JP3562866B2 - Concentration control system - Google Patents

Description

[0001]
[Industrial applications]
The present invention relates to a concentrator control system for controlling a communication path with the plurality of managed with the monitoring center in the computer system.
[0002]
[Prior art]
In order to prevent and maintain the managed device composed of the host computer, etc., the managed device and the monitoring center are connected by a communication path, and when a failure occurs in the managed device such as the host computer, the failure data is sent to the monitoring center. A preventive maintenance system that sends failure recovery data from the monitoring center to the management target device, or analyzes the cause of the failure at the monitoring center and deals with the failure is used.
[0003]
FIG. 7 is a diagram showing a configuration of a conventional line concentrating control system in the above preventive maintenance system.
.., N are managed devices such as host computers, M11 to M13 are modems, SW is a switch for switching lines, Net is a public line network, and SV is a monitoring center.
[0004]
As shown in the figure, for example, the managed devices A and B are connected to the monitoring center SV via modems M11 and M12, a switcher SW, a public network Net, a modem M21 and a modem M22, respectively. The device n is connected to the monitoring center SV via the modem M13, the public network N, and the modem M23.
For example, when information is transmitted between the management target device A and the monitoring center SV, the transmission is performed via the modem M11 → the switcher SW → the public network Net → the modem M21.
[0005]
[Problems to be solved by the invention]
The conventional line concentrator control system described above has the following problems.
(1) Line equipment such as a modem and a line is required for each device to be managed.
(2) Many line facilities such as lines, modems, and switch nets are required on the monitoring center side. Also, in order to eliminate line busy, line equipment for the device to be managed is required.
(3) If line facilities cannot be prepared sufficiently at the monitoring center, the line busy rate increases, and the role of the original monitoring center becomes insufficient.
[0006]
SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and a first object of the present invention is to enable simultaneous communication between a plurality of management target devices and a monitoring center, and to make it possible for a An object of the present invention is to provide a concentrator control system capable of reducing the number of lines.
A second object of the present invention is to provide a line concentrator control system capable of exchanging information with a high degree of immediacy in a timely manner and efficiently exchanging data.
[0007]
A third object of the present invention is to provide a concentrator control system which can enhance security and safety functions and does not require line equipment such as a modem and a line for each management object.
[0008]
[Means for Solving the Problems]
FIG. 1 is a diagram illustrating the principle of the present invention. In the figure, A, B,..., N are devices to be managed, WK is a relay workstation, and the relay workstation WK includes a transmission buffer B1 and a reception buffer B2. A communication path is formed between the device and the monitoring center. M is a modem, SV is a monitoring center, and the modem M and the monitoring center SV are connected via a public line network or the like.
[0009]
In order to solve the above problem, as shown in FIG. 1, the invention of claim 1 of the present invention comprises a plurality of managed devices, at least one relay workstation connected to the plurality of managed devices, A monitoring center connected to the workstation via a communication path, wherein the relay workstation controls the concentration of the managed device and forms a communication path between the managed device and the monitoring center. A transmission buffer for storing transmission data from each managed device, and a reception buffer for storing received data received from the monitoring center, wherein each managed device monitors each managed device. When connecting to the center, information for requesting connection is sent to the relay workstation, and the relay workstation Based on the information for requesting sent from device the connection, connected to a monitoring center, when the relay workstation has accepted the call from the monitoring center, the relay workstation managed device monitoring Centers specified Along with notifying the request and requesting confirmation of the connection, disconnecting the connection between the relay workstation and the monitoring center, the specified managed device that has confirmed the connection makes a connection request to the relay workstation and The designated managed device is connected to the monitoring center, transmission data from each of the managed devices is stored in the transmission buffer, sequentially transmitted to the monitoring center, and received data transmitted from the monitoring center is received. The data is sequentially stored in a buffer and sent to each managed device.
[0010]
According to a second aspect of the present invention, in the first aspect of the present invention, the relay workstation stores transmission information to the monitoring center and reception information from the monitoring center in a transmission buffer and a reception buffer for each device to be managed. It is configured to be managed.
According to a third aspect of the present invention, in the second aspect, the transmission information of each managed device is weighted, and the relay workstation controls the data transmission order according to the weighting. .
[0011]
According to a fourth aspect of the present invention, in the second or third aspect, the reception information from the monitoring center is weighted, and the relay workstation controls the distribution order to each managed device according to the weighting. It is configured so that
[0012]
According to a fifth aspect of the present invention, in the first aspect of the present invention, when the relay workstation is connected to the monitoring center by a request from the managed device or the like, the relay workstation responds to a connection request from another managed device. The relay workstation notifies the other managed device of the completion of the connection to enable communication between the other managed device and the monitoring center.
[0013]
According to a sixth aspect of the present invention, in the first aspect of the present invention, the line control mechanism is provided in the relay workstation and a main managed device among the managed devices, and the relay workstation becomes unable to communicate. In such a case, each managed device and the monitoring center communicate with each other via the line control mechanism of the main managed device.
[0014]
[Action]
In FIG. 1, the relay workstation WK controls the concentration of lines between the managed devices A to n and the monitoring center SV as follows.
(A) Establishing a communication path with the monitoring center at the request of the managed device When the managed devices A to n send connection request information such as telephone numbers and monitoring center IDs to the relay workstation WK, the relay workstation WK calls monitoring center SV. Then, by checking the monitoring center ID sent from the monitoring center SV with the monitoring center ID sent from the management target device, it is confirmed that both can be connected, and the connection with the monitoring center is made.
[0015]
Also, if a connection request is received from another management target device while the relay workstation WK and the monitoring center SV are connected, the connection is confirmed by checking the monitoring center ID and the like as described above, and the connection is established. The permission is notified to another managed device. This allows another managed device to communicate simultaneously with the already-connected managed device.
(B) Transmission and Reception of Data Between the Managed Device and the Monitoring Center The transmitted data sent from the managed devices A to n is stored in the transmission buffer B1 of the relay workstation WK for each managed device and monitored from the transmission buffer B1. The data is sequentially transmitted to the center SV. The data sent from the monitoring center SV and received by the relay workstation is stored in the reception buffer B2 for each managed device, and is sequentially distributed to each managed device.
[0016]
The transmission buffer B1 and the reception buffer B2 store transmission / reception data weight information, and the relay workstation WK controls transmission order and distribution order of the data according to the weighting.
(C) Connection between the monitoring center and the device to be managed by a call from the monitoring center When the monitoring center SV calls the relay workstation WK and sends confirmation information such as the monitoring center ID, the relay workstation WK becomes the designated management target. In addition to notifying that a connection request has been made to the device, the device sends confirmation information such as a monitoring center ID sent from the monitoring center SV and disconnects the connection.
[0017]
The specified management target device collates the monitoring center ID and the like, and calls the monitoring center SV and connects if the connection is possible.
(D) Securing communication when the line control mechanism of the relay workstation is abnormal When the line control mechanism of the relay workstation WK has an error, if the connection request or the data transfer request is received from the managed device, the relay workstation WK Then, the communication failure is notified to the managed device A having the line control mechanism.
[0018]
The management target device A performs connection or data transfer in response to the connection request or the data transfer request transferred from the relay workstation WK.
According to the first and second aspects of the present invention, as described above, a transmission buffer for storing transmission data from each managed device in the relay workstation and a reception buffer for storing reception data received from the monitoring center. The transmission data from each of the managed devices is stored in the transmission buffer and sequentially transmitted to the monitoring center, and the reception data transmitted from the monitoring center is sequentially stored in the reception buffer. Since the configuration is such that the information is sent to the managed device and the transmission information and the received information are managed for each managed device, each managed device simultaneously transmits and receives data to and from the monitoring center via the relay workstation. And efficient communication can be performed. In addition, it is possible to reduce line busy.
When connecting each managed device to the monitoring center, information for requesting connection is sent to the relay workstation, and the relay workstation connects to the monitoring center based on the information for requesting the connection, when the relay workstation has accepted the call from the monitoring center, with a request for confirmation of the connection notifies the managed device of the monitoring centers specified, it disconnects the connection between the relay workstation with the monitoring center Since the specified managed device makes a connection request to the relay workstation to connect the specified managed device to the monitoring center, the connection with the monitoring center by the request from the managed device can be made. In addition, it is possible to reliably connect to the managed device by calling from the monitoring center and improve security. It is possible.
[0019]
Further, since a relay workstation is provided and connected to each managed device, there is no need to provide a line facility such as a modem for each managed device in each managed device and the monitoring center, and the configuration can be simplified.
According to the third and fourth aspects of the present invention, the transmission information of each managed device and the reception information from the monitoring center are weighted, and the relay workstation controls the data transmission order and the distribution order according to the weighting. , It is possible to transmit and receive information with high immediacy in a timely manner.
[0020]
According to the invention of claim 5 of the present invention, when the relay workstation is connected to the monitoring center, the relay workstation responds to the connection request from the other managed device that the connection has been completed. The other managed devices can receive the notification and send out the monitoring center ID, transmission data, etc., even if the relay workstation and the managed device have already been connected. It becomes possible to communicate between another management target device and the monitoring center.
[0021]
In the invention according to claim 6 of the present invention, the line control mechanism is provided in the relay workstation and the main managed device among the managed devices, and when the relay workstation becomes unable to communicate, the main network is connected to the main workstation. The monitoring center communicates with each managed device via the line control mechanism of the managed device, so that communication can be secured even if the line control mechanism of the relay workstation becomes abnormal, and the reliability is improved. Can be improved.
[0022]
【Example】
FIG. 2 shows a procedure for establishing a data communication path according to the embodiment of the present invention.
, N are managed devices, WK is a relay workstation, and M is a modem. Managed devices A, B,..., N are connected to the modem M via the relay workstation WK. 7, the modem M is connected to a monitoring center via a public line network (not shown) and a modem.
[0023]
Next, a connection procedure in a case where a monitoring center is called from the management target device A and both are connected will be described with reference to FIG.
First, a telephone number and a monitoring center ID are transmitted as information for connecting from the managed device A to the relay workstation.
The relay workstation WK performs automatic dialing based on the telephone number and connects to the monitoring center via the modem M.
[0024]
In response, the monitoring center transmits the monitoring center ID to the relay workstation to permit the connection, and the relay workstation WK checks the monitoring center ID against the monitoring center ID sent from the managed device A, If they match, complete the connection. If the monitoring center IDs do not match, the connection is rejected and the line is immediately disconnected.
[0025]
FIG. 3 is a diagram showing an operation when a connection request is issued from the managed device B when the relay workstation and the monitoring center are connected according to the procedure described in FIG.
When a connection request is issued from the managed device B while the managed device A and the monitoring center are in a connected state as described above, the managed device B does not recognize the connection state of the managed device A, The telephone number and the monitoring center ID are transmitted as information for connecting to the relay workstation WK.
[0026]
Since the relay workstation WK and the monitoring center are already connected, the relay workstation WK checks the monitoring center ID at the time of connection with the monitoring center ID sent from the management target device B. When the IDs of the two coincide, the connection completion is reported to the managed device B, and thereafter, the managed device A and the managed device B can communicate with the monitoring center simultaneously.
[0027]
If the IDs do not match, the connection rejection is reported to the management target device B to notify that data transmission / reception is impossible.
By providing a relay workstation as described above and connecting each managed device to the monitoring center via the relay workstation, there is no need to provide line equipment such as a modem on the managed device side and the monitoring center side. Can be simplified.
[0028]
FIG. 4 is a diagram showing the operation when the monitoring center calls the managed device and connects them, and FIG. 4 shows the case where the monitoring center SV calls the managed device B.
When the monitoring center SV automatically dials the relay workstation WK and connects the two to each other to start communication with each managed device from the monitoring center SV, the monitoring center SV sends the monitoring center ID and the connection destination to the relay workstation WK. The management target name B is transmitted.
[0029]
The relay workstation WK reports that there has been a connection request from the monitoring center SV to the managed device B to which the connection has been requested, and also temporarily disconnects the line between the relay workstation WK and the monitoring center SV.
On the other hand, the management target device B checks the transmitted monitoring center ID with its own monitoring center ID, and does not connect to the monitoring center if they do not match. If the IDs match, the managed device B sends the telephone number and the monitoring center ID to the relay workstation WK as information for connection. The relay workstation WK performs automatic dialing based on the telephone number transmitted from the management target device B, and connects to the monitoring center.
[0030]
As described above, after the line between the relay workstation and the monitoring center is once disconnected, automatic dialing is performed from the relay workstation to call the monitoring center, so that the managed device and the monitoring center can be reliably connected. , Security can be ensured.
That is, even if the management target device is called with the correct monitoring center ID attached, there is no guarantee that the caller is the monitoring center, and the device may be another device. Therefore, as described above, security is secured by automatically disconnecting the line and then automatically dialing from the relay workstation to the monitoring center.
[0031]
FIG. 5 is a diagram showing an operation when data is transmitted from each managed device to the monitoring center when a plurality of managed devices A, B,..., N are connected to the monitoring center via the relay workstation WK. .
In the figure, B1 is a transmission buffer that stores transmission data from each managed device to the monitoring center, and B2 is a reception buffer that stores received data sent from the monitoring center to each managed device. The reception buffers B2 are provided in the relay workstations WK, respectively, and include areas for storing rank information indicating the priority of data, names of devices to be managed, and transmission data / reception data for each management target. SV is a monitoring center, and the relay workstation WK and the monitoring center SV are connected via a public network as shown in FIG.
[0032]
Next, with reference to FIG. 5, data transmission / reception between the managed devices A, B,..., N and the monitoring center will be described.
When the managed devices A, B,... N transmit data to the relay workstation WK while the managed devices A, B,. The station WK ranks the transmission data from each managed device based on the transmission content and the like in order of priority, for example, “high”, “medium”, “low”, and manages the device names (A, B,..., N) in the transmission buffer B1. Then, the transmission data is packetized and transmitted to the monitoring center SV in order from the transmission data having the highest rank together with the name of the management target device (in the case of FIG. , A, and n are transmitted in this order).
[0033]
When the monitoring center SV receives the transmission data, the monitoring center SV distributes the packetized transmission data to a database (not shown) provided for each managed device in the monitoring center.
On the other hand, when the relay workstation WK ranks and requests data transmission to the monitoring center SV when the monitoring center SV is connected to the managed devices A, B,..., N as described above, the monitoring center SV The converted data is transmitted to the relay workstation WK in the requested rank order. The relay workstation WK receives the transmitted data and stores it in the reception buffer B2 together with the rank and the name of the device to be managed. Then, the received data is distributed to the management target devices A, B,..., N in order of rank.
[0034]
As described above, by providing a transmission / reception buffer in the relay workstation and ranking and managing the transmission / reception data, simultaneous communication can be performed between a plurality of managed devices and the monitoring center. High data can be transmitted and received in a timely and efficient manner.
FIG. 6 is a diagram showing an embodiment in which communication between the managed device and the monitoring center can be ensured even when an abnormality occurs in the line control function of the relay workstation.
[0035]
In the figure, A, B,..., N are managed devices, WK is a workstation having a line control function, M is a modem, and managed devices A, B,. It has the functions shown in FIG. 2 to FIG. 5, and the managed device A is provided with a line control mechanism like the workstation WK, and can communicate with the monitoring center via the modem M.
[0036]
In the figure, each of the managed devices A, B,..., N normally communicates with the monitoring center (not shown) via the relay workstation WK as described above.
When an abnormality occurs in the line control function of the relay workstation WK, the relay workstation WK notifies the managed device A of a communication failure when receiving a connection request or a data transfer request from each managed device.
[0037]
Then, the connection request or the data transfer request is transferred to the management target device A via the relay workstation WK, and the management target device A connects to the monitoring center or receives and receives data according to the request.
In this embodiment, as described above, at least one of the managed devices is provided with a line control mechanism so that communication with the monitoring center can be performed. Even if an abnormality occurs in the function, communication with the monitoring center can be performed, and the safety function can be improved.
[0038]
【The invention's effect】
As described above, the present invention can obtain the following effects.
(1) Since a relay workstation is provided and connected to each managed device, there is no need to provide a line facility such as a modem for each managed device in each managed device and the monitoring center, and the configuration can be simplified. .
(2) The relay workstation is provided with a transmission buffer for storing transmission data from each managed device and a reception buffer for storing reception data received from the monitoring center, and stores transmission data and reception data in the buffer. Therefore, each of the managed devices is transmitted simultaneously to the monitoring center and each of the managed devices, and the transmission information and the received information are managed for each of the managed devices. And data can be transmitted and received, efficient communication can be performed, and reduction in line busy can be achieved.
[0039]
Furthermore, the transmission information of each managed device and the reception information from the monitoring center are weighted, and the relay workstation controls the order of transmission and distribution of data according to the above weighting, so that information with high immediacy can be timely obtained. Can be exchanged.
(3) When connecting each managed device to the monitoring center, information for requesting connection is sent to the relay workstation, and the relay workstation connects to the monitoring center based on the information for requesting connection. Further, when the relay workstation has accepted the call from the monitoring center, after requesting the confirmation of the connection notifies the managed device of the monitoring centers specified, disconnects, management of the designated Since the target device makes a connection request to the relay workstation and connects the specified managed device to the monitoring center, the connection between the managed device and the monitoring center can be securely performed, and security is improved. Can be improved.
(4) When the relay workstation is connected to the monitoring center, in response to a connection request from another managed device, the relay workstation notifies the other managed device of the completion of the connection. In response to the notification, the other managed device can send out the monitoring center ID, transmission data, and the like. Even if the relay workstation and the managed device are already connected, the other managed device and the monitoring It is possible to perform communication between them.
(5) The line control mechanism is provided in the main managed device among the managed devices, and when the relay workstation becomes unable to communicate, each managed device and the monitoring center are connected via the managed device line control mechanism. The communication can be ensured even if the line control mechanism of the relay workstation becomes abnormal, and the reliability can be improved.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating the principle of the present invention.
FIG. 2 is a diagram showing a data communication path establishment procedure in an embodiment of the present invention.
FIG. 3 is a diagram illustrating an operation when a connection request is issued from another management target device.
FIG. 4 is a diagram showing a connection procedure at the time of calling from a monitoring center.
FIG. 5 is a diagram illustrating transmission and reception of data between a management target device and a monitoring center.
FIG. 6 is a diagram showing an embodiment for coping with communication failure of a relay workstation.
FIG. 7 is a diagram showing a conventional example.
[Explanation of symbols]
A, B,..., N Managed device WK Relay workstation B1 Transmit buffer B2 Receive buffer M Modem SV Monitoring center

Claims (6)

A plurality of managed devices, at least one relay workstation connected to the plurality of managed devices, and a monitoring center connected to the relay workstation via a communication path, wherein the relay workstation is a management target. In a line concentrator control system that forms a communication path between a device to be managed and the monitoring center,
The relay workstation is provided with a transmission buffer for storing transmission data from each managed device, and a reception buffer for storing reception data received from the monitoring center,
When each managed device connects each managed device to the monitoring center, the managed device sends information for requesting the connection to the relay workstation, and the relay workstation requests the connection sent from the managed device. Connection to the monitoring center based on the information
When the relay workstation has accepted the call from the monitoring center, the relay workstation with a request for confirmation of the connection notifies the managed device of the monitoring Centers specified, between repeaters workstation with the monitoring center Disconnecting the connection, the specified managed device that has confirmed the connection makes a connection request to the relay workstation and connects the specified managed device to the monitoring center,
The transmission data from each of the management target devices is stored in the transmission buffer and sequentially transmitted to the monitoring center. The reception data transmitted from the monitoring center is sequentially stored in the reception buffer and stored in each of the management target devices. Concentration control system characterized by sending. 2. The concentrator control system according to claim 1, wherein the relay workstation stores and manages information transmitted to the monitoring center and information received from the monitoring center in a transmission buffer and a reception buffer for each device to be managed. 3. The concentrator control system according to claim 2, wherein the transmission information of each managed device is weighted, and the relay workstation controls the data transmission order according to the weighting. 4. The line concentrator control system according to claim 2, wherein weights are assigned to information received from the monitoring center, and the relay workstation controls a distribution order to each of the managed devices according to the weights. When the relay workstation is connected to the monitoring center by a request from the managed device, the relay workstation notifies the other managed device of the completion of the connection in response to a connection request from another managed device. 2. The concentrator control system according to claim 1, wherein communication between the other management target devices and the monitoring center is enabled. A line control mechanism is provided for the relay workstation and the main managed device among the managed devices,
2. The line concentrator control system according to claim 1, wherein when the relay workstation becomes unable to communicate, each of the managed devices and the monitoring center perform communication via the line control mechanism of the main managed device.

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