JPH11119028A - Device for evaluating characteristic of optical fiber and medium recording program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently evaluate the characteristic data of many optical fibers. SOLUTION: Operation for plural evaluation items specified by a 1st evaluation item specification means 37 out of evaluation items for almost all distance ranges of plural characteristic data stored in a data memory 35 is executed, whether all the evaluation items satisfy a regulated value or not is judged and information specifying characteristic data which are judged as defective data about at least one evaluation item is displayed on a picture display device 32.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical fiber characteristic evaluation device for evaluating the characteristics of an optical fiber and a medium recording a program.

[0002]

2. Description of the Related Art In recent years, optical fibers have been widely used in place of conventional metal wires as signal transmission lines. For the installation and management of such optical fibers, tests of transmission lines and evaluation of the test results have been performed. It needs to be done regularly. Here, one optical fiber includes one in which a plurality of optical fibers are connected in series.

An optical fiber test is performed by an optical pulse test apparatus shown in FIG. The OTDR has to either end of the optical fiber 2 ₁ to 2 _n is the core of the optical fiber cable 1 from the optical pulse generator 10 via the directional coupler 11 and the optical path changer 12 light pulses The intensity of light (backscattered light or reflected light) that enters and returns to one end of the optical fiber is detected by the light receiver 13, and the light reception signal output from the light receiver 13 is decoded by the A / D converter 14. The data signal is converted into a data signal and input to the signal processing device 15 to process a series of data signals from the timing of incidence of the light pulse until a certain time elapses, and the characteristic data of the distance-to-received light intensity is stored in the characteristic data memory 16. It is configured to memorize.

[0004] Here, when the acquisition of the characteristic data of one optical fiber is completed, the optical path switch 12 is switched to connect the other optical fiber to the directional coupler 11, and the characteristic data memory is switched. 16 a plurality of optical fibers 2 ₁ to 2 in
The characteristic data of _n is stored.

When evaluating the transmission characteristics of each optical fiber, the characteristic data stored in the characteristic data memory 16 is selectively output to an image display device or a printer, and as shown in FIG. A waveform is displayed on a coordinate plane composed of an axis and a light-receiving intensity axis, and the presence or absence of a change in an attenuation amount, a disconnection failure, or the like is checked based on a slope of the displayed waveform, a local level change, or the like.

[0006]

However, when there are a large number of optical fibers to be evaluated, the evaluation time is extremely long if the evaluation is performed by displaying the optical fibers one by one as described above. Would.

In particular, the number of core wires of an optical fiber cable has been increasing year by year, and the optical path switching device of an optical pulse test apparatus has been provided with multiple circuits to cope with this. Therefore, there has been a strong demand for an evaluation apparatus that can efficiently evaluate the characteristic data of these many optical fibers. SUMMARY OF THE INVENTION An object of the present invention is to provide an optical fiber characteristic evaluation device which solves this problem and a medium in which a program is recorded.

[0008]

According to a first aspect of the present invention, there is provided an optical fiber characteristic evaluation apparatus, wherein an optical pulse is incident on one end of an optical fiber, and the optical pulse returning to the one end side. Characteristic data storage means (35) for storing a plurality of characteristic data indicating a change in the distance versus characteristic value of the optical fiber obtained by detecting the characteristic value; An evaluation item designating means (37) capable of designating an arbitrary plurality of evaluation items among a plurality of evaluation items covering the entire distance range; and a standard value in which standard values for the plurality of evaluation items are stored in advance. Storage means (39), evaluation operation means (41) for performing an evaluation operation on the plurality of designated evaluation items with respect to the plurality of characteristic data stored in the characteristic data storage means, Yo The obtained calculation result for each evaluation item is compared with a standard value stored in the standard value storage means, and for each of the characteristic data, whether the specified value is satisfied for all the specified evaluation items Determining means (43) for determining whether the quality is good or bad, and evaluation result output means (45, 33, 32) for outputting information for specifying characteristic data determined to be defective or good by the determining means. I have.

In the optical fiber characteristic evaluation apparatus according to a second aspect of the present invention, the light pulse obtained by injecting a light pulse into one end of the optical fiber and detecting the characteristic value of the light returning to the one end is detected. Characteristic data storage means (35) for storing a plurality of characteristic data indicating a change in the characteristic value with respect to the distance of the fiber;
A distance designating means (46) for designating an arbitrary distance position or distance range with respect to the plurality of characteristic data; and a plurality of evaluation items which can be evaluated with respect to any distance position or distance range of the characteristic data An evaluation item designating means (60) capable of designating any one evaluation item; and an evaluation range setting means for setting an arbitrary evaluation range serving as an evaluation standard for the evaluation item designated by the evaluation item designating means. (50) evaluation evaluation means (48) for performing an evaluation operation on the specified evaluation item with respect to the plurality of characteristic data at a distance or a distance range specified by the distance specifying means; Determining means (52) for determining whether or not the operation result of each characteristic data obtained by the means is within the evaluation range; There has been provided with the evaluation result and output means (54,33,32) for outputting information specifying the determined quality data to be in the evaluation range.

According to a third aspect of the present invention, there is provided the optical fiber characteristic evaluation apparatus according to the second aspect, wherein the determination unit determines that the result of the evaluation calculation is within the evaluation range. Ranking means (62) for comparing the magnitudes of the results of the data evaluation operation and ranking the results in accordance with the comparison results, wherein the table result output means comprises:
The information for specifying the characteristic data determined to be in the evaluation range is output according to the ranking given by the ranking means.

In the optical fiber characteristic evaluation apparatus according to a fourth aspect of the present invention, the optical fiber obtained by injecting a light pulse into one end of the optical fiber and detecting a characteristic value of the light returning to the one end side is detected. Characteristic data storage means (35) for storing a plurality of characteristic data indicating a change in the characteristic value with respect to the distance of the fiber;
A distance designating means (46) for designating an arbitrary distance position or distance range with respect to the plurality of characteristic data; and a plurality of evaluation items which can be evaluated with respect to any distance position or distance range of the characteristic data An evaluation item specifying means (60) capable of specifying any one evaluation item; and a distance or a distance range specified by the distance specifying means, for the plurality of characteristic data with respect to the specified evaluation item. Evaluation operation means (48) for performing an evaluation operation, and ranking means (62) for comparing the magnitudes of the operation results of the respective characteristic data obtained by the evaluation operation means and assigning a rank according to the comparison result; An evaluation result output means (54, 33, 3) for outputting information for specifying the plurality of characteristic data in accordance with the ranking given by the ranking means;
2).

Further, a medium on which the program according to claim 5 of the present invention is recorded can be obtained by inputting a light pulse to one end of an optical fiber and detecting a characteristic value of light returning to the one end of the optical fiber. A function of storing a plurality of characteristic data indicating a change in the characteristic value with respect to the distance of the optical fiber, and, for the plurality of characteristic data, an arbitrary plurality of evaluation items among the evaluation items targeting the entire distance range of the characteristic data. A function of designating an evaluation item, a function of storing standard values for the plurality of evaluation items, a function of performing an evaluation operation of the plurality of specified evaluation items on the plurality of characteristic data, and a function of performing the evaluation operation. The calculated operation result for each of the evaluation items is compared with the standard value standard value, and for each of the characteristic data, whether or not all the specified evaluation items satisfy the standard value Function for quality determination, a program for realizing the defect also function to output information identifying the determined quality data with good is recorded.

Further, the medium on which the program according to claim 6 of the present invention is recorded can be obtained by inputting a light pulse to one end of an optical fiber and detecting a characteristic value of light returning to the one end of the optical fiber. A function of storing a plurality of characteristic data indicating a change in a characteristic value with respect to the distance of the optical fiber; a function of designating an arbitrary distance position or a distance range with respect to the plurality of characteristic data; an arbitrary distance position or a distance of the characteristic data A function of designating an arbitrary one of a plurality of evaluation items that can be evaluated with respect to a range, a function of setting an arbitrary evaluation range serving as a criterion of evaluation for the specified evaluation item, A function of performing an evaluation operation on the specified evaluation item with respect to the plurality of characteristic data at a distance or a distance range, and each characteristic data obtained by the evaluation operation A program for realizing a function of determining whether a calculation result is within the evaluation range, and a function of outputting information for specifying characteristic data determined as a result of the evaluation calculation being within the evaluation range is recorded. ing.

Further, a medium on which the program according to claim 7 of the present invention is recorded can be obtained by inputting a light pulse to one end of an optical fiber and detecting a characteristic value of light returning to the one end of the optical fiber. A function of storing a plurality of characteristic data indicating a change in a characteristic value with respect to the distance of the optical fiber; a function of designating an arbitrary distance position or a distance range with respect to the plurality of characteristic data; an arbitrary distance position or a distance of the characteristic data A function of designating an arbitrary one of a plurality of evaluation items that can be evaluated with respect to a range, a function of setting an arbitrary evaluation range serving as a criterion of evaluation for the specified evaluation item, A function of performing an evaluation operation on the specified evaluation item with respect to the plurality of characteristic data at a distance or a distance range, and each characteristic data obtained by the evaluation operation A function of determining whether or not the calculation result is within the evaluation range; comparing the magnitude of the result of the evaluation calculation of the characteristic data determined that the result of the evaluation calculation is within the evaluation range; The ability to rank
A program for realizing a function of outputting information for specifying characteristic data for which the result of the evaluation operation is determined to be within the evaluation range in accordance with the order given by the ordering means is recorded.

Further, a medium on which the program according to claim 8 of the present invention is recorded can be obtained by inputting a light pulse to one end of an optical fiber and detecting a characteristic value of light returning to the one end of the optical fiber. A function of storing a plurality of characteristic data indicating a change in a characteristic value with respect to the distance of the optical fiber; a function of designating an arbitrary distance position or a distance range with respect to the plurality of characteristic data; an arbitrary distance position or a distance of the characteristic data A function of designating an arbitrary one of a plurality of evaluation items that can be evaluated with respect to the range, the specified distance or the distance range, and the specified evaluation item with respect to the plurality of characteristic data. Function to perform the evaluation operation of
A function of comparing the magnitudes of the operation results of the respective characteristic data obtained by the evaluation operation means, and assigning a rank according to the comparison result; and information for specifying the plurality of characteristic data, Therefore, a program for realizing the output function is recorded.

[0016]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram illustrating a configuration of an optical fiber characteristic evaluation device according to an embodiment of the present invention, and FIG. 2 is a diagram illustrating a configuration of an optical fiber test device.

First, the configuration of the optical pulse test apparatus will be described with reference to FIG. The optical fiber test apparatus 20 converts the optical pulse emitted from the optical pulse generator 21 into the directional coupler 2.
Guided to the optical path changer 23 via two selectively incident on one end of the optical fibers 2 ₁ to 2 _n of the multi-core optical fiber cable 1 connected to the optical path changer 23.

The light returning from the optical fiber on which the light pulse has been incident is incident on the light receiver 24 by the directional coupler 22, and from the light receiver 24 according to the intensity which is one of the characteristic values of the returned light. A light receiving signal whose level changes is output.

The received light signal is converted into a data signal by an A / D converter 25 and, for example, is averaged by a data processing device 26 to obtain a characteristic data of the distance to the received light intensity of one optical fiber as a detachable memory card. 27.

The test controller 28 injects an optical pulse from the optical pulse generator 21 into the same optical fiber as many times as necessary for the averaging, and obtains the characteristic data when the characteristic data of the optical fiber is obtained. specific information F ₁ for specifying which characteristic data which the optical fiber to F _n (file name information, etc.) from and stored in the memory card 27 with each characteristic data, the optical path changer 23 for the next tested The operation of switching to the optical fiber is performed in a preset order.

[0021] Thus, when the test is completed, the memory card 27, characteristic data D ₁ of the distance-to-light intensity of the optical fibers 2 ₁ ~2 _n ~D _n specific information F ₁ to F _n
Is stored in association with.

The memory card 27 is taken out of the optical pulse test apparatus 20 and inserted into an optical fiber characteristic evaluation apparatus shown in FIG. 1 which is installed at a place remote from the optical fiber installation site.

The optical fiber characteristic evaluation apparatus includes an operation unit 31 including a keyboard and a mouse, a CRT type or liquid crystal type image display device 32 as an output device, and a display controller 33 for displaying an image on the image display device 32. FIG. 1 is a block diagram showing functions realized by a program loaded from a program recording medium (such as a magnetic disk, a magneto-optical disk, a CD-ROM, or an IC memory card) into a personal computer. It is a thing.

In FIG. 1, when the memory card 27 is inserted or when the operation section 31 is operated in a specific manner while the memory card 27 is inserted, the data reading means 34 Is read out from the data memory 35 as the characteristic data storage means of this embodiment.
To memorize.

The characteristic waveform display means 36 is provided in the data memory 3
A plurality of characteristic data stored in the display controller 3
3, the characteristic data waveform is displayed on the screen of the image display device 32 on the coordinates consisting of the distance axis and the received light intensity axis.

The first evaluation item designating means 37 displays, for example, an "Auto" button on the screen of the image display device 32, and when this button is operated, the almost entire length of the transmission path is evaluated. Evaluation item name, for example, “Splice L
oss ”(connection loss),“ Return Loss ”
(Return loss), "Total Loss" (total loss), "Total Return Loss" (total return loss), and a switch for designating whether or not to evaluate the evaluation item are displayed. The evaluation item is designated by making a mark by the operation unit 31, and the designated evaluation item information is set in the evaluation item memory 38. The specification of this evaluation item can specify a plurality of items.

The standard value memory 39 pre-stores standard values for each of the above-mentioned evaluation items. The standard value display means 40 displays, for example, an “Event Limit” button on the screen of the image display device 32. This button is the operation unit 31
Is operated, the above-described evaluation item names and the standard values for each evaluation item are displayed on the image display device 32.

The first evaluation calculating means 41 calculates the evaluation values necessary for evaluating all the evaluation items set in the evaluation item memory 38 by using all of the characteristic data stored in the data memory 34. The evaluation is performed for the distance range, and the evaluation value for each evaluation item obtained by the calculation is stored in the first evaluation value memory 42.

The first judging means 43 compares the evaluation value for each evaluation item stored in the first evaluation value memory 42 with the standard value stored in the standard value memory 39, and Is determined as to whether or not the evaluation data is within the standard, and information for identifying the characteristic data whose evaluation value is determined not to be within the standard based on the operation result of at least one evaluation item and the evaluation value are first determined. The result is stored in the memory 44.

The first evaluation result display means 45 is, for example,
When a button of “Show Result” is displayed on the image display device 32 and this button is operated by the operation unit 31,
The information stored in the first determination result memory 44 is displayed on the image display device 32.

The second evaluation item designation means 60 displays, for example, a "Manual" button on the screen of the image display device 32, and when this button is operated, evaluation can be performed at an arbitrary position in the characteristic data. Evaluation item name, for example, "Splic
e Loss ”(connection loss),“ Return Loss ”
s "(return loss)," Loss "(loss), etc., and a switch for designating whether or not to evaluate the evaluation item are displayed, and an arbitrary switch is marked by the operation unit 31. One of the evaluation items is designated, and the designated evaluation item information is stored in the evaluation item memory 61.
Set to.

When one evaluation item is designated by the second evaluation item designating unit, the distance designating unit 46 controls the image display device 32 to designate a distance or a distance range required for calculating the evaluation item. One or more marker lines parallel to the light receiving intensity axis are displayed on the coordinate plane of distance versus received light intensity on the screen, and the position of the marker line is set by operating the operation unit 31 to evaluate the target position or the target distance. The range is stored in the distance memory 47.

The second evaluation calculating means 48 performs an evaluation calculation of the evaluation item specified by the first evaluation item specifying means 60 for each characteristic data at the distance position or the distance range stored in the distance memory 47. The evaluation value obtained by the calculation is stored in the second evaluation value memory 49.

The evaluation range setting means 50 is for setting an arbitrary evaluation range corresponding to the evaluation item specified by the second evaluation item specifying means 60. Only the limit value for determining the upper limit of the evaluation range is set. Only the limit value that determines the lower limit,
Alternatively, the limit value for determining the upper limit and the lower limit is set in the operation unit 31.
With the operation described above, the evaluation range memory 51 is stored and set, and the limit value is displayed on the screen of the image display device 32.

The second judging means 52 compares the evaluation value for each characteristic data stored in the second evaluation value memory 49 with the value set in the evaluation range memory 51 to determine the evaluation value. Information for specifying characteristic data in the evaluation range and its evaluation value are stored in the second determination result memory 53.

The ranking means 62 compares the magnitudes of the evaluation values stored in the second determination result memory 53 and ranks the characteristic data in the order of, for example, the magnitude of the evaluation value. The second evaluation result display means 54 displays the information specifying the characteristic data of the evaluation value stored in the second determination result memory 53 in the order in which the information is assigned by the ranking means 62.

Next, the operation of the optical fiber characteristic evaluation apparatus will be described. Each characteristic data D of the optical pulse is tested in the test apparatus 20 optical fibers 2 ₁ ~2 _{n 1} ~D _n information F ₁ ~
When the memory card 27 F _n are stored in advance the operation unit 31 is inserted is the specific operation, the data of the memory card 27 is stored in the data memory 35, the waveform of the characteristic data, in FIG. 3 As shown, it is displayed on an orthogonal coordinate plane consisting of a distance axis and a received light intensity axis.

Then, the operator presses the "Auto" button with the operation unit 31 to display, for example, "Sp" in the lower right column of the screen.
license Loss "and" Return Loss "
When a dot mark is attached to the circular switch, calculation and determination of connection loss and return loss for each characteristic data stored in the data memory 35 are performed.

That is, a position where the received light intensity decreases stepwise in one piece of characteristic data is detected, and a difference between the received light intensity before and after this position is calculated as an evaluation value, and this evaluation value exceeds the standard value. If the distance point and the evaluation value are included in the first determination result memory 4 together with the specific information of the characteristic data.
4 is performed over a predetermined distance range (substantially the entire length of the optical fiber) of the characteristic data.

Further, a position where the received light intensity increases stepwise is detected from one piece of characteristic data, and a return loss corresponding to the increase amount of the received light intensity is calculated as an evaluation value.
If the evaluation value exceeds the standard value, the distance point and the evaluation value are stored in the first determination result memory 44 together with the specific information of the characteristic data.

Also, when another evaluation item is specified at the same time, the evaluation value necessary for evaluating the evaluation item is calculated and the quality is determined, and the result is stored in the first determination result memory 4.
4 is stored.

After the processing for all the specified evaluation items is performed for all the characteristic data, the operation unit 31
When the "Show Result" button on the screen is operated by the operation of (1), as shown in FIG. 4, the specific information for specifying the characteristic data determined to be defective in any of the evaluation items, the evaluation value, and the evaluation position (Event No. ..) is displayed.

By looking at this display, even if there are many transmission paths to be evaluated, it is easy to determine whether or not the transmission characteristics with respect to the standard value are good.

Next, a description will be given of a case where an evaluation operation for an arbitrarily designated evaluation item is performed at an arbitrary distance position or an arbitrary distance range, instead of the above-described quality judgment with respect to the standard value.

In this case, "Manua" on the display screen
When the "l" button is operated, the "Splice L"
oss ”(connection loss),“ Return Loss ”
(Return loss), “Loss” (loss) buttons and switches are displayed, and any switch is marked.
For example, if “Loss” is marked here, the first marker line M1 is displayed on the coordinate plane as shown in FIG. 5, and the position of the first marker line M1 is indicated by “Range” at the lower left of the screen. Column. The operator moves the first marker line M1 to a desired position using, for example, a cursor key of the operation unit 31 to perform the finalizing operation. Subsequently, when the mouse cursor is clicked again at an arbitrary position in the coordinate plane, the second marker line M2 and its position are displayed as shown in FIG. The operator moves the second marker line M2 to a desired position in the same manner as described above to perform the finalizing operation.

By this operation, the distance points of the marker lines M1 and M2 are stored and set, and for all the specific data, the difference of the received light intensity between these distance points, that is, the attenuation is calculated as an evaluation value, and the second evaluation is performed. It is stored in the value memory 49.

The evaluation value is stored in the evaluation range memory 51.
Is compared with the limit value of the evaluation range (0.7 dB in the “Limit” column at the lower left in FIG. 6) set in advance, and the specific information of the characteristic data in the evaluation range and the evaluation value are stored in the second range.
Is stored in the determination result memory 53. When this evaluation process is performed for all the specific data, the magnitudes of the evaluation values stored in the second determination result memory 53 are compared, and FIG.
As shown in (1), the specific information of the transmission path and the evaluation value are displayed in ascending order of the evaluation value.

From this display, all the transmission lines whose attenuation is within a predetermined attenuation range within an arbitrary distance range can be grasped, and these are arranged and displayed in descending order of the evaluation value. It will be easier.

The setting of the limit value of the evaluation range can be changed, for example, by designating the limit value column on the screen so that the type of the limit value and its upper and lower limits can be changed. The number of characteristic data to be narrowed down.

[0050]

[Other Embodiments] In the above embodiment, a plurality of sets of characteristic data are read from a memory card and input into the apparatus. However, other storage media such as a floppy disk, a removable hard disk, Characteristic data recorded on the disk may be read and input, and a communication device for communicating with the optical pulse test device is provided, and a plurality of sets of characteristic data transmitted from the optical pulse test device are received. Thus, the characteristic data may be input.

Although the above-described embodiment is configured separately from the optical pulse test apparatus, it may be formed integrally with the optical pulse test apparatus. In this case, the storage medium for storing the characteristic data as described above may not be removable.

In the above-described embodiment, the waveform of the characteristic data on the coordinate plane is displayed independently of the evaluation result. However, the characteristic data determined to be defective or the characteristic data falling within an arbitrarily set attenuation range is selected. The waveforms of the evaluation result and the characteristic data are displayed by displaying the waveform on the image display device 32 or erasing the characteristic data determined to be defective or the characteristic data falling within an arbitrarily set attenuation range from the coordinates. The display may be linked.

Further, in the above-described embodiment, among the calculation results of the evaluation items specified by the second evaluation item specifying means, those in the evaluation range arbitrarily specified are ranked, and the characteristic data is determined according to the ranking. Is displayed, but all of the calculation results for the evaluation items specified by the second evaluation item specifying means are ranked, and information characterizing the characteristic data is displayed according to the ranking. You may. In this case, there is an advantage that the determination process is not required.

In the above embodiment, the evaluation is performed at the designated distance position or distance range.
Since each distance value of the characteristic data is not continuous depending on the sampling interval at the time of data acquisition, there is a case where the characteristic value of the characteristic data corresponding to the arbitrarily designated distance cannot be obtained. In such a case, the one closest to the specified distance may be adopted, or the average value of a plurality of characteristic values near the specified distance may be used for the evaluation calculation.

In the above embodiment, the characteristic data of the distance versus the received light intensity obtained by detecting the intensity as the characteristic value of the light returning from the optical fiber is evaluated. Without limiting the present invention, for example, the angle of the plane of polarization of the returning light, the change of the distance versus the characteristic value obtained by detecting the frequency of the sideband light caused by the Doppler effect and the like as the characteristic value. The present invention can be applied to the case of evaluating the characteristic data shown.

[0056]

As described above, according to the first aspect of the present invention,
The optical fiber characteristic evaluation device calculates, for a plurality of characteristic data, of a plurality of designated evaluation items among evaluation items covering substantially the entire distance range of the characteristic data,
It is configured to make a quality determination as to whether or not all the evaluation items satisfy the standard value, and display the determination result on a screen. For this reason, even if there is a large number of characteristic data to be evaluated, the quality of the transmission path can be efficiently grasped.

Further, the optical fiber characteristic evaluation device of the present invention performs an arbitrarily designated evaluation item on a plurality of characteristic data at an arbitrarily set distance position or distance range. It is configured so that the determination can be made within the evaluation range. Therefore, evaluation at an arbitrary position can be easily performed on a plurality of characteristic data.

[Brief description of the drawings]

FIG. 1 is a diagram showing a configuration of an embodiment of the present invention.

FIG. 2 is a diagram showing a configuration of an optical pulse test apparatus.

FIG. 3 is a view showing an example of a display screen according to the embodiment;

FIG. 4 is a view showing an example of a display screen according to the embodiment;

FIG. 5 is a view showing an example of a display screen according to the embodiment;

FIG. 6 is a view showing an example of a display screen according to the embodiment;

FIG. 7 is a view showing an example of a display screen according to the embodiment;

FIG. 8 is a diagram showing a schematic configuration of an optical pulse test apparatus.

FIG. 9 is a diagram showing a display example of characteristic data.

[Explanation of symbols]

 27 Card Memory 31 Operation Unit 32 Image Display Device 34 Data Readout Means 35 Data Memory 36 Characteristic Data Display Means 37 First Evaluation Item Designation Means 39 Standard Value Memory 41 First Evaluation Calculation Means 43 First Judgment Means 45 First Evaluation result display means 46 Distance designation means 48 Second evaluation calculation means 50 Evaluation range setting means 52 Second judgment means 53 Second evaluation result display means 60 Second evaluation item designation means 62 Ranking means

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[Procedure amendment]

[Submission date] November 13, 1997

[Procedure amendment 1]

[Document name to be amended] Drawing

[Correction target item name] All figures

[Correction method] Change

[Correction contents]

FIG. 2

FIG.

FIG. 3

FIG. 4

FIG. 5

FIG. 6

FIG. 7

FIG. 9

FIG. 8

Claims (8)

[Claims] A plurality of characteristic data indicating a change in a distance-to-characteristic value of the optical fiber obtained by inputting a light pulse to one end of the optical fiber and detecting a characteristic value of light returning to the one end side. Characteristic data storage means (35) to be stored; and an evaluation item capable of designating an arbitrary plurality of evaluation items among a plurality of evaluation items covering the entire distance range of the characteristic data for the plurality of characteristic data. Specifying means (37); standard value storing means (39) preliminarily storing standard values for the plurality of evaluation items; and specifying the plurality of characteristic data stored in the characteristic data storing means. Evaluation operation means (41) for performing the evaluation operation of the plurality of evaluation items obtained by the evaluation operation; and comparing the operation result for each of the evaluation items obtained by the evaluation operation means with the standard value stored in the standard value storage means. Determining means (43) for determining whether or not each of the specified evaluation items satisfies the standard value with respect to each of the characteristic data; and a characteristic determined to be defective or good by the determining means. Evaluation result output means (45,
33, 32). 2. A method according to claim 1, wherein a plurality of characteristic data indicating a change in distance versus characteristic value of said optical fiber obtained by injecting a light pulse into one end of said optical fiber and detecting a characteristic value of light returning to said one end side. A characteristic data storage means (35) for storing; a distance designating means (46) for designating an arbitrary distance position or distance range for the plurality of characteristic data; An evaluation item designating means (60) capable of designating an arbitrary one of a plurality of evaluation items that can be evaluated with respect to the evaluation item; An evaluation range setting unit (50) for setting an evaluation range; and a distance or a distance range specified by the distance specifying unit, the specified evaluation for the plurality of characteristic data. Evaluation operation means (4) for performing an evaluation operation on the value item
8); a judging unit (52) for judging whether or not the operation result of each characteristic data obtained by the evaluation operation unit is within the evaluation range; and And an evaluation result output means (54, 33, 32) for outputting information for specifying the characteristic data determined to be present in the optical fiber characteristic evaluation apparatus. 3. A ranking means for comparing the magnitude of the result of the evaluation operation of the characteristic data for which the result of the evaluation operation is judged to be within the evaluation range by the judging means, and assigning a rank according to the comparison result. (62) The table result output means outputs the information for specifying the characteristic data determined to be within the evaluation range in accordance with the ranking given by the ranking means. 2. The optical fiber characteristic evaluation device according to 2. 4. A plurality of characteristic data indicating a change in distance versus characteristic value of the optical fiber obtained by applying a light pulse to one end of the optical fiber and detecting a characteristic value of light returning to the one end side. A characteristic data storage means (35) for storing; a distance designating means (46) for designating an arbitrary distance position or distance range for the plurality of characteristic data; An evaluation item designating means (60) capable of designating an arbitrary one of a plurality of evaluation items that can be evaluated with respect to the plurality of evaluation items; Evaluation operation means (4) for performing an evaluation operation on the specified evaluation item with respect to
8) and an ordering means (62) for comparing the magnitudes of the operation results of the respective characteristic data obtained by the evaluation operation means and assigning a ranking according to the comparison result; and specifying the plurality of characteristic data. An optical fiber characteristic evaluation device comprising: an evaluation result output unit (54, 33, 32) for outputting information in accordance with the order given by the ordering unit. 5. A characteristic indicating a change in distance versus characteristic value of the optical fiber obtained by applying a light pulse to one end of the optical fiber and detecting a characteristic value of light returning to the one end side. A function of storing a plurality of data; a function of designating an arbitrary plurality of evaluation items among evaluation items covering the entire distance range of the characteristic data for the plurality of characteristic data; A function of storing a standard value; a function of performing an evaluation operation on the plurality of designated evaluation items with respect to the plurality of characteristic data; a calculation result of each of the evaluation items obtained by the evaluation operation being the standard value Compared with a standard value, for each of the characteristic data, a function of performing a pass / fail judgment on whether or not the specified evaluation item satisfies the standard value. Medium recording a program for realizing the function of outputting information for specifying the characteristic data. 6. A characteristic indicating a change in a distance-to-characteristic value of the optical fiber obtained by inputting a light pulse to one end of the optical fiber and detecting a characteristic value of light returning to the one end side. A function of storing a plurality of data; a function of specifying an arbitrary distance position or a distance range for the plurality of characteristic data; a plurality of evaluation items that can be evaluated for an arbitrary distance position or a distance range of the characteristic data; A function of designating an arbitrary one evaluation item; a function of setting an arbitrary evaluation range serving as an evaluation standard for the specified evaluation item; A function of performing an evaluation operation on the specified evaluation item; a device for determining whether or not the operation result of each characteristic data obtained by the evaluation operation is within the evaluation range , Medium results of the evaluation operation is recording a program for realizing the function of outputting information specifying the determined quality data to be in the evaluation range. 7. A characteristic indicating a change in distance versus characteristic value of the optical fiber obtained by applying a light pulse to one end of the optical fiber and detecting a characteristic value of light returning to the one end of the optical fiber. A function of storing a plurality of data; a function of specifying an arbitrary distance position or a distance range for the plurality of characteristic data; a plurality of evaluation items that can be evaluated for an arbitrary distance position or a distance range of the characteristic data; A function of designating an arbitrary one evaluation item; a function of setting an arbitrary evaluation range serving as an evaluation standard for the specified evaluation item; A function of performing an evaluation operation on the specified evaluation item; a device for determining whether or not the operation result of each characteristic data obtained by the evaluation operation is within the evaluation range A function of comparing the magnitude of the result of the evaluation operation of the characteristic data for which the result of the evaluation operation is determined to be within the evaluation range, and assigning a rank according to the comparison result; And a program for realizing a function of outputting information for specifying the characteristic data determined to be in accordance with the ranking given by the ranking means. 8. A characteristic indicating a change in distance versus characteristic value of the optical fiber obtained by inputting a light pulse to one end of the optical fiber and detecting a characteristic value of light returning to the one end of the optical fiber. A function of storing a plurality of data; a function of specifying an arbitrary distance position or a distance range for the plurality of characteristic data; a plurality of evaluation items that can be evaluated for an arbitrary distance position or a distance range of the characteristic data; A function of designating any one evaluation item; a function of performing an evaluation calculation on the specified evaluation item with respect to the plurality of characteristic data at the specified distance or distance range; A function of comparing the magnitudes of the calculation results of the respective characteristic data, and assigning a rank according to the comparison result; and information identifying the plurality of pieces of characteristic data, Medium recording a program for realizing the function of outputting according to rank.