JP2009089111A - Monitoring server, monitoring system, and communication method in monitoring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To perform efficient monitoring information processing without transmitting monitoring information which is low in priority or unnecessary nor an alarm signal, and to enables a maintenance staff to immediately recognize that transmission of monitoring information between a monitoring device and a monitoring server is stopped in such a case. <P>SOLUTION: Monitoring information and an alarm signal transmitted from the monitoring device are temporarily stored in a receive buffer in the monitoring server, and monitoring information excluding unnecessary information is transmitted to a host monitoring system. At this time, the buffer amount of the receive buffer is checked and when the buffer amount exceeds a predetermined threshold and transmission is stopped in a transmission layer, the monitoring server transmits transmission stop occurrence information to the host monitoring system. Here, the transmission stop occurrence information can be preferentially transmitted by providing the monitoring server and host monitoring system with priority communication ports. In this case, the host monitoring system is operative to preferentially processing the transmission stop occurrence information received through the priority communication port. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a monitoring server, a monitoring system, and a communication method in the monitoring system that collect monitoring information from a monitoring device that monitors an alarm signal issued from a transmission device and incidental equipment.

  In recent years, monitoring devices that monitor and collect monitoring information issued from monitored devices, for example, analog monitoring information such as contact information and various state quantities, and notify the higher-level monitoring system have been proposed. Various devices can be used as the monitored device, and examples thereof include a transmission device and ancillary equipment in a communication carrier. In such a monitoring apparatus, for example, as in Patent Document 1 and Patent Document 2 below, a monitoring apparatus and a higher-level monitoring system are connected by a communication network including a public line and / or a dedicated line, and a failure occurs in this communication network. In such a case, monitoring information, an alarm signal, and the like are transmitted to the host monitoring system via another communication network.

JP-A-4-290046 JP-A-10-164059

  Patent Document 1 discloses a dedicated line that connects a switching center and a maintenance center that monitors and controls the switching center through a dedicated line and a public communication network provided separately from the dedicated line, and transfers maintenance operation information. Describes a method for transferring maintenance operation information in which the maintenance operation information is transferred to the maintenance center via a public communication network.

  Further, in Patent Document 2, when a monitoring device receives alarm information and an abnormality occurs between the monitoring device and the network, the monitoring device transmits the alarm information to another monitoring device via the transmission device. An alarm collection method is described in which alarm information is transmitted from another monitoring device to a workstation via a network.

  However, when the above-described method is used, all information that does not need to be notified to the maintenance person is transmitted. Therefore, a monitoring server is provided between one or a plurality of monitoring devices and a higher-level monitoring system such as a maintenance center, and monitoring information from the one or more monitoring devices is temporarily stored in a reception buffer in the monitoring server. Then, only necessary information is selected in the monitoring server, and the selected information is transmitted to the host monitoring system. As a result, it is possible to select important information that needs to be informed to the maintenance person and transmit the information to the host monitoring system, so that maintenance management can be performed efficiently.

  However, in such a configuration, when monitoring information from the monitoring device is frequently generated, traffic increases between the monitoring server and the monitoring device. As a result, the reception buffer of the monitoring server becomes full, and transmission suppression occurs in the communication layer. In other words, data transmission to the monitoring device is stopped.

  When transmission of information to the monitoring server is suppressed, the monitoring device accumulates monitoring information until the transmission suppression is canceled. Although it can be seen that the monitoring server has transmission suppression, the upper monitoring system monitors only the monitoring information transmitted to the upper monitoring system. Cannot recognize what is happening. For this reason, even if an abnormality occurs in the monitored apparatus connected to the reception buffer in which transmission suppression has occurred, the host monitoring system cannot confirm that an abnormality has occurred.

  For this reason, since the maintenance person knows that the alarm signal is generated and the transfer of the alarm signal is delayed only after the suppression of the transmission is released, there is a problem in that a subsequent response is delayed.

  The transmission amount of monitoring information is not always constant and may increase or decrease depending on the situation, and the reception buffer may overflow. Such a problem can be prevented by increasing the capacity of the reception buffer, but it is not practical because it is costly.

  Therefore, the present invention provides a monitoring server, a monitoring system, and a communication method in the monitoring system that can solve the above problems and can transmit an alarm signal to a higher-level monitoring system without delay even when monitoring information occurs frequently. The purpose is to do.

In order to solve the above problems, the present invention is connected to one or more monitoring devices, respectively, and one or more reception buffers for temporarily storing information received from the monitoring devices;
A control unit that processes the information of the reception buffer and forms post-processing information, checks the buffer amount of the reception buffer, and forms transmission suppression occurrence information when the buffer amount exceeds a predetermined threshold value And a transmission unit that transmits the processed information and the transmission suppression occurrence information to the higher-level monitoring system.

  In addition, the present invention monitors one or more monitored devices, transmits the obtained monitoring information, and is connected to each of the monitoring devices, and temporarily stores information received from the monitoring devices. Process the information of one or two or more reception buffers and the reception buffer to form post-processing information, check the buffer amount of the reception buffer, and if the buffer amount exceeds a predetermined threshold, Based on the monitoring server including a control unit that forms transmission suppression occurrence information, a transmission unit that transmits post-processing information and transmission suppression occurrence information to a higher-level monitoring system, and post-processing information and transmission suppression occurrence information And a higher-order monitoring system that issues monitoring information.

  The present invention also provides a check step for checking the buffer amount of one or more reception buffers for accumulating received data from the monitoring device, and a comparison for comparing the buffer amount with a predetermined threshold value. A communication method in a monitoring system, comprising: a step; and a notification step of transmitting transmission suppression occurrence information to a higher-level monitoring system when the buffer amount exceeds a threshold value.

  According to the present invention, the buffer amount of the reception buffer is monitored, and when the buffer amount exceeds a predetermined threshold value at which data transmission suppression occurs, transmission suppression occurrence information is transmitted to the upper monitoring system. Monitoring information can be obtained accurately in the host monitoring system.

  An embodiment of the present invention will be described below with reference to the drawings.

  FIG. 1 shows an example of the configuration of the monitoring system 1. The monitoring system 1 includes a host monitoring system 2, a monitoring server 3 connected to the host monitoring system 2, and one or a plurality of monitoring devices 4a, 4b,... 4n connected to the monitoring server 3. . In addition, in FIG. 1, although the transmission apparatus 5a and 5b are connected to the monitoring apparatus 4a as an example and the incidental equipment 6 is connected to the monitoring apparatus 4b, the monitoring apparatus 4c ... 4n is shown in each. It is also assumed that a monitored device such as a transmission device or incidental equipment is connected.

  The monitoring device 4a monitors the transmission devices 5a and 5b, and the monitoring device 4b monitors the incidental equipment 6. The monitoring devices 4 a and 4 b collect monitoring information from the transmission devices 5 a and 5 b and the incidental equipment 6, and transmit the monitoring information to the upper monitoring system 2 via the monitoring server 3. The monitoring information includes contact information such as opening / closing of a door, analog monitoring information such as temperature, and an alarm signal when an abnormal state occurs.

  Further, when there is an inquiry about the transmission devices 5a and 5b and the incidental equipment 6 from the host monitoring system 2, the monitoring device 4a obtained the transmission equipment 5a and 5b, and the monitoring device 4b obtained the condition of the auxiliary equipment 6. The monitoring information is transmitted to the upper monitoring system 2 via the monitoring server 3.

[Monitoring device]
The monitoring devices 4 a, 4 b,... 4 n monitor the monitored device and send monitoring information to the monitoring server 3. The monitoring devices 4a, 4b,... 4n are provided with various interfaces according to the configuration and environment of the monitored device. Examples of the interface include a contact information interface, a local bus interface, and a video interface.

[Monitoring server]
The monitoring server 3 includes reception buffers 3A ₁ , 3A ₂ ... 3A _n , a control unit 3B, and a transmission unit 3C, and supervises the monitoring information received from the monitoring devices 4a, 4b. Transmit to the monitoring system 2. In the reception buffers 3A ₁ , 3A ₂ ... 3A _n , monitoring information received from the monitoring devices 4a, 4b. Then, the monitoring information stored in the reception buffers 3A ₁ , 3A ₂ ... 3A _n is processed by the control unit 3B, and the processed monitoring information is sent to the transmission unit 3C. The monitoring information processing includes, for example, processing of stopping transmission of unnecessary monitoring information or adding data to the monitoring information if necessary.

The control unit 3B monitors the buffer amounts that are the data accumulation amounts of the reception buffers 3A ₁ , 3A ₂ ... 3A _n . When the buffer amount exceeds a predetermined threshold value in any one or more of the reception buffers 3A ₁ , 3A _2, ... 3A _n , the monitoring server 3 suppresses data transmission in the transmission layer and generates transmission suppression. Information is transmitted to the host monitoring system 2. Note that data transmission suppression is performed for a reception buffer whose buffer amount exceeds a predetermined threshold.

The monitoring server 3 may prioritize the monitoring information stored in the reception buffers 3A ₁ , 3A ₂ ... 3A _n . The monitoring server 3 can be provided with a data adding unit, for example, to add predetermined data for notifying that it is priority information. The monitoring information to which the data for informing that the information is priority information is sent to the transmission unit 3C and may be preferentially transmitted to the higher-order monitoring system 2. Thereby, important monitoring information is preferentially notified to the maintenance person. It is also possible to increase the number of important monitoring information to 2 or more for transmission.

  The control unit 3B includes a CPU (Central Processing Unit), a ROM (Read Only Memory) that stores a control program, and a RAM (Random Access Memory) that stores various data. Has been.

[High-level monitoring system]
The host monitoring system 2 receives the monitoring information transmitted from the monitoring server 3 by the receiving unit 2A, and displays the status of the monitored device on a monitor (not shown) provided in the host monitoring system 2, for example. When an alarm signal is received due to an abnormality in the transmission apparatus 5a and 5b and the monitored apparatus such as the auxiliary equipment 6 or the monitoring apparatuses 4a, 4b,... 4n, an abnormal state is displayed on the monitor or an alarm is generated. Is configured to sound.

  The monitoring information consists of data having a predetermined number of bits. In the host monitoring system 2, the received monitoring information is converted to a predetermined format as to which monitoring device is located where it is transmitted and in what state. And it displays on a monitor etc., for example.

A plurality of such subordinate groups 11 ₁ , 11 ₂ ... 11 _n composed of the monitoring server 3, the monitoring devices 4a, 4b,. The lower groups 11 ₁ , 11 _2, ... 11 _n may be installed not only in the same building, for example, but also in different buildings.

The amount of transmission data of monitoring information may increase between the monitoring server 3 as described above and the monitoring devices 4a, 4b,. The increased amount of transmission data, when either the buffer amount of the reception buffer 3A _1, 3A ₂ ··· 3A _n exceeds a predetermined threshold value close to 100% or 100%, as described above, the monitoring The server 3 blocks transmission of information at the communication layer and suppresses data transmission, and transmits the transmission suppression occurrence information to the upper monitoring system 2 with priority.

In the upper-level monitoring system 2 of FIG. 2, the reception module 2A has the priority communication port 2A ₁ and the non-priority communication port 2A _2, also in the monitoring server 3, the transmission unit 3C is prioritized communication port 3C ₁ and priority transmission and a port 3C _2. The host monitoring system 2 and the monitoring server 3 are connected by, for example, a dedicated line, and the priority communication port 2A ₁ and the non-priority communication port 2A ₂ are provided at different ports on the same address. Similarly, the priority communication port 3C ₁ and the non-priority communication port 3C ₂ are provided in different ports on the same address.

Monitoring server 3, during normal, the monitoring device 4a, the monitoring information received from 4b · · · 4n, transmitted from the non-priority communication port 3C _2. The monitoring information is received by the non-priority communication port 2A ₂ of the host monitoring system 2, and the monitoring information is displayed on a monitor or the like.

When the amount of transmission data increases between the monitoring server 3 and the monitoring devices 4a, 4b,... 4n and information transmission suppression occurs in the communication layer, the control unit 3B determines which of the monitoring server 3 and the monitoring device. transmitting a transmission inhibition occurrence information indicating that the transmission inhibition occurs between Kano from the priority communication port 3C _1. The transmission suppression occurrence information includes, for example, predetermined data. The transmission suppression occurrence information is sent to the priority communication port 2A ₁ of the host monitoring system 2.

Upper-level monitoring system 2 always gives priority to the processing of transmission inhibition occurrence information received by the priority communication port 2A _1. When the priority communication port 2A ₁ receives the transmission suppression occurrence information, the host monitoring system 2 immediately performs a process of notifying the maintenance person that the transmission suppression has occurred. The process of notifying the maintenance person that transmission suppression has occurred is a process of displaying on the monitor the installation location of the monitoring device corresponding to the reception buffer where transmission suppression has occurred and the occurrence of transmission suppression. Subsequently, the non-priority communication port 2A ₂ is confirmed and the monitoring information is processed. When the priority communication port 2A ₁ has not received the transmission suppression occurrence information, the monitoring information received at the non-priority communication port 2A ₂ is processed.

  In this way, by preferentially processing the information on the occurrence and cancellation of transmission suppression, the maintenance person can prevent transmission between the monitoring server 3 and the monitoring devices 4a, 4b,. You can recognize immediately. Based on the recognition that an abnormality may have occurred in the monitoring apparatus in which transmission suppression has occurred, the maintenance person can also confirm whether the abnormality has occurred by other means.

The control unit 3B is for receive buffer transmission inhibition occurs, if the buffer amount is canceled transmission inhibition below the predetermined threshold value also, from the priority communication port 3C ₁ priority communication port 2A ₁ Transmission suppression release information is transmitted.

The operation of the control unit 3B when transmission suppression is performed will be described using the flowchart of FIG. First, in step S1, the control unit 3B checks the buffer amounts of the reception buffers 3A ₁ , 3A ₂ ... 3A _n . In step S2, it is determined whether or not the buffer amounts of the reception buffers 3A ₁ , 3A ₂ ... 3A _n have exceeded a predetermined threshold value. If the buffer amount does not exceed the predetermined threshold value in all of the reception buffers 3A ₁ , 3A ₂ ... 3A _n , the process is terminated.

When one or more of the reception buffers 3A ₁ , 3A ₂ ... 3A _n , for example, the buffer amount of the reception buffer 3A ₁ exceeds a predetermined threshold value, the monitoring device information is searched in step S3. The monitoring device information, e.g., the buffer amount is given building name receive buffer 3A ₁ and connected to the monitoring device 4a is installed beyond the threshold and branch name, and device for identifying the monitoring device 4a Information etc.

The monitoring device information, the buffer amount is searched based on the device ID of the monitoring device 4a connected to the receiving buffer 3A ₁ exceeding the threshold value, for example, an address such as an IP address. In the control unit 3B, a management file in which various types of information such as device IDs are recorded is recorded for each of the monitoring devices 4a, 4b,... 4n, and this management file is read and searched. The various information including the device ID recorded in the management file is composed of a binary code having a predetermined number of bits.

Subsequently, transmitted in step S4, after creating a message for notifying that the transmission inhibition was done (data of a predetermined bit number), the message to the priority communication port 3C ₁ in step S5. Thereby, the operation of the control unit 3B ends.

Note that the transmission suppression can be arbitrarily set according to the transmission suppression level of the communication layer, not only when the buffer amount in the reception buffer becomes 100%. Further, for each of the receive buffer 3A _1, 3A ₂ ··· 3A _n, to set the threshold of the buffer amount individually, to monitor the receive buffer 3A _1, 3A ₂ ··· 3A _n buffer volume respectively Anyway.

  Each of the monitoring devices 4a, 4b,... 4n and the monitoring server 3 are connected by a dedicated line, for example, a network such as Ethernet (registered trademark). Similarly, the transmission devices 5a and 5b and the auxiliary device 6 are connected to the monitoring devices 4a, 4b,.

  In the monitoring system 2 as described above, the transmission monitoring occurrence information is transmitted from the monitoring server to the higher-level monitoring system when the buffer amount of the reception buffer exceeds the threshold value, so that the higher-level monitoring system ensures the occurrence of transmission inhibition. Can be recognized. In addition, when the transmission suppression occurrence information is transferred using the priority communication port of the monitoring server and the priority communication port of the higher-level monitoring system and processed with priority, the higher-level monitoring system can immediately recognize the occurrence of transmission suppression. it can.

  In addition, since monitoring information can be temporarily stored in the reception buffer and information can be transmitted to a higher-level monitoring system except unnecessary information, the monitoring information can be efficiently processed. Also, important information can be selected from the reception buffer and preferentially transmitted to the host monitoring system.

  Thus, by adopting a configuration in which the occurrence of transmission suppression can be immediately recognized, accurate monitoring can be performed and the situation can be reliably grasped.

  Although one embodiment of the present invention has been specifically described above, the present invention is not limited to the above-described embodiment, and various modifications based on the technical idea of the present invention are possible. .

It is a schematic diagram which shows an example of a structure of the monitoring system concerning one Embodiment of this invention. It is a flowchart which shows operation | movement of the monitoring server concerning one Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Monitoring system 2 ... High-order monitoring system 2A ... Reception part 2A ₁ ... Priority communication port 2A ₂ ... Non-priority communication port 3 ... Monitoring server 3A ₁ , 3A ₂ ... 3A _n ··· Reception buffer 3B ··· Control unit 3C ··· Transmitter 3C ₁ ··· Priority communication port 3C ₂ ··· Non-priority communication port 4a, 4b ··· 4n ··· Monitoring device 5a 5b: Transmission device 6: Auxiliary equipment 11 ₁ , 11 ₂ ... 11 _n ... Lower group

Claims (6)

One or two or more reception buffers connected to one or more monitoring devices, respectively, and temporarily storing information received from the monitoring devices;
Processes the information in the reception buffer, forms post-processing information, checks the buffer amount of the reception buffer, and if the buffer amount exceeds a predetermined threshold, information on transmission suppression occurrence A control unit forming
A monitoring server comprising: a transmission unit that transmits the post-processing information and the transmission suppression occurrence information to a higher-level monitoring system. The transmission unit includes a priority communication port and a non-priority communication port,
The monitoring server according to claim 1, wherein the transmission suppression occurrence information is transmitted from the priority communication port to the host monitoring system. A monitoring device that monitors one or more monitored devices and transmits the obtained monitoring information;
One or two or more reception buffers that are respectively connected to the monitoring device and temporarily store information received from the monitoring device, process the information in the reception buffer, and form post-processing information, Checking the buffer amount of the reception buffer, and when the buffer amount exceeds a predetermined threshold, a control unit for forming transmission suppression occurrence information;
A monitoring server comprising a transmission unit that transmits the post-processing information and the transmission suppression occurrence information to a higher-level monitoring system;
A monitoring system comprising: a host monitoring system that issues monitoring information based on the information after the processing and the transmission suppression occurrence information. The transmission unit and the upper monitoring system each include a priority communication port and a non-priority communication port,
Transmitting the transmission suppression occurrence information from the priority communication port of the transmission unit to the priority communication port of the higher-level monitoring system;
The monitoring system according to claim 3, wherein the higher-order monitoring system preferentially processes the transmission suppression occurrence information received at the priority communication port. A check step for checking a buffer amount of one or more reception buffers for accumulating reception data from the monitoring device;
A comparison step for comparing the buffer amount with a predetermined threshold value determined in advance;
A communication method in a monitoring system, comprising: a notification step of transmitting transmission suppression occurrence information to a host monitoring system when the buffer amount exceeds the threshold value. The notification step is
Send the transmission suppression occurrence information from the priority communication port of the transmission unit,
The transmission suppression occurrence information is received by the priority communication port of the higher-level monitoring system,
6. The communication method in the monitoring system according to claim 5, wherein the transmission suppression occurrence information is preferentially processed.

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