JP4990452B2 - Analysis data writer, analysis data file, analysis data reader, and analysis data file distribution method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an analysis data writer, an analysis data file, an analysis data reader, and an analysis data file distribution method, and more particularly to distribution of an analysis data file obtained by an analysis means and improvement of usability of the distributed analysis data file.
[0002]
[Prior art]
For example, in the field of analytical instruments, users often compare analytical data such as spectra measured with analytical instruments with standard analytical data such as standard spectra provided by analytical instrument manufacturers. Also, analysis data is often exchanged between users for presentations at academic conferences, for example. As described above, in the field of analytical instruments, for example, analytical instrument manufacturers and users and users, and users exchange analytical data such as spectra every day.
[0003]
Conventionally, as a method of distributing analysis data obtained by an analytical instrument, a sending side prints analysis data such as a spectrum on paper and provides it to a user by FAX or mail.
Then, the receiving side enlarges or shrinks the graph paper such as the spectrum to a desired size and pastes it on a document or the like, or pastes it together with other analysis data. Conventionally, analysis data such as a spectrum obtained by an analytical instrument in this way has been exchanged.
[0004]
[Problems to be solved by the invention]
However, it has been time consuming and cumbersome to exchange the analysis data obtained by the analytical instrument on paper, such as printing it on paper and providing it by fax or mail as in the past.
In addition, a graph such as a spectrum provided by a sending side generally has a desired graph display, for example, a size different for each receiving side, each purpose of use, and the like. For this reason, it is difficult for the receiving side to use the obtained graph such as a spectrum as it is, and there is room for improvement in its usability. Especially in the field of analytical instruments, this problem was more serious because of the large number of analytical data.
[0005]
The present invention has been made in view of the above-described problems of the prior art, and its purpose is to facilitate the distribution of analysis data obtained by an analytical instrument and to improve the usability of the distributed analytical data in the field of an analytical instrument. An analysis data writer, an analysis data file, an analysis data reader, and an analysis data file distribution method are provided.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the analysis data writer according to the present invention displays the analysis data obtained by the analysis means in a graph on the external output means by a specific analysis data reader, and the analysis data reader uses the essence of the analysis data. An analysis data writer for creating an analysis data file in which a specific graph display can be changed without changing, the source information storage means, the data storage means, the display definition information storage means, the data associated information storage means, and the file Creating means.
[0007]
  Here, the origin information storage means stores origin information indicating the origin from which the analysis data file was created.
  The data storage means stores analysis data obtained by the analysis means.
  The display definition information storage means displays the analysis data obtained by the analysis means in a graph on an external output means by a specific analysis data reader, and displays the specific graph without changing the essence of the analysis data by the analysis data reader. Display definition information for displaying the analysis data of the data storage means as a graph is stored.
  The data accompanying information storage means stores data accompanying information including a device configuration and measurement conditions of the analyzing means when the analysis data is obtained.
  When the file creation means is instructed to create the analysis data file, the origin information in the origin information storage means, the analysis data in the data storage means, the display definition information in the display definition information storage means, and the data attachment The data accompanying information in the information storage means can be read by a specific analysis data reader at a predetermined position of the analysis data file, and cannot be rewritten.A flag is automatically added when access is restricted and information with restricted access is forcibly rewritten.To create the analysis data file.
[0008]
In order to achieve the above object, an analysis data file according to the present invention is an analysis data file that is created by a specific analysis data writer and that can be read by a specific analysis data reader. And a display definition section and a data associated information section.
[0009]
  Here, the origin information section is configured such that the origin information indicating the origin from which the analysis data file is created can be read by the analysis data reader and cannot be rewritten.Restrict access to beRemembered.
  Further, the data definition unit can read the analysis data obtained by the analysis means with the analysis data reader and cannot rewrite the analysis data.Restrict access to beRemembered.
  The display definition unit displays the analysis data of the data definition unit in a graph on an external output means by a specific analysis data reader, and the specific graph display can be changed without changing the essence of the analysis data by the analysis data reader Thus, the display definition information for displaying the analysis data of the data definition section in a graph can be read by the analysis data reader and cannot be rewritten.Restrict access to beRemembered.
  The data incidental information section can read the data incidental information including the device configuration and measurement conditions of the analyzing means when the analysis data is obtained by the analysis data reader and cannot be rewritten.Restrict access to beRemembered.
[0010]
In order to achieve the above object, an analysis data reader according to the present invention reads an analysis data file created by a specific analysis data writer, causes an external output means to display the analysis data of the analysis data file in a graph, and An analysis data reader capable of changing the graph display without changing the essence of the analysis data, comprising a reading means, a graph display designating means, and a graph display changing means.
[0011]
Here, the reading means reads the analysis data file and causes the external output means to display the analysis data in a graph.
The display designating unit designates a desired graph display for the graph display displayed on the external output unit.
The display change means changes the graph display by the external output means to the graph display designated by the display designation means without changing the essence of the analysis data.
[0012]
In order to achieve the above object, an analysis data file distribution method according to the present invention includes an analysis data file creation step, an analysis data file distribution step, and an analysis data file reading step, and the analysis data file reading step. If the graph display obtained in step 1 is not a desired graph display, a graph display designation step and a graph display change step are provided.
[0013]
Here, the analysis data file creation step creates the analysis data file by the analysis data writer.
The analysis data file distribution step distributes the analysis data file created in the analysis data file creation step.
In the analysis data file reading step, the analysis data file distributed in the analysis data file distribution step is read by the analysis data reader and displayed in a graph on the external output means.
The graph display designation step designates a desired graph display for the graph display displayed on the external output means.
In the graph display changing step, the graph display in the external output means is changed to the graph display designated in the display designation step without changing the essence of the analysis data.
[0014]
The analysis means mentioned here refers to any means that can display analysis data such as a spectrophotometer and a chromatograph in a graph.
The analysis data here refers to, for example, a numerical data group of data at equal intervals or unequal intervals.
The device configuration of the analysis means included in the data accompanying information here refers to, for example, a device name and the like, and the configuration can be specified by the device name.
The measurement conditions here refer to, for example, an analysis mode, an analysis method, sample information, and the like.
The analysis mode refers to, for example, the setting state of the apparatus when collecting analysis data. This analysis method refers to, for example, transmission and reflection, and this sample information refers to, for example, a sample name, a sample amount, and the like.
[0015]
The fact that the specific graph display can be changed without changing the essence of the analysis data here means that the scale of the axis, the scale of the axis can be changed by changing the graph display such as the scale of the axis and the start point and end point of the axis. The display position of each data point is changed in accordance with the change of the start point and the end point, etc., and the positional relationship in each axis direction is kept constant.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a preferred embodiment of the present invention will be described with reference to the drawings.
How to distribute analysis data files
FIG. 1 shows a schematic configuration of hardware elements for performing an analysis data file distribution method according to the present embodiment.
The hardware elements shown in the figure include an analysis means 10, an analysis data writer 12, and an analysis data reader 14.
[0017]
The analysis data writer 12 is provided with an input / output interface 16, and each analysis data reader 14 is provided with input / output interfaces 18a and 18b. The interfaces 16 and 18 are connected by a signal line 20 such as a telephone line or a LAN, for example, and the analysis data writer 12 and the analysis data reader 14 are connected.
[0018]
The analysis data writer 12 is composed of a computer, for example, and is connected to an analysis means capable of displaying the analysis data such as a spectrophotometer and a chromatograph in a graph.
The analysis data writer 12 displays the analysis data obtained by the analysis means 10 on the display (external output means) 22 by a specific analysis data reader 14 and does not change the essence of the analysis data by the analysis data reader 14. An analysis data file 24 whose specific graph display can be changed is created.
[0019]
The analysis data writer 12 has a server function in addition to the analysis data file 24 creation function. Therefore, the analysis data writer 12 created by the analysis data writer 12 can be transmitted by the analysis data writer 12 to the analysis data reader 14 on the Internet, for example, via the interfaces 16 and 18 and the signal line 20.
The analysis data file 24 is created by the analysis data writer 12 and can be read by the analysis data reader 14.
[0020]
The analysis data readers 14a and 14b are made of a computer, for example, and read the analysis data file 24 created by the analysis data writer 12, and display the contents of the analysis data file 24, at least the analysis data, on the displays 22a and 22b as a graph. The graph display can be changed without changing the essence of the analysis data.
[0021]
The hardware elements for performing the method of distributing the analysis data file according to the present embodiment are roughly configured as described above, and the operation thereof will be described below.
First, as a method of distributing analysis data, a method in which a graph or the like printed on paper is generally exchanged by fax or mail, but it is time-consuming and troublesome.
[0022]
Therefore, in this embodiment, the analysis data obtained by the analysis means 10 is digitized by the analysis data writer 12 in order to facilitate the distribution of the analysis data.
Thereby, in this embodiment, it is not necessary to print the analysis data on paper, and for example, the digitized analysis data file 24 can be easily distributed as it is via the Internet, mail, or the like.
[0023]
Here, in the field of analytical instruments, when the one distributed as described above is obtained, it is necessary to adjust the size of the graph on the display, but it is relatively easy to simply change the magnification of the entire graph. However, for example, if the magnification is changed in units of each axis, such as only the horizontal axis or only the vertical axis, the positional relationship in each axis direction of the graph may not be known, and the accurate positional relationship may not be maintained. This is not a problem with general graphics, but in the field of analytical instruments that handle graphs such as spectra where the positional relationship in each axis direction of the graph is very important, the analysis data itself Because it changed the essence, there was room for improvement in its usability.
[0024]
Therefore, in the present embodiment, in order to further improve the usability of the analysis file data in the field of analytical instruments, the essence of the analysis data obtained by the analysis means by the analysis data reader when the data file is created by the analysis data writer. The data file is created so that the graph display can be changed without changing.
For this purpose, the analysis data file distribution method according to the present embodiment includes an analysis data file creation step (S10) as shown in FIG.
[0025]
In the analysis data file creation step (S10), the analysis data writer 12 creates the analysis data file 24.
The analysis data file distribution method according to the present embodiment includes an analysis data file distribution step (S12) and an analysis data file reading step (S14).
The analysis data file distribution step (S12) distributes the analysis data file 24 created in the analysis data file creation step (S10).
[0026]
In the analysis data file reading step (S14), the analysis data file 24 distributed in the analysis data file distribution step (S12) is read by the analysis data reader 14 and displayed on the display 22 as a graph.
It is determined whether this graph display is a desired graph display (S16).
If it is determined that the graph display is the desired graph display, the necessary work in the subsequent stage is performed. On the other hand, if it is determined that the graph display is not the desired graph display, the process proceeds to a graph display designation step (S18) and a graph display change step (S20) as necessary.
[0027]
The graph display designation step (S18) designates a desired graph display for the graph display displayed on the display 22 in the analysis data file reading step (S14).
In the graph display changing step (S20), the graph display on the display 22 is changed to the graph display specified in the graph display specifying step (S18) without changing the essence of the analysis data.
[0028]
It is determined whether this graph display is a desired graph display (S22). If it is determined that the graph display is the desired graph display, the necessary work in the subsequent stage is performed. On the other hand, if it is determined that the graph display is not the desired graph display, the graph display designating step (S18) and the graph display changing step (S20) are repeated until the desired graph display is obtained.
[0029]
As described above, according to the analysis data file distribution method according to the present embodiment, the analysis data writer 12 digitizes the analysis data, creates the analysis data file 24, and distributes it on the Internet, for example. As a result, the analysis data file 24 can be easily distributed.
[0030]
Moreover, in this embodiment, when the analysis data file 24 is created, the analysis data writer 12 can change the graph display without changing the essence of the analysis data obtained by the analysis means 10 by the analysis data reader 14. Thus, the data file 24 is created. The analysis data file 24 thus created is read by the analysis data reader 14, and the graph display can be changed without changing the essence of the analysis data obtained by the analysis means 10.
[0031]
As a result, in the present embodiment, the analysis data reader 14 can easily arrange the graph display in a desired size and the like without changing the essence of the analysis data in the analysis data file 24. The usability of the data file 24 in the field of analytical equipment can be improved.
[0032]
In the above configuration, an example in which the analysis data writer 12 has a server function has been described. However, the server function may be separated and provided in another computer or the like.
In the above configuration, an example in which the analysis data file is distributed via the signal line 20 has been described. However, it is preferable to use the signal line 20 in terms of shortening the time from distribution to acquisition, There is also a method in which the analysis data file 24 created by the data writer 12 is dropped on an arbitrary recording medium such as a floppy disk and distributed.
[0033]
Analysis data writer
FIG. 3 shows a schematic configuration of the analysis data writer 12 according to the present embodiment.
The analysis data writer 12 shown in the figure includes a computer main body 30, an external output means (display) 32, and an input device 34 such as a keyboard and a mouse.
The computer main body 30 includes a CPU 36 and an HDD 38. The CPU 36 of the computer main body 30 is connected to the analysis means 10.
[0034]
Information necessary for creating an analysis data file such as analysis data and data associated information from the analysis means 10 is input to the CPU 36 of the computer main body 30, and the CPU 36 stores the information in a predetermined position of the HDD 38.
The HDD 38 includes a source information storage unit 40, a data storage unit 42, a display definition information storage unit 44, a data associated information storage unit 46, a data processing history storage unit 48, a data processing result storage unit 50, and analysis data. File storage means 52 is provided.
[0035]
Here, the origin information storage means 40 stores the origin of the analysis data file 24, for example, identification information such as Jasco. In addition, for example, a file size, a Kanji code, a marker, a model name of data measurement, a file format version, and the like can be defined.
The data storage means 42 stores the analysis data obtained by the analysis means 10. For example, the analysis data can be defined by numerical data of points at equal intervals or irregular intervals, for example.
[0036]
The display definition information storage means 44 displays a spectrum or the like on the display 22 by a specific analysis data reader 14 based on the numerical data of the data points obtained by the analysis means 10, and displays the spectrum display as the analysis. In order to display the graph by associating the axis information or the like with the numerical data of each point of the data storage means 42 so that the desired graph display such as the change of the axis magnification can be changed without changing the essence of the data. The display definition information is stored. As this display definition information, for example, the unit of the horizontal axis as described above (for example, wave number cm)^-1), The unit of the vertical axis (for example, transmittance% T), the range of the horizontal axis (for example, 4000-400), the range of the vertical axis (for example, 0-70), and the like can also be defined.
[0037]
The data accompanying information storage means 46 stores data accompanying information including the apparatus configuration of the analyzing means 10 when the numerical data is obtained and measurement conditions. For example, the device configuration of the analysis means 10 can be defined by a device name such as FTIR. The measurement conditions are defined by the measurement mode, measurement method, sample name, sample amount, etc. of the analysis means 10. In addition, the device serial number, the measurer, the affiliation of the measurer, the measurement date and time, the final calculation date and time, etc. can be defined.
[0038]
The data processing history storage means 48 defines, for example, data processing date and time, data processing content, and the like.
The data processing result storage means 50 includes, for example, peak position, height, height ratio, area, area ratio, half width, curve fitting (peak position, height, half width, fitting curve, etc.), film thickness calculation, and color. Define processing results such as calculation, multi-component analysis (including exhaust gas analysis), melting, kinetics, solar transmittance, spectrum search (linked file path), higher-order structure analysis, smoothing, etc. For example, in peak detection, the number of results, the actual number of peaks, the noise level, etc. are defined.
[0039]
The CPU 36 includes file creation means 54.
When an instruction to create an analysis data file is given from the input device 34, the file creation means 54 reads necessary information from the HDD 38, and puts each piece of information at a predetermined position in the analysis data file 24. The analysis data file 24 is created by writing so that it can be read by the reader and cannot be rewritten.
[0040]
For example, in the present embodiment, the origin information of the origin information storage unit 40, the analysis data of the data storage unit 42, the display definition information of the display definition information storage unit 44, and the data incidental information of the data associated information storage unit 46 are included. The analysis data file 24 is created at a predetermined position of the analysis data file so that it can be read by a specific analysis data reader and cannot be rewritten, and the analysis data file 24 is created and stored in the analysis data file storage unit 52.
[0041]
The analysis data file 24 created in this way and stored in the analysis data file storage unit 52 is output to, for example, the Internet via the input / output interface 16 in response to a signal requesting download from another computer, for example. And sent to that computer.
[0042]
The analysis data file writer 12 according to the present embodiment includes a comment storage unit 56 in the HDD 38. The analysis data file writer 12 creates a comment part at a predetermined position of the analysis data file 24 when the analysis data file 24 is created, and the comment of the comment storage means 56 can be written and rewritten by a specific analysis data reader in the comment part. Yes.
[0043]
The analysis data writer 12 according to the present embodiment is configured as described above, and its operation will be described below.
First, a method of exchanging a spectrum or the like printed on paper by FAX or mail has been generally used, but it takes time and is troublesome.
[0044]
Therefore, in the present embodiment, the analysis data obtained by the analysis means is digitized by the analysis data writer 12 in order to facilitate the distribution of the analysis data.
First, information necessary for creating an analysis data file such as analysis data from the analysis means 10 and data accompanying information is stored in a predetermined position of the HDD 38 of the computer main body 30.
Then, when an instruction to create the analysis data file 24 is given from the input device 34, the file creation means 54 reads necessary information in the HDD 38, and specifies each information at a predetermined position in the analysis data file 24. The analysis data file 24 is created so that it can be read by the analysis data reader and cannot be rewritten.
[0045]
In this embodiment, for example, the origin information of the origin information storage means 40, the analysis data of the data storage means 42, the display definition information of the display definition information storage means 44, the data incidental information of the data accompanying information storage means 46, and the like. The analysis data file 24 is created by writing in a predetermined position of the analysis data file 24 so that it can be read by a specific analysis data reader and cannot be rewritten.
Thus, in the present embodiment, the sending side does not need to print the analysis data on paper, and for example, the digitized analysis data file 24 can be easily distributed as it is via the Internet or e-mail.
[0046]
Here, in the field of analytical instruments, when the one distributed as described above is obtained, it is necessary to adjust the size of the graph on the display, but it is relatively easy to simply change the magnification of the entire graph. However, for example, if the magnification is changed in units of each axis such as only the horizontal axis or only the vertical axis, the positional relationship in the respective axis directions of the graph may not be known and may not be accurately maintained. This is not a problem with general graphics, but in the field of analytical instruments that handle graphs such as spectra where the positional relationship in each axis direction of the graph is very important, the analysis data itself Because it changed the essence, there was room for improvement in its usability.
[0047]
Therefore, in the present embodiment, in order to further improve the usability of the analysis file data in the field of analysis equipment, when the analysis data file 24 is created by the analysis data writer 12, the analysis obtained by the analysis means by the analysis data reader The analysis data file 24 is created so that the desired graph display can be changed, such as changing the magnification of an axis such as a spectrum, without changing the essence of the data.
Therefore, in the present embodiment, the display definition information storage means 44 causes the analysis data obtained by the analysis means 10 to be displayed in a graph on the display 22 by the specific analysis data reader 14, and the essence of the analysis data is not changed. The display definition information for displaying the graph is stored so that the specific graph display can be changed, that is, the axis information or the like is associated with the numerical data of each point of the data storage means 42 constituting the graph.
[0048]
When an instruction to create an analysis data file is given from the input device 34, when the file creation means 54 creates a file, the display definition information in the display definition information storage means 44 is stored in the analysis data file. When writing in the position and reading the analysis data file with a specific analysis data reader, the axis information is associated with the numerical data of each point so that a graph or the like can be displayed. In addition, since each point on the graph has position information in each axial direction, an analysis data file in which a specific graph display can be changed without changing the essence of the analysis data can be created.
[0049]
In this case, if the source data, data incidental information, etc. are changed by mistake, such as the numerical data related to the essence of the analysis data and the contents of the display definition information, the original information will be changed. Therefore, it is necessary to take countermeasures against misoperation in the field of analytical instruments.
Therefore, in this embodiment, the comments in the analysis data file are rewritable by the analysis data writer and reader according to this embodiment, but the source information, analysis data, display definition information, and data associated information are filed by the file creation means. For example, the file is created so that it can be read by a specific analysis data reader and cannot be rewritten.
[0050]
In this embodiment, when information with restricted access in the created analysis data file is forcibly rewritten, a flag or the like is automatically added to the position where the information is present to notify that there has been a change. So that the file is created.
For this reason, in this embodiment, the contents of the source information, the data accompanying information, etc. as well as the numerical data related to the essence of the analysis data of the file and the contents of the display definition information are erroneously overwritten or changed. In addition to preventing it, even if it is changed, the file is created so that some traces such as a flag remain, so it is possible to easily determine whether the content of the file is the original one. .
[0051]
The analysis data file 24 created in this way and stored in the analysis data file storage unit 52 is, for example, another signal on the Internet via the input / output interface 16 by a signal instructing a request from another computer. Sent to other computers.
As described above, according to the analysis data writer 12 according to the present embodiment, when an instruction to create the analysis data file 24 is given from the input device 34, for example, the origin information in the origin information storage means 40 and the data storage means 42 The analysis data obtained by the analysis means, the display definition information in the display definition information storage means 44, the data accompanying information in the data accompanying information storage means 46, etc. are respectively placed at predetermined positions in the analysis data file by a specific analysis data reader. It is provided with a file creation means 54 for writing and creating the analysis data file so that it can be read and cannot be rewritten.
[0052]
As a result, according to the analysis data writer 12 according to the present embodiment, the analysis data obtained by the analysis means 10 is displayed in a graph by a specific analysis data reader, and a specific graph display is performed without changing the essence of the analysis data. Can be created, so that it can be easily distributed on the Internet or the like.
[0053]
Analysis data file
FIG. 4 shows the file structure of the analysis file data 24 according to this embodiment.
The analysis data file 24 shown in the figure includes an origin information section 60, a data definition section 62, a display definition section 64, a data associated information section 66, a data processing history section 68, a data processing result section 70, a comment. Part 72 is provided.
Here, in the origin information section 60, identification information indicating the origin from which the analysis data file 24 is created is described by the analysis data writer according to the present embodiment. The contents can be read by a specific analysis data reader and cannot be rewritten. As the source information, for example, identification information such as Jasco can be used. In addition, for example, a file size, a kanji code, a marker, a model name for which data measurement has been performed, a file format version, and the like can also be described.
[0054]
In the data definition unit 62, the analysis data obtained by the analysis means is described by the analysis data writer according to the present embodiment. The contents can be read by a specific analysis data reader and cannot be rewritten. As this data, for example, numerical data of data points at equal intervals or irregular intervals can be described.
[0055]
Specifically, for example, the type of the X-axis data string, that is, whether the data points are equally spaced or not spaced is described.
For example, in equidistant data, the horizontal axis data start value, data end value, data pitch, etc. are defined, and by this, each horizontal data value can be defined. It has been.
On the other hand, with unequal interval data, for example, (4000,60), (3999,61)... (400,50), that is, (numerical data on the horizontal axis, numerical data on the vertical axis) is a pair of data points. Are listed.
In addition, the number of detection channels on the vertical axis (for example, the number of intensity, detector voltage, etc. on the same horizontal axis), the number of data, the accuracy of data, the number of bytes of X-axis data, the number of bytes of Y-axis data, data processing The number of bytes in the history, the number of bytes in the data processing result, and the like can be additionally described.
[0056]
When the display definition unit 64 is read by a specific analysis data reader, the unit of each axis for associating axis information with the numerical data of each data point of the data definition unit 62 by the reading means of the analysis data reader. Is defined.
For example, regardless of whether the data points of the data defining unit 62 are equally spaced or unequal, the contents can be represented by an array of (numerical data on the horizontal axis, numerical data on the vertical axis). In the display definition unit 64, as the display definition information, the unit of the horizontal axis of the numerical data of the data definition unit 62 is, for example, a wave number, and the unit of the vertical axis of the numerical data of the data definition unit 62 is, for example, transmittance. Grammar information is defined as.
[0057]
Therefore, when the analysis data file 24 is read by a specific analysis data reader, the axis information can be associated with the numerical data of each data point of the data definition unit 62 by the reading means of the analysis data reader. A graph such as a spectrum can be displayed on the display.
Moreover, since the axis information is associated with the numerical data of each data point of the data definition unit 62 as described above, that is, the graph is composed of each data point, and each data point is numerical data on each axis. Therefore, even if only the magnification of one axis is changed or the dimension of the graph display is changed, the reading means of the analysis data reader is used for the data definition of the analysis data file 24 at the time of redisplaying. By accessing the numerical data on each axis of each data point of the unit 62 and the axis information of the display definition unit 64, the positional relationship of each data point on each axis after change is obtained, and after the change of the axis The spectrum can be redisplayed accurately and quickly.
[0058]
In this way, the numerical data of the data definition unit 62 is changed to a spectrum or the like so that the desired graph display can be changed without changing the essence of the analysis data. Display definition information for displaying a graph is described by the analysis data writer according to the present embodiment. The contents can be read by a specific analysis data reader and cannot be rewritten. As this display definition information, for example, the unit of the horizontal axis as described above (for example, wave number cm)^-1), The unit of the vertical axis (for example, transmittance% T), the range of the horizontal axis (for example, 4000-400), the range of the vertical axis (for example, 0-70), and the like can also be defined.
[0059]
In the data associated information section 66, the apparatus configuration of the analysis means when the numerical data of the data defining section is obtained, and the data associated information including the measurement conditions are described by the analysis data writer according to this embodiment. The contents can be read by a specific analysis data reader and cannot be rewritten. As this data accompanying information, for example, the device configuration of the analyzing means 10 is specified by the device name or the like. As measurement conditions, measurement mode such as setting of analysis means 10 when obtaining numerical data, measurement methods such as transmission and reflection, sample name, sample amount, etc. can be used. The device serial number, the measurer, the affiliation of the measurer, the measurement date and time, the last calculation date and time, etc. can also be described.
[0060]
In the data processing history unit 68, the date and time of data processing, the processing content, and the like are described as data processing history information by the analysis data writer according to the present embodiment. The contents can be read by a specific analysis data reader and cannot be rewritten.
The data processing result unit 70 includes, as data processing results, for example, peak position, height, height ratio, area, area ratio, half width, curve fitting (peak position, height, half width, fitting curve, etc.), film Processing results such as thickness calculation, color calculation, multi-component analysis (including exhaust gas analysis), melting, kinetics, solar transmittance, spectrum search (linked file path), higher-order structure analysis, smoothing, etc. Are described by an analytical data writer. The contents can be read by a specific analysis data reader and cannot be rewritten. For example, when the peak detection process is performed, information such as the number of results, the actual number of peaks, and the noise level can be described.
[0061]
In the comment section 72, comments by a file creator, an analysis data reader user, and the like in the analysis data writer according to this embodiment are described. Since the content of the comment section 72 does not change the essence of the analysis data even if it is changed, it can be written and rewritten by the analysis data writer and the analysis data reader.
[0062]
The analysis data file 24 according to the present embodiment includes a data information part position, a data processing history position, a data processing result position, an option information position, a flag indicating whether or not use from another application is permitted, An internal memory name (full path name when read from a file) or the like can also be described.
[0063]
The analysis data file 24 according to the present embodiment is configured as described above, and its operation will be described below.
First, a method of exchanging a graph or other graph printed on paper by FAX or mail has been generally used, but it takes time and is troublesome.
Therefore, in this embodiment, in order to facilitate the distribution of the analysis data, the analysis data obtained by the analysis means is digitized by the analysis data writer according to this embodiment, and the analysis data file 24 is used. .
[0064]
As a result, the contents of the analysis data file 24 according to the present embodiment need not be printed on paper on the sending side, and can be easily distributed as it is via the Internet or e-mail.
Here, in the field of analytical instruments, when the one distributed as described above is obtained, it is necessary to adjust the size of the graph on the display, but it is relatively easy to simply change the magnification of the entire graph. However, for example, if you change the magnification or dimension in a specific axis unit such as only the horizontal axis or only the vertical axis, you will not know the positional relationship on each axis of the graph, and the exact positional relationship will be It may not be kept. This is not a problem with general graphics, but in the field of analytical instruments that handle graphs such as spectra where the positional relationship on each axis of the graph is very important, the analysis data itself Because it changed the essence, there was room for improvement in its usability.
[0065]
Therefore, the analysis data file 24 according to the present embodiment is further improved in usability in the field of analysis equipment, and when created by the analysis data writer, the essence of the analysis data obtained by the analysis means by the analysis data reader is as follows. A data file is created so that the graph display can be changed without change.
Therefore, when the analysis data file 24 according to the present embodiment is read by a specific analysis data reader, the numerical data of each data point of the data definition unit 62 and the display definition information of the display definition unit 64 are associated with each other. A spectrum or the like is displayed on the display 22 as a graph. In addition, since the graph is displayed by associating the numerical data of each data point of the data definition unit 62 with the display definition information of the display definition unit 64, the magnification of the axis of the spectrum is unchanged without changing the essence of the analysis data. The desired graph display such as a change in the number can be changed.
[0066]
As a result, when the analysis data file 24 according to the present embodiment is read by a specific analysis data reader, the specific graph display can be changed without changing the essence of the analysis data.
Here, if the contents of the source information section 60, the data accompanying information section 66, etc. are changed by mistake, such as the contents of the data definition section 62 and the display definition section 64 related to the essence of the analysis data, Since it cannot be distinguished from the original information, it is necessary to take countermeasures against erroneous operations in the field of analytical instruments.
[0067]
Therefore, in the analysis data file 24 according to the present embodiment, the contents of the comment section 72 can be written and rewritten by a specific analysis data writer and reader. However, when the analysis data file is created by the file creation means, The contents of the information section 60, the data definition section 62, the display definition section 64, and the data associated information section 66 are provided with access restrictions based on IDs, for example, and can basically be read by a specific analysis data reader. Rewriting is impossible.
[0068]
In addition, when information with restricted access in the analysis data file 24 according to the present embodiment is forcibly rewritten, a flag or the like is automatically added to a position where the information is present to notify that there has been a change.
For this reason, in the analysis data file 24 according to the present embodiment, not only the contents of the data definition section 62 and the display definition section 64 related to the essence of the analysis data but also the contents of the source information section 60 and the data associated information section 66 are incorrect. It is possible to easily determine whether the contents of the file 24 are original, since any traces such as flags remain even if they are changed. Can do.
[0069]
As described above, according to the analysis data file 24 according to the present embodiment, for example, the origin information section 60 in which the origin information indicating the origin is stored so that it can be read by a specific analysis data reader and cannot be rewritten, and the analysis means The analysis data obtained in 10 can be read by the analysis data reader and stored in a non-rewritable data definition unit 62, and the analysis data can be displayed in a graph and the graph display can be changed without changing the essence of the data. Display definition information stored in such a manner that the display definition information can be read by the analysis data reader and cannot be rewritten, and the data accompanying information including the device configuration and measurement conditions of the analysis means when the analysis data is obtained, It is provided with a data accompanying information section 66 that can be read by the analysis data reader and is stored so that it cannot be rewritten.
[0070]
As a result, according to the analysis data file 24 according to the present invention, the analysis data obtained by the analysis means is displayed in a graph by being read by a specific analysis data reader, and the essence of the analysis data is not changed. The graph display can be changed to a desired graph display.
[0071]
Analytical data reader
FIG. 5 shows a schematic configuration of the analysis data reader 14 according to the present embodiment.
The analysis data reader 14 shown in FIG. 1 includes an input / output interface 18 and is connected to a computer on the Internet connected by a signal line 20 such as a telephone line or a LAN. Therefore, the analysis data reader 14 reads the analysis data file 24 created by the analysis data writer according to the present embodiment via the interface 18. Then, the analysis data reader 14 displays the content of the analysis data file 24, at least the analysis data such as the spectrum, in a graph on the display 22, and can change the graph display without changing the essence of the analysis data.
[0072]
For this purpose, the analysis data reader 14 according to the present embodiment includes, for example, a computer main body 80, a display (external output means) 22, and an input device 82 such as a keyboard and a mouse.
The computer main body 80 includes a CPU 84 and an HDD 86.
The CPU 84 includes a reading unit 88, a graph display specifying unit 90, and a graph display changing unit 92.
The HDD 86 includes analysis data file storage means 94.
[0073]
Here, when the desired analysis data file 24 is designated by the input device 82 and the start of the download is instructed, the reading means 88 temporarily stores the analysis data file 24 in the analysis data file storage means 94. Then, the spectrum is displayed in a graph on the display 22 based on the analysis data of the analysis data file 24.
[0074]
In addition, if the graph display displayed on the display 22 is not a desired graph display, the display designating unit 90 uses the input device 82 to change the desired graph display, for example, change the magnification of the axis. specify.
The display changing unit 92 changes the graph display on the display 22 to a graph display with the axis magnification specified by the display specifying unit 90 without changing the essence of the analysis data.
In this embodiment, the analysis data file 24 includes comments such as a file creator in the analysis data writer and a file user in the analysis data reader 14. Since the content of this comment does not change the essence of the data even if it is changed, it can be written and rewritten by the analysis data reader 14.
[0075]
The analysis data reader 14 according to the present embodiment is configured as described above, and the operation thereof will be described below.
First, a method of exchanging a graph or other graph printed on paper by FAX or mail has been generally used, but it takes time and is troublesome.
Therefore, the present embodiment is created by the analysis data writer according to the present embodiment via the input / output interface 18, the Internet, the signal line 20 connected to the LAN, etc., in order to facilitate the acquisition of the analysis data. The analysis data file 24 is easily obtained.
[0076]
Here, in the field of analytical instruments, when the one distributed as described above is obtained, it is necessary to adjust the size of the graph on the display, but it is relatively easy to simply change the magnification of the entire graph. However, if the magnification is changed in units of each axis, for example, only the horizontal axis or only the vertical axis, the original positional relationship on each axis of the graph may not be known, and the original positional relationship may not be maintained. . This is not a problem with general graphics, but in the field of analytical instruments that handle graphs and other graphs where the original positional relationship on each axis of the graph is very important, analytical data Because it changed the essence of the product itself, there was room for improvement in its usability.
[0077]
Therefore, in this embodiment, in order to improve the usability in the field of analytical instruments, the display of the spectrum obtained by the analytical instrument is not changed in the essence of the analytical data obtained by the analyzing means, and the graph display is performed. You can read a data file that was created so that you can make changes. For example, the analysis data reader 14 can read only a specific analysis data file by information that can identify the specific analysis data writer 12 such as file format, file origin information, for example, ID information such as source information, and the like. Can be.
[0078]
For this reason, when the analysis data reader 14 according to the present embodiment reads the analysis data file 24 created by the analysis data writer according to the present embodiment, the reading means 88 reads each of the data definition sections of the analysis data file 24. The numerical value of the data point is associated with the display definition information in the display definition section, and a graph such as a spectrum is displayed on the display 22 as a graph. Moreover, by associating the numerical values of the respective data points with the display definition information, the essence of the analysis data is changed in the graph display on the display 22 by the graph display designating means 90 and the graph display changing means 92. Without changing the axis magnification, the graph can be changed to a desired graph display.
[0079]
A modification example of the graph display by the analysis data reader 14 according to the present embodiment is shown in FIG. In the figure, the magnification of the axis is changed.
That is, in FIG. 2A, the horizontal axis represents the wave number and the vertical axis represents the transmittance spectrum on the display 22. Here, in the state in which the position of the mouse cursor 98 is aligned with the end point of the axis on which the magnification is changed, for example, in the direction in which the magnification is changed, for example, on the horizontal axis enlargement, the user has a desired size on the right side in the figure. Drag until Further, in the reduction of the horizontal axis, the position of the cursor 98 is aligned with the end point of the horizontal axis and dragged to the left in the figure until the desired size is reached. Then, the length of the horizontal axis changes according to the movement of the cursor, but the graph display changes as shown in FIG. 5B so as to maintain the positional relationship of each data point on each axis. Thus, in this embodiment, since the numerical value on each axis of each data point constituting the spectrum is known, the magnification of the axis can be changed to a desired magnification without changing the essence of the spectrum. The same axis magnification can be changed for other axes.
[0080]
In addition, regarding the change of the magnification of the axis, the axis is specified from the keyboard instead of placing the mouse cursor on the axis to change the magnification, and the numerical value of the magnification is input from the keyboard instead of the drag. Etc., the same axis magnification can be changed without changing the essence of the spectrum.
Here, the analysis data reader 14 according to the present embodiment erroneously changes the contents of the data definition part and the display definition part related to the essence of the analysis data in the analysis data file 24 as well as the contents of the source information part and the data associated information part. If a change such as overwriting is made, it cannot be distinguished from the original information. Therefore, in the field of analytical instruments, countermeasures against the erroneous operation are necessary.
[0081]
Therefore, in the analysis data reader 14 according to the present embodiment, the contents of the comment part of the analysis data file 24 can be rewritten by input from the input device 82, but the source information part, data definition part, display definition part, data Since the contents of the accompanying information section are provided with access restrictions based on IDs, for example, the contents cannot basically be rewritten.
Further, when the information with restricted access in the analysis data file 24 is forcibly rewritten, a flag or the like is automatically added to the position where the information is present to notify that there is a change.
[0082]
For this reason, the analysis data reader 14 according to the present embodiment incorrectly corrects the contents of the source information section, the data associated information section, etc. as well as the contents of the data definition section and display definition section related to the essence of the analysis data of the analysis data file 24. It is easy to determine whether or not the contents of the analysis data file 24 are the original, because any traces such as flags are left even if they are changed. can do.
[0083]
As described above, according to the analysis data reader 14 according to the present embodiment, the analysis data file 24 created by the analysis data writer according to the present embodiment is read, and the spectrum based on the analysis data of the analysis data file is read on the display 22. Can be displayed in a graph and the magnification of the axis can be changed without changing the essence of the analysis data in the spectrum display.
As a result, according to the analysis data reader 14 according to the present invention, the usability of the graph such as the spectrum of the analysis data file 24 is improved.
[0084]
In addition, although the said structure demonstrated using two-dimensional analysis data, it can apply to the analysis data more than two dimensions.
In the above configuration, an example in which the axis magnification is changed without changing the numerical values of the starting point and the ending point of the axis as an example of changing the graph display has been described. The graph display can be changed. For example, as long as it is within the range of the start point and end point of the axis of analysis data, the data of the specific range of the axis can be displayed in a graph. At this time, after specifying the range of the axis, it is of course possible to change the magnification of the axis. In addition, information other than the graph such as the data processing result such as the peak position can be superimposed on the graph such as the spectrum. You can also change the line type, color, thickness, etc. of the graph. It is also possible to make the graph display transparent and display it overlaid on other graph displays.
[0085]
【The invention's effect】
As described above, according to the analysis data writer according to the present invention, when an instruction to create an analysis data file is given, the origin information of the origin information storage means, the analysis data obtained by the analysis means of the data storage means, and the display Write the display definition information of the definition information storage means and the data accompanying information of the data accompanying information storage means to a predetermined position of the analysis data file so that they can be read by a specific analysis data reader and cannot be rewritten, and the analysis File creation means for creating a data file.
As a result, according to the analysis data writer according to the present invention, the analysis data obtained by the analysis means is displayed in a graph by a specific analysis data reader, and the essence of the analysis data is not changed by the analysis data reader. Since an analysis data file whose display can be changed can be created, it can be easily distributed.
Further, according to the analysis data file according to the present invention, the source information indicating the source from which the file was created is obtained by the source information section stored by the specific analysis data reader so that it can be read and cannot be rewritten, and the analysis means. A data definition section in which the analysis data can be read by the analysis data reader and cannot be rewritten, the analysis data is displayed in a graph, and the graph display is changed without changing the essence of the analysis data. Display definition information that can be read by the analysis data reader and not rewritable, and data associated information including device configuration and measurement conditions of analysis means when the analysis data is obtained is the analysis data. And a data accompanying information part that can be read by a reader and stored in a non-rewritable manner.
As a result, according to the analysis data file according to the present invention, since it is digitized, it can be easily distributed and read by a specific analysis data reader to display the analysis data obtained by the analysis means as a graph. Since a specific graph display can be changed without changing the essence of the analysis data, the usability in the field of analysis equipment is improved.
According to the analysis data reader of the present invention, the analysis data file created by a specific analysis data writer is read, the reading means for displaying the analysis data in a graph on the external output means, and the graph display on the external output means are displayed. Display changing means for changing to the graph display specified by the graph display specifying means without changing the essence of the analysis data.
As a result, according to the analysis data reader of the present invention, the analysis data file created by the specific analysis data writer is read, the analysis data is displayed in a graph on the external output means, and the graph display is displayed on the analysis data file. Since the essence can be changed without changing, the usability of the analysis data file is improved.
According to the analysis data file distribution method of the present invention, the analysis data file is created by the analysis data writer, and the analysis data file created in the analysis data file creation step is analyzed. A reading process in which data is read by a data reader and displayed on the external output means, and if the graph display is not a desired graph display, the graph display is designated in the graph display designating step without changing the essence of the analysis data. And a graph display changing step for changing to display.
As a result, according to the analysis data file distribution method according to the present invention, an analysis data file capable of displaying a desired graph in the field of analysis equipment can be easily distributed.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of a schematic configuration of hardware elements for performing an analysis data file distribution method according to an embodiment of the present invention.
FIG. 2 is a flowchart showing an analysis data file distribution method according to an embodiment of the present invention.
FIG. 3 is an explanatory diagram of a schematic configuration of an analysis data writer according to an embodiment of the present invention.
FIG. 4 is an explanatory diagram of a file structure of an analysis data file created by an analysis data writer according to an embodiment of the present invention.
FIG. 5 is an explanatory diagram of an analysis data reader according to an embodiment of the present invention.
FIG. 6 is a modification example of the graph display by the analysis data reader according to the embodiment of the present invention.
[Explanation of symbols]
10 Analytical means
12 Analysis data writer
14 Analytical data reader
24 Analysis data file
96 Spectrum (graph)

Claims (3)

Analytical data obtained by the analysis means is displayed as a graph on the external output means by a specific analysis data reader, and an analysis data file is created that allows the specific graph display to be changed without changing the essence of the analysis data An analytical data writer that
Source information storage means for storing source information indicating the source from which the analysis data file was created;
Data storage means for storing analysis data obtained by the analysis means;
The analysis data obtained by the analysis means is displayed in a graph on the external output means by a specific analysis data reader, and the specific graph display can be changed without changing the essence of the analysis data by the analysis data reader. Display definition information storage means for storing display definition information for displaying the analysis data of the data storage means in a graph;
Data associated information storage means for storing data associated information including the device configuration and measurement conditions of the analysis means when the analysis data is obtained;
When an instruction to create the analysis data file is given, the origin information of the origin information storage means, the analysis data of the data storage means, the display definition information of the display definition information storage means, and the data associated with the data associated information storage means When the information is restricted at a predetermined position of the analysis data file so that it can be read by a specific analysis data reader and cannot be rewritten , and the access restricted information of the analysis data file is forcibly rewritten A file creation means for writing the flag to automatically add a flag and creating the analysis data file;
Analytical data writer characterized by comprising An analysis data file created with a specific analysis data writer and readable by a specific analysis data reader,
Origin information indicating the origin from which the analysis data file was created, and an origin information section stored with access restriction so that the analysis data reader can read and cannot rewrite,
Analytical data obtained by the analysis means, and readable and in rewriting not become as access restrictions to the stored data definition unit in the analytical data reader,
The data definition section displays the analysis data of the data definition section on the external output means by the analysis data reader, and the data definition can be changed by the analysis data reader without changing the essence of the analysis data. Display definition information for displaying the analysis data of the part in a graph, the display definition part stored with access restriction so that the analysis data reader can read and cannot rewrite, and
A data incidental information section that stores the data incidental information including the device configuration and measurement conditions of the analyzing means when the analysis data is obtained, and is stored with access restricted so that it can be read by the analytical data reader and cannot be rewritten; ,
A flag adding unit that automatically adds a flag when the access-restricted information of the analysis data file is forcibly rewritten;
An analysis data file characterized by comprising: In the analysis data file according to claim 2,
  An analysis data file, wherein the data-accompanying information section includes a measurer and affiliation information of the measurer.

Images