JP2007164689A - Information processor, control method of information processor and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To rapidly acquire the attribute or state of an optical cable constituting an optical cable network. <P>SOLUTION: The information processor comprises an optical cable management database storing, for each optical cable constituting the optical cable network, information specifying the optical cable, information for specifying a relay facility into which the optical cable is led, and attribute information of the optical cable in conformation with each other; a system diagram display request input part receiving input of a display request fir a system diagram showing the connection relation between optical cables and relay facilities by linear patterns showing the optical cables and patterns showing the relay facilities; a system diagram generation part generating a system diagram based on the information specifying each optical cable and information specifying each relay facility; a system diagram display part displaying the generated system diagram and displaying, based on the attribute information of each optical cable, the attribute information of each optical cable in the vicinity of a linear pattern showing each optical cable. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an information processing apparatus that supports management of an optical cable network, a control method for the information processing apparatus, and a program.

In recent years, with the advancement of information technology, the amount of data exchanged between computers has increased, and the demand for faster communication lines has increased. Along with this, construction of optical cable networks is progressing rapidly.
Various techniques for managing such an optical cable network have also been developed (see, for example, Patent Document 1).
JP 2003-233629 A

An optical cable network is configured by connecting a large number of optical cables in a complicated manner over a wide area.
Although management of such an optical cable network must be performed accurately and reliably, in recent years, the number of users of the optical cable network has increased rapidly, and the installation of optical cables has been rapidly advanced.
For this reason, it is required to quickly set up the line to the optical cable, and there is a need for a technique that enables the worker to quickly grasp the attributes and status of the optical cable when setting up the line. Yes.

  The present invention has been made in view of the above problems, and provides an information processing apparatus, an information processing apparatus control method, and a program capable of quickly grasping attributes and states of an optical cable constituting an optical cable network. The main purpose.

  In order to solve the above-described problems, the present invention relates, for each optical cable constituting an optical cable network, information for specifying an optical cable, information for specifying a relay facility into which the optical cable is taken in, and attribute information of the optical cable in association with each other. An optical cable management database to be stored, a system diagram display request input unit for receiving a connection request between the optical cable and the relay equipment, a line drawing graphic indicating the optical cable, and a system diagram display request indicated by a graphic indicating the relay equipment; and the optical cable management database And a system diagram generation unit for generating a system diagram based on information for identifying each optical cable stored in the information and information for identifying a relay facility into which each optical cable is taken in, and displaying the generated system diagram And each optical cable based on the attribute information of each optical cable stored in the optical cable management database. The attribute information table, and the system diagram display unit for displaying each in the vicinity of the line drawing graphic showing each optical cable, an information processing apparatus comprising: a.

  In this manner, when displaying a system diagram showing the connection relationship between the optical cable and the relay equipment by a line drawing figure showing the optical cable and a figure showing the relay equipment, the attribute information of each optical cable is displayed in the vicinity of the line drawing figure of each optical cable. Therefore, it is possible to quickly grasp the attribute of each optical cable. This also makes it possible to reduce the burden of setting the line to the optical cable.

In addition, the attribute information of the optical cable includes at least one of information indicating the length of the optical cable, information indicating the number of cores in the optical cable, and information indicating a setting state of the line to each core. Can be.
With such an aspect, it is possible to display information useful for setting a line near the optical cable. If information indicating the length of the optical cable is displayed in the vicinity of each optical cable, for example, if there are multiple route candidates for setting the line, the route with the shortest or longest distance is selected according to the line setting policy. It is possible to easily set a line with If information indicating the number of optical fibers in the optical cable is displayed near each optical cable, select the optical cable with as many or as few optical fibers as possible according to the line setting policy. Is easily possible. In addition, if information indicating the line setting status is displayed in the vicinity of each optical cable, it is possible to set the line by selecting optical cables with as many or as few unconfigured optical fibers as possible according to the line setting policy. Easy to do.

The attribute information of the optical cable includes information indicating the number of cores in the optical cable and information indicating a setting state of a line to each core, and receives an input of information specifying the optical cable. And information indicating the number of cores in the specified optical cable stored in the optical cable management database, and information indicating the setting status of the line to each core in the optical cable, An empty core rate calculation unit that calculates a value indicating the ratio of the number of cores in which no line is set in the optical cable, and an empty core rate output unit that outputs the value indicating the calculated ratio to a file. It can also be done.
In this manner, at the time of line setting, according to the setting policy, the line should be set by selecting an optical cable having a high or low line core ratio (ratio of the number of unset lines) as much as possible. It is also possible to do. When an optical cable having a high free core rate is selected and a line is set as much as possible, a line can be set evenly for each optical cable, so that the core can be used effectively. Also, since the calculation result is output to a file, it is possible to analyze the line usage status (empty core status).

Further, the attribute information of the optical cable includes information indicating the number of core bundles in which each core in the optical cable is bundled every predetermined number, and information indicating a setting state of the line to each core, and the optical cable. An optical cable designation input unit that receives input of information designating information, information indicating the number of core bundles in the designated optical cable stored in the optical cable management database, and the line to each core in the optical cable Based on the information indicating the setting status, an empty core bundle rate calculator that calculates a value indicating the ratio of the number of core bundles that do not include the cores in which the line has been set in the optical cable, and the calculated ratio An empty core bundle rate output unit that outputs the indicated value to a file may be provided.
According to such an aspect, even if each core wire in the optical cable is bundled every predetermined number to form a core wire bundle, the unset ratio of the line can be calculated for each core wire bundle. In this way, it is possible to manage the line setting status in units of core bundles.

Further, the attribute information of the optical cable includes information for specifying each core wire in the optical cable and information indicating the presence / absence of a failure of each core wire, and the line to the core wire in which the core wire in the optical cable is designated In the case where information indicating that there is a failure in the designated core is stored in the optical cable management database, the setting of the line to the core is It is also possible to provide a line setting impossible display section for displaying a message indicating that the operation cannot be performed.
By such an aspect, it is possible to prevent a line from being set on a faulty core wire. Usually, one optical cable includes several tens to several thousand cores, but it is difficult for an operator to grasp which one of the cores is faulty at the time of line setting work. Therefore, if there is a failure in the core line that the worker tried to set up the line, a message to that effect is displayed to investigate which core line is faulty during the line setting work, etc. This makes it possible to improve the work efficiency of line setting.

  In addition, the problems disclosed by the present application and the solutions thereof will be clarified by the column of the best mode for carrying out the invention and the drawings.

  It is possible to quickly grasp the attributes and states of the optical cables that make up the optical cable network, perform maintenance and management of the optical cable network quickly and accurately, and reduce the work load.

=== Example of Overall Configuration ===
An overall configuration of an optical cable core management system 900 including an optical cable core management server 200 according to the present embodiment is shown in FIG. The optical cable core management server 200 corresponds to the information processing apparatus described in the claims.

<Optical cable core management system>
The optical cable core management system 900 is configured by connecting the user terminal 100 to the optical cable core management server 200 via a network 500 so that communication is possible.

  The optical cable core management system 900 is a core design / management based on a system diagram showing the connection relationship between an optical cable constituting an optical cable network and a relay facility such as a closure by a line drawing figure showing the optical cable and a figure showing the relay equipment. It is a system for. In the optical cable core management system 900, stations, closures, drop closures, buildings, CTF / IDF (Cable Terminating Frame / Intermediate Distribution Frame), customer information, and the status and operation status of the optical cables connecting these, closures, It is possible to manage the core wire connection status and its operation status in the CTF / IDF, the line superimposed on the core wire and its operation status.

  The optical cable core management system 900 has the following features. First, the optimum route can be selected from the search results of a plurality of routes while grasping the connection of the entire system diagram. In addition, it has a plan management function for equipment and core connection, and a reservation management function for a line superimposed on the core. Furthermore, in order to perform a quick design of FTTH (Fiber To The Home), consideration is given to not being affected by a decrease in response in communication speed. The multi-window environment allows editing of core and line attributes while opening multiple system diagrams and various forms on the screen. In addition, the download function allows you to download drawings and database lists such as system diagrams and single-line diagrams, and use them as attachments to construction specifications. In addition, the upload function allows efficient management of the number of cores owned for each cable section.

<Optical cable core management server>
The optical cable core management server 200 is a computer for supporting management of the optical cable network.
The optical cable network is configured by connecting core wires in a plurality of optical cables to each other. Each optical cable typically includes tens to thousands of cores. In some optical cables, each core wire is bundled with a tape or the like every predetermined number to form a core wire bundle.
Each optical cable usually has a length of several hundred meters to several thousand meters. And it is taken in into relay facilities, such as a closure and CTF / IDF. The optical cable taken into the relay facility may be connected to another optical cable or may pass through the relay facility.

When a customer applies for use of an optical communication line, a customer line is assigned to the core of the optical cable network. As a result, the customer can perform optical communication using the core wire. If there is no core wire that can set a line, it is necessary to newly lay an optical cable. The case where there is no settable core is, for example, when all the cores have already been assigned to other customer's lines and there are no open cores or optical cables are not laid in the first place. .
With the rapid spread of optical communication today, optical cable laying work and relay equipment installation work are proceeding at a rapid pace. In addition, the line setting for the core wire in the optical cable has been performed one after another.

  The optical cable core management server 200 according to the present embodiment displays the attribute information of each optical cable in the vicinity of the line drawing figure showing each optical cable shown in the system diagram by a mechanism described later, thereby However, it becomes possible to quickly grasp the attributes of each optical cable. This also makes it possible to reduce the burden of setting the line to the optical cable. And it becomes possible to reduce the burden of the management work of an optical cable network, and to improve work efficiency.

<User terminal>
The user terminal 100 is a computer that is communicably connected to the optical cable core management server 200 and is used when performing management work of the optical cable network such as browsing the system diagram. The optical cable network can be managed without using the user terminal 100. In this case, the user terminal 100 may be omitted.

=== Configuration of optical cable core management server and user terminal ===
Next, the configuration of the optical cable core management server 200 and the user terminal 100 will be described. Both the optical cable core management server 200 and the user terminal 100 are computers, and the hardware configuration is basically the same. Therefore, these hardware configurations are summarized in one block diagram and shown in FIG.

<Optical cable core management server>
The optical cable core management server 200 is a computer including a CPU (Central Processing Unit) 210, a memory 220, a port 230, a recording medium reading device 240, an input device 250, an output device 260, and a storage device 280.

  The CPU 210 is responsible for overall control of the optical cable core management server 200, and is an optical cable core management server control program (consisting of codes for performing various operations according to the present embodiment stored in the storage device 280 ( Various functions as the optical cable core management server 200 are realized by reading 710 (corresponding to the program described in the claims) 710 into the memory 220 and executing it.

  For example, the optical cable core management server control program 710 is executed by the CPU 210 and cooperates with hardware devices such as the memory 220, the port 230, the input device 250, the output device 260, and the storage device 280. Optical cable management database, system diagram display request input unit, system diagram generation unit, system diagram display unit, optical cable designation input unit, free core rate calculation unit, free core rate output unit, free core bundle rate calculation unit, free core A line bundle ratio output unit, a line setting request input unit, and a line setting impossible display unit are realized. The memory 220 can be constituted by a semiconductor memory device, for example.

  The recording medium reading device 240 is a device for reading a program and data recorded on a recording medium 400 such as a flexible disk, a magnetic tape, and a compact disk. The read program and data are stored in the memory 220 and the storage device 280. Therefore, for example, the optical cable core management server control program 710 recorded on the recording medium 400 is read from the recording medium 400 using the recording medium reader 240 and stored in the memory 220 or the storage device 280. it can. The recording medium reading device 240 can be built in the optical cable core management server 200 or can be externally attached.

  The storage device 280 can be, for example, a hard disk device or a semiconductor storage device. As shown in FIG. 3, the storage device 280 includes an optical cable core management server control program 710, a closure management database 600, a station management database 610, a customer management database 620, a building management database 630, a CTF / IDF management database 640, a cable. A management database 650, a core wire management database 660, a core wire connection attribute management database 670, and a system diagram management database 680 are stored. The optical cable management database described in the claims is realized by the cable management database 650 and the core management database 660.

  The closure management database 600 is a database for managing closures. The closure is one of the relay facilities that take in each optical cable in the optical cable network. The closure management database 600 is shown in FIG. In the “closure type” column of the closure management database 600, information indicating the type of closure is described. Types of closure include “closure” and “drop closure”. In the “closure name” column, information for specifying the closure is described. In the “connection information (cable name)” column, the name of the optical cable is described as information for specifying the optical cable to be taken into each closure. In the “connection information (section name)” column, information for specifying a relay facility into which both ends of the optical cable are taken is described. The “operation status” column describes the operation status of the closure. In the “system diagram” column, information specifying a system diagram including the closure in the target area is described.

  The station management database 610 is a database for managing stations. The station is one of the relay facilities that take in each optical cable in the optical cable network. The station management database 610 is shown in FIG. In the “station name” column of the station management database 610, the name of the station is described as information for identifying the station. In the “building name” column, the name of the building indicating the location of the station is written. In the “system diagram” column, information specifying a system diagram including the station in the target area is described. In the “Transition Destination System Diagram” column, information specifying a system diagram in which the connection relationship between the optical cable and the relay equipment in the station is described in detail is described.

  The customer management database 620 is a database for managing customers who use the optical cable network. The customer management database 620 is shown in FIG. In the “Customer Name” column, the customer name is described as information for identifying the customer. In the “building name” column, the name of the building indicating the customer's location is written. In the “system diagram” column, information specifying a system diagram including the customer in the target area is described.

  The building management database 630 is a database for managing building information indicating the location of a station or a customer. The building is one of the relay facilities that take in each optical cable in the optical cable network. The building management database 630 is shown in FIG. In the “label” column, the name of the building is described as information for identifying the building. In the “Transition Destination System Diagram” column, information specifying a system diagram in which the connection relationship between the optical cable and the relay equipment in the building is described in detail is described. In the “system diagram” column, information specifying a system diagram including the building in the target area is described.

  The CTF / IDF management database 640 is a database for managing CTF / IDF installed in a station or customer's building. CTF / IDF is one of relay facilities that take in each optical cable in an optical cable network. A CTF / IDF management database 640 is shown in FIG. In the “CTF / IDF name” column, information for specifying the CTF / IDF is described. In the “connection information (cable name)” column, information for specifying an optical cable taken into each CTF / IDF is described. In the “connection information (section name)” column, information for specifying a relay facility into which both ends of the optical cable are taken is described. In the “system diagram” column, information specifying a system diagram including the CTF / IDF in the target area is described.

  The cable management database 650 is a database for managing each optical cable constituting the optical cable network. The cable management database 650 is shown in FIG. In the “cable name” column, information for specifying each optical cable is described. In the “cable section name” column, information for specifying the relay equipment into which both ends of the optical cable are taken is described. In the “tape type” column, the number of cores in each core bundle in the optical cable is described. When “2” is described in the tape type column, it indicates that each core bundle includes two cores. The number of the cores in the core bundle may be “1”, “4”, or “8” in addition to “2”. The “total number of cores” column describes the number of cores in the optical cable. A value obtained by dividing the number of the cores in the optical cable by the number of the cores in the optical fiber bundle represents the number of the optical fiber bundles in the optical cable. Information indicating the length of the optical cable is written in the “cable actual length” column. In the “system diagram” column, information for identifying a system diagram including the optical cable in the target area is described.

  The core management database 660 is a database for managing each core in each optical cable. The core wire management database 660 is shown in FIG. In the “cable name” column, information for specifying an optical cable including each core wire is described. In the “cable section name” column, information for specifying a relay facility into which both ends of each optical cable are taken is described. In the “core number” column, information for specifying each core is described. In the “tape number” column, information for identifying each core bundle is described. In the “empty state” column, information indicating the setting status of the line for each core is written. When “in use” is described, it indicates that a line has been set for the core. When “free” is described, it indicates that the line has not been set or reserved for the core. In the “core line state” column, information indicating the presence / absence of a failure of each core line is described. If it is described as “bad”, it indicates that there is a disorder in the cord. In the “core wire owner” column, information for identifying the owner of each core wire is described.

  The core connection attribute management database 670 includes information for specifying the relay facility for each relay facility, information indicating the number of optical cables taken into the relay facility, and information for identifying each core of each optical cable taken into the relay facility. And a database that stores information specifying each core wire of the other party connected to each core wire in association with each other. The core wire connection attribute management database 670 is shown in FIG. In the “equipment name” column, information for specifying the relay equipment such as the name of the closure or CTF / IDF is described. The optical cable described in the "Left cable section name" column and the optical cable described in the "Right cable section name" column are optical cables that are taken into the relay facility and connected to each other. Indicates. The total number of optical cables described in the “left cable section name” column and “right cable section name” column represents the number of optical cables taken into the relay facility. In the case of an optical fiber that is not connected to another optical fiber or is connected to an unmanaged optical cable or the like, “Termination” is described in the “Connection / Termination” column. In the “method” column, a connection method for connecting the optical fiber cores to each other is described. As the connection method, there are “fusion”, “connector connection”, “pass”, “coupler connection” and the like. In the “loss value” column, information indicating the amount of light attenuation is described. The amount of light attenuation is determined according to the connection method between the core wires. In the example shown in FIG. 12, “fusion” is 0.4 (dB), and “passing” is 0 (dB).

  The system diagram management database 680 is a database that stores information related to the system diagram showing the connection relationship between the optical cable and the relay equipment that constitute the optical cable network. The system diagram management database 680 is shown in FIG. The name of each system diagram is written in the “system diagram name” column. In the “system diagram number” column, an identification number of each system diagram is described. In the “link system diagram” column, information specifying a system diagram of another area where the relay facilities are connected (linked) with an optical cable is described. In the “link source facility” column, information for specifying a relay facility in the region connected to the relay facility in another region by an optical cable is described. In the “link destination facility” column, information for specifying the link destination relay facility connected to the link source relay facility by an optical cable is described. In the “link optical cable” column, information specifying an optical cable connecting the link source relay facility and the link destination relay facility is described.

Returning to FIG. 2, the input device 250 is a device used for data input to the optical cable core management server 200 and functions as a user interface. For example, a keyboard or a mouse can be used as the input device 250.
The output device 260 is a device for outputting information to the outside and functions as a user interface. For example, a display or a printer can be used as the output device 260.

  The port 230 is a device for performing communication. For example, communication with other computers such as the user terminal 100 performed via the network 500 can be performed via the port 230. Further, for example, the optical cable core management server control program 710 may be received from another computer via the port 230 via the network 500 and stored in the memory 220 or the storage device 280.

<User terminal>
The user terminal 100 includes a CPU 110, a memory 120, a port 130, a recording medium reading device 140, an input device 150, an output device 160, and a storage device 180.
The functions of these devices are the same as those of the devices included in the optical cable core management server 200 described above.
Further, as shown in FIG. 4, a user terminal control program 700 is stored in the storage device 180 of the user terminal 100 and executed by the CPU 110, thereby realizing various functions as the user terminal 100. . For example, the user terminal control program 700 controls communication with the optical cable core management server 200 and realizes a browser function.

=== Label display processing of system diagram ===
Next, systematic label display processing executed by the optical cable core management server 200 according to the present embodiment will be described with reference to FIGS. 14 to 16. FIG. 14 is a diagram illustrating a state of selecting a label to be displayed. FIG. 15 is a diagram illustrating a state in which labels are displayed on the system diagram. FIG. 16 is a flowchart showing the flow of the label display process of the system diagram. 14 and 15, the black circles represent relay facilities such as closures, stations, buildings, and the like, and the line drawing figure connecting the black circles represents an optical cable.

  First, when the optical cable core management server 200 receives an input of a system diagram display request (S1000), the system diagram management database 680, closure management database 600, station management database 610, customer management database 620, building management database 630, CTF / With reference to each database of the IDF management database 640 and the cable management database 650, a system diagram showing the connection relationship between the optical cable and the relay equipment is generated from the line drawing figure showing the optical cable and the figure showing the relay equipment (S1010). Then, the optical cable core management server 200 displays the generated system diagram (S1020). At that time, the optical cable core management server 200 displays the attribute information of each optical cable in the vicinity of the line drawing figure indicating each optical cable, as shown in FIG.

  In the example shown in FIG. 15, the “total number of cores”, “number of cores owned”, “number of free tapes (previous day value)”, “number of free cores (previous day) are superimposed on the line drawing figure of each optical cable. Value) ”and“ Cable actual length ”are displayed. The “total number of cores” represents the number of cores in the optical cable. The “number of owned cores” represents the number of owned cores out of the total number of cores in the optical cable. “Number of empty tapes (previous day value)” represents the number of core bundles that do not include the cores whose lines are already set in the optical cable. Here, as described above, the number of core wires in the core wire bundle (hereinafter also referred to as 1-fiber tape), the case of 2 wires (hereinafter also referred to as 2-fiber tape), and the case of 4 wires (hereinafter referred to as 2-fiber tape) There are 8 cases (hereinafter also referred to as 8-core tape). In the case of a single-core tape, a two-core tape, and a four-core tape, it is determined that the tape is “empty tape” when all the core wires in the tape are “vacant”. In the case of an eight-core tape, the eight-core tape is further divided into a “front tape (1 to 4 core wire)” and a “rear tape (5 to 8 core wire)”. If either (or both) of the front tape and the rear tape is “empty tape”, it is determined that the eight-core tape is “empty tape”. This is because the 8-core tape has a core structure of 1 to 4 (front tape) and 5 to 8 (rear tape), and is based on the 4-fiber tape in the design of FTTH. This is because the number of empty tapes is counted as “1” if either the front tape or the rear tape is empty in units of four-fiber tapes even if it is a core tape. “Number of empty cores (previous day value)” represents the number of cores in which no line is set in the optical cable (information indicating the setting status of the line). “Cable actual length” represents the length of the optical cable.

  These “total number of cores”, “number of cores owned”, “number of empty tapes (previous day value)”, “number of empty cores (previous day value)”, and “cable actual length” are the cable management database. 650, displayed based on information stored in the core management database 660.

  As shown in FIG. 15, when the optical cable core management server 200 according to the present embodiment cannot display all the labels to be displayed, it displays only the labels that can be displayed, When it is detected that the cursor is overlaid on the label, all attributes are displayed. By doing in this way, it becomes possible to display the attribute of each optical cable, without impairing the visibility of a system diagram.

  Further, as shown in FIG. 14, the optical cable core management server 200 according to the present embodiment can receive an input designating an attribute of the optical cable to be displayed in the vicinity of the line drawing figure indicating the optical cable. In the example shown in FIG. 14, “total number of cores”, “number of cores owned”, “number of free tapes (previous day value)”, “number of free cores (previous day value)”, and “cable actual length” are specified. Can receive. In this case, the optical cable core management server 200 displays the designated attribute in the vicinity of the line drawing figure indicating each optical cable. As a result, only the attributes that the line setting operator wants to know can be displayed on the system diagram, and the line setting work can be facilitated.

=== Calculation processing of empty core rate ===
Further, the optical cable core management server 200 according to the present embodiment can execute a process for calculating an empty core ratio for a specified optical cable. The unoccupied core rate is a value indicating the ratio of the number of cores in which no line is set in the optical cable.

  When receiving the information specifying the optical cable, the optical cable core management server 200 refers to the cable management database 650 and the core management database 660 to determine the total number of cores (number of cores) for the optical cable. Understand the availability (line setting status) of each core. Then, the optical cable core management server 200 calculates the vacant core rate by dividing the number of emptied cores by the total number of cores.

  Further, the optical cable core management server 200 outputs the calculated empty core ratio to a file. As a result, it becomes possible to analyze the line availability of the designated optical cable.

  Also, the optical cable core management server 200 according to the present embodiment calculates a free core bundle ratio indicating the ratio of the number of core bundles that do not include the cores for which lines have been set in the specified optical cable. Can also be executed.

  When receiving the information specifying the optical cable, the optical cable core management server 200 refers to the cable management database 650 and the core management database 660, so that the total number of optical fiber bundles and the free space for each of the cores are determined. Understand the status (line setting status). Then, the optical cable core management server 200 calculates the empty core bundle ratio by dividing the number of core bundles in which all the cores in the core bundle are “vacant” by the total number of core bundles.

  Further, the optical cable core management server 200 outputs the calculated empty core bundle rate to a file. Thereby, it becomes possible to analyze the empty state of the core bundle for the designated optical cable.

=== Display of defect attribute ===
Also, the optical cable core management server 200 according to the present embodiment can display a message to that effect when the operator is trying to set a line for a faulty core line during line setting work. . For example, a message such as “The specified core is faulty. Please specify another core” is displayed.

  The line setting is performed by inputting a line setting request to the core line specifying the core line in the optical cable. When receiving the input, the optical cable core management server 200 refers to the core management database 660. If information indicating that the designated core is faulty is stored, a message indicating that the line cannot be set to the core is displayed.

  In this way, the operator can perform the line setting work without worrying about which cords are normal and which cords are abnormal. In the case of an optical cable, since there are many core wires in one optical cable, even if one core wire is defective, the core wire is not repaired but other normal core wires are used. This is because it is more efficient.

  As described above, the present embodiment has been described, but according to the present embodiment, when displaying a system diagram showing the connection relationship between the optical cable and the relay equipment by the line drawing figure showing the optical cable and the graphic showing the relay equipment, Since the attribute information of the optical cable can be displayed in the vicinity of the line drawing figure of each optical cable, the attribute of each optical cable can be quickly grasped. This also makes it possible to reduce the burden of setting the line to the optical cable.

  The above embodiment is for facilitating the understanding of the present invention, and is not intended to limit the present invention. The present invention can be changed and improved without departing from the gist thereof, and the present invention includes equivalents thereof.

It is a figure which shows the whole structure of the optical cable core management system which concerns on this Embodiment. It is a figure which shows the structure of the optical cable core management server which concerns on this Embodiment, and a user terminal. It is a figure which shows the structure of the memory | storage device of the optical cable core management server which concerns on this Embodiment. It is a figure which shows the structure of the memory | storage device of the user terminal which concerns on this Embodiment. It is a figure which shows the closure management database which concerns on this Embodiment. It is a figure which shows the station management database which concerns on this Embodiment. It is a figure which shows the customer management database which concerns on this Embodiment. It is a figure which shows the building management database which concerns on this Embodiment. It is a figure which shows the CTF / IDF management database which concerns on this Embodiment. It is a figure which shows the cable management database which concerns on this Embodiment. It is a figure which shows the core wire management database which concerns on this Embodiment. It is a figure which shows the core wire connection attribute management database which concerns on this Embodiment. It is a figure which shows the systematic diagram management database which concerns on this Embodiment. It is a figure which shows a mode that the systematic diagram which concerns on this Embodiment is displayed. It is a figure which shows a mode that the attribute information of an optical cable is displayed in the vicinity of the line drawing figure which shows each optical cable in the systematic diagram which concerns on this Embodiment. It is a flowchart which shows the flow of the systematic label display process which concerns on this Embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 User terminal 200 Optical cable core management server 400 Recording medium 500 Network 600 Closure management database 610 Station management database 620 Customer management database 630 Building management database 640 CTF / IDF management database 650 Cable management database 660 Core management database 670 Core connection Attribute management database 680 System diagram management database 700 User terminal control program 710 Optical cable core management server control program 900 Optical cable core management system

Claims (7)

An optical cable management database that stores information that identifies an optical cable, information that identifies a relay facility into which the optical cable is taken in, and attribute information of the optical cable in association with each optical cable that constitutes the optical cable network,
A system diagram display request input unit that receives an input of a display request of a system diagram shown by a line drawing figure showing an optical cable and a figure showing a relay equipment regarding the connection relationship between the optical cable and the relay equipment,
A system diagram generation unit that generates a system diagram based on information identifying each optical cable stored in the optical cable management database and information identifying a relay facility into which each optical cable is taken in,
A system diagram for displaying the generated system diagram and displaying attribute information of each optical cable in the vicinity of the line drawing figure indicating each optical cable based on the attribute information of each optical cable stored in the optical cable management database A display unit;
An information processing apparatus comprising: The information processing apparatus according to claim 1,
The attribute information of the optical cable includes at least one of information indicating the length of the optical cable, information indicating the number of cores in the optical cable, and information indicating a setting state of the line to each core. A characteristic information processing apparatus. The information processing apparatus according to claim 1,
The attribute information of the optical cable includes information indicating the number of cores in the optical cable, and information indicating the setting status of the line to each core,
An optical cable designation input unit for receiving input of information for designating an optical cable;
Based on the information indicating the number of cores in the designated optical cable stored in the optical cable management database and the information indicating the setting status of the line to each core in the optical cable, the optical cable An empty core rate calculation unit that calculates a value indicating the ratio of the number of cores for which no line is set in
An empty core rate output unit that outputs a value indicating the calculated ratio to a file;
An information processing apparatus comprising: The information processing apparatus according to claim 1,
The attribute information of the optical cable includes information indicating the number of core bundles in which the optical fibers in the optical cable are bundled for each predetermined number, and information indicating the setting status of the line to each optical fiber,
An optical cable designation input unit for receiving input of information for designating an optical cable;
Based on the information indicating the number of the core bundles in the designated optical cable stored in the optical cable management database and the information indicating the setting status of the line to each core in the optical cable, the optical cable An empty core bundle rate calculating unit that calculates a value indicating the ratio of the number of core bundles that do not include a set core in the line;
An empty core bundle rate output unit for outputting a value indicating the calculated ratio to a file;
An information processing apparatus comprising: The information processing apparatus according to claim 1,
The attribute information of the optical cable includes information for specifying each core wire in the optical cable, and information indicating the presence or absence of a failure of each core wire,
A line setting request input unit that receives an input of a setting request for a line to the core, specifying the core in the optical cable;
A line setting impossible display unit for displaying a message indicating that a line cannot be set to the core when the information indicating that the specified core is faulty is stored in the optical cable management database; ,
An information processing apparatus comprising: Control of an information processing apparatus including an optical cable management database that stores information for specifying an optical cable, information for specifying a relay facility into which the optical cable is taken in, and optical cable attribute information in association with each other for each optical cable constituting the optical cable network A method,
The information processing apparatus receives an input of a system diagram display request indicating a connection relationship between the optical cable and the relay facility by a line drawing graphic indicating the optical cable and a graphic indicating the relay facility,
The information processing apparatus generates a system diagram based on information identifying each optical cable stored in the optical cable management database and information identifying a relay facility into which each optical cable is taken in,
The information processing apparatus displays the generated system diagram and, based on the attribute information of each optical cable stored in the optical cable management database, the attribute information of each optical cable, the vicinity of the line drawing figure indicating each optical cable A method for controlling an information processing apparatus, characterized by: For each optical cable constituting the optical cable network, an information processing apparatus including an optical cable management database that stores information for specifying an optical cable, information for specifying a relay facility into which the optical cable is taken in, and attribute information of the optical cable in association with each other.
A procedure for receiving an input of a display request for a system diagram shown by a line drawing figure showing an optical cable and a figure showing a relay equipment regarding the connection relationship between the optical cable and the relay equipment;
A procedure for generating a system diagram based on information identifying each optical cable stored in the optical cable management database and information identifying a relay facility into which each optical cable is taken in,
Displaying the generated system diagram and displaying the attribute information of each optical cable in the vicinity of the line drawing figure indicating each optical cable based on the attribute information of each optical cable stored in the optical cable management database; A program for running