the corresponding slave communication terminal, and using the communication means (incoming device) provided in each slave communication terminal. It becomes possible to connect to each slave communication terminal.
[0029]
Here, when “##” is added to the display of the telephone number registered corresponding to each slave communication terminal, the incoming device of the slave communication terminal is other than the built-in modem (for example, card slot). It shows that there is. The master communication terminal M can determine the type of the incoming device based on the address information such as the telephone number sent from the slave communication terminal.
[0030]
The master communication terminal M stores the number of slaves that can be registered, the number of registered slaves, the number of registered slaves, and the number of unused IDs. That is, the number of slaves that can be registered is the number of slave communication terminals that can be connected to the master communication terminal M. The registered slave number is the number of slave communication terminals that are currently connected to the master communication terminal M and registered. The batch registration slave number is the number of slave communication terminals to be newly registered. The number of unused IDs is the number of unused IDs not assigned to the slave communication terminal among the IDs given in advance from the monitoring device.
[0031]
FIG. 4 is a diagram for explaining internal information provided in the monitoring device K. An ID indicating the monitoring device K itself is also registered in the internal information of the monitoring device K. The monitoring device K stores the ID, telephone number, and number of registered slaves of the communication terminal registered as the master, and the ID of the communication terminal registered as the slave.
[0032]
Next, the flow of registration processing of the slave communication terminal in the remote monitoring system of this embodiment will be described based on FIG. Here, an example in which the slave communication terminals T1 to T3 are newly registered will be described.
[0033]
First, an instruction to register all three slave communication terminals T1 to T3 is given to the master communication terminal M from the external device G ((1)). Next, the master communication terminal M requests IDs for three slave communication terminals T1 to T3 from the monitoring device K ((2)).
[0034]
When receiving the ID request from the master communication terminal M, the monitoring device K issues three IDs to be assigned to the slave communication T1 to T3 to the master communication terminal M ((3)). As a result, the number of registered slaves of the master communication terminal M is “3”, and the number of unused IDs is also “3”. Thereafter, the external device G instructs the slave communication terminal T1 to register with the master communication terminal M ((4)).
[0035]
Receiving this instruction, the slave communication terminal T1 requests registration from the master communication terminal M ((5)). In response to this request, the master communication terminal M assigns and issues one of the three IDs previously issued from the monitoring device K to the slave communication terminal T1 ((6)), and issues the ID issued to the slave communication terminal T1. The telephone number of the slave communication terminal T1 and the type of the incoming device are registered in the telephone number corresponding to.
[0036]
Similarly, the above processes (4) to (6) are repeated for the other slave communication terminals T2 and T3. And the master communication terminal M sends the result to the monitoring apparatus K at the stage which registered all the slave communication terminals T1-T3 ((8)). As a result, the number of registered slaves of the master communication terminal M is “3”, the number of batch registered slaves is “0”, and the number of unused IDs is “0”.
[0037]
As described above, when registering a plurality of slave communication terminals T1 to T3, the master communication terminal M requests the monitoring device K for the IDs corresponding to the number of the slave communication terminals T1 to T3. Registration such as ID assignment can be performed collectively. That is, it is not necessary to individually issue an ID issue request to each of the slave communication terminals T1 to T3, and the line connection between the master communication terminal M and the monitoring device K can be completed only once in the registration work.
[0038]
Also, by issuing IDs as many as the number of slave communication terminals T1 to T3 that perform registration from the monitoring device K, it is possible to send the minimum necessary ID to the master communication terminal M in one communication. Become.
[0039]
Further, since the master communication terminal M sends all the slave communication terminals T1 to T3 to the monitoring device K at the same time when all the slave communication terminals T1 to T3 are registered, the result is obtained every time the slave communication terminals T1 to T3 are registered. The number of communications with the monitoring device K can be reduced as compared with the case of sending, and the registration work can be advanced efficiently.
[0040]
Next, incoming device registration processing by the master communication terminal will be described with reference to the flowchart of FIG. First, the process starts when the power of the master communication terminal is turned on, and it is determined whether the incoming call is from the slave communication terminal (step S101). When an incoming call is received from the slave communication terminal, the device used for the incoming call is registered as an incoming call device that can be used by the slave communication terminal (step S102).
[0041]
If it is not an incoming call from the slave communication terminal, it is determined whether or not the communication means information is input from the external device (step S103). If there is input of communication means information, the input information of the communication means (incoming device) is registered as an incoming device of the corresponding slave communication terminal (step S104).
[0042]
The processes in steps S101 to S104 are repeated until the power is turned off (step S105). As a result, the master communication terminal can register the incoming device that can be used by each slave communication terminal.
[0043]
The flowcharts of FIGS. 7 and 8 show the flow of processing for registering an incoming device when there is an incoming call from a slave communication terminal or an external device. That is, FIG. 7 shows processing when an incoming call is received from a slave communication terminal, and FIG. 8 shows processing when an incoming call is received from an external device.
[0044]
First, as shown in FIG. 7, when there is an incoming call from the slave communication terminal, the master communication terminal performs incoming call control (step S201). The incoming call control is to perform a security check and a protocol check for the transmission source device. After this incoming call control is performed, the incoming device used for the incoming call is registered (step S202). Thereafter, communication with the slave communication terminal and data processing are performed (step S203).
[0045]
As described above, when predetermined data is sent from the slave communication terminal to the master communication terminal, the latest incoming device can be registered by registering the incoming device each time. That is, even when the incoming device used in the slave communication terminal is changed, the registration of a new incoming device can always be completed when performing data communication with the slave communication terminal.
[0046]
When there is an incoming call from an external device as shown in FIG. 8, first, the master communication terminal performs incoming call control (step S301). After that, registration of an incoming device used by a predetermined slave communication terminal is performed based on data transmitted from the external device (step S302). As a result, an incoming device corresponding to each slave communication terminal can be registered from the external device.
[0047]
Next, detailed processing when the master communication terminal receives a batch registration request for a plurality of slave communication terminals from an external device will be described with reference to the flowchart of FIG. First, the master communication terminal receives the desired registration number of the slave communication terminal from the external device (step S401).
[0048]
Next, it is determined whether or not the received desired registration number of the slave communication terminal exceeds the allowable number (step S402). Here, a part of the internal information of the master communication terminal shown in FIG. 3 is used, and it is acceptable if (desired registration number of slave communication terminal)> (number of registerable slaves) − (number of registered slaves) is satisfied. An error is returned from the master communication terminal to the external device because the number is exceeded (step S403).
[0049]
On the other hand, if this equation is not satisfied, the allowable number is not exceeded, so the desired number of slave communication terminals to be registered is input to the “number of registered slaves” (step S404). Next, the master communication terminal issues an ID issuance request for the number of registered slaves to the monitoring apparatus (step S405).
[0050]
Thereafter, the master communication terminal receives IDs for the number of batch registration slaves issued from the monitoring device (step S406), and inputs “the number of batch registration slaves” in the “number of unused IDs” of the internal information shown in FIG. Step S407). As a result, IDs corresponding to the number of slave communication terminals to be collectively registered are stored in the master communication terminal that has received a batch registration request from an external device.
[0051]
Next, detailed processing when the master communication terminal receives a registration request from the slave communication terminal will be described with reference to the flowchart of FIG. First, the master communication terminal determines whether or not the number of registered slaves in its internal information (see FIG. 3) is greater than 0 (step S501). When the number of registered slaves is 0, the process proceeds to the process shown in FIG. 11 described later (processing when the number of registered slaves is 0) (step S502).
[0052]
If the number of registered slaves is larger than 0, one of the IDs issued from the monitoring device is assigned to the slave communication terminal that is the registration request source (step S503). Then, the slave communication terminal information (telephone number, incoming device, etc.) is registered in the internal information (see FIG. 3) of the master communication terminal (step S504).
[0053]
Next, the “number of registered slaves” in the internal information (see FIG. 3) of the master communication terminal is increased by 1 (step S505), the “number of unused IDs” is decreased by 1 (step S506), "Is reduced by one (step S507).
[0054]
Thereafter, it is determined again whether or not the number of registered slaves is greater than 0 (step S508). If it is greater than 0, the process ends. If it is 0, the process of the flowchart shown in FIG. The process proceeds to (processing when it is detected that there is no slave to be operated) (step S502).
[0055]
FIG. 11 is a flowchart for explaining the process in step S502 described in FIG. 10, that is, the process when the number of registered slaves is zero. In this process, if a slave communication terminal can be registered in the master communication terminal, the ID for one unit is acquired from the monitoring device and registered.
[0056]
First, the “number of registered slaves” and the “number of slaves that can be registered” in the internal information of the master communication terminal (see FIG. 3) are compared (step S601). If the number of registered slaves is smaller than the number of slaves that can be registered in this comparison, no further registration is possible, and the registration request is rejected (step S602).
[0057]
If the number of registered slaves <the number of slaves that can be registered, the master communication terminal acquires one slave communication terminal ID from the monitoring apparatus (step S603). Then, the acquired ID is allocated for the slave communication terminal that is the registration request source (step S604).
[0058]
Next, the information (telephone number, incoming device, etc.) of the slave communication terminal to which the ID is assigned is registered in the internal information (see FIG. 3) of the master communication terminal (step S605), and the number of registered slaves is increased by one (step S606). ). Thereafter, the master communication terminal transmits information of the registered slave communication terminal to the monitoring device (step S607).
[0059]
Next, processing when the master communication terminal is instructed to change the number of slave communication terminals that perform batch registration from an external device will be described with reference to the flowchart of FIG.
[0060]
First, the master communication terminal receives a decrease in the number of registered slaves from the external device (step S701). Next, the received decrease in the number of batch registration slaves is compared with the number of batch registration slaves in the internal information of the master communication terminal (see FIG. 3) (step S702).
[0061]
Here, if the number of batch registered slaves is not smaller than the number of batch registered slaves, an error is returned to the external device because it cannot be further reduced (step S703). On the other hand, if the number of batch registration slaves decreases ≦ the number of batch registration slaves, the number obtained by subtracting the number of batch registration slaves from the number of batch registration slaves is substituted for the new number of batch registration slaves (step S704). .
[0062]
Next, it is determined whether or not the new batch registration slave number is 0 (step S705). If it is not 0, the process is terminated because the batch registration number has been successfully reduced. On the other hand, if it is 0, the processing of the flowchart shown in FIG. 13 (processing when it is detected that there is no slave communication terminal to which the ID is to be passed) is performed (step S706).
[0063]
Next, processing when it is detected that there is no slave communication terminal to which an ID should be passed will be described with reference to the flowchart of FIG. First, the master communication terminal refers to the number of unused IDs in the internal information (see FIG. 3), and determines whether the number of unused IDs is 0 (step S801).
[0064]
When the number of unused IDs is 0, the master communication terminal transmits information regarding all registered slave communication terminals to the monitoring device (step S802). On the other hand, if the number of unused IDs is not 0, the master communication terminal transmits information regarding the current number of unused IDs and unused IDs to the monitoring device (step S803), and then discards unused IDs (deletion). Processing is performed (step S804). Then, the number of unused IDs is set to 0 (step S805).
[0065]
Thereby, after assigning IDs to a plurality of slave communication terminals to be registered, information related to the slave communication terminals can be transmitted to the monitoring device in a batch, so that it is efficient without increasing the number of line connections between the master communication terminal and the monitoring device. Registration work can be performed.
[0066]
In addition, when registering a plurality of slave communication terminals at once by such processing, the monitoring apparatus once collects IDs for a plurality of units, and then reduces the number of slave communication terminals to be registered. However, IDs are not wasted because unnecessary IDs are deleted. That is, by deleting unused IDs in the master communication terminal, the monitoring apparatus can issue the ID again, and can be used later when registering a new slave communication terminal.
[0067]
In the above description, when registering a plurality of slave communication terminals to the master communication terminal, an example has been described in which the monitoring device issues IDs for the number of the slave communication terminals. If there are IDs more than the number to be registered in a batch, and there is a surplus ID (unused ID) after the registration work, a process of deleting it may be performed.
[0068]
As a result, if the number of registered slave communication terminals exceeds the originally planned number, it can be dealt with without issuing a new ID to the monitoring device, and the number of line connections between the master communication terminal and the monitoring device can be reduced. It can be minimized.
[0069]
【The invention's effect】
As described above, the remote monitoring system of the present invention has the following effects. In other words, even if a communication terminal set as a master has a plurality of communication means, data communication can be performed using communication means that can communicate with each communication terminal when communicating with other communication terminals. It is possible to adapt to various communication means.
[0070]
Also, since information is sent to the monitoring device at once from the communication terminal set as the master, line connection between the communication terminal set as the master and the monitoring device is required even when registering multiple communication terminals as slaves. It is possible to minimize the setting registration work efficiently.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating the overall configuration of a remote monitoring system of the present invention.
FIG. 2 is a diagram illustrating internal information of each slave communication terminal.
FIG. 3 is a diagram for explaining internal information of a master communication terminal.
FIG. 4 is a diagram illustrating internal information of a monitoring device.
FIG. 5 is a diagram for explaining a flow of registration processing of a slave communication terminal.
FIG. 6 is a flowchart for explaining incoming device registration processing by a master communication terminal;
FIG. 7 is a flowchart illustrating a registration process when an incoming call is received from a slave communication terminal.
FIG. 8 is a flowchart illustrating registration processing when an incoming call is received from an external device.
FIG. 9 is a flowchart for explaining processing when a batch registration request for a plurality of slave communication terminals is received;
FIG. 10 is a flowchart for explaining processing when a master communication terminal receives a registration request from a slave communication terminal.
FIG. 11 is a flowchart illustrating processing when the number of registered slaves is zero.
FIG. 12 is a flowchart for explaining processing when changing the number of slave communication terminals performing batch registration.
FIG. 13 is a flowchart for explaining processing when it is detected that there is no slave communication terminal to which an ID is to be passed.
FIG. 14 is a diagram for explaining the flow of registration processing in a conventional example.
[Explanation of symbols]
G ... external device, K ... monitoring device, M ... master communication terminal, S1-S4 ... information processing device, T1-T3 ... slave communication terminal

Claims (10)

A plurality of communication terminals connected to each of a plurality of managed devices, one set as a master and the other as a slave,
A monitoring device that communicates with a communication terminal set as a master among the plurality of communication terminals via a predetermined line;
A plurality of communication means for performing data communication via a predetermined line between the communication terminal set as the slave and the communication terminal set as the slave or the monitoring device;
A communication information holding unit that is provided in the communication terminal set as the master and holds correspondence information as to which of the plurality of communication units can be communicated with each of the communication terminals set as the slave and the monitoring device; ,
An identification information setting unit that is provided in each of the plurality of communication terminals and sets identification information unique to each communication terminal issued by the monitoring device;
The monitoring device collectively transmits identification information for a plurality of devices to the communication terminal set as the master,
The communication terminal set as the master transmits the identification information for a plurality of devices collectively transmitted from the monitoring device to each identification information setting unit of the communication terminal set as the slave. Remote monitoring system characterized by The monitoring device, remote monitoring system according to claim 1, wherein the transmitting collectively the greatest identity of number of times corresponding to the number of communication terminals which can set connected communication terminal and line as the master. The monitoring device, remote monitoring system according to claim 1, wherein the transmitting only collectively identity of the number of times corresponding to the number of communication terminals and the line connected communication terminal that has been set as the master. The monitoring device, remote monitoring system according to claim 1, wherein the transmitting collectively the identification information of number greater than the number fraction communication terminal and the line connected communication terminal that has been set as the master. Communication terminal that has been set as the master, the remote monitoring system of claim 1, wherein the transmitting collectively the information about the communication terminal and the line connected to a plurality of communication terminals set to the monitoring device. A communication terminal set as the master, transmission completion detecting means for detecting that the identification information for a plurality of units transmitted from the monitoring device is transmitted to each identification information setting means of the communication terminal set as the slave; ,
5. The remote monitoring according to claim 4, further comprising: an identification information discarding unit that discards unidentified identification information when the transmission completion detection unit detects completion of transmission of identification information. system. The communication terminal set as the master includes a discard information transmitting unit that transmits information regarding the discarded identification information to the monitoring device when the untransmitted identification information is discarded by the identification information discarding unit. The remote monitoring system according to claim 6, wherein: The communication terminal set as the master includes transmission completion detection means for detecting that the identification information for a plurality of units transmitted from the monitoring device is transmitted to each identification information setting means of the communication terminal set as the slave. Has
Remote claim 1, wherein the transmitting the transmission completion detecting means collectively various pieces of setting information in the communication terminal that has been set as the slave at the stage of detecting the transmission completion of the identification information by the said monitoring device Monitoring system. The communication terminal set as the master is set as a slave among the identification information for a plurality of devices collectively transmitted from the monitoring device when there is a request for transmission of identification information from the communication terminal set as the slave. Provided with identification information presence / absence judging means for judging whether or not there is identification information that has not been transmitted to the identification information setting means of the communication terminal,
Remote monitoring system according to claim 1, wherein when there is no the identification information, characterized in that the refuse a request for transmission of identification information from the communication terminal set as the slave by the identification information state determining means. The communication terminal set as the master is set as a slave among the identification information for a plurality of devices collectively transmitted from the monitoring device when there is a request for transmission of identification information from the communication terminal set as the slave. Identification information presence / absence judging means for judging whether or not there is identification information not yet transmitted to the identification information setting means of the communication terminal,
An identification information request receiving means for requesting transmission of new identification information to the monitoring device and receiving it when the identification information presence / absence determining means determines that the identification information does not exist;
Remote according to claim 1, characterized in that it comprises an identification information transmission means for transmitting the new identification information received by the identification information request receiving unit to the identification information setting means of the communication terminal that has been set as the slave Monitoring system.

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