JP5195332B2 - Network system design support system, method, program and network system design support / monitoring system - Google Patents

Description

  The present invention relates to a design support system, method and program for a network system suitable for use in supporting the design of a process control system in the steel industry, for example, and further to a design support / monitoring system for a network system.

  In process control systems in the steel industry and the like that require high reliability in 24-hour operation, dedicated computers and networks have been used so far, but there have been difficulties in terms of cost reduction and scalability.

  Therefore, in recent years, specifications have been released, and the introduction of open systems using general-purpose products is progressing. However, the scale of application increases, and the number and combination of general-purpose products becomes enormous when the needs to realize a high-functional system applying the latest IT technology from the operation department are met. In particular, since the network affects the entire system, and the phenomenon is irregular and non-reproducible, the difficulty of investigating the cause of the failure and the recovery work becomes high.

  Because it is unrealistic for highly specialized network specialists to wait 24 hours on multiple distributed process control systems, network specialists can remotely monitor and diagnose multiple systems Attempts were made to introduce dedicated systems and tools. However, in monitoring and diagnosing the process control system, it is indispensable to carry out operations while grasping the operation of field operators who are not on the computer, hearing the operation status, and the status of facilities with limitations in ITV.

  The Applicant is not required to have advanced network expertise by operators working in the field 24 hours a day or maintenance department workers waiting for the maintenance of the entire facility. In order to provide an inexpensive, versatile, and easy-to-use tool that can flexibly monitor and diagnose various process control systems, Patent Document 1 describes each device based on various sheets created with spreadsheet software. A network system monitoring system, method, and computer program capable of diagnosing a state are proposed.

JP 2008-171077 A

  By the way, network devices such as switching hubs and routers used in process control systems are also becoming multi-vendors due to an increase in the number of general-purpose products. Therefore, it is required to be able to flexibly set a wide variety of network devices without requiring advanced network expertise, and to be able to perform everything from network system design to the above monitoring and diagnosis in series. However, there was no such inexpensive, versatile and easy-to-use tool.

  The present invention has been made in view of the above points, and allows a network system including a network device to be designed flexibly without the need for advanced network expertise. The purpose is to allow network monitoring to be performed in series.

The network system design support system according to the present invention is a network system design support system that supports the design of a network system configured by connecting a plurality of devices, and is configured by the spreadsheet software. Network configuration diagram storage means for storing a network configuration diagram sheet representing the network configuration, and network device settings for describing setting information of the network device among the devices represented by the network configuration diagram sheet created by spreadsheet software and network device setting sheet storage means for storing sheets, the setting information of the network device setting sheet network equipment described in, automatically fit the template of the script of the network equipment manufacturers prepared in advance, the each network Characterized in that a script generating means for generating a script of the work equipment.
Another feature of the network system design support system according to the present invention is that the network is a list including the network information and the device information of the devices represented by the network configuration diagram sheet created by spreadsheet software. A network definition sheet storage means for storing the definition sheet is provided.
Another feature of the network system design support system of the present invention is that the network device setting sheet and the network definition sheet are linked.
The network system design support / monitoring system of the present invention includes a network system design support system of the present invention, a response request issuing means for transmitting a response request to a device on the network system based on the network definition sheet, Diagnostic means for diagnosing the state of each device based on a response from each device to the response request.
The network system design support method of the present invention is a network system design support method for supporting the design of a network system configured by connecting a plurality of devices, and the configuration of the network system created by spreadsheet software Network configuration diagram storage means for storing a network configuration diagram sheet representing the network configuration, and network device settings for describing setting information of the network device among the devices represented by the network configuration diagram sheet created by spreadsheet software leave constitute a network device setting sheet storage means for storing sheets, scripting means, the setting information of the network device setting sheet network equipment described in, network equipment manufacturers prepared in advance scripting own to stationery By applying a manner, and having the steps to create a script for each network device.
The program of the present invention is a program for supporting the design of a network system configured by connecting a plurality of devices, and stores a network configuration diagram sheet representing the configuration of the network system created by spreadsheet software. Network configuration sheet storage means for storing, and a network device setting sheet for storing network device setting sheets for describing setting information of network devices among the devices represented by the network configuration diagram sheet created by spreadsheet software a storage unit, the setting information of the network device setting sheet network equipment described in, automatically fit the template of the script of the network equipment manufacturers prepared in advance, to create a script of the respective network device Script creator Causing a computer to function as.

  According to the present invention, the network device script is automatically created by describing the setting information of the network device on the network device setting sheet at the design stage of the network system. In this way, it is possible to support the design of the network system to shorten the time and halve the human error. As a result, a network system including network devices can be designed flexibly without requiring advanced network expertise. Furthermore, by using a common sheet for designing and monitoring the network system, it is possible to perform the series from designing to monitoring of the network system in series.

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings.
FIG. 1 shows a configuration example of a process control system including a network system design support / monitoring system to which the present invention is applied. In this embodiment, a process control system in the steel industry will be described. A plurality of switching hubs 200 are connected to the control server 100 that controls the entire process. In FIG. 1, the control server 100 is illustrated as a single device, but may be configured by a plurality of devices.

  The switching hub 200 is installed for each system such as a manufacturing process control system, an HMI (Human Machine Interface) system, and an upper system that supervises the manufacturing process control system. A plurality of devices 300 such as sensors, personal computers and hubs are connected.

  Here, in a process control system, devices that control data flowing on the network (signal amplification, destination conversion, protocol selection, etc.), specifically switching hubs and routers, are called “network devices”. Other devices are called “terminals”.

  These switching hubs 200 are connected via a switching hub 2 to a design support / monitoring system 1 for supporting design of a process control system and for monitoring and diagnosing. The design support / monitoring system 1 functions as (1) a ping issue monitoring tool, (2) a CRC error monitoring tool, (3) a packet capture tool, and (4) a network system design support tool, as will be described in detail below. To do.

(Functional structure of design support / monitoring system 1)
FIG. 2 shows a functional configuration of the design support / monitoring system 1. Reference numeral 11 denotes a display device. Reference numeral 12 denotes an input device such as a keyboard or a pointing device.

  A worksheet storage unit 13 stores a worksheet created by spreadsheet software (for example, Excel (registered trademark)). As a worksheet, common definition sheet 13a, execution schedule sheet 13b, network configuration diagram sheet 13c, network definition sheet 13d, ping result sheet 13e, ping log sheet 13f, SW list sheet 13g, SW monitoring log sheet 13h, network device setting A sheet 13i is created.

  A ping issuing unit 14 transmits a response request to a device on the process control system based on the network definition sheet 13d (ping issuance). Note that ping is generally the most basic command used in a TCP / IP network to check whether an IP packet has reached a transmission destination or whether it can be reached in IP.

  Reference numeral 15 denotes a diagnosis unit, which diagnoses the state of each device based on a response from each device on the process control system to the ping issuance by the ping issuing unit 14. In this embodiment, not only the presence / absence of a response but also the time until the response is returned is checked. Then, the diagnosis result is output to the ping result sheet 13e.

  Reference numeral 16 denotes a display control unit which reflects the diagnosis result of the diagnosis unit 15 on the network configuration diagram sheet 13c and displays it on the display device 11. For example, on the network configuration diagram sheet 13c, a non-response device is displayed in red, and a slow response device is displayed in yellow.

  Reference numeral 17 denotes a CRC (Cyclic Redundancy Check) error monitoring unit that performs CRC error monitoring based on the SW list sheet 13g. CRC is called cyclic redundancy check, and is one of error detection / correction methods for checking whether data is correctly transmitted by data transmission or the like. On the process control system, there are devices for accumulating the number of occurrences of CRC errors, for example, switching hubs 200 for each system, and the number of occurrences of CRC errors that are a precursor of trouble is collected from these devices.

  A log output unit 18 outputs a log to the ping log sheet 13f when the result of ping issue monitoring is NG, and logs to the SW monitoring log sheet 13h when a CRC error occurs during CRC error monitoring. Output.

  A capture unit 19 collects packets on the process control system via the switching hub 200 of each system.

  A script creation unit 51 creates a script for the network device based on a network device setting sheet 13i in which network device setting information is described and a script template prepared in advance in the script template storage unit 52. To do. A script template storage unit 52 stores a script setting template for network devices of each manufacturer used in the process control system in the steel industry.

  The design support / monitoring system 1 may be constituted by a plurality of devices or a single device. For example, each of the tools (1) to (4) may be divided into separate computer devices (or computer systems).

(worksheet)
As shown in FIG. 3, the common definition sheet 13a is for setting a ping issue default designation, a diagnosis execution mode, and a batch file when an error occurs. Specifically, as shown in Table 1 below, set the number of ping repetitions, execution interval, block size, timeout, TTL, execution mode, and execution file name (path, batch file, startup number limit) when an error occurs .

  As shown in FIG. 4, the execution schedule sheet 13b is for designating execution schedules for ping issue monitoring and CRC error monitoring. Specifically, as shown in Table 2 below, the execution cycle, execution day, start interval, start time, and execution mode are set. Also, whether the schedule is currently being executed or stopped is displayed.

  The network configuration diagram sheet 13c is a diagram showing the configuration of the process control system as shown in FIG. As described above, the display control unit 16 displays the corresponding device on the network configuration diagram sheet 13c by enclosing the color corresponding to the diagnosis result by the diagnosis unit 15, so that the portion to be discolored is surrounded by the cell combination. Leave it in. The network configuration diagram sheet 13c is always created at the design stage of the process control system and is also used at the maintenance operation stage, and is taken in for network monitoring.

  As shown in FIG. 6, the network definition sheet 13d is a list of devices shown in the network configuration diagram sheet 13c, and includes network information (host name, IP address, subnet mask, default gateway, NW system) and device information. (Device type (terminal or network device), model name), etc.) Specifically, as shown in Table 3 below, connection No., device code, network information, device information, design information (row, column), installation location, size, timeout, processing target (Ping target) , Whether it is a CRC target, whether it is a terminal diagnosis target, a connection port number). As described above, the ping issuing unit 14 transmits a response request to the device on the process control system based on the network definition sheet 13d.

  As shown in FIG. 7, the ping result sheet 13e is for outputting the result of ping issuance monitoring, and displays not only the NG count and OK count but also the success rate. As described above, the diagnosis unit 15 outputs a diagnosis result to the ping result sheet 13e.

  Although not specifically illustrated, the ping log sheet 13f outputs a log when the result of ping issue monitoring is NG, and sets the items of the result, date, target, IP address, status, and remarks. . As described above, when the result of ping issue monitoring is NG, the log output unit 18 outputs a log to this ping log sheet 13f.

  The SW list sheet 13g is for setting switching hub information for monitoring a CRC error, as shown in FIG. Specifically, the CRC error monitoring period is set, and the IP address of each switching hub and the row and column of the switching hub arranged in the network configuration diagram sheet are set. Also, an object ID in which the number of CRC errors is stored is set.

  Although not specifically shown, the SW monitoring log sheet 13h is for outputting a log when a CRC error occurs during CRC error monitoring. As described above, when a CRC error occurs during CRC error monitoring, the log output unit 18 outputs a log to the SW monitoring log sheet 13h.

  As shown in FIG. 18, the network device setting sheet 13i is for describing the setting information of the network device shown in the network configuration diagram sheet 13c. When the network device is a switching hub, the switching hub port information, VLAN (Virtual LAN) information, SNMP (Simple Network Management Protocol) information, and route information are described as setting information together with the device name and model number.

((1) PING issue monitoring tool)
When a command button (not shown) is operated on the display device 11, a ping issue operation screen 900 is displayed on the display device 11, as shown in FIG. In the ping issue operation screen 900, reference numeral 901 denotes a selection button for selecting whether to execute “all node diagnosis (infinite)”, “all node diagnosis (schedule)”, or “all node diagnosis (once)”. . Reference numeral 902 denotes a diagnosis stop button for instructing to stop the diagnosis. Reference numeral 903 denotes a setting field for setting a device code when performing a trace route search. Here, the trace route is a path of a node for returning a response at the time of executing ping. Reference numeral 904 denotes a search start button for instructing start of trace route search. Reference numeral 905 denotes a ping button for instructing execution of ping when performing a trace route search. Reference numeral 906 denotes a button for referring to the ping result sheet 13e. Further, the ping issuance operation screen 900 indicates that the initial state is white, the ping issuance is blue, the abnormality (no response) is red, and the unstable (slow response) is yellow. .

  FIG. 10 shows the flow of the ping issue process. First, the data of the network definition sheet 13d is acquired (step S1001). Next, the device code of the own terminal is acquired based on the network definition sheet 13d (step S1002). If the device code of the own terminal cannot be acquired, an error message is output, and then the process ends. Next, all combinations of the own terminal and other terminals are acquired based on the network definition sheet 13d (step S1003). Next, if the search start button 904 and the PING button 905 are pressed, each process is executed (step S1004 (see FIG. 12), S1005 (see FIG. 13)). If the search is not a trace route search, the processes in steps S1004 and S1005 are repeated for the number of acquisitions without pressing the search start button 904 and the PING button 905. Then, the PING result is reflected on the network configuration diagram sheet 13c and displayed, and a PING log sheet 13f is created (step S1006).

  When the “all node diagnosis (one time)” button of the selection buttons 901 on the ping issue operation screen 900 is pressed, if the execution mode set in the common definition sheet 13a is PING or both, FIG. As shown, a PING issue process is executed (step S1101 (see FIG. 10)). Further, when the execution mode set in the common definition sheet 13a is CRC or both, the CRC error accumulation is acquired (step S1102).

  When the “all node diagnosis (infinite)” button of the selection buttons 901 on the ping issue operation screen 900 is pressed, the processing of FIG. 11 is repeated until the diagnosis stop button 902 is pressed.

  When the “all node diagnosis (schedule)” button among the selection buttons 901 on the ping issue operation screen 900 is pressed, the schedule is set according to the schedule set in the execution schedule sheet 13b until the diagnosis stop button 902 is pressed. Repeat the process.

  FIG. 12 shows processing when the search start button 904 is pressed in step S1004. When the search start button 904 is pressed, a trace route search of the ping issue destination device code is performed from the input ping issue source device code. First, it is checked whether the device code set in the setting field 903 of the ping issue operation screen 900 is set in the internal information of the network configuration diagram sheet 13c, and whether the device code input to the issuer device code is the local terminal. Is checked (step S1201). Next, the trace route from the ping issuing source device code to the ping issuing destination device code is acquired from the internal information (step S1201).

  FIG. 13 shows processing when the ping button 905 is pressed in step S1005. When the ping button 905 is pressed, a ping is issued between the trace routes acquired by the processing when the search start button 904 is pressed. First, the trace route of the ping issue destination is output from the ping issue source acquired by the processing when the search start button 904 is pressed to the search route of the ping result sheet 13e (step S1301). Next, an IP address is acquired from the ping issue destination device code from the internal information (step S1302). Next, a ping is issued to the IP address acquired in step S1302 (step S1303). Next, the network configuration diagram sheet 13c is displayed based on the output result, and if it is NG, a log is output to the ping log sheet 13f (step S1304).

((2) CRC error monitoring tool)
When a command button (not shown) is operated on the display device 11, an SNMP SW monitoring screen 800 is displayed on the display device 11 together with the SW list sheet 13g as shown in FIG. The SNMP SW monitoring screen 800 displays a list of devices that accumulate the number of CRC error occurrences set in the SW list sheet 13g.

  When the CRC error number acquisition button 801 is pressed, the number of CRC errors (counter total value) in the SW list sheet 13g is updated. When the CRC error monitoring button 802 is pressed, the network configuration diagram sheet 13c is displayed, and CRC error monitoring is started every monitoring period. If a CRC error is detected during CRC error monitoring, a log is output to the SW monitoring log sheet 13h. When the monitoring stop button 803 is pressed, CRC error monitoring is stopped.

((3) Packet capture tool)
The capture unit 19 extracts, outputs, and analyzes a message that matches a specified condition using data obtained by capturing a packet on the process control system. For the analysis, Ethereal can be used, and Excel analysis is also possible. In the analysis by Excel, the result converted into the csv format can be read and displayed. As a linkage function, the analysis result can be output in the message trace tool format.

  First, the capture method will be described. In the capture setting screen 1400 shown in FIG. 14, the network adapter 1401 used for capture is selected in the setting column 1401. Next, the IP address and port number of the transmission source / destination are designated in the setting column 1402. In this case, if "*" is specified, it is executed for all values. Next, the protocol (TCP, UDP, all) to be captured is selected in the setting column 1403. Next, “capture” is selected with the radio button 1404. Next, the save destination of the capture result is designated in the setting field 1405. Thereafter, when a capture execution button 1406 is pressed, capture is executed. To stop the capture, a capture stop button 1407 is pressed.

  Next, an analysis setting method will be described. As shown in FIG. 15, when “Excel analysis” is selected with the radio button 1404, the screen changes according to the setting as described below. To start the analysis, the analysis button 1408 is pressed after setting each condition.

  When a protocol is selected in the setting field 1403, a message type list 1409 is displayed as shown in FIG. Therefore, when a message type (Csemi standard transmission, Csemi PIO transmission) is selected, a filter condition setting field 1410 is displayed. FIG. 15 shows a state in which a filter condition setting field 1410 is displayed when Csemi standard transmission is selected. Csemi is an abbreviation for “NS SEMI SYSTEM (registered trademark)” and is an application that serves as a bridge between application software for process control and general-purpose software Windows (registered trademark) NT (registered trademark). It is a middleware for human control. With regard to Csemi, the technology is disclosed in Nippon Steel Technical Bulletin No363 1997 and Nippon Steel Technical Bulletin No379 2003 by the present applicant.

  In this embodiment, in the case of “Csemi standard transmission” of the protocol “TCP”, as shown in FIG. 15, in the output setting column 1411, the output setting (record size, logical) of the binary file (.bin) for the message trace tool Line number, number of records, transmission / reception type).

  Further, as shown in FIG. 15, an Excel analysis setting field 1412 becomes valid, and options for analysis are designated there. Here, you can select the capture date and time, the analysis method, and the output format. In other words, the capture date and time (start point) and the capture date and time (end point) are designated (beginning and end points of automatic merging). In addition to selecting whether to start automatically or not, the software to be used for analysis is specified. Select the check box to output a dump of the data part when outputting the csv file. In the setting field 1405, the name of the target file to be searched is specified. If the beginning of the file name matches, it becomes a search target. (Files that meet the conditions are subject to automatic merging).

  A display filter is applied under the conditions of the analysis tab, and the result is displayed. When the automatic activation check box in the Excel analysis setting field 1412 is turned on, Excel or Ethereal is automatically activated. In the case of Excel automatic activation, the csv output result can be confirmed. Since there is an inquiry about whether to enable the macro after starting Excel, enable it. Thereafter, a csv file to be read is browsed to display a list of analysis data (see FIG. 16). In the case of the automatic startup of Ethereal, the result of applying the display filter under the conditions of the analysis tab can be confirmed on the Ethereal.

  Next, an example of using the message trace tool will be described. As shown in FIG. 17A, on the message trace tool, a file output in the message trace format (for example, xxx_TraceTool.bin) and a destination for saving the definition document are designated. A message definition document must be created in advance.

  Then, as shown in FIG. 17B, the message to be displayed is selected in the following manner. First, a definition re-read button 1701 is pressed to read a definition document, and a message No. is selected in a column 1702 to display a list of messages in a column 1703. When a message to be displayed in the field 1703 is selected, the message content is displayed as shown in FIG.

((4) Network system design support tool)
As described above, the network configuration diagram sheet 13c is created at the design stage of the process control system (including redesign that replaces devices or adds new devices). At this time, the network device setting sheet 13i describes the setting information of the network device shown in the network configuration diagram sheet 13c. As shown in FIGS. 18 and 19, in the case of a switching hub, the device name and model number are described, and as setting information, various information is displayed in the port information column 1801, VLAN information column 1802, SNMP information column 1803, and route information column 1804. Describe information.

  In the “connection destination” of the port information column 1801, a network node to be connected is selected and described. In “Speed”, the communication speed of the port is set. For example, 10Mbps half duplex, 100Mbps half duplex, 100Mbps full duplex, Autonegotiation, etc. In “MDI / MDI-X”, the port type of the connection destination is input. In “Mirror Port”, “◯” is input when specifying as a mirror port, and nothing is described when not specifying. In “Mirror Source”, “◯” is input when specifying as a mirror source, and nothing is described when not specifying. In “VLAN-No”, the port VLAN number is designated by a number. When VLAN is not set, describe “1” in all. However, ports must be listed in sequential numbers. “IP route filter” is used when it is desired to cut a route between VLANs with an L3 switch. As a designation method, the VLAN name of the designation destination is described.

  In the “host name” of the VLAN information column 1802, the host name for each VLAN is described. In “IP address”, an IP address for each VLAN is described. In “subnet mask”, a subnet mask for each VLAN is described. In “gateway”, a default gateway is designated by IP. However, if there is a static route (route information of 2 or more), it is described as “routeXX (X: number)”. If there is no need to specify a gateway, nothing is described.

  In the “manager” of the SNMP information column 1803, the IP address of the terminal used as the SNMP manager is input. In “trahost”, the IP address of the destination terminal of the SNMP trap is input.

  In the “route info” of the route information column 1804, a route No is described based on the gateway information. If there are multiple, describe them. In “gateway”, the IP address of the gateway of the route is described. In “subnet mask”, the subnet mask of the route is described. In “network address”, a destination network address is described. For example, 170.30.132.0, and the fourth octet is always 0.

  The network device setting sheet 13i is linked to the network definition sheet 13d. For example, when a new network device is added to the network definition sheet 13d, a network device setting sheet 13i for the network device is automatically expanded by an Excel VBA (Visual Basic for Applications) program. Further, common contents described in the network definition sheet 13d and the network device setting sheet 13i are reflected on each other. That is, the information described on the one hand is also reflected on the other hand.

  On the other hand, the script template storage unit 52 stores a script setting template for each manufacturer's network device. An example of the script template of FIG. 20 is shown.

  The script creation unit 51 uses an Excel VBA (Visual Basic for Applications) program based on a network device setting sheet 13 i in which network device setting information is described and a script template prepared in advance in the script template storage unit 52. To create a script of the network device. That is, the setting information described in the network device setting sheet 13i is automatically applied to the script template to create a script. FIG. 21 shows a state where a script is created.

  As described above, at the design stage of the process control system, the network device script is automatically created by describing the setting information of the network device on the network device setting sheet 13i. As described above, the design of the process control system, specifically, the port design of the switching hub can be supported to shorten the time and halve the human error. As a result, various network devices can be flexibly set without requiring advanced network expertise. Furthermore, by using a common sheet for designing and monitoring the process control system, it is possible to perform the process control system design to monitoring in series.

  FIG. 22 is a block diagram illustrating an example of a computer system that can configure the monitoring system 1 described above. In FIG. 22, reference numeral 2200 denotes a computer (PC). The PC 2200 includes a CPU 2201, executes device control software stored in the ROM 2202 or the hard disk (HD) 2211, or supplied from the flexible disk drive (FD) 2212, and collects all devices connected to the system bus 2204. To control. Each function unit of the present embodiment is configured by a program stored in the CPU 2201 of the PC 2200, the ROM 2202 or the hard disk (HD) 2211.

  Reference numeral 2203 denotes a RAM which functions as a main memory, work area, and the like for the CPU 2201. Reference numeral 2205 denotes a keyboard controller (KBC) which controls to input a signal input from the keyboard (KB) 2209 into the system main body. Reference numeral 2206 denotes a display controller (CRTC), which performs display control on the display device (CRT) 2210. A disk controller (DKC) 2207 stores a boot program (startup program: a program for starting execution (operation) of hardware and software of a personal computer), a plurality of applications, an edit file, a user file, a network management program, and the like. Access to the hard disk (HD) 2211 and the flexible disk (FD) 2212 is controlled. Reference numeral 2208 denotes a network interface card (NIC) which performs bidirectional data exchange with other network devices or other PCs via the LAN 2220.

  An object of the present invention is to supply a program of software that realizes the functions of the above-described embodiments to a system or apparatus, and a computer code (or CPU or MPU) of the system or apparatus stored in a storage medium. Needless to say, this can also be achieved by reading and executing.

  In this case, the program itself read from the storage medium realizes the functions of the above-described embodiments, and the program itself and the storage medium storing the program constitute the present invention. As a storage medium for supplying the program, for example, a flexible disk, a hard disk, an optical disk, a magneto-optical disk, a CD-ROM, a CD-R, a magnetic tape, a nonvolatile memory card, a ROM, or the like can be used.

1 is a diagram illustrating a configuration example of a process control system including a design support / monitoring system for a network system according to an embodiment. It is a figure which shows the function structure of the design support / monitoring system of the network system which concerns on embodiment. It is a figure for demonstrating a common definition sheet | seat. It is a figure for demonstrating an execution schedule sheet | seat. It is a figure for demonstrating a network block diagram sheet. It is a figure for demonstrating a network definition sheet. It is a figure for demonstrating a ping result sheet | seat. It is a figure for demonstrating SW list sheet. It is a figure which shows a ping issuing operation screen. It is a flowchart which shows the flow of a ping issuing process. It is a flowchart which shows the process at the time of pushing down the "all node diagnosis (once)" button. It is a flowchart which shows the process at the time of pressing of a search start button. It is a flowchart which shows the process at the time of pressing of a ping button. It is a figure which shows a capture setting screen. It is a figure which shows a capture setting screen. It is a figure which shows the list display screen of analysis data. It is a figure which shows the screen at the time of message trace tool use. It is a figure for demonstrating a network apparatus setting sheet. It is a figure which shows the state described in the network device setting sheet. It is a figure for demonstrating the model of a script. It is a figure which shows the state by which the script was created. It is a block diagram which shows an example of the computer system which can comprise a monitoring system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Control server 200 Switching hub 300 Apparatus 1 Design support and monitoring system 2 Switching hub 11 Display apparatus 12 Input apparatus 13 Worksheet storage part 14 Ping issuing part 15 Diagnosis part 16 Display control part 17 CRC error monitoring part 18 Log output part 19 Capture Section 51 Script creation section 52 Script template storage section

Claims (6)

A network system design support system for supporting the design of a network system configured by connecting a plurality of devices,
A network configuration diagram sheet storing means for storing a network configuration diagram sheet representing the configuration of the network system created by spreadsheet software;
Network device setting sheet storage means for storing a network device setting sheet for describing network device setting information among the devices represented by the network configuration diagram sheet created by spreadsheet software;
The setting information of the network devices described in the network device setting sheet, automatically fit the template of the script of the network equipment manufacturers, which is prepared in advance, and script creating means for creating a script of each network device A network system design support system characterized by comprising:   The network definition sheet storage means for storing a network definition sheet that is a list including the network information and device information of the devices represented by the network configuration diagram sheet created by spreadsheet software. 1. A network system design support system according to 1.   3. The network system design support system according to claim 2, wherein the network device setting sheet and the network definition sheet are linked. A network system design support system according to claim 2 or 3,
A response request issuing means for transmitting a response request to a device on the network system based on the network definition sheet;
A network system design support / monitoring system comprising diagnostic means for diagnosing the status of each device based on a response from each device to the response request. A network system design support method for supporting the design of a network system configured by connecting a plurality of devices,
A network configuration diagram sheet storing means for storing a network configuration diagram sheet representing the configuration of the network system created by spreadsheet software;
A network device setting sheet storage means for storing a network device setting sheet for describing setting information of the network device among the devices represented by the network configuration diagram sheet created by the spreadsheet software;
Scripting means, the setting information of the network device setting sheet network equipment described in, automatically fit the template of the script of the network equipment manufacturers, which is prepared in advance, to create a script for each network device A design support method for a network system, characterized by comprising a procedure for: A program for supporting the design of a network system configured by connecting a plurality of devices,
A network configuration diagram sheet storing means for storing a network configuration diagram sheet representing the configuration of the network system created by spreadsheet software;
Network device setting sheet storage means for storing a network device setting sheet for describing network device setting information among the devices represented by the network configuration diagram sheet created by spreadsheet software;
The setting information of the network devices described in the network device setting sheet, automatically fit the template of the script of the network equipment manufacturers prepared in advance, as a script creating means for creating a script of each network device A program that allows a computer to function.

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