JP2007170844A - Measuring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To realize a measuring system capable of automatically adding additional information and with respect to acquire measured data and storing them. <P>SOLUTION: The measuring system, which is a system that uses a data collecting means capable of acquiring data, comprises a server for storing and managing the measured data; a database server for managing an addition information database in an integrated fashion; and the data-collecting means which downloads the additional information database from the database server via a network, selects additional information to be added from the additional information database and adds the selected additional information to the measured data at a measurement time, and uploads the measured data with the additional information to the server via the network, as needed. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a measurement system using a data collection means capable of acquiring a large amount of data at a site such as a digital oscilloscope, a logic analyzer, and a protocol analyzer, and in particular, automatically adds additional information to the acquired data. The present invention relates to a measurement system that can be added and stored.

  Prior art documents related to conventional measurement systems include the following.

Japanese Patent Laid-Open No. 04-064210 JP 07-296296 A JP-A-10-320159 JP 2001-257146 A

  FIG. 3 is a configuration block diagram showing an example of a conventional measurement system. In FIG. 3, reference numeral 1 is a measuring instrument which is a data collecting means capable of acquiring a large amount of data in the field such as a digital oscilloscope, logic analyzer, protocol analyzer, etc., 2 is a server for storing and managing measurement data, and 100 is the Internet. , A general-purpose network such as a WAN (Wide Area Network) and a LAN (Local Area Network).

  The measuring instrument 1 is connected to the network 100 and the server 2 is also connected to the network 100.

  Here, the operation of the conventional example shown in FIG. 3 will be described. The measuring instrument 1 performs measurement on a measurement target (not shown) based on the operation of the operator and acquires measurement data.

  For example, if the measuring instrument 1 is a digital oscilloscope, various waveform data are acquired as measurement data from the measurement target. Further, for example, if the measuring instrument 1 is a protocol analyzer, a packet propagating through the measurement target is acquired and the protocol and data are analyzed.

  Furthermore, for example, the measuring instrument 1 can add information contained in the measuring instrument 1 such as date and measurement conditions to the acquired measurement data simultaneously with data acquisition.

  After acquiring the measurement data, the measuring instrument 1 uploads the measurement data to the server 2 via the network 100 as necessary when the measurement data is to be analyzed or reused thereafter. And the server 2 which received measurement data preserve | saves the received measurement data in memory | storage means, such as its hard disk.

  For example, if the measurement data stored and managed in the server 2 is various waveform data, the waveform data will be analyzed later, or if the measurement data stored and managed in the server 2 is packet data, the packet Data can be propagated to the measurement target and reused.

  As a result, by uploading the measurement data measured by the measuring instrument 1 to the server 2 for storage management, it becomes possible to analyze the measurement data and reuse the measurement data at a later date.

However, in the conventional example as shown in FIG. 3, the information that can be added to the acquired data by the measuring instrument 1 is limited to the information that the measuring instrument 1 has,
(1) What the operator has selected when there are multiple physical objects to be measured.
(2) The surrounding environment at the time of measurement.
(3) Measurement purpose, customer information, operator information, etc.
(4) Detailed information about other measurement targets.
There was a problem that it was not possible to add effective information such as this, which hindered effective reuse of measurement data.
Therefore, a problem to be solved by the present invention is to realize a measurement system that can automatically add additional information to the acquired measurement data and save it.

In order to achieve such a problem, the invention according to claim 1 of the present invention is:
In a measurement system using data collection means capable of acquiring data,
A server for storing and managing measurement data, a database server for centrally managing the additional information database, and downloading the additional information database from the database server via a network, and measuring the additional information database during measurement. Acquired by including data collection means for selecting and adding additional information to be added to data, and uploading the measurement data with additional information added to the server via the network, if necessary Additional information can be automatically added to the measurement data and saved.

The invention according to claim 2
In a measurement system using data collection means capable of acquiring data,
A server for storing and managing measurement data and managing the additional information database centrally, and downloading the additional information database from the server via a network and adding it to the measurement data measured from the additional information database at the time of measurement. Data acquisition means for selecting and adding additional information to be added, and uploading the measurement data with additional information added to the server via the network, if necessary. Thus, additional information can be automatically added and saved.

The invention described in claim 3
A measurement system according to claim 1 or claim 2,
By providing an input means for directly inputting the additional information to the data collection means, it becomes possible to add additional information that does not exist in the additional information database to be stored in the measurement data. .

The invention according to claim 4
A measurement system according to any one of claims 1 to 3,
The data collection means is
By being a measuring instrument, additional information can be automatically added to the acquired measurement data and stored. Further, even additional information that does not exist in the additional information database can be added to the measurement data and stored.

The invention according to claim 5
A measurement system according to any one of claims 1 to 3,
The data collection means is
By being a sensor, additional information can be automatically added to the acquired measurement data and stored. Further, even additional information that does not exist in the additional information database can be added to the measurement data and stored.

The present invention has the following effects.
According to the first, second, fourth, and fifth inventions, the additional information database is downloaded from the database server to the data collecting means, and the additional information to be added to the measurement data measured from the additional information database at the time of measurement. By selecting and adding (associating) and uploading to the server as necessary, it becomes possible to automatically add additional information to the acquired measurement data and save it.

  According to the third, fourth and fifth aspects of the present invention, since the additional means for directly inputting the additional information to the data collecting means is provided, even if the additional information does not exist in the additional information database, the measurement data Can be added to and saved.

  Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing the configuration of an embodiment of a measurement system according to the present invention.

  In FIG. 1, 3 is an input means such as an operation button or a keyboard for directly inputting additional information that cannot be automatically added, and 4 is capable of acquiring a large amount of data at a site such as a digital oscilloscope, a logic analyzer, or a protocol analyzer. 1 is a database server that centrally manages an additional information database ("DB01" in FIG. 1), 6 is a server that stores and manages measurement data, 101 is a general-purpose device such as the Internet, WAN, and LAN. It is a network.

  The input means 3 is connected to the measuring instrument 4, and the measuring instrument 4 is connected to the network 101. The database server 5 and the server 6 are also connected to the network 101.

  Here, the operation of the embodiment shown in FIG. 1 will be described with reference to FIG. FIG. 2 is a flowchart for explaining the operation of a measurement system (specifically, a measuring instrument). In “S001” in FIG. 2, the measuring instrument 4 downloads the additional information database from the database server 5 via the network 101.

  For example, the measuring instrument 4 downloads an additional information database such as “DB01” in FIG. 1 from the database server 5 via the network 101.

Specifically, the additional information database is information that does not exist inside the measuring instrument 4,
(1) Additional information on measuring instruments.
Instrument specifications, specific information, internal status, instrument management department, etc. (2) Additional information on the operator.
Affiliation, user, instrument specifications, friendship information, internal status, etc. (3) Additional information on the measurement object.
(4) Additional information regarding measurement purposes.
Research, development, production preparation, diagnosis, troubleshooting, etc. (5) Additional information on measurement analysis.
It is a database related to additional information such as analysis algorithms.

  In “S002” in FIG. 2, the measuring instrument 4 performs measurement on the measurement target (not shown) and acquires measurement data. In “S003” in FIG. 2, the measuring instrument 4 downloads the additional information that has been downloaded. The additional information to be added to the measurement data is selected from the database and added (associated).

  In “S004” in FIG. 2, the measuring instrument 4 determines whether or not the additional information is directly input from the input means 3, and if it is determined that the additional information is directly input, “S005” in FIG. The additional information directly input from the input means 3 is acquired and added (associated) with the measurement data.

  If it is determined that the additional information is not directly input from the input means 3 in “S004” in FIG. 2, the process proceeds to the step shown in “S006” in FIG.

  Finally, in “S006” in FIG. 2, the measuring instrument 4 sends the measurement data to which additional information is added as necessary via the network 101 when the measurement data is analyzed or reused thereafter. Upload to. Then, the server 6 that has received the measurement data to which the additional information is added stores the received measurement data in a storage unit such as its own hard disk.

  As a result, the additional information database is downloaded from the database server 5 to the measuring instrument 4, and additional information to be added to the measurement data measured from the additional information database is selected and added (associated) during measurement. By uploading to the server 6, additional information can be automatically added to the acquired measurement data and stored.

  Further, by directly inputting additional information from the input means 3 to the measuring instrument 4, even additional information that does not exist in the additional information database can be added to the measurement data and stored.

  In the embodiment shown in FIG. 1, the database server 5 and the server 6 are described as separate servers for simplicity of explanation, but of course, the integrated management function of the additional information database on one server, The measurement data may be provided with a storage management function.

  In the embodiment shown in FIG. 1, the input unit 3 for directly inputting additional information to the measuring instrument 4 is illustrated, but the input unit 3 is not an essential component.

  Further, in the embodiment shown in FIG. 1, a measuring instrument is illustrated as the data collecting means, but the data collecting means may be a sensor in the control system.

1 is a configuration block diagram showing an embodiment of a measurement system according to the present invention. It is a flowchart explaining operation | movement of a measurement system (specifically measuring instrument). It is a block diagram showing an example of a conventional measurement system.

Explanation of symbols

1, 4 Measuring instrument 2, 6 Server 3 Input means 5 Database server 100, 101 Network

Claims (5)

In a measurement system using data collection means capable of acquiring data,
A server for storing and managing measurement data;
A database server that centrally manages the additional information database;
The additional information database is downloaded from the database server via the network, and additional information to be added to the measurement data measured from the additional information database is selected and added at the time of measurement. A data collection means for uploading the measurement data to which data is added to the server via the network. In a measurement system using data collection means capable of acquiring data,
A server for storing and managing measurement data and managing the additional information database centrally;
The additional information database is downloaded from the server via the network, and additional information to be added to the measurement data measured from the additional information database is selected and added at the time of measurement. A measurement system comprising: data collection means for uploading the added measurement data to the server via the network. The measurement system according to claim 1, further comprising an input unit configured to directly input the additional information to the data collection unit. The data collection means is
The measurement system according to claim 1, wherein the measurement system is a measuring instrument. The data collection means is
The measurement system according to claim 1, wherein the measurement system is a sensor.

Images