JP2010257332A - Analyzer control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To secure high system reliability and stability in a network-connected type analyzer control system. <P>SOLUTION: The analyzer control system includes, in a system server SS for supervising the whole system, an operation state monitoring part 2 for monitoring respective operation states of analyzer control servers, and a control server selection part 3 for selecting the analyzer control server of lowest load, based on the operation states of the respective analyzer control servers monitored by the operation state monitoring part 2, when receiving a use request of an analyzer, and for connecting the selected analyzer control server to the analyzer. The system of high stability is constructed by determining the connection to the analyzer while taking the operation state of the analyzer control server into consideration. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a network connection type analyzer control system.

Analyzers such as chromatographs, spectrophotometers, and mass spectrometers are typically connected to an analyzer control server for controlling the analyzer and collecting data.
Conventionally, a connection form in which the analyzer and the analyzer control server are connected one-to-one by a non-network interface or the like is common, but this requires that an analyzer control server be prepared for each analyzer. In addition, there is a problem that it is expensive, and there is an inconvenience that it is necessary to visit and operate the analyzer control server having a different physical location for each analyzer.

  Therefore, in recent years, a system that monitors and controls an analysis apparatus from a remote terminal through a network by incorporating a network communication module into an analysis apparatus and an analysis apparatus control server has become common.

In such a network connection type analysis apparatus control system (hereinafter abbreviated as “system” as appropriate), a terminal computer for performing analysis instructions and analysis result display for the analysis apparatus in addition to the analysis apparatus and the analysis apparatus control server. A system server for controlling the entire system, a database server for storing analysis data output as a result of analysis and measurement, and the like are connected to each other, and various data are exchanged via a network.
Since all devices are connected to one network and depend on each other in this way, there is a risk that a failure in one part of the system will affect other multiple analyzes and data processing. is there. Therefore, in such a case, not only is the system configured so that it does not cause problems, but a system that can recover from the failure as quickly as possible should be constructed in the event of a failure. It is important to keep

  As an example of a system for quickly recovering from such a failure, there is an analyzer control system described in Patent Document 1. In this analyzer control system, analysis condition information, which is various internal information for analysis including batch files and method files necessary for analysis and measurement, is sent from the analyzer control server to a server that regularly manages data. To send. When a failure occurs in the analyzer control server, the analysis condition information stored on the data management server side is used to make another available analyzer control server or an analyzer control server recovered from the failure. It is possible to quickly resume the analysis.

JP 2008-158934 A

  By using a system as disclosed in Patent Document 1, it is possible to quickly recover from a failure of the analyzer control server. However, at the same time, in addition to being able to recover quickly, there is a demand to obtain a more reliable analysis system in which failure itself is less likely to occur.

  The present invention has been made to solve the above problems. That is, the problem to be solved by the present invention is to realize higher system reliability in the network connection type analyzer control system as described above.

An analyzer control system made to solve the above problems is as follows.
A plurality of analyzers, a plurality of analyzer control servers that control the analyzer and collect data based on analysis condition information that is data relating to settings of each analyzer, a system server that controls the entire system, Is a network-connected analyzer control system formed by being connected via a network,
The system server is
An operating status monitoring unit that monitors the operating status of each of the plurality of analyzer control servers;
When a usage request for an analyzer is received, an optimal analyzer control server at that time is selected based on the operating status of each analyzer control server monitored by the operating status monitoring unit. A control server selection unit for connecting the analyzer control server connected to the analyzer,
It is characterized by having.

  The most typical criterion for selecting the “optimal” analyzer control server is the analyzer control server with the smallest load at that time. In addition, the load may be averaged within a predetermined period in consideration of the expected analysis time of the usage request analyzer and the schedule of each analyzer accumulated in advance.

The analyzer control system according to the present invention preferably has
The analyzer control server is
An analysis condition information transmitting unit that transmits analysis condition information of the analyzer to the system server at a predetermined timing,
The system server further includes:
An analysis condition information storage unit for storing analysis condition information transmitted from the analyzer control server;
The analysis condition information stored in the analysis condition information storage unit is related to the analysis apparatus controlled by the analysis apparatus control server when the analysis is resumed after a failure occurs in a certain analysis apparatus control server. An analysis condition recovery unit for transmitting to the analyzer control server selected by the control server selection unit;
It is desirable to have

  According to the analyzer control system of the present invention, the system server constantly monitors the operating status of each of the plurality of analyzer control servers connected to the network, and when there is a request to use the analyzer, A setting is made so that the analysis apparatus control server optimal at the time controls the analysis apparatus. Therefore, it is possible to prevent problems such as excessive load on a specific analyzer control server, improving the reliability of the system itself and improving the operating efficiency of the entire system by distributing the load. Further, from the user's side, it is not necessary to check the operating status of each analysis device control server and the load applied one by one, thereby reducing the burden and effort required at the start of analysis.

  Further, in the analyzer control system according to the present invention, the analyzer control server includes an analysis condition information transmission unit, and the system server further includes an analysis condition information storage unit and an analysis condition recovery unit, so that the analyzer control should be performed. Even when a failure occurs in the server, the analysis can be resumed quickly and reliably using the optimum analyzer control server.

The figure which shows schematic structure of one Embodiment of the analyzer control system which concerns on this invention. The conceptual diagram which shows the process at the time of starting an analysis in the analyzer control system in one Embodiment of this invention. The conceptual diagram which shows the process of an analysis condition information transmission part in the analyzer control system in one Embodiment of this invention. The conceptual diagram which shows the process when a malfunction arises in the analyzer control server in the analyzer control system in one Embodiment of this invention.

  Hereinafter, an example of an embodiment of an analyzer control system according to the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a diagram showing a schematic configuration of an embodiment of an analyzer control system according to the present invention. The analyzer control system 1 of this embodiment (hereinafter abbreviated as “this system” where appropriate) has a configuration as described below.

  Connected to a system network NW1 such as a LAN are client computers T1 and T2 for inputting various instructions and confirming various information by a user operation. Further connected to the system network NW1 is a system server SS that performs overall control of the entire system 1. Although not shown, a data management server for managing and storing analysis data output as a result of analysis is also connected to the system network NW1. This data management server may be integrated with the system server SS.

  In addition to the system network NW1, a device network NW2 including a LAN or the like is provided, and each of the analysis devices A1, A2, A3, and A4 is connected to the device network NW2.

  Between the system network NW1 and the device network NW2, analytical device control servers AS1, AS2, and AS3 are connected so as to connect both networks NW1 and NW2.

  Each of the client computers T1, T2, the system server SS, and the analyzer control servers AS1 to AS3 is a computer including a storage unit including a CPU, a memory, a hard disk, a flash memory, and the like.

  Among these, a program for the system server SS is installed in advance in the storage unit of the system server SS, and when the CPU executes this program, the operation status monitoring unit 2, the control server selection unit 3, the analysis condition recovery unit 5 is implemented in software. An analysis condition information storage unit 4 is provided in a part of the storage unit of the system server SS.

  Also, a program for the analyzer control server is installed in advance in the storage unit of the analyzer control server AS1, AS2, and the analysis condition information transmission unit 6 is implemented in software by the CPU executing this program. It becomes.

Analysis condition information F1, F2, F3, and F4 relating to analysis executed in each of the analysis devices A1 to A4 is further stored in the storage units of the analysis device control servers AS1 to AS3. The analysis condition information is various data relating to the setting of the analyzer, and includes, for example, the following.
-Batch file for instructing the contents of batch analysis-Method file for instructing each analysis condition (analyzer setting conditions, calculation method of acquired data, etc.)-Progress file showing analysis progress・ Environment setting file showing the status of the connected analyzer ・ Result file used to record the availability of each analysis used for batch analysis etc.

  These analysis condition information F1, F2, and F3 stored in the analyzer control server can be rewritten by various commands given through the client computers T1 and T2 by the user's operation or automatically by commands from the analyzer. Part or all of the information is updated.

  In the present invention, the analysis device is various network connection type analysis devices and measurement / measurement devices, and the types thereof are not limited at all. Further, the types and the number of various devices such as devices, devices, servers, and computers connected to the system network NW1 and the device network NW2 are not limited to those shown in the present embodiment.

  Hereinafter, a process when a new analysis is started in the system 1 will be described with reference to FIG. FIG. 2 is a conceptual diagram showing processing when analysis is started in the analyzer control system according to the embodiment of the present invention.

  First, it is assumed that the analysis device A1 is currently performing analysis under the control of the analysis device control server AS1, and the analysis devices A2 and A3 are performing analysis under the control of the analysis device control server AS2. . The operating status monitoring unit 2 of the system server SS always monitors the operating status of each of the analyzer control servers AS1, AS2, and AS3.

  Here, it is assumed that the user operates the client computer T1 and inputs a use request for executing an analysis using the analyzer A4 (the use request is not necessarily input from the user, but is set in advance. It may be given automatically according to the conditions.) Upon receiving this use request, the control server selection unit 3 of the system server SS refers to the operation status of each analysis device control server monitored by the operation status monitoring unit 2, and the analysis device control server having the smallest load (current The analysis apparatus control server AS3 (which does not control the analysis apparatus) is specified, and this analysis apparatus control server AS3 is connected to the analysis apparatus A4. That is, the analyzer A4 is set to be controlled by the analyzer control server AS3.

  The load on the analyzer control server includes, for example, the operating status of the CPU and memory of each analyzer control server, the number of connected (ie, controlling) analyzers, and the analysis progress of the controlling analyzer It may be obtained based on the above. When taking into account the progress of the analysis being performed by the analyzer under control, the load after a certain period of time, the analysis end time, etc. are also predicted in consideration of the schedule of each analyzer accumulated in advance. Thus, the optimal analyzer control server may be selected in such a way that the load is the lowest overall.

  Next, processing when a failure occurs in one of the analyzer control servers in the system 1 will be described with reference to FIGS. 3 and 4. FIG. 3 is a conceptual diagram showing the process of the analysis condition information transmitting unit in the analyzer control system according to one embodiment of the present invention, and FIG. 4 is a conceptual diagram showing the process when a problem occurs in the analyzer control server. is there.

  First, as shown in FIG. 3, the analyzer A1 is currently under the control of the analyzer control server AS1, the analyzer A2 is under the control of the analyzer control server AS2, and the analyzers A3 and A4 are under the control of the analyzer control server AS3. Assume that each analysis is performed under control.

  In the meantime, the analysis condition information transmitting unit 6 of the analysis device control servers AS1 to AS3 uses the analysis condition information F1 to F4 of the analysis devices controlled by the analysis device control servers AS1 to AS3 at regular time intervals and analysis condition information. Transmit at a predetermined timing such as when there is a change. On the other hand, the system server SS saves the analysis condition information F1 to F4 sent from each analysis device control server AS1 to AS3 in the analysis condition information storage unit 4 as needed.

  At this time, as shown in FIG. 4, it is assumed that a problem has occurred in the analyzer control server AS2. Thereby, the analysis in analyzer A2 stops. On the other hand, the analysis condition recovery unit 5 of the system server SS detects that a failure has occurred in the analysis apparatus control server AS2. When the analysis is automatically restarted based on an instruction from the user or based on an automatic recovery start instruction set in advance, the control server selection unit 3 uses the monitoring based on the monitoring of the operation status monitoring unit 2 It is determined which of the possible analyzer control servers AS1 and AS3 has a smaller load. In the present embodiment, it is determined that the analysis apparatus control server AS1 that controls only one analysis apparatus has a smaller load than the analysis apparatus control server AS3 that controls two analysis apparatuses.

  Based on this determination, the analysis condition restoration unit 5 selects the analysis condition information F2 stored in the analysis condition information storage unit 4 with respect to the analysis device A2 controlled by the analysis device control server AS2 by the control server selection unit 3. To the analysis apparatus control server AS1. Since the analysis condition information F2 stored in the analysis condition information storage unit 4 is information immediately before a failure occurs in the analysis apparatus control server AS2, the analysis apparatus control server AS1 promptly restarts the analysis in the analysis apparatus A2. Can do.

  As mentioned above, although the analyzer control system according to the present invention has been described using the embodiments, it is clear that the above is only an example, and changes, modifications, or additions are made as appropriate within the scope of the present invention. It doesn't matter.

  For example, in a general analyzer control system, when a problem occurs in a system server that controls and controls the entire system, the entire system including the analysis being executed may stop. However, in the analysis apparatus control system according to the present invention, even if the analysis apparatus control server detects that a failure has occurred in the system server, it continues the analysis being performed in the analysis apparatus controlled at that time. And then run it. Thereby, the stability of the whole system can be improved. Further, since it is not necessary to duplicate system servers, the cost can be reduced.

  In the above embodiment, the two networks of the system network NW1 and the device network NW2 are provided. However, this is a configuration for improving the stability of the system, and all devices and servers are connected within one network. Of course, it does not matter even if the network system form is adopted.

DESCRIPTION OF SYMBOLS 1 ... Analysis apparatus control system 2 ... Operation condition monitoring part 3 ... Control server selection part 4 ... Analysis condition information storage part 5 ... Analysis condition restoration part 6 ... Analysis condition information transmission part NW1 ... System network NW2 ... Apparatus network A1-A4 ... Analyzing devices AS1 to AS3 ... Analyzing device control server SS ... System server

Claims (6)

A plurality of analyzers, a plurality of analyzer control servers that control the analyzer and collect data based on analysis condition information that is data relating to settings of each analyzer, a system server that controls the entire system, Is a network-connected analyzer control system formed by being connected via a network,
The system server is
An operating status monitoring unit that monitors the operating status of each of the plurality of analyzer control servers;
When a usage request for an analyzer is received, an optimal analyzer control server at that time is selected based on the operating status of each analyzer control server monitored by the operating status monitoring unit. A control server selection unit for connecting the analyzer control server connected to the analyzer,
An analyzer control system comprising:   The analyzer control system according to claim 1, wherein the control server selection unit selects an analyzer control server having the smallest load at that time.   The control server selection unit controls the analyzer so that the load is averaged within a predetermined period in consideration of the expected analysis time of the analyzer requested to be used and the schedule of each analyzer accumulated in advance. 2. The analyzer control system according to claim 1, wherein a server is selected. The analyzer control server is
An analysis condition information transmitting unit that transmits analysis condition information of the analyzer to the system server at a predetermined timing,
The system server further includes:
An analysis condition information storage unit for storing analysis condition information transmitted from the analyzer control server;
The analysis condition information stored in the analysis condition information storage unit is related to the analysis apparatus controlled by the analysis apparatus control server when the analysis is resumed after a failure occurs in a certain analysis apparatus control server. An analysis condition recovery unit for transmitting to the analyzer control server selected by the control server selection unit;
The analyzer control system according to any one of claims 1 to 3, further comprising:   5. The analysis device according to claim 1, wherein when the analysis device control server detects that a failure has occurred in the system server, the analysis device being controlled is continuously executed. The analyzer control system according to any one of the above. A plurality of analyzers, a plurality of analyzer control servers that control the analyzer and collect data based on analysis condition information that is data relating to settings of each analyzer, a system server that controls the entire system, In the network connection type analyzer control system, which is connected through a network, the system server includes:
An operating status monitoring unit that monitors the operating status of each of the plurality of analyzer control servers;
When a usage request for an analyzer is received, an optimal analyzer control server at that time is selected based on the operating status of each analyzer control server monitored by the operating status monitoring unit. A control server selection unit for connecting the analyzer control server connected to the analyzer,
A system server program for an analyzer control system for functioning.

Images