JP3959299B2 - Supervisory control device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a communication device connected to a transmission device in a transmission system such as an optical submarine cable system.
[0002]
[Prior art]
For example, a transmission system such as an optical submarine cable system is provided with a plurality of transmission devices (optical transmission devices) that are responsible for information transmission, and communication devices such as supervisory control devices that are connected to these transmission devices and are responsible for supervisory control. . Generally, a transmission apparatus is composed of a plurality of various substrates (for example, several hundreds), and the substrates are exchanged for maintenance or inspection.
[0003]
Conventionally, management of a board constituting a transmission apparatus is performed by reading a bar code for identifying a board written on the board at the time of shipment by a manufacturer with a bar code reader and recording the bar code. On the transmission system manager side, when replacing a board for maintenance or inspection of the board of the transmission device, the operator reads the barcode of the board to be replaced and creates it on the manufacturer side. The record is updated.
[0004]
[Problems to be solved by the invention]
As described above, in the conventional transmission system, it has been necessary to read and manage bar codes written on each board by an operator's operation for parts such as the board constituting the transmission apparatus. For this reason, since the replacement of the substrate is a frequently performed operation, the burden on the operator is large, and there is a possibility that the reliability of the recording may be lowered due to an error in the operation of the operator.
[0005]
The present invention has been made in consideration of the above-described circumstances, and provides a communication device capable of reducing the burden required for managing components such as a board constituting the transmission device and improving the management reliability. The purpose is to do.
[0006]
[Means for Solving the Problems]
The present invention Monitoring and control device for monitoring a plurality of transmission devices constituting a transmission system And constituting the transmission device plural Information for managing parts For each of the plurality of transmission devices Information storage means for registering; For each of the plurality of transmission devices, Configure the transmission device plural Information for identifying parts is provided for each part. parts Information writing means for writing to the information storage means, and information written by the information writing means at a predetermined time From the component information storage means It comprises an information reading means for reading, and an information registering means for registering information read by the information reading means in the information storage means together with information indicating the predetermined time point.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In this embodiment, a transmission system conforming to SDH (Synchronous Digital Hierarchy) as a global standard is assumed.
[0008]
FIG. 1 is a system diagram showing a configuration of a transmission system in which a communication apparatus (intra-office monitoring control apparatus 2) according to an embodiment of the present invention is installed. In FIG. 1, there are a plurality of stations ST (ST-1 to ST-m), and a plurality of optical transmission apparatuses 1 (1-1 to 1-n) are installed in the stations ST-1 to ST-m, respectively. Has been. The optical transmission apparatuses 1-1 to 1-n are connected in a ring shape by a high-speed line (not labeled) between the stations, and are connected between the plurality of optical transmission apparatuses 1-1, between the transmission apparatuses 1-2,. , A ring network is formed between the transmission apparatuses 1-n. That is, there are n ring networks, and each ring network is formed by m optical transmission apparatuses 1-1, 1-2,.
[0009]
For example, STM-64 (Synchronous Transfer Module-level 64: equivalent to 10 Gbps) is used as the high-speed line interface connecting the optical transmission apparatuses 1-1, 1-2,. To do. Each high-speed line transmits an optical signal, and the transmission wavelengths thereof are different for each ring network, and these lines are wavelength-multiplexed to form a wavelength-multiplexed line FL.
[0010]
The optical transmission apparatuses 1-1 to 1-n in each station ST-1 to ST-m are connected to the in-station monitoring control apparatus 2 in each station. The in-station monitoring control device 2 is further connected to a network monitoring control device 33 that performs monitoring control over the entire area of the network via a LAN. Further, a transmission device 4 is connected to the LAN, and a monitoring control line ML is formed through the transmission device 4 to connect the network monitoring control devices 3 of each station. Note that the supervisory control line ML shown in FIG. 1 is displayed for convenience, and logically DCC (Data Communication Channel) in SOH (Section Over Head) of the SDH frame transmitted through the wavelength division multiplexing line FL. And so on.
[0011]
In addition, the transmission system includes a monitoring terminal 5. The monitoring terminal 5 is used by appropriately connecting to an arbitrary transmission apparatus 1-1 to 1-n. In FIG. 1, the monitoring terminal 5 is connected to the optical transmission apparatus 1-n of ST-2.
[0012]
FIG. 2 is a block diagram showing functional configurations of the optical transmission device 1 and the in-station monitoring and control device 2 in the present embodiment. Although only one optical transmission device 1 is illustrated in FIG. 2, it is assumed that a plurality of optical transmission devices 1 in the own station have the same relationship with the in-house monitoring control device 2.
[0013]
The optical transmission device 1 includes a function control unit 10, a communication control unit 12, a failure detection unit 14, and a plurality of functional components 16 (16-1 to 16-n).
[0014]
The function control unit 10 controls the entire apparatus, such as communication with the in-station monitoring control device 2 via the communication control unit 12, function control for the functional component 16, failure detection control by the failure detection unit 14, etc. Execute. In the function control unit 10, information is written in the information recording unit 17 provided in the functional component 16 in response to an instruction from the in-building monitoring control device 2, and in response to an instruction from the in-building monitoring control device 2. A function of the information management control 10 a that reads information from the information recording unit 17 and provides the information to the in-station monitoring and control device 2 is provided.
[0015]
The communication control unit 12 controls communication with the in-station monitoring control device 2 and the like. The failure detection unit 14 detects the occurrence of a failure in a component such as a board constituting the apparatus. The functional parts 16 (16-1 to 16-n) are various parts for realizing signal transmission and the like, and are assumed to be substrates that can be inserted and removed, for example. The functional component 16 (substrate) is individually mounted in a plurality of slots provided in each of a plurality of shelves provided in the optical transmission device 1. Each of the functional components 16 (16-1 to 16-n) has an information recording unit 17 (17-1 to 17-n) (for example, a memory) for recording information such as a serial number for identifying the board. Is provided.
[0016]
Note that the transmission device 4 can be provided with the same function as the optical transmission device 1 shown in FIG. In the following description, the optical transmission device 1 will be described, but the description will be omitted because the transmission device 4 is handled in the same manner.
[0017]
On the other hand, the in-station monitoring control apparatus 2 includes a function control unit 20, a communication control unit 22, an operation unit 24, a screen display unit 26, and an information storage unit 28.
[0018]
The function control unit 20 controls the entire apparatus. The function control unit 20 controls communication with the optical transmission apparatus 1 and the like via the communication control unit 22, controls input of instructions and data to the apparatus from the operation unit 24, and the screen display unit 26. The display control of the screen displayed in FIG. 5 and the control of reading and recording information to the information storage unit 28 are executed. Recorded in the function control unit 20 is an information writing unit 20 a for writing information to the information recording unit 17 provided in the functional component 16 of the optical transmission device 1 and the information recording unit 17 of the functional component 16. An information reading unit for automatically reading information at a predetermined time (when it is detected that a mounting or non-mounting operation has been performed on the functional component 16 and information is written to the information recording unit 17) 20b for registering information read by the information reading unit 20b in the information storage unit 28 (database 29) together with information (for example, date and time) indicating that an operation on the functional component 16 has been detected. Information registered in the information storage unit 28 (database 29) is searched according to the search conditions input from the internal information registration unit 20c, the operation unit 24, and the like. Information display control unit 20d for displaying the obtained information on the screen display unit 26 in a predetermined display form, and output forms for information registered in the information storage unit 28 (display output, print output, information conversion output, etc.) Is provided in accordance with an instruction input from the operation unit 24.
[0019]
The communication control unit 22 controls communication with the optical transmission device 1 and the like. The operation unit 24 is used to input an instruction and data to the apparatus in accordance with an operation by an operator, and includes, for example, a keyboard and a barcode reader. The screen display unit 26 displays various information under the control of the function control unit 20. The information storage unit 28 is for recording various types of information, and registers various types of information for managing the plurality of optical transmission apparatuses 1 as the database 29. The database 29 includes, for example, an article number management information table 29a (1) (2), an alarm information management table 29b, and an additional information management table 29c.
[0020]
FIG. 3 shows an example of the data structure of the item number management information table 29a (1). The article number management information table 29a (1) includes all the boards (functional components 16) mounted on each of the optical transmission apparatuses 1 in the own station which are monitored and controlled by the in-building monitoring and control apparatus 2. ) Is managed by the product number management information including the mounting position and the date / time of mounting (or not mounting). As shown in FIG. 3, the item number management information table 29a (1) includes a location number indicating a physical position where the board is mounted, and an initial value related to the board mounted in the initial state at the position indicated by the location number. Substrate configuration information, a history flag (On or Off) indicating whether or not substrate replacement history information is registered along with substrate replacement, and substrate replacement history information indicating the status of substrate replacement at the position indicated by the corresponding location number Are registered in association with each other. In the initial board configuration information, in addition to the article number management information consisting of the board serial number and board mounting date and time, the network path is set for the board indicated by the corresponding serial number, or the path setting date and time, It includes information on the date and time of path deletion when the network path is deleted from the board. The board replacement history information includes item number management information (a board serial number (or a value indicating an unmounted status) and a board mounting date / time), as well as additional information on the mounted board (additional information management table 29c). (Registered) memo data identifier, and the network path is set for the board indicated by the corresponding serial number, the path setting date and time, and the path deletion date and time when the network path is deleted for the board Contains time information. The board replacement history information is sequentially registered when the board is removed and mounted at the position indicated by the location number.
[0021]
FIG. 4 shows an example of the data structure of the item number management information table 29a (2). The item number management information table 29a (2) registers each information in units of serial numbers of the board, whereas the item number management information table 29a (1) shown in FIG. 3 registers information in units of location numbers. It has a data structure. As shown in FIG. 4, the serial number of the board, the initial board configuration information, the history flag, and the board replacement history information are registered in association with each other in the article number management information table 29a (2). However, in the initial board configuration information, the location number indicating the physical position where the board is mounted, the date and time when the board was mounted in the initial state at the position indicated by the location number, and the board indicated by the corresponding serial number Information on the date and time of path setting when the network path is set for the network, and the date and time of path deletion when the network path is deleted from the board. Also, in the board replacement history information, a network number is set for the board indicated by the location number, the memo data identifier indicating additional information for the mounted board, the date and time when the board is mounted, and the corresponding serial number. This includes information on the date and time of path setting and the date and time of path deletion when the network path is deleted from the board. The board replacement history information is sequentially registered when the board indicated by the serial number is removed and mounted.
[0022]
The in-station monitoring and control device 2 may be managed by both of the item number management information tables 29a (1) and (2), or may be managed by either one. In this case, for example, when the item number management information table 29a (1) is used for management, the item number management information table 29a (2) is generated from the item number management information table 29a (1) as needed. be able to.
[0023]
In the following description, the item number management information table 29a (1) will be described for the sake of simplicity (simply referred to as the item number management information table 29a).
[0024]
FIG. 5A shows an example of the data configuration of the alarm information management table 29b. The alarm information management table 29b is a table for registering alarm information obtained based on the notification content indicating that an alarm notified from the optical transmission apparatus 1 has occurred when a failure occurs in the optical transmission apparatus 1. is there. As shown in FIG. 5A, in the alarm information management table 29b, as alarm information, a location number indicating a physical position where a board in which a fault has occurred is mounted, an alarm occurrence time, a board type, The serial number indicating the board in which the failure has occurred, the alarm rank, and the alarm details are registered in association with each other.
[0025]
FIG. 5B shows an example of the data configuration of the additional information management table 29c. The additional information management table 29c is a table for registering additional information input regarding a failure when the failure occurs in the optical transmission device 1, for example, memo data based on text data. As shown in FIG. 5B, in the additional information management table 29c, a memo data identifier and input memo data are registered in association with each other. The memo data identifier in the additional information management table 29c is registered as board replacement history information in the product number management information table 29a when a fault occurs in the board and is replaced with a new board, and memo data is input at that time. This is the same as the memo data identifier. In FIG. 5B, only the memo data is shown, but other information can be registered in association with the mail data identifier.
[0026]
Next, the management operation of the functional component 16 such as a board constituting the optical transmission device 1 by the in-station monitoring control device 2 in the transmission system in the present embodiment will be described.
[0027]
The in-station monitoring and control device 2 in the present embodiment is each information transmission unit 17 (memory) provided for each optical transmission device 1 or all the boards (functional components 16) constituting the optical transmission device 1. Serial number can be written to
[0028]
For example, it is possible to instruct execution of the serial number writing process for the board from the function menu of the in-house monitoring control device 2. When an instruction to execute serial number writing processing is input from the operation unit 24, the information writing unit 20a of the function control unit 20 wants to write (rewrite) the serial number through the serial number writing processing screen. The designation of the board is inputted, and the serial number to be written to this board is inputted. It is assumed that the serial number is input through a keyboard or a bar code reader constituting the operation unit 24. The in-house monitoring control device 2 (information writing unit 20a) reads the input serial number, checks the normality of the value, and then serializes the optical transmission device 1 on which the specified board is mounted. Send a number write request.
[0029]
When the optical transmission device 1 receives the serial number write request from the in-house monitoring and control device 2, the information management control 10a of the function control unit 20 designates the serial number designated for the memory of the board to be written. Execute the writing.
[0030]
When the optical transmission device 1 executes the serial number writing in response to the serial number writing request from the in-house monitoring and control device 2, the optical transmission device 1 transmits a serial number change notification to the in-building monitoring and control device 2. Upon receipt of the serial number change notification, the in-station supervisory control device 2 registers or updates information for the board on which the serial number is newly written in accordance with the automatic update operation for the item number management information table 29a by the internal information registration unit 20c. Execute. Thereby, in the product number management information table 29a of the in-house monitoring control device 2, information about the boards mounted on each optical transmission device 1 is centrally managed.
[0031]
Next, management using the serial number written on the substrate (functional component 16) will be described.
Here, description will be made assuming the situation shown in FIG. That is, a board (functional component 16) mounted in a shelf slot (shelf number # 1 and slot number # 1) provided in a certain optical transmission device 1 (transmission device number is # 1) Assume that a spare board accommodated in the energized spare rack (device number # 9) is mounted in the same slot as an alternative because the board serial number has failed (A). Although an energized spare rack is not shown, it is assumed that information can be written or read in the same manner as the optical transmission apparatus 1. Here, a spare board (with the board serial number as D) housed in a slot of the shelf (shelf number as # 1 and slot number as # 1) provided in the energized spare rack is used. And
[0032]
First, in the optical transmission device 1, when a failure in the board (functional component 16) is detected by the failure detection unit 14 (FIG. 6 (1)), the monitoring control device 2 in the building is transmitted from the function control unit 10 through the communication control unit 12. An alarm notification including the details of the failure that occurred is sent.
[0033]
Upon receipt of an alarm notification from a certain optical transmission device 1, the in-station supervisory control device 2 analyzes the content of the alarm notification in the function control unit 20, and transmits the transmission device number (# 1) and shelf number (# 1), slot number (# 1), alarm generation time, board type (name), board serial number (assumed to be A), alarm rank, and detailed information are stored in the alarm information management table 29b of the information storage unit 28. accumulate. The collected information is subjected to statistical processing in slot number units and serial number units. Here, when an instruction input for screen display is made from the operation unit 24, for example, the information display control unit 20d reads out the information subjected to the statistical processing and displays it in a list format or a graph format, for example.
[0034]
Next, the internal processing of the in-station monitoring control device 2 when the above-described alarm notification is received and the board in which the failure has occurred is replaced will be described.
[0035]
When the faulty board (serial number A) mounted in the slot of the optical transmission device 1 is removed, the function control unit 10 of the optical transmission device 1 Notification that the board is not mounted in the slot number # 1 of the shelf # 1. Upon receipt of the notification from the optical transmission apparatus 1, the in-station supervisory control apparatus 2 analyzes the received notification content, and the information writing unit 20a performs the notification on the optical transmission apparatus 1 (transmission apparatus number # 1). The serial number of the board mounted in the slot number # 1 of the shelf number # 1 is read. In response to the serial number read request, the optical transmission device 1 reads the serial number from the board of the corresponding slot by the information management control 10a and outputs the serial number to the in-station monitoring control device 2. Here, since the board is not mounted in the corresponding slot, a value (hereinafter referred to as “Blank”) corresponding to the unmounted status is output to the in-house monitoring control apparatus 2 instead of the serial number.
[0036]
The in-station supervisory control device 2 uses the internal information registration unit 20c to read the value read from the optical transmission device 1, and the mounting position of the board that is the target of reading the serial number in the product number management information table 29a, that is, The latest information registered for the slot number # 1 (hereinafter referred to as location number # 1 # 1 # 1) of the shelf number # 1 of the transmission apparatus number # 1 is inquired.
[0037]
At present, the latest information registered for the location number # 1 # 1 # 1 in the item number management information table 29a is registered with the serial number A of the board in which the failure occurred together with the time stamp at the time of mounting. (Information indicated by the initial board configuration information). The in-station supervisory control device 2 uses the internal information registration unit 20c to set the serial number of the value (Blank) read from the optical transmission device 1 for the location number # 1 # 1 # 1 in the item number management information table 29a. Instead, it is additionally registered as board replacement history information together with a time stamp (date time) when this value is not mounted. Further, at this time, the history flag is set to On for the location number # 1 # 1 # 1 in the item number management information table 29a. This history flag is used to indicate that the board replacement history information has been registered for the slot number, and is referred to when the item number management information is read and displayed for each location number (described later). .
[0038]
Next, a spare board for exchanging with the faulty board is extracted from the energized spare rack (FIG. 6B). Here, it is assumed that the spare board of serial number D of the energized spare rack is used for replacement. The energized spare rack notifies the intra-building monitoring and control device 2 that the board is not mounted in the slot number # 1 of the shelf # 1.
[0039]
When the notification that the board is not mounted is received from the energized spare rack (device number # 9), the in-building monitoring and control device 2 analyzes the received content, and the energized spare rack (transmission device number) of the notification source For # 9), the serial number of the board mounted in the slot number # 1 of the shelf number # 1 is read. In response to the serial number read request, the energized spare rack reads the serial number from the board in the corresponding slot and outputs the serial number to the in-station monitoring and control device 2. Here, since the corresponding slot is not mounted on the board, a value (Blank) corresponding to an unmounted status is output to the in-house monitoring control device 2 instead of the serial number.
[0040]
The in-station supervisory control device 2 uses the internal information registration unit 20c to read the serial number of the product number management information table 29a for the value read from the energized spare rack. The latest information registered for the location number # 9 # 1 # 1 is referred to. As a result, the in-station supervisory control device 2 detects that the serial number has been changed in the location number # 9 # 1 # 1 by the internal information registration unit 20c, and the value read from the energized spare rack (Blank) Is added and registered as board replacement history information together with a time stamp (date time), and the article number management information table 29a is updated (board replacement history information registered for location number # 9 # 1 # 1 in FIG. 3). .
[0041]
Next, the spare board with the serial number D extracted from the energized spare rack is mounted in the slot # 1 of the shelf # 1 of the transmission apparatus number # 1 of the in-house monitoring and control apparatus 2 ((2 in FIG. 6). ).
[0042]
When the board (serial number D) is mounted in the slot number # 1 of the shelf # 1, the optical transmission device 1 (transmission device number # 1) has a slot in the shelf # 1 with respect to the intra-building monitoring and control device 2. In number # 1, a notice to the effect that the board is mounted is given. When the in-station supervisory control device 2 receives the notification from the optical transmission device 1 (transmission device number # 1) and detects that an operation has been performed on the substrate, the information reading unit 20b causes the optical transmission of the notification source to be performed. The apparatus 1 is read out of the serial number of the board mounted in the slot number # 1 of the shelf number # 1. In response to the serial number read request, the optical transmission device 1 reads the serial number from the board of the corresponding slot by the information management control 10a and outputs the serial number to the in-station monitoring control device 2.
[0043]
The in-station supervisory control device 2 registers the value (serial number D) read from the optical transmission device 1 with respect to the location number # 1 # 1 # 1 of the item number management information table 29a by the internal information registration unit 20c. It is referred to the latest information (currently, Blank). By this inquiry, the internal information registration unit 20c detects that the serial number has been changed at the location number # 1 # 1 # 1, and sets the value (serial number D) read from the optical transmission device 1 to the time stamp (date Time) and additionally register as board replacement history information.
[0044]
On the other hand, the board with the serial number A in which the failure has occurred is returned to the temporary factory for failure repair (FIG. 6 (3)), and this information is registered in the board management information table (not shown). In addition, after the board with the serial number A is repaired at the factory, the spare board is returned to the slot indicated by the slot number # 1 of the shelf # 1 that is vacant in the energized spare rack, for example.
[0045]
By the way, the serial number cannot be automatically read from the in-building monitoring / control device 2 for the board not mounted on the optical transmission device 1 or the energized spare rack. The in-office monitoring and control apparatus 2 deals with such a board as follows. For example, it is possible to instruct execution of processing for manually inputting a serial number from the function menu of the in-house monitoring and control device 2. When the execution instruction of the serial number writing process is input from the operation unit 24, the information reading unit 20b of the function control unit 20 passes the serial number acquisition screen and the serial number provided on the surface of the substrate with a seal or the like. Read the barcode from the attached barcode reader or read the serial number entered from the keyboard. The internal information registration unit 20c stores the serial number read by the information reading unit 20b in the item number management information table 29a together with a time stamp (date time).
[0046]
Unlike the case where it is mounted on the optical transmission device 1 or the energized spare rack, in such an exceptional case, the location number managed in the article number management information table 29a is automatically read out and uniquely defined. In the article number management information table 29a, management is performed by classifying it into a category (referred to as Other) indicating that it is housed in a location other than the optical transmission device 1 and the energized spare rack. (See FIG. 3).
[0047]
Further, any item number management information in the item number management information table 29a is designated from the function menu of the in-station monitoring and control device 2, and detailed information regarding the status and location of the board or related to the fault that has occurred. Additional information necessary for maintenance related to the board, such as memo data, can be input from the operation unit 24 (keyboard) and registered in association with the designated item number management information.
[0048]
In this case, the in-station monitoring and control device 2 reads the input text data and stores it in the additional information management table 29c, and at the same time, memo data for the specified item number management information in the item number management information table 29a. Register an identifier. This memo data identifier is registered in association with the text data (memo data) registered in the additional information management table 29c in order to manage which additional information in the item number management information table 29a. The memo data identifier is deleted (Off) while the text data is deleted from the additional information management table 29c when the additional information is deleted later.
[0049]
By constructing the article number management information table 29a in this way, initial board configuration information and board replacement history information are registered from the article number management information table 29a in units of location numbers of the optical transmission device 1 and the energized spare rack. The article number management information can be read out and displayed in a list or graphically. As a result, the substrate replacement history in all slots of each optical transmission device 1 can be easily and collectively grasped.
[0050]
For example, it is possible to instruct execution of a process for searching for information in units of location numbers from the function menu of the in-station supervisory control device 2. When an instruction to execute the process for searching for information in units of location numbers is input from the operation unit 24, the information display control unit 20d searches the item number management information table 29a (1) (see FIG. 3) to find each location number. The article number management information (serial number, date / time), the path setting / deletion date / time registered in association with, is read out and displayed in a list in a predetermined display form. As for the board replacement history information, only the information for the location number whose history flag is On is read and displayed.
[0051]
Also, it is possible to grasp the location movement history and failure / repair history of each board by reading out information in serial number units instead of location number units and displaying it in a list or graphical display.
[0052]
Also in this case, it is possible to instruct execution of a process for retrieving information in units of serial numbers from the function menu, and when an instruction to execute this process is input, the information display control unit 20d displays the item number management information table 29a. (2) Search (see FIG. 4), read out the location number, date time, path setting and deletion date time registered in association with each serial number, and list them in a predetermined display format determined in advance. indicate. As for the board replacement history information, only the information for the serial number whose history flag is On is read and displayed.
[0053]
Further, when displaying information in units of location numbers or serial numbers as described above, additional information (contents of memo data) registered in the additional information management table 29c (FIG. 5B) is displayed in combination. You can also When the information display control unit 20d displays the contents of the board replacement history information in the item number management information tables 29a (1) and (2), if a memo data identifier is registered, the information display control unit 20d adds the corresponding memo data identifier. The memo data registered in the information management table 29c is read and displayed.
[0054]
Similarly, when displaying information in units of location numbers or serial numbers, alarm information registered in the alarm information management table 29b (FIG. 5A) can be displayed in combination. The information display control unit 20d reads out and displays the corresponding alarm information from the alarm information management table 29b based on the location number information registered in the item number management information table 29a (1) (2).
[0055]
In this way, the network path setting date and deletion date registered in the item number management information table 29a are read and displayed in units of location numbers or serial numbers, and additional information registered in the additional information management table 29c or alarms are displayed. By displaying the alarm information registered in the information management table 29b in combination, the alarm occurrence history for each location number / serial number can be displayed. It is also possible to calculate the alarm occurrence rate and board usage rate based on each information registered in the item number management information table 29a, and to express the correlation between these information and board replacement history on the screen. become. And by combining alarm information with the board number management information and path setting / deletion history, a failure occurred not only at the slot number unit, but at the position indicated by any location number on any serial number board. It is possible to collect alarm information in more detailed units. In addition, the cause of the failure may be determined by the statistical result of the alarm occurrence rate at any location number of any serial number or the result obtained by comparing the alarm occurrence rate per location number with the alarm occurrence rate per serial number. It will be a clue to narrow down the material, and it will also be a judgment material when replacing the substrate. In this way, promising information for the user can be provided when performing maintenance operation of the transmission apparatus.
[0056]
In the above description, the serial number of the functional component 16 (board) constituting the optical transmission device 1 is described as being written in the information recording unit 17 provided in each functional component 16, but the serial number A specific part for managing the management, that is, the number management part 18 shown in FIG. 2 is provided, and the serial numbers of the functional parts 16-1 to 16-n are written in the information storage unit 18a of the number management part 18. You can also. The in-house monitoring control device 2 manages the functional component 16 by reading the serial number from the number management component 18 in the same manner as when reading from the information recording unit 17 provided in the functional component 16.
[0057]
Further, the display form for various information displayed by the information display control unit 20d can be customized by the customization unit 20e according to an instruction input from the operation unit 24. The customization unit 20e displays, for example, a menu for items that can be customized in the screen display unit 26, and a display form, for example, a display when displaying information, according to an instruction from the user input from the operation unit 24 through this menu. The target information, display format, display conditions, and display items are set in various combinations. The internal information registration unit 20c executes display control for information acquired from each table of the database 29 in accordance with the display form set by the information display control unit 20d.
[0058]
In addition, the customization unit 20e can set not only the setting for the display mode for display output, but also the setting for the print output or information conversion output of information registered in the information storage unit 28. For example, print output in a form format, output saving to a local disk (not shown) after converting information into CSV (Comma Separated Value) format, etc., according to instructions from the user input from the operation unit 24 Set accordingly. It is also possible to make settings for other printouts and saving in other data formats.
[0059]
In the above description, the case of managing components (boards) constituting the optical transmission device 1 (transmission device 4) has been described. However, devices and devices (networks) other than the transmission device constituting the transmission system are described. As for the monitoring control device 3, the in-house monitoring control device 2, the monitoring terminal 5, the router, the hub, etc.), the history of serial numbers in units of the minimum maintenance parts (boards, etc.) as described above. It can also be managed. As with the case of the optical transmission apparatus 1, information such as serial numbers recorded in the respective parts is automatically read out for the network monitoring control apparatus 3, the in-house monitoring control apparatus 2 and the monitoring terminal 5. The date and time information is registered in the item number management information table 29a (3).
[0060]
FIG. 7 shows an example of the data structure of the article number management information table 29a (3) for managing apparatuses other than the transmission apparatus constituting the transmission system. As shown in FIG. 7, the item number management information table 29a (3) includes device / device type information indicating the device or device type, the serial number of the device or device indicated by the device / device type information, and the initial installation time. Initial configuration information including the date and time, a history flag (On or Off) indicating whether or not replacement history information is registered along with the replacement, and replacement history information indicating the replacement status of the corresponding device or device, Are registered in association with each other. In the exchange history information, in addition to the article number management information (device or device serial number and installation date and time), a memo data identifier indicating additional information for the mounted device or device is removed from the transmission system and When installed, they are registered sequentially.
[0061]
When managing the devices / equipment constituting the transmission system by the item number management information table 29a (3), as described above, when the serial number cannot be automatically read from each, as described above, from the function menu of the in-building monitoring control device 2 The serial number bar code provided on the surface of each part with a sticker or the like is read using the attached barcode reader through the serial number acquisition screen, or the serial number input from the keyboard of the in-house monitoring and control device 2 Is registered together with the time stamp in the item number management information table 29a (3). However, in the case of these apparatuses and devices, since there is no concept of the location number used in the board management of the transmission apparatus, the location number is not used in the item number management information table 29a.
[0062]
In the above description, the communication device of the present invention is realized in the in-house monitoring control device 2 and the serial numbers of the parts of the devices / equipment constituting the transmission system are read and managed. Other network devices connected to the device, for example, the network monitoring and control device 3, can be managed by the network monitoring and control device 3 by providing the same function as the above-mentioned in-station monitoring and control device 2. Further, instead of realizing the communication apparatus of the present invention in the in-station monitoring control apparatus 2 and the network monitoring control apparatus 3, it is also possible to provide the transmission system with independent communication apparatuses connected to a plurality of transmission apparatuses. .
[0063]
Further, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the invention in the implementation stage. Further, the embodiments include inventions at various stages, and various inventions can be extracted by appropriately combining a plurality of disclosed constituent elements. For example, when the effect can be obtained even if several constituent requirements are deleted from all the constituent requirements shown in the embodiment, a configuration from which the constituent requirements are deleted can be extracted as an invention.
[0064]
【The invention's effect】
As described above in detail, according to the present invention, it is possible to reduce a burden required for managing components such as a board constituting the transmission apparatus and improve management reliability.
[Brief description of the drawings]
FIG. 1 is a system diagram showing a configuration of a transmission system in which a monitoring control device (in-building monitoring control device 2) according to an embodiment of the present invention is installed.
FIG. 2 is a block diagram showing a functional configuration of the optical transmission device 1 and the in-station supervisory control device 2 in the present embodiment.
FIG. 3 is a diagram showing an example of the data configuration of a product number management information table 29a (1).
FIG. 4 is a diagram showing an example of the data configuration of a product number management information table 29a (2).
FIG. 5 is a diagram showing an example of the data configuration of an alarm information management table 29b and an additional information management table 29c.
FIG. 6 is a diagram illustrating an example of a handling situation with respect to a board mounted on the optical transmission apparatus 1;
FIG. 7 is a diagram showing an example of the data configuration of a product number management information table 29a (3) for managing devices other than the transmission devices that constitute the transmission system.
[Explanation of symbols]
ST-1 to ST-m ...
1-1 to 1-n: Optical transmission apparatus
FL: wavelength division multiplexing line
ML: Monitoring and control line
2 ... Monitoring and control equipment in the office
3. Network monitoring and control device
4 ... Transmission device
10, 20 ... function control unit
10a ... Information management control
12, 22 ... Communication control unit
14 ... Fault detection unit
16 ... Functional parts (board)
17. Information recording part
20a: Information writing unit
20b ... Information reading section
20c: Internal information registration unit
20d ... Information display control unit
20e ... customization section
24. Operation unit
26: Screen display section
28 ... Information storage unit
29a ... Item number management information table
29b ... Alarm information management table
29c ... Additional information management table

Claims (10)

In a monitoring and control device that monitors a plurality of transmission devices constituting a transmission system ,
Information storage means for registering information for managing a plurality of parts constituting the transmission device for each of the plurality of transmission devices ;
Information writing means for writing information for identifying a plurality of components constituting the transmission device to each of the plurality of transmission devices in a component information storage unit provided in each component;
Information reading means for reading the information written by the information writing means from the component information storage means at a predetermined time;
A monitoring control apparatus comprising: information registration means for registering information read by the information reading means in the information storage means together with information indicating the predetermined time point. Comprising input means for inputting additional information for the component;
The monitoring control apparatus according to claim 1, wherein the information registration unit registers the information input by the input unit in the information storage unit in association with the information read by the information reading unit. The information registration unit associates information indicating the position read by the information reading unit with information indicating the position at which the component is provided, and information indicating the predetermined time point, The monitoring control apparatus according to claim 2, wherein the monitoring control apparatus is registered in the information storage means. The information registering unit associates information indicating a part read by the information reading unit with information indicating a position where the component is provided and information indicating the predetermined time point. The monitoring control apparatus according to claim 2, wherein the monitoring control apparatus is registered in a storage unit. The monitoring control apparatus according to claim 1, wherein the information reading unit performs reading of information when the component is mounted or not mounted. The monitoring control apparatus according to claim 1, wherein the information reading unit executes reading of information when information is written to the component by the information writing unit. For each piece of information indicating the position where the component is provided, information read when the component is mounted or not mounted by the information reading unit, and information indicating when each piece of information is read The monitoring control apparatus according to claim 5, further comprising information display control means for displaying the information in association with each other. For each piece of information for identifying a component read by the information reading unit, information indicating a position where the component from which this information has been read is provided, and the component that has performed reading of information by the information reading unit includes 6. The monitoring control apparatus according to claim 5, further comprising information display control means for displaying information indicating the time of mounting or non-mounting in association with each other. Comprising alarm information acquisition means for acquiring alarm information relating to a failure occurring in the component;
9. The monitoring control apparatus according to claim 7, wherein the display control unit displays the alarm information acquired by the alarm acquisition unit together with other information. Output means for outputting information registered in the information storage means by the information registration means;
The monitoring control apparatus according to claim 1, further comprising customization means for customizing an output form of information output by the output means.

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