JP3602608B2 - Communication network status monitoring system - Google Patents

Description

[0001]
[Industrial applications]
The present invention relates to a status monitoring system for a communication network, and more particularly to a status monitoring system for appropriately displaying failures / work statuses / operating systems of communication devices, lines (transmission paths) and the like in a communication network system diagram.
[0002]
[Prior art]
In a communication network, when a failure occurs from the viewpoint of service improvement, it is necessary to quickly grasp the failure point and perform backup and repair. For this reason, it is possible to collectively grasp the status of normal operation / failure occurrence / working at each part of the network at the center. FIG. 22 is a configuration diagram of such a conventional state monitoring system. In the figure, 1 is a communication network, 1a to 1n are communication devices such as exchanges, 2a to 2m are transmission paths, 3 is a status value collection system for collecting the status of each part of the network (communication device, line). One collection system device 3a to 3k is provided for each district or a plurality of districts. Reference numeral 4 denotes a communication network system diagram, and a center for displaying the status of normal operation / failure occurrence / working at each part of the network in the system diagram. Reference numeral 5 denotes a LAN. Each of the collection system devices 3a to 3k collects the state values of a large number of communication devices and lines arranged in the area in charge, and sends the state values of each unit to the center 4 via the LAN 5 at predetermined intervals, for example, every 20 seconds. Send out.
[0003]
The center 4 includes, as shown in FIG. 23, a state change detection device 6 for detecting and transmitting a change in the state value of each section, and a system diagram showing the configuration of the network in each area, and also shows the operation / failure / work status of each section of the network. A plurality of monitoring terminal devices 7a to 7r shown, and a LAN 8 connecting the state change detection device 6 and each of the monitoring terminal devices 7a to 7r are provided. Each of the monitoring terminal devices 7a to 7r is constituted by a workstation WS or a personal computer PS, and stores a system diagram of all districts and manages status values of all districts by a mark state management table. Each of the monitoring terminal devices 7a to 7r can display the system diagram / state of all the districts, but mainly the monitoring terminal unit 7a monitors the state of the XX district, and the monitoring terminal unit 7b monitors the state of the 〇〇 district. It is decided as follows. If one area cannot be displayed on one screen, a plurality of monitoring terminal devices may be assigned to one area.
[0004]
The condition change detection device 6 includes a communication device in all the areas to be managed and a memory for storing the status of the line, and stores the latest status and storage status value of each unit transmitted from each collection system device 3a to 3k at a predetermined cycle. If a change in the state value (1 → 0 or 0 → 1) is detected in a predetermined monitoring target unit, the state value of the monitoring target unit is transmitted to all the monitoring terminal devices 7a to 7r via the LAN 8. Upon receiving the status value change information, the monitoring terminal devices 7a to 7r update the mark status management table.
As described above, each of the monitoring terminal devices 7a to 7r stores the system diagram of all the districts, and manages the state values of all the districts by the mark state management table. Status can be displayed. That is, when the operator operates the keyboard of the monitoring terminal device 7a to indicate a predetermined area, the monitoring terminal device 7a reads the system diagram SFG (FIG. 23) of the specified area from the memory and displays it on the display screen. The state of each part of the network in the area is read from the mark state management table and displayed on the display screen.
[0005]
In the system diagram SFG, reference numerals 9a, 9b, ... denote blocks indicating communication devices in the network, and reference numerals 10a, 10, ... denote lines indicating lines (transmission paths). The block showing the communication device includes a failure display mark TIM, a work display mark WIM, an entry display mark EIM, a 1-system operation display mark DIM, and the like. These marks are displayed, for example, as follows. That is, (1) only the operation display mark DIM is displayed in green while the communication device is operating normally in the first system. (2) When a failure occurs in the communication device, the failure display mark TIM is displayed in flicker in red. When the operator confirms the failure and performs a flicker stop operation, the flicker is stopped, and the failure display mark TIM is displayed in red. Is done. In addition, (3) when the maintenance person opens the door of the communication device and enters the device for the recovery work of the fault location, the entry display mark EIM is displayed. (4) When the maintenance person presses the work start button, the work display is performed. The mark WIM is flickered in yellow. (5) When the operator confirms the start of the work and performs the flicker stop operation, the flicker is stopped, and thereafter, during the recovery work of the fault location, the failure display mark TIM is red and the work display mark WIM is yellow. Is displayed with.
[0006]
[Problems to be solved by the invention]
In the conventional monitoring system, each of the monitoring terminal devices 7 a to 7 r is directly connected to the state change detection device 6. When the state change detection device 6 detects a state change, the state change detection device 6 transmits the state of the device to all monitoring terminal devices, and each monitoring terminal device updates a mark state management table managed by each of the monitoring terminal devices. That is, the state change detection device 6 always transfers the state change information to all the monitoring terminal devices, even for the information of the screen not displayed on the monitoring terminal device side. In the case of a small network with a small number of monitoring terminal devices, the drawbacks of the conventional monitoring system do not appear significantly.
[0007]
However, in recent years, the scale of a communication network to be monitored has increased, and the number of various devices / circuits forming the network has increased, and the number of monitoring terminal devices arranged in a center has also increased. For this reason, the frequency of occurrence of a state change is greater than in the past, and the state change information is transmitted to all monitoring terminal devices every time a state change occurs. The communication load between the state change detection device and the monitoring terminal device becomes extremely heavy, and the real-time property important for the state monitoring system is reduced. Since the state monitoring system has to detect and deal with abnormalities as soon as possible, the decrease in real-time performance is a serious problem.
Also, with the increase in network scale, the number of devices displayed on one screen is increasing. In a conventional monitoring terminal device, it is necessary to display a plurality of marks in one block, and the size of each block must be reduced with the increase in the number of devices in one screen, making the screen difficult to see, There is a problem that it is not easy to grasp. Also, if the block size is made the same as the conventional one, the number of devices to be displayed on one screen is reduced, and the number of screens is increased, which is not efficient. There is a problem that can not satisfy the demand for wanting.
[0008]
When displaying a system diagram / state of a predetermined area on a monitoring terminal device (for example, the monitoring terminal device 7a), if a failure display mark TIM of a certain communication device flickers due to the occurrence of a failure, the operator takes measures against the failure. After taking the action, perform a flicker stop operation. As a result, flickering of the failure display mark TIM is stopped in the monitoring terminal device 7a, and thereafter, the failure display mark is displayed in red. By the way, since the monitoring terminal devices 7a to 7r individually manage the state of each part of the network, the monitoring terminal devices 7b to 7r other than the monitoring terminal device 7a are not instructed to stop flicker. For this reason, when the other monitoring terminal devices 7b to 7r display the system diagram / state of the area, the failure display mark TIM of the communication device is displayed in red flicker, and countermeasures against the failure are duplicated and confusion is caused. There is a problem, and furthermore, there is a problem that each of the monitoring terminal devices has to issue a flicker stop instruction. In other words, there is a problem that even when the monitoring terminal devices manage the same area, the flicker stop is not synchronized, and the respective flicker stop instructions must be issued.
[0009]
In view of the above, an object of the present invention is to reduce the load on the terminal control device, reduce the load on the communication path between the terminal control device and the monitoring terminal device, and maintain the real-time state of the communication network. To provide a monitoring system.
Another object of the present invention is to display various states with one mark without separately providing various marks such as a failure display mark, a work display mark, and an operation display mark. An object of the present invention is to provide a communication network status monitoring system capable of displaying a status.
Still another object of the present invention is to group monitoring terminal devices, when one monitoring terminal device instructs to stop flickering, stop flickering in all monitoring terminal devices in the same group, and perform flickering in another group. An object of the present invention is to provide a communication network status monitoring system that does not stop.
[0010]
[Means for solving the problem]
FIG. 1 is a diagram illustrating the principle of the present invention.
Reference numeral 11 denotes a communication network, 11a to 11d denote communication devices such as exchanges, and 12a to 12e denote transmission paths. Each of the communication device and the transmission path is a monitoring target unit. Reference numeral 21 denotes a status value collection system that collects the status of each monitoring target unit of the communication network (the presence / absence of a failure, the presence / absence of a repair work, the operation system, etc.), and 21a to 21c are status collection devices. Reference numeral 31 denotes a state change detection device (state change detection device) for detecting a change in the state of each monitoring target unit. (1) A storage unit that stores the status value of each monitoring target unit that is periodically notified from the state collection device. 31a, (2) a status value comparison unit 31b that compares the latest status value of each monitored object notified from the status collection device with the stored status value to determine that a status change has occurred, and (3) status change And a notifying unit 31c for notifying the terminal control device of the state of the monitoring target unit where the error occurred.
[0011]
Reference numeral 41 denotes a terminal control device that collectively manages the status of each monitoring target unit notified from the status collection devices 21a to 21c via the state change detection device 31. A state value management table 42 for storing state values of a plurality of states such as presence / absence, whether or not a failure is being repaired, and (2) a failure occurrence flicker, a repair work occurrence flicker, and a failure recovery flicker corresponding to each monitoring target unit. And a flicker management table 43 for storing a flicker value indicating whether or not to perform the above operation for each state. 51 ₁ Reference numerals 51n denote a plurality of monitoring terminal devices that display a predetermined system diagram on a display screen and also display the status of each monitoring target unit in the system diagram, each of which is sent from the terminal control device (1). A mark state management table 52 for storing the state values and flicker values of the monitoring target unit, and (2) a mark display pattern table 53 for storing a correspondence relationship between a combination of a plurality of state values and a display color in the monitoring target unit.
[0012]
[Action]
The status collection devices 21a to 21c collect the statuses of the monitoring target units 11a to 11d and 12a to 12e of the communication network 11 and notify the terminal control device 41 via the status change detection device 31. The terminal control device 41 stores the status values of all the monitoring target units notified from each status collection device in the status value management table 42 and manages them collectively. Each monitoring terminal device 51 ₁ To 51n display the system diagram of the network in the predetermined area on the display screen, and request the terminal control device 41 for the state value of the monitoring target part existing in the system diagram. The status value of the monitoring target portion sent is stored in the mark status management table 52, and the status of each monitoring target portion in the system diagram is displayed by a mark based on the status value.
[0013]
The input of the state value of the monitoring target unit from each of the state collection devices 21a to 21c to the terminal control device 41 is performed with the state change detection device 31 interposed therebetween. That is, the state change detection device 31 stores the status values of all the monitoring target units periodically notified from the status collection devices 21a to 21c, and stores the latest status values of the respective monitoring target units notified from the status collection device. By comparing the storage state values one cycle before, the monitoring target unit having the status change is identified, and the status value of the monitoring target unit having the status change is notified to the terminal control device 41.
As described above, the states of all the monitoring target units are collectively managed by the terminal control device 41 and the monitoring terminal device 51 is controlled. ₁ Since the terminal control device 41 notifies the monitoring terminal device of the status value of the monitoring target part existing in the requested system diagram only when there is a request from the terminal control device 41 to the monitoring terminal device, 51 ₁ Since the communication load between .about.51n can be reduced and the CPU load is distributed by the state change detection device 31 and the terminal control device 41, real-time performance can be improved.
... Claims 1, 2, and 3
[0014]
Further, the terminal control device 41 includes a status value management table 42 for storing status values of a plurality of statuses, such as a status of presence or absence of a failure and a status of whether or not a failure is being repaired, corresponding to the monitoring target unit. Terminal device 51 ₁ To the monitoring target unit, which is obtained from the status value management table 42, and notifies the monitoring terminal device of the value of each status of the monitoring target unit present in the system diagram requested by the status value request block from the monitoring target unit. A plurality of states are displayed in the system diagram by changing the display color with one mark. In this case, each monitoring terminal device 51 ₁ 51n includes a mark display pattern table 53 for storing the correspondence between the combination of the state value of each state and the display color, and determining the display color of the mark with reference to the table to allow a plurality of states to be represented by one mark. indicate. In this manner, various states can be displayed with one mark without separately providing various marks such as a failure display mark, a work display mark, and a driving system display mark, and the state of many devices can be displayed on one screen. Can be displayed.
... Claims 4 and 5
[0015]
The terminal control device 41 notifies the monitoring terminal device of the monitoring target unit having the status value of 1 among the monitoring target units existing in the system diagram specified by the screen number included in the status value request block, and the monitoring terminal device The status value of the received monitoring target unit is set to 1 and the status value of the monitoring target unit not received is set to 0, and the status of each monitoring target unit is displayed in the system diagram based on the status value. With this configuration, it is not necessary to send the status values of all the monitoring target units in the system diagram, so that the amount of communication data can be reduced and the real-time property can be improved. ... Claim 6
[0016]
Monitoring terminal device 51 ₁ 51n add data indicating whether or not notification of the status value is required each time the status value of the monitoring target unit changes to the status value request block, and send the status value of the monitoring target unit to the terminal control device 41. Request (asynchronous transfer request), the terminal control device 41 stores the correspondence between the monitoring terminal device requiring the asynchronous transfer and the screen number of the system diagram currently displayed by the monitoring terminal device, and in the system diagram When the status of the monitoring target unit changes, the status value is immediately notified to the monitoring terminal device. In this way, the terminal control device 41 can notify the monitoring terminal device of the status value of the monitoring target portion immediately when the status changes without receiving the status value request block, and therefore, real-time performance can be improved. it can. Also, the monitoring terminal device 51 ₁ 51n transmit the state value request block to the terminal control device 41 at a relatively long cycle, receive and display the state value (synchronous transfer). As described above, by using both the asynchronous transfer and the synchronous transfer, even when data loss occurs during the asynchronous transfer, a correct state value can be received and displayed by the synchronous transfer. ... Claims 7 and 8
[0017]
The terminal control device 41 has a status value management table 42 for storing status values of a plurality of statuses, such as presence / absence of a failure, whether or not a failure is being repaired, for each of the monitoring target units, A flicker management table 43 for storing a flicker value indicating whether or not to perform a failure occurrence flicker, a repair work occurrence flicker, a failure recovery flicker, or the like is provided for each state. Also, the monitoring terminal device 51 ₁ 51 to 51n have a mark display pattern table 53 that indicates the display color of the mark and whether or not the mark is flickered, corresponding to the combination of the state value and the flicker value of each state. The terminal control device 41 notifies the monitoring terminal device of the value of each state of the monitoring target unit and the flicker value of each state existing in the system diagram specified by the screen number in the status value request block received from the monitoring terminal device. Then, the monitoring terminal device refers to the mark display pattern table 53 to determine the display color of the mark and whether or not flicker occurs, and displays a plurality of states with one mark. In this manner, one state can be displayed with one mark to indicate each state (the presence or absence of a failure, whether or not a failure is being repaired, and the like) and the occurrence of a failure / repair work / recovery of a failure. ... Claim 9
[0018]
Monitoring terminal device 51 ₁ To 51n are grouped, and one flicker management table is provided in the terminal control device 41 for each group. The terminal control device 41 sets the flicker value in the flicker management table of the monitoring target unit to 1 upon occurrence of a failure or restoration work of the predetermined monitoring target unit or recovery from the failure. Then, when a predetermined monitoring terminal device instructs to stop flicker, the corresponding flicker value of the flicker management table corresponding to the group to which the monitoring terminal device belongs is set to 0, and the flicker of all monitoring terminal devices in the group is stopped. Then, the flicker of the monitoring terminal device belonging to another group is not stopped. In this way, when a plurality of monitoring terminal devices monitor the network status in the same area, the flicker status is controlled separately for each group by dividing the monitoring terminal group into a center monitoring terminal group and a site monitoring terminal group. Yes, it can be managed collectively within the group, it is easy to use in terms of operation, and it can meet the needs at the site.
[0019]
【Example】
(A) Overall configuration
FIG. 2 is a configuration diagram of the state monitoring system of the present invention. In the figure, reference numeral 21 denotes a state value collection system for collecting the status of each monitored unit of the communication network (the presence or absence of a failure, presence or absence of a repair work, operation system, etc.), and 21a to 21c each collect the status of a large number of monitored units. State collecting device, 25 is a LAN, 31 is a state change detecting device that periodically receives the state value of each monitoring target unit from each of the state collecting devices 21a to 21c and detects a change in the state, and 41 is each monitoring target unit. Terminal control device for collectively managing the state of ₁ 51 to 51n are monitoring terminal devices that display a predetermined system diagram SFG on a display screen and display the state of each monitoring target unit in the system diagram with one mark. In the system diagram SFG, 61a to 61g are marks indicating communication devices in the network, 62a to 62j are marks (lines) indicating lines (transmission paths), and each mark corresponds to a monitoring target unit. The system diagram differs for each district and is specified by the screen number. Reference numeral 71 denotes a LAN for transmitting and receiving data between the terminal control device and each monitoring terminal device.
[0020]
(B) State change detection device
The state change detection device 31 has a microcomputer configuration and has a configuration shown in FIG. 31a is a processor (CPU), 31b is a ROM for storing programs, 31c is a RAM for storing status values of the respective monitoring target units, 31d is a LAN interface unit, and 31e is a communication interface for transmitting and receiving data to and from the terminal control device 41. is there. The processor 31a of the state change detection device 31 is notified of the latest state value of each monitoring target unit that is periodically notified from the state collection devices 21a to 21c via the LAN 25 and is notified one cycle before and stored in the RAM 31c. Compare state values. Then, when a state change is detected, the monitoring target unit and the state value whose state has changed are notified to the terminal control device 41 via the communication interface unit 31e, and the latest state value is stored in the RAM 31c. FIG. 4 is a processing flow of the state change detection device.
[0021]
The processor 31a monitors whether or not the status value has been received from the status collection devices 21a to 21c (step 101). If the status value has been received, the processor 31a stores the status value in the work memory area of the RAM 31c and notifies the latest status value received one cycle before. Then, the state values stored in the RAM 31c are compared (step 102). If a state change is detected for a predetermined monitoring target part by comparison (step 103), the monitoring target part and the state value whose state has changed are notified to the terminal control device 41 (step 104). Next, it is checked whether or not the comparison processing has been completed for all the monitoring target parts (step 105). If the comparison processing has not been completed, the processing from step 102 onward is repeated. The value is stored in the state value storage area of the RAM 31c (step 106), and the reception of the next state value is waited.
[0022]
(C) Terminal control device
(C-1) Configuration
The terminal control device 41 has a microcomputer configuration and has a configuration shown in FIG. 41a is a processor (CPU), 41b is a ROM for storing programs, 41c is a RAM for storing various data, 41d is a LAN interface unit, and 41e is a communication interface for sending and receiving data to and from the state change detecting device 31. In the RAM 41c, (1) a status value management table 42 that stores a plurality of status values, such as presence / absence of a failure and whether a failure is being repaired, corresponding to each monitoring target unit, (2) each monitoring target A flicker management table 43 that stores, for each state, a flicker value indicating whether or not to perform a failure occurrence flicker, a repair work occurrence flicker, a failure recovery flicker, and the like, and (3) monitoring an asynchronous transfer request (described later). An asynchronous terminal table 44 for storing the correspondence between terminal devices and screen numbers is stored.
[0023]
(C-2) State value management table / flicker management table
FIG. 6 is an explanatory diagram of a state value / flicker management table obtained by combining the state value management table and the flicker management table. A screen number is assigned to a system diagram SFG (see FIG. 2) of each district, and a mark number is assigned to a mark corresponding to a monitoring target unit. The monitoring target has a plurality of states such as presence / absence of a failure, whether or not a repair operation is being performed, and an operation system display. Priorities are assigned to the plurality of states, and overlapping numbers are assigned in order of priority. For example, it is assumed that the superimposition number of the presence / absence state of the failure is 1, the superimposition number of the state indicating whether or not the work is in progress is 2, and the superimposition number of the active display is 3. Further, a state value (0 or 1) and a flicker value (0 or 1) indicating whether or not to flicker (blink) are provided for one state. The state value 1 in each state indicates a failure, a repair work, a 1-system operation,..., And the flicker value 1 indicates execution of a failure occurrence flicker, a repair work occurrence flicker, a failure recovery flicker. means.
[0024]
When the status change detecting device 31 notifies the monitoring target unit and the status value of which the status has changed, the terminal control device 41 updates the status value of the monitoring target unit in the status value / flicker management table. That is, when the monitoring target part belongs to the screen number i, the mark number of the monitoring target part is j, and the overlap number of the changed state is k, the state change detection device 31 outputs “i, j, k, 0”. Or the state change data in the format of "1" to the terminal control device 41. When receiving the status change data, the terminal control device 41 writes 0 or 1 in the status value column of the address ijk of the status value / flicker management table. Further, for example, when a status value indicating the occurrence of a failure is sent, the terminal control device 41 writes 1 in the status value column of the address ijk and also writes 1 in the flicker value column. When it comes, the flicker value is set to 0.
[0025]
Therefore, when a failure occurs in the monitoring target portion of the screen number 1 and the mark number 3, “1311” is sent from the state change detection device 31, and both the state value and the flicker value of the overlay number 1 (failure) become 1 Become. Then, when a flicker stop operation is performed by the monitoring terminal device while taking measures against the occurrence of the failure, the flicker value becomes zero. Further, when the worker enters the exchange office for the repair work and presses the work start button, "1321" is sent from the state change detection device 31, and the screen number 1, the mark number 3, the overlap number 2 (the work number Both the state value and the flicker value of 1) become 1. The flicker value becomes 0 when flicker stop is instructed from the monitoring terminal device after confirming the start of work. Thereafter, when restoration work is performed and restoration is performed, the status values of the screen number 1, the mark number 3, and the superimposition number 1 (failure) become 0 and the flicker value becomes 1. The value becomes 0. When the restoration work end button is pressed, the state values of the screen number 1, the mark number 3, and the superimposition number 2 (work) become 0. As described above, the terminal control device 41 collectively manages the states of all the monitoring target units. In FIG. 6, the state value and the flicker value are managed in combination. However, as shown in FIGS. 7A and 7B, the state value management table 42 and the flicker value management table 43 are separately provided and managed. You can also.
[0026]
(D) Monitoring terminal device
(D-1) Configuration
Terminal control device 51 ₁ To 51n have a microcomputer configuration and have a configuration shown in FIG. 51a is a processor (CPU), 51b is a ROM for storing programs, 51c is a RAM for storing various data, 51d is a LAN interface unit, 51e is a display device, and 51f is a printer. In the RAM 51c, (1) a mark state management table 52 for storing the state value and the flicker value of the monitoring target sent from the monitoring terminal controller 41, (2) a combination and display of a plurality of state values in the monitoring target A mark display pattern table 53 for storing the correspondence between colors, and (3) system diagram image data 54 for displaying a system diagram are stored.
[0027]
(D-2) Mark status management table
FIG. 9 is a configuration diagram of the mark state management table, in which a system diagram of the screen number m is displayed on the display device 51e. When the system diagram of the screen number m is displayed on the display device 51e, only various status values and flicker values of the monitoring target unit belonging to the system diagram are stored in the mark state management table 52.
Monitoring terminal device 51 ₁ When the status display of a predetermined area is instructed by the keyboard operation of the monitoring terminal device, the monitoring terminal device displays a system diagram on the display device 51e based on the image data of the specified area, and transmits a frame including the status value request block to the terminal device. The data is transferred to the control device 41 via the LAN 71. FIG. 10 shows an example of a state value request block. (1) Block type S1 (= 1: state value request block), (2) monitoring terminal number S2, (3) group number (described later) S3, (4) screen Number S4, (5) It has a communication method S5. The communication method means that the terminal control device 41 ₁ .About.51n define the timing for transferring the state value and flicker value, and there are a synchronous system and an asynchronous system. The synchronous method is a method in which, when the terminal control device 41 receives the state value request block, the state value and the flicker value of the monitoring target unit in the system diagram specified by the screen number are transferred to the monitoring terminal device. This is a method in which the state value and the flicker value are transferred to the monitoring terminal device every time the state value and the flicker value of the monitoring target change.
[0028]
When receiving the status value request block, the terminal control device 41 searches the status value / flicker management table (FIG. 6) to obtain a code number having a status value of 1 and a flicker value of 1 in the instructed screen number. The code number of “screen number i, mark number j, overlap number k, state value column” is represented by “ijk0”, and the code number of “screen number i, mark number j, overlap number k, flicker value column” is “ ijk1 ”. For example, the code numbers indicated by X, Y, and Z in FIG. 6 are “1110”, “1111”, and “2130” as shown in FIG.
When the status value is 1 and the code number of the flicker 1 is obtained, the terminal control device 41 transmits these to the monitoring control device 51 via the LAN in a frame including a response block. ₁ Notify. FIG. 11 shows an example of a response block. (1) Block type (= 2: response block), (2) Monitoring terminal number, (3) Number of codes with status or flicker value of 1, n, (4) n Code numbers. Monitoring terminal device 51 ₁ Sets the state value and flicker value of the code number designated in the response block to 1, the state value not designated in the response block, and the flicker value to 0, and writes the state value and the flicker value to the mark state management table 52. As described above, the state value and the flicker value corresponding to the system diagram currently displayed on the display screen are stored in the mark state management table 52. It is not necessary to send the status values of all the monitoring target parts in the system diagram, and it is sufficient to send the code number having the status value and flicker value of 1, so that the communication data amount can be reduced and the real-time property can be improved. .
[0029]
(D-3) Mark display pattern table
FIG. 13 is a configuration diagram of the mark display pattern table 53. A single mark must be displayed according to a plurality of status values and flicker values. In view of this, in advance, a table is formed of a mark display color and a mark display pattern indicating whether or not the mark is flickered, corresponding to the combination of the state value and the flicker value of each state. When creating the mark display pattern table 53, (1) the color of the state where the overlay number is small (the state of high priority) is prioritized over the color of the state where the overlay number is large, and (2) the flicker color of the state where the overlay number is small. Is given priority to the flicker color in the state where the overlapping number is large, and (3) the flicker is given priority to the state. Therefore, if the overlapping number 1 is red, the overlapping number 2 is yellow, and the overlapping number 3 is green, the mark is displayed in red flicker (failure occurs) in the state of C1 in FIG. 13 and is displayed in yellow in the state of C2 in FIG. Medium), yellow flicker is displayed in the state of C3 (work start), green flicker is displayed in the state of C4 (start of system 1 operation), and red is displayed in the state of C5.
[0030]
Therefore, as described above, when the state value and the flicker value corresponding to the system diagram currently displayed on the display screen are stored in the mark state management table 52, the monitoring terminal device refers to the mark display pattern table 53. The display color of the mark and whether or not flickering is determined, and a plurality of states are displayed with one mark. As described above, one mark indicates various states (for example, presence / absence of a failure, whether or not a failure is being repaired, an operation system, etc.) and occurrence of various states (failure occurrence / repair work occurrence / failure recovery). Can be.
[0031]
(D-4) Flicker stop control
The status of each monitoring target is collected by the status value collection devices 21 a to 21 c and input to the terminal control device 41 via the status change detection device 31. The terminal control device 41 updates the status value in the status value / flicker management table (FIG. 6) from 1 to 0 or from 0 to 1 based on the status value, and the status value of the predetermined status becomes 1. In this case, the flicker value in this state is set to 1. The flicker stop is performed by the operator instructing the flicker stop from the keyboard. That is, the monitoring terminal device 51 ₁ When the flicker stop is instructed, the .about.51n transfers the frame having the flicker stop instruction block to the terminal control device 41 via the LAN 71. FIG. 14 is an example of a flicker stop block, which has a block type S1 (= 3), a monitoring terminal number S2, and a screen number S3.
When receiving the flicker stop instruction block, the terminal control device 41 sets all flicker values in the designated screen number in the status value / flicker management table to 0. Thereafter, the terminal control device 41 searches the latest state value / flicker management table, and among the code numbers having the screen number designated by the flicker stop block as an element, the code number having the state value of 1 and the flicker value of 1 are displayed. Find the code number of Then, a response block is created by combining the code numbers with the status value of 1 and the flicker value of 1, and the monitoring terminal device 51 of the terminal number included in the flicker stop instruction block ₁ Send to As a result, since the flicker value of the mark that has flickered up to that time is 0, the monitoring terminal 51 ₁ Stops flicker.
[0032]
(E) Synchronous transfer / asynchronous transfer control
As described above, in the synchronous transfer method, when the terminal control device 41 receives a state value request block (communication method S5 = 0), it monitors the state value and flicker value of the monitoring target unit in the system diagram specified by the screen number. This is a method of transferring data to a terminal device. Therefore, the monitoring terminal device 51 ₁ Reference numerals 51n denote a transmission cycle of the state value request block, which receives the state value and the flicker value and displays the mark. However, when it is desired to improve the response performance, the communication method S5 in the state value request block is set to 1 to request the asynchronous transfer.
The terminal control device 41 is a monitoring terminal device (for example, the monitoring terminal device 51). ₁ ), When the status value request block of the communication method S5 = 1 is received, the status value / flicker management table (FIG. 6) is searched in the same manner as in the case of the block of S5 = 0, and the status value in the commanded screen number is retrieved. Is 1 and a code number with a flicker value of 1 is obtained. ₁ Notify. Further, the terminal control device 41 includes the monitoring terminal device 51 included in the status value request block. ₁ Is stored in the asynchronous terminal table 44 (see FIG. 5).
[0033]
Thereafter, the terminal control device 41 updates the status value / flicker management table each time the status value and the flicker value of the monitoring target unit change, and sets the monitoring target unit to the system of the screen number stored in the asynchronous terminal table 44. It is determined whether it belongs to the figure. If the terminal belongs to the system diagram, the terminal number stored in the asynchronous terminal table 44 corresponding to the screen number is obtained. Next, the state value / flicker management table (FIG. 6) is searched to find a code number having a state value of 1 and a code number having a flicker value of 1 among the code numbers having the screen number as an element. The supervisory control unit 51 is provided by the response block ₁ Notify.
According to the above, the monitoring terminal control device 41 can notify the monitoring terminal device of the status value and the flicker value immediately when the status changes without receiving the status value request block, thereby improving the real-time property. Can be.
In some cases, data loss occurs during asynchronous transfer, and thereafter, a state in which the state value and the flicker value do not change continues for a long time. In such a case, an incorrect state display is performed for a long time. Therefore, the monitoring terminal device 51 ₁ 51n send a state value request block to the monitoring terminal control device 41 at a relatively long period and receive the state value (synchronous transfer method). In this way, by using both the asynchronous transfer and the synchronous transfer, even when data loss occurs during the asynchronous transfer, a correct state value can be received and displayed by the synchronous transfer.
[0034]
(F) Flicker synchronization control
Monitoring terminal device 51 ₁ 15n are grouped, and one flicker management table 43a, 43b,... 43p is provided in the monitoring terminal control device 41 for each group as shown in FIG. When a predetermined state occurs in the predetermined monitoring target unit (failure occurrence, repair work occurrence, or failure recovery), the monitoring terminal control device 41 changes the flicker values of all the flicker management tables that manage the flicker values of the monitoring target unit. Set to 1. Then, when flicker stop is instructed by a predetermined monitoring terminal device, (1) the corresponding flicker value in the flicker management table corresponding to the group to which the monitoring terminal device belongs is set to 0, and all of the monitoring terminal devices in the group are reset. Flicker is stopped, and (2) flicker of a monitoring terminal device belonging to another group is not stopped.
In this way, when a plurality of monitoring terminal devices are monitoring the network status in the same area, by dividing the monitoring terminal group into a monitoring terminal group at the center and a monitoring terminal group at the site, the flicker status can be separately determined for each group. In addition, it can be managed collectively within the group, it is easy to use in terms of operation, and it can meet the needs at the site.
[0035]
(G) Modified example
In the above description, various states are displayed by changing the display color of the mark and flickering. However, various states can be displayed by changing only the display color. In such a case, it is not necessary to provide the terminal control device 41 with the flicker management table 43. Also, the monitoring terminal device 51 ₁ In the mark display pattern tables 53 to 51n, the correspondence between the combination of the state value of each state and the display color of the mark is patterned and registered.
The terminal control device 41 includes a monitoring terminal device 51 ₁ When the status value request block is received from .about.51n, the status value management table 42 is searched, the code number having the status value of 1 is obtained from the code numbers having the commanded screen number as an element, and the status value request block is issued. Monitoring control device 51 ₁ Is notified in the response block. Monitoring terminal device 51 ₁ Sets the status value of the code number specified in the response block to 1 and the status value not specified in the response block to 0, and writes the status value to the mark status management table 52. Thereafter, the monitoring terminal device determines the display color of the mark with reference to the mark display pattern table 53 and displays a plurality of states with one mark. In this manner, various states can be displayed with one mark without separately providing various marks such as a failure display mark, a work display mark, and an operation display mark. Can be displayed.
[0036]
(H) Application example of the present invention
(H-1) Configuration
FIG. 16 is an explanatory diagram of a configuration of a state monitoring system when the present invention is applied. As shown in FIG. 16A, the number of monitoring terminal devices is ten and divided into three groups. 1 to NO. 3, the second group is the monitoring terminal device NO. 4 to NO. 6, the third group is the monitoring terminal device NO. 7 to NO. 10. The number of screens (the number of system diagrams) is three as shown in FIG. 16B, the number of marks on the first screen (the number of monitoring targets) is three, the number of marks on the second screen is two, and the third screen Is one mark. The statuses of the respective monitoring target units are (1) presence / absence of a failure (failure mark), (2) whether or not work is in progress (work mark), and (3) whether or not the system 1 is operating in a redundant configuration. System display marks), and their superimposition numbers are 1, 2, and 3, respectively. Therefore, the state value management table 42 of the terminal control device 41 has the configuration shown in FIG. 17A, and the flicker management tables 43a, 43b, and 43c are provided for each group, and the configuration shown in FIG. Has become.
Further, as shown in FIG. 16C, the mark display pattern table 53 provided in the monitoring terminal device has 128 kinds of display colors and flicker required in accordance with a combination of three state values and three flicker values. No is stored. Note that white flicker indicates failure recovery.
[0037]
(H-2) Monitoring control procedure
FIG. 18 is an explanatory diagram of the monitoring control procedure.
(1) Monitoring terminal device 51 ₁ The system drawing number NO. 1 is displayed, the monitoring terminal device 51 is displayed. ₁ Creates a frame having a status value request block shown in FIG. 19A and transmits the frame to the terminal control device 41 via the LAN.
(2) When receiving the status value request block, the terminal control device 41 searches the status value management table 42 and the flicker management table 43a (see FIG. 17) in the initial state, and determines the screen No. in the status value request block. At (= 1), a code number having a state value of 1 and a flicker value of 1 is obtained (code numbers 1110 and 1310 are obtained). Then, a response block shown in FIG. 19B is created by combining the code numbers with the status value of 1 and the flicker value of 1, and the monitoring terminal device 51 ₁ Send to
[0038]
(3) Monitoring terminal device 51 ₁ When the response block is received, the status value of the code number in the response block is set to 1 and the status values of the other code numbers are set to 0, and the mark status management table 52 (see FIG. 20A) is created. With reference to 53 (FIG. 16 (c)), the status of the monitoring target part of the communication network is displayed by a mark in the system diagram.
(4) Upon receiving the status change from the status change detection device 31, the terminal control device 41 updates the contents of the state value management table 42 and the flicker management tables 43a to 43c of each group. For example, assuming that the occurrence of a failure in the monitoring target portion with the screen number 1 and the mark number 2 is notified from the state change detection device 31, the state value of the code number 1210 becomes 1 as shown in FIG. Also, the flicker value of the code number 1211 becomes 1.
[0039]
(5) When a certain period of time has elapsed since the status value request block of (1) was issued, the monitoring terminal device 51 ₁ Sends the state value request block shown in FIG. 19A again. When receiving the status value request block, the monitoring terminal device 41 searches the status value management table 42 and the flicker management table 43a in FIG. In (= 1), a code number having a state value of 1 and a flicker value of 1 is obtained (code numbers 1110, 1210, 1310, and 1211 are obtained). Then, a response block shown in FIG. 19C is created by combining the code numbers with the status value of 1 and the flicker value of 1, and the monitoring terminal 51 ₁ Send to
Monitoring terminal device 51 ₁ Receives the response block, creates a mark status management table 52 (see FIG. 20 (b)) by setting the status values of the code numbers in the response block to 1 and the status values of the other code numbers to 0, and creates a mark display pattern table. With reference to 53, the status of the monitoring target part of the communication network is displayed by a mark in the system diagram.
[0040]
(6) Thereafter, the operator sets the monitoring terminal device 51 ₁ When an instruction to stop flicker is given, the monitoring terminal 51 ₁ Transmits a flicker stop instruction block shown in FIG.
(7) Upon receiving the flicker stop instruction block, the terminal control device 41 obtains a monitoring terminal number and a screen number (= 1) in the block, and the monitoring terminal device 51 ₁ Clear all the flicker values in the screen number (= 1) in the flicker management table 43a according to the first group to which the “1” belongs to 0 (see FIG. 21B). Thereafter, the terminal control device 41 searches the latest state value management table 42 and the flicker management table 43a (FIG. 21B), and searches for the screen NO. At (= 1), a code number having a state value of 1 and a flicker value of 1 is obtained (code numbers 1110, 1210, and 1310 are obtained). Then, a response block shown in FIG. 19E is created by combining the code numbers with the status value of 1 and the flicker value of 1, and the monitoring terminal 51 ₁ Send to
Monitoring terminal device 51 ₁ When the response block is received, the status value of the code number in the response block is set to 1 and the status values of the other code numbers are set to 0, and the mark status management table 52 (see FIG. 20C) is created. With reference to 53, the status of the monitoring target part of the communication network is displayed by a mark in the system diagram.
(8) Thereafter, the above operation is repeated. The same operation is performed for the other monitoring terminal devices.
As described above, the present invention has been described with reference to the embodiments. However, the present invention can be variously modified in accordance with the gist of the present invention described in the claims, and the present invention does not exclude these.
[0041]
【The invention's effect】
According to the present invention described above, the states of all the monitoring target units are collectively managed by the terminal control device, and only when requested by the monitoring terminal device, the terminal control device sets the monitoring target units existing in the requested system diagram. Because the status value is notified to the monitoring terminal device, the communication load between the terminal control device and each monitoring terminal device can be reduced, and the CPU load is distributed by the state change detection device and the terminal control device. , Real-time performance can be improved.
According to the present invention, there is provided a mark display pattern table for storing the correspondence between the combination of the state values of the respective states of the monitoring target unit and the display colors, and determining the display colors of the marks by referring to the table to determine a plurality of states Is displayed by one mark, so that various states such as a failure display mark, a work display mark, and an operation display mark can be displayed by one mark without separately providing various marks as in the related art. The status of many devices can be displayed on one screen.
[0042]
According to the present invention, the terminal control device notifies the monitoring terminal device of the monitoring target unit having the status value of 1 among the monitoring target units existing in the system diagram specified by the screen number included in the status value request block. The monitoring terminal device sets the received status value of the monitoring target unit to 1 and the status value of the monitoring target unit not received to 0, and displays the status of each monitoring target unit in the system diagram based on the status value. Therefore, it is not necessary to send the status values of all the monitoring target units in the system diagram to the monitoring terminal device, so that the amount of communication data can be reduced and the real-time property can be improved.
According to the present invention, the terminal control device stores the correspondence between the monitoring terminal device requiring the asynchronous transfer and the screen number of the system diagram displayed by the monitoring terminal device, and stores the monitoring target unit in the system diagram. When the status changes, the status value is immediately notified to the monitoring terminal device, so that real-time performance can be improved. In the asynchronous transfer mode, the monitoring terminal device sends the status request block to the terminal control device at a relatively long period to receive the status value (synchronous transfer). Thus, even when data loss occurs during asynchronous transfer, a correct state value can be received and displayed by synchronous transfer.
[0043]
According to the present invention, the display color is changed by one mark, and various states (the presence or absence of a failure, whether or not a failure is being repaired, etc.) and the occurrence of a failure / repair work occurrence / recovery are indicated by the presence or absence of flicker. And the status of many devices can be displayed on one screen.
According to the present invention, when a plurality of monitoring terminal devices are monitoring the network status in the same area, the flicker status is separately set for each group by dividing the monitoring terminal group into a center monitoring terminal group, a site monitoring terminal group, and the like. It can be controlled and managed collectively within the group, so that it is easy to use in terms of operation and can meet the needs at the site.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating the principle of the present invention.
FIG. 2 is a configuration diagram of a state monitoring system of the present invention.
FIG. 3 is a configuration diagram of a state change detection device.
FIG. 4 is a processing flow of the state change detection device.
FIG. 5 is a configuration diagram of a terminal control device.
FIG. 6 is an explanatory diagram of a state value / flicker management table.
FIG. 7 is an explanatory diagram of a state value management table and a flicker management table.
FIG. 8 is a configuration diagram of a monitoring terminal device.
FIG. 9 is an explanatory diagram of a mark state management table.
FIG. 10 is a configuration diagram of a state value request block.
FIG. 11 is a configuration diagram of a response block.
FIG. 12 is an explanatory diagram of code numbers.
FIG. 13 is an explanatory diagram of a mark display pattern table.
FIG. 14 is a configuration diagram of a flicker stop instruction block.
FIG. 15 is an explanatory diagram of a flicker management table when grouping is performed.
FIG. 16 is a system configuration diagram of an application example.
FIG. 17 is an explanatory diagram of a management table (initial value) in the terminal control device.
FIG. 18 is an explanatory diagram of a monitoring control procedure.
FIG. 19 is an explanatory diagram of various blocks.
FIG. 20 is an explanatory diagram of a mark state management table.
FIG. 21 is an explanatory diagram of a management table in the terminal control device.
FIG. 22 is a configuration diagram (part 1) of a conventional state monitoring system.
FIG. 23 is a configuration diagram (part 2) of a conventional state monitoring system.
[Explanation of symbols]
11. Communication network
11a-11d ... Communication devices such as exchanges
12a-12: transmission line
21 ... Status value collection system
21a to 21c ··· Status collection device
31 .. Shape change detection device
31a ... storage unit
31b ··· Status value comparison unit
31c-Notification section
41 Terminal control device
42..State value management table
43 Flicker management table
51 ₁ ~ 51n ・ ・ Monitoring terminal
52 Mark status management table
53 Mark display pattern table

Claims (8)

A state monitoring system that displays a system diagram of a communication network in each district on a display screen, collects the status of each monitoring target unit on the communication network, and displays the status on the system diagram.
A plurality of status collection devices that collect the status of each monitoring target unit of the communication network;
A terminal control device that collectively manages the status of each monitoring target unit notified from a plurality of status collection devices,
A predetermined system diagram is displayed on a display screen, and a status value of the monitoring target unit existing in the system diagram is requested from the terminal control device, and the status value of the monitoring target unit sent from the terminal control device is stored in a memory. , A plurality of monitoring terminal devices that display the status of each monitoring target unit in the system diagram based on the status value,
Comprising , the monitoring terminal device requests the terminal control device for the state value of the monitoring target unit by adding the screen number of the system diagram to the state value request data,
The terminal control device notifies the monitoring terminal device of the status value of the monitoring target unit existing in the system diagram specified by the screen number based on the request,
A status monitoring system, wherein the monitoring terminal device displays the status of each monitoring target unit in a system diagram based on the status value. The terminal control device includes a status value management table that stores a plurality of status values corresponding to the respective monitoring target units, and is designated by a screen number added to status value request data from the monitoring terminal device. Obtain the value of each state of the monitoring target part existing in the system diagram from the state value management table and notify the monitoring terminal device,
The status monitoring system according to claim 1 , wherein the monitoring terminal device displays a plurality of statuses of the monitoring target unit in a system diagram by changing a display color with one mark. The monitoring terminal device includes a mark display pattern table that stores a correspondence between a combination of state values of each state and a display color, determines a display color of the mark with reference to the table, and sets a plurality of states by one mark. The status monitoring system according to claim 2 , wherein the status is displayed. The terminal control device notifies the monitoring terminal device of a monitoring target portion having a state value of 1 among the monitoring target portions existing in the system diagram specified by the screen number based on the request, and the monitoring terminal device receives the the status value of the monitored section 1, the status value of the monitored unit is not received as 0, according to claim 1, wherein the displaying the status of each monitored unit in system diagram based on the state value Condition monitoring system. The monitoring terminal device adds, to the status value request data, data indicating whether notification of the status value is required every time the status value of the monitoring target unit changes,
The terminal control device stores the correspondence between the monitoring terminal device that needs the notification and the screen number of the system diagram displayed by the monitoring terminal device, and when the state of the monitoring target unit in the system diagram changes. The status monitoring system according to claim 4 , wherein the status value is notified to the monitoring terminal device. 5. The status monitoring system according to claim 4 , wherein the monitoring terminal device sends the status value request data to the terminal control device at a constant cycle. The terminal control device
A state value management table that stores state values of a plurality of states in each monitoring target unit; and a flicker management table that stores flicker values indicating whether flickering is performed for each of the plurality of states in each monitoring target unit. Alternatively, a status value / flicker management table combining a status value management table and a flicker management table is provided,
The monitoring terminal device is provided with a mark display color table and a mark display pattern table indicating whether or not to flicker the mark, corresponding to a combination of the state value and the flicker value of each state,
The terminal control device is configured to change the value of each state of the monitoring target unit and the flicker value of each state existing in the system diagram specified by the screen number added to the state value request data from the monitoring terminal device to the monitoring terminal. Notify the device,
Monitoring terminal device, the mark display the display color of the mark by referring to the pattern table and condition monitoring according to claim 1, wherein to determine whether the flicker and displaying a plurality of states at one mark system. The monitoring terminal devices are grouped, and one flicker management table is provided in the terminal control device for each group,
When the terminal control device sets the flicker value of the predetermined monitoring target unit in the predetermined state to 1, sets the values of all the flicker management tables that manage the flicker values of the monitoring target unit to 1,
When flicker stop is instructed from the predetermined monitoring terminal device, the corresponding flicker value of the flicker management table corresponding to the group to which the monitoring terminal device belongs is set to 0, and the flicker of all the monitoring terminal devices in the group is stopped, 8. The state monitoring system according to claim 7 , wherein flickers of the monitoring terminal devices belonging to another group are not stopped.

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