JPH06142071A - Method for altering scale maxium value - Google Patents

Abstract

PURPOSE:To reduce the number of keys necessary for altering the maximum value of a scale in displaying a plurality of parameter trends on one screen in results of a spectral analysis by an automatic mode. CONSTITUTION:In this method of altering scale maximum value, a 'T selection' key K2 is depressed on a display screen G for the results of analysis where the results of a spectral analysis of a long time RR interval data are displayed to select a trend to alter the maximum value of a scale and a 'scale' key K1 is depressed to alter the maximum value of the scale for the trend selected.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for changing the maximum scale value, and more particularly to a method for changing the maximum scale value of a parameter trend which is the result of RR interval spectrum analysis in the auto mode.

[0002]

2. Description of the Related Art Conventionally, a method of spectrally analyzing an RR interval, which is an interval between R waves forming an electrocardiogram, that is, a power spectrum of RR interval fluctuations, based on the relationship between cardiac dysfunction and autonomic neuropathy. It is well known that the method of performing frequency analysis on F. using the fast Fourier transform contributes to the discovery of autonomic neuropathy. In this RR interval spectrum analysis, a manual mode for spot-analyzing any part of the 24-hour RR interval data,
There is an auto mode in which an arbitrary section of 24-hour RR interval data is continuously analyzed at regular intervals. While the analysis result in the manual mode is displayed in two dimensions, the analysis result in the auto mode is displayed in three dimensions as shown in FIG. In FIG. 6, reference numeral D
1, D2 ... Are representative power spectra at a display time interval which is one section in 24 hours from the display start time of 19:00, for example, each hour. In the RR interval spectrum analysis by such an auto mode,
In addition to the power spectrum trend described above, a plurality of parameter trends may be displayed on one screen.
As an example of this parameter trend, for example, the average R
There is a time domain parameter trend consisting of R and standard deviation.

[0003]

Conventionally, in a single screen displaying a plurality of parameter trends as described above, when the maximum value of the scale is increased or decreased, it is displayed. There was a need for a number of keys proportional to the number of trends. For example, 4 on one screen
If one parameter trend was displayed, four keys were needed, and if five parameter trends were displayed, five keys were needed. The object of the present invention is to analyze the spectrum by the auto mode,
When displaying a plurality of parameter trends on one screen, it is necessary to reduce the number of keys required for changing the maximum value of the scale.

[0004]

[Means for Solving the Problems] The above-mentioned problems are caused by long-term R
By pressing the "T selection" key K2 on the analysis result display screen G displaying the result of spectrum analysis of the R interval data, the trend for which the maximum value of the scale should be changed is selected, and the "scale" key K1 is pressed. Accordingly, the maximum value of the scale of the selected trend is changed, which is solved by the scale maximum value changing method.

[0005]

As described above, according to the present invention, as shown in FIG. 1A, first, the maximum value of the scale is changed by pressing the "T selection" key K2 on the analysis result display screen G. Select the trend that should be done. For example, by pressing the “T select” key K2 in FIG. 1A, among the plurality of trend names Ga, Gb, Gc, Gd, ... Which are displayed in the vertical direction on the analysis result display screen G. The color of the trend name selected by is changed to a color different from the color when the "T selection" key K2 is not pressed, for example, changed to yellow and displayed. That is, by pressing the "T selection" key K2, as shown in FIG. 1B, the trend name with the color changed is selected, for example, from the top to the bottom (arrow k).
21, k22, k23). Next, by pressing the "scale" key K1, the maximum value of the scale of the selected trend is changed. For example, pressing the "scale" key K1 increases the maximum value of the scale of the selected trend. On the contrary, the maximum value of the scale of the selected trend is decreased by pressing the "scale" key K1. Therefore, according to this configuration, for example, in FIG.
As shown in (C), trend values A1, A2, A3, A
Even if the value A3 at time t3 out of 4 exceeds the maximum scale value 2.00 and is unknown, by increasing the maximum scale value to double 4.00 (arrow B), The value A3 at t3 becomes clear. That is, 1
No matter how many parameter trends are displayed on one screen, the maximum value of the scale can be changed only by the two keys of the "T selection" key K2 and the "scale" key K1. Therefore, when displaying a plurality of parameter trends on one screen in the spectrum analysis result in the auto mode, the number of keys required to change the maximum value of the scale can be made smaller than ever before. Became.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the accompanying drawings by way of embodiments. The present invention, as set forth in claim 1,
By pressing the "T selection" key K2 on the analysis result display screen G displaying the result of spectrum analysis of the RR interval data for a long time, the trend for which the maximum value of the scale should be changed is selected, and the "scale" key The scale maximum value changing method is characterized in that the maximum value of the scale of the selected trend is changed by pressing K1.

An example of the analysis result display screen G is shown in FIG. In FIG. 2, reference numeral G1 is a power spectrum trend screen, G2 is a time domain parameter trend screen, G3 is a first frequency domain parameter trend screen, and G4 is a second frequency domain parameter trend screen. As described with reference to FIG. 6, the analysis result in the auto mode is displayed in three dimensions on the power spectrum trend G1 screen, which is the display start time.
The display time interval which is one section from 9:00 to 24 hours,
For example, the representative power spectrum for each hour is displayed, and "PST" for screen switching is displayed.
Key P1, "Trend T" key P2 and "Trend F" key P3 are displayed respectively. In addition, a time domain parameter trend screen G2 other than the power spectrum trend screen G1, a first frequency domain parameter trend screen G3, and a second frequency domain parameter trend screen G
As shown in FIG. 4, "PS" for screen switching
A "T" key P1, a "trend T" key P2 and a "trend F" key P3 are displayed respectively. If the "PST" key P1 on each of the above screens is pressed, the power spectrum trend screen G1 is pressed, the "trend T" key P2 is pressed, and the "trend F" key P3 is pressed on the time domain parameter trend screen G2. The first frequency domain parameter trend screen G3 or the second frequency domain parameter trend screen G4 is switched. Further, by pressing the "Trend F" key P3, it is switched to either the first frequency domain parameter trend screen G3 or the second frequency domain parameter trend screen G4 by a display condition setting screen (not shown) or a display. It is set in advance on the condition auxiliary setting screen (not shown).
According to such a screen switching method, for example, “Trend T” is displayed on the power spectrum trend screen G1.
When the key P2 is pressed, the time domain parameter trend screen G
2 and the time domain parameter trend screen G
When the "PST" key P1 of 2 is pressed, the power spectrum trend screen G1 is switched again (arrow C). In addition, for example, when the "trend F" key P3 is pressed on the power spectrum trend screen G1, the screen switches to the first frequency domain parameter trend screen G3 or the second frequency domain parameter trend screen G4, and the first frequency domain The "PST" key P of the parameter trend screen G3 or the second frequency domain parameter trend screen G4
When 1 is pressed, the above power spectrum trend screen G again
It switches to 1 (arrow D). In the examples below,
Mainly, the time domain parameter trend screen G2,
The first frequency domain parameter trend screen G3 and the second
The frequency domain parameter trend screen G4 will be described in detail.

FIG. 3 is a diagram showing an embodiment of the present invention.
In FIG. 3, reference numeral G2 is the time domain parameter trend screen, G21, GG22, G23, and G24 are the names of the respective trends, G21 is the average RR, G22 is the standard deviation, G23 is the coefficient of variation, and G24 is RR50. Regarding the unit, the average RRG21 is sec, the standard deviation G22 is sec, the coefficient of variation is%, and RR50G24.
Is the number.

(1) First, as shown in FIG. 3 (A), by pressing the "T selection" key K2 on the time domain parameter trend screen G2, the trend whose maximum scale value should be changed is selected. . As shown in FIG. 3A, the trend value C7 of the coefficient of variation G23 at time 7:00 exceeds the maximum value 10 of the scale. Therefore, "T select" key K2
By pressing, select the trend name with the color changed to yellow from top to bottom (arrows k21, k2
2) Select the coefficient of variation G23. (2) Next, the "scale" key K1 is pressed to change the maximum value of the scale of the selected trend. In this embodiment, by pressing the "scale" key K1, the maximum value of the scale of the selected variation coefficient G23 is increased, for example, doubled. Therefore, as shown in FIG. 3C, the trend values C6, C7, and C8 are time 7: 0.
Even if the value C7 at 0 exceeds the maximum scale value of 10 and is unknown, the maximum scale value is doubled to 20.
(Arrow F) makes the value C7 at time 7:00 clear.

FIG. 4 is a diagram showing an embodiment of the present invention.
In FIG. 4, reference numeral G3 is the first frequency domain parameter trend screen, G31, GG32, G33, G34.
Is the name of the trend, G31 is the LF component,
G32 is an HF component, G33 is a TF component, and G34 is an F component ratio. The LF component G31 is, for example, 0.039.
It is a low frequency component from c / b to 0.148 c / b, and its unit is msec ² . The HF component G32 is, for example, a high frequency component from 0.148 c / b to 0.398 c / b, and its unit is msec ² . The TF component G3
3 is, for example, 0.000 c / b to 0.500 c / b
The total frequency component up to and the unit is msec ² . The F component ratio G34 is equal to the LF component G31 and HF.
It is the ratio of the component G32.

(1) First, as shown in FIG. 4A, "T" is displayed on the first frequency domain parameter trend screen G3.
By pressing the "Select" key K2, the trend for which the maximum scale value is to be changed is selected. Looking at FIG. 4 (A),
The trend value T1 of the TF component G33 at time 1:00 exceeds the maximum scale value 200. Therefore, by pressing the "T select" key K2, the trend name whose color has been changed to yellow is selected from top to bottom (arrow k2
1, k22) and the TF component G33 are selected. Figure 4 (B)
As shown in, the TF component G33 is passed and the F component ratio G
Since it has reached 34 (arrow k23), by pressing the "T selection" key K2 again, the F component ratio G3 at the bottom is
Select the top LF component G31 from 4 (arrow k2
4) Then, press the "T selection" key K2 to select the TF component G
33 is selected (arrows k21 and k22). (2) Next, the "scale" key K1 is pressed to change the maximum value of the scale of the selected trend. In this embodiment, by pressing the "scale" key K1, the maximum value of the scale of the selected TF component G33 is increased and doubled. Therefore, as shown in FIG. 4C, even if the value T1 at time 1:00 of the trend values T24, T1, and T2 exceeds the maximum scale value 200 and is unknown, the maximum scale value is increased. By doubling the value to 400 (arrow H), the value T1 at time 1:00 becomes clear.

FIG. 5 is a diagram showing an embodiment of the present invention.
In FIG. 5, reference numeral G4 is the second frequency domain parameter trend screen, G41, G42, G43, and G44 are the names of the respective trends, G41 is the LF component variation coefficient, G42 is the HF component variation coefficient, and G43 is TF. The component variation coefficient, G44, is the F variation coefficient ratio.

(1) First, as shown in FIG. 5A, "T" is displayed on the second frequency domain parameter trend screen G4.
By pressing the "Select" key K2, the trend for which the maximum scale value is to be changed is selected. Looking at FIG. 5 (A),
F variation coefficient ratio G44 trend value F1 at time 13:00
3 exceeds the maximum scale value of 4. Therefore, "T
By pressing the "Select" key K2, the trend name with the color changed to yellow is selected from top to bottom (arrow k
21, k22, k23) and the F variation coefficient ratio G44. (2) Next, the "scale" key K1 is pressed to change the maximum value of the scale of the selected trend. In this embodiment, by pressing the "scale" key K1, the maximum value of the scale of the selected F variation coefficient ratio G44 is increased and doubled. Therefore, as shown in FIG. 5 (C), the trend values F12, F13, and F14 are time 13: 0
Even if the value F13 at 0 exceeds the maximum scale value of 4.0 and is unknown, by increasing the maximum scale value to double to 8.0 (arrow J), the value at time 13:00 F13 becomes clear. In each of the above embodiments (FIGS. 2 to 5), the case where the maximum scale value is increased has been described, but the present invention is not limited to this, and the case where the maximum scale value is decreased is also applicable. Of course, it is applied.

[0014]

As described above, according to the present invention, by pressing the "T selection" key K2 on the analysis result display screen G displaying the result of spectrum analysis of long-term RR interval data, A technical means called a scale maximum value changing method characterized in that the maximum value of the scale of the selected trend is changed by selecting the trend whose maximum value is to be changed and pressing the "scale" key K1. Was taken. According to this configuration, as shown in FIG. 1A, first, on the analysis result display screen G, the "T selection" key K2 is pressed to select the trend for which the maximum scale value should be changed. For example, “T selection” in FIG.
By pressing the key K2, a plurality of trend names Ga, G displayed vertically on the analysis result display screen G are displayed.
The color of the trend name selected from among b, Gc, Gd ... Is changed to a color different from the color when the “T selection” key K2 is not pressed, for example, changed to yellow. That is, by pressing the "T selection" key K2, the screen shown in FIG.
As shown in, the trend name that changes the above color,
For example, select from top to bottom (arrows k21, k
22, k23). Next, by pressing the "scale" key K1, the maximum value of the scale of the selected trend is changed. For example, by pressing the "scale" key K1,
Increase the maximum value of the scale of the selected trend above. On the contrary, the maximum value of the scale of the selected trend is decreased by pressing the "scale" key K1. Therefore, according to this configuration, for example, FIG.
As shown in, the value A3 at time t3 of the trend values A1, A2, A3, and A4 is the maximum value of 2.0 on the scale.
Even if it is unknown beyond 0, the value A3 at time t3 becomes clear by increasing the maximum value of the scale to double 4.00 (arrow B). That is, no matter how many parameter trends are displayed on one screen, the maximum value of the scale can be changed only by the two keys of the "T selection" key K2 and the "scale" key K1. Therefore, when a plurality of parameter trends are displayed on one screen in the spectrum analysis result by the auto mode, the technical effect of reducing the number of keys required to change the maximum value of the scale can be achieved. became.

[Brief description of drawings]

FIG. 1 is a principle diagram of the present invention.

FIG. 2 is a diagram showing an example of the present invention.

FIG. 3 is a diagram showing an example of the present invention.

FIG. 4 is a diagram showing an example of the present invention.

FIG. 5 is a diagram showing an example of the present invention.

FIG. 6 is a general explanatory diagram of a spectrum analysis result in auto mode.

[Explanation of symbols]

 G Analysis result display screen Ga, Gb, Gc, Gd Trend name K1 "Scale" key K2 "T selection" key

Claims (10)

[Claims] 1. A trend for which the maximum value of the scale should be changed is selected by pressing the "T selection" key K2 on the analysis result display screen G which displays the result of spectral analysis of long-term RR interval data. , The scale maximum value changing method is characterized in that the maximum value of the scale of the selected trend is changed by pressing the "scale" key K1. 2. By pressing the "T selection" key K2, a selection is made from a plurality of trend names Ga, Gb, Gc, Gd ... Displayed vertically on the analysis result display screen G. 2. The method of changing the maximum scale value according to claim 1, wherein the color of the trend name to be displayed is changed to a color different from the color when the "T select" key K2 is not pressed. 3. The color of the selected trend name is
The method for changing the maximum scale value according to claim 2, wherein the method is changed to yellow. 4. By pressing the "T selection" key K2,
3. The method for changing the maximum scale value according to claim 2, wherein the trend names whose colors are changed are selected from top to bottom. 5. By pressing the "T selection" key K2,
3. The scale maximum value changing method according to claim 2, wherein the trend name with the color changed is selected from the bottom to the top. 6. The scale maximum value changing method according to claim 1, wherein the maximum value of the scale of the selected trend is increased by pressing a "scale" key K1. 7. The method of changing the maximum scale value according to claim 1, wherein the maximum value of the scale of the selected trend is decreased by pressing the "scale" key K1. 8. The scale maximum value changing method according to claim 1, wherein the analysis result display screen G is a time domain parameter trend screen G2. 9. The scale maximum value changing method according to claim 1, wherein the analysis result display screen G is a first frequency domain parameter trend screen G3. 10. The scale maximum value changing method according to claim 1, wherein the analysis result display screen G is a second frequency domain parameter trend screen G4.