EP2100154A1 - Method and device for the illustration of ordinate/abscissa value pairs on a display unit - Google Patents

Abstract

A method for the illustration of ordinate/abscissa value pairs on a display unit having discrete display points in the abscissa and ordinate directions, the abscissa resolution (Lx) of which is reduced as opposed to the abscissa resolution of the ordinate/abscissa value pairs, is used to determine the respective maximum ordinate value (V_Ymax(S)) and the respective minimum ordinate value (V_Ymin(S) ) of each ordinate/abscissa value pair located within half the distance of the respective abscissa value (s) to the respectively adjacent abscissa values (s+1, s-1) on the right and left sides of the display points, and replaces all ordinate/abscissa value pairs located within half the distance of the respective abscissa value (s) to the respectively adjacent abscissa value (s+1, s-1) of the display points on the right and left sides, by means of a surface between the respective maximum and respective minimum ordinate values (V_Ymax(S), V_Ymin(S)) and half the distance of the respective abscissa value (s) to the respectively adjacent abscissa values (s+1, s-1) of the display points on the right and left sides.

Description

 Method and apparatus for displaying ordinate-abscissa value pairs on a display device

The invention relates to a method and a device for displaying ordinate-abscissa value pairs on a display device.

For the graphical representation of measured values in measuring devices or systems-for example, spectrum and network analyzers-display devices with discrete display points-pixel graphics-are nowadays used by default. The resolution of such display devices is limited due to the limited number of display points in ordinate and abscissa directions. The maximum resolution of such display devices is today z. Eg at 1000 * -600 display points.

1 with a low-pass filter 1 for limiting the frequency of the signal to be displayed with regard to the sampling theorem, an analog-to-digital converter 2 for digitizing the signal to be represented, a fast Fourier transformer 3 (FFT) for calculating the discrete Fourier spectral lines by fast Fourier

Transformation, an absolute value generator 4 for determining the power spectral lines, a logarithmizer 5 for compressing the wide signal range scattered power spectral lines on the display area of the display device and a display device 6 with discrete display points in ordinate and abscissa direction to represent the discrete power spectral lines For example, the power spectrum to be plotted in the abscissa direction has a resolution equal to the FFT length N _{FFT of} the FFT transformer 3 - typically N _FFT = 2048 - and in the ordinate direction a resolution equal to the word width of the logarithm 5 - typically 2 ¹⁶ = 56636 Level levels - up. Thus, since the resolution of the measured values to be displayed both in If the abscissa and also in the ordinate direction is greater than the resolution of the display device 6, the resolution of the measured values to be displayed must be reduced on the display device 6 before carrying out the representation of the measured values.

Reference is made to the prior art, for example, to US 5,103,402.

A reduction in the resolution of the measured values to be displayed in the abscissa direction leads disadvantageously to a loss of information of the measured values to be displayed in the ordinate direction. Strong fluctuations of the measured values to be displayed over a larger range of values in the ordinate direction thus cause an unacceptable accuracy error, in particular in the case of real-time data acquisition and display.

The object of the invention is therefore the accuracy of a real-time data display of detected in real time

Measured values whose resolution in ordinate and abscissa direction is higher than the resolution of the display device to increase, and specify a corresponding method and a corresponding device.

The invention is achieved by the method according to the invention for displaying ordinate-abscissa value pairs on a display device having the features of claim 1 and by the device according to the invention for displaying ordinate-abscissa value pairs on a display device having the features of claim 8 solved .

According to the invention, by reducing the resolution of the measured values measured in the abscissa direction to the

Resolution of the display devices in the abscissa direction of the maximum and minimum values of the ordinate values of all ordinate-abscissa value pairs, which are within half the distance of each abscissa value to be displayed from each abscissa value lying on the right-hand side and left-hand side, and replacing the individual ordinate-abscissa value pairs as the area between the determined maximum and minimum values and half the distance of the respective abscissa value from the respective abscissa value on the right and left. In this way, the information about the range of values of the individual ordinate values of the ordinate-abscissa value pairs of the measured values acquired in a higher resolution than the resolution of the display device is not lost in the representation of the measured values on the display device.

If the ordinate values of two adjacent measured values have significantly different values-for example, the detected frequency spectrum of a transmission signal filtered with a narrow-band bandpass filter-then the ordinate values of the two adjacent measured values become half the distance between the abscissa values by linear interpolation the ordinate values located at the two adjacent measured values and taken into account for the determination of the maximum and minimum values of the ordinate values of all ordinate-abscissa value pairs within the half distance of the respective abscissa value to be represented by the abscissa value on the right and left side.

An embodiment of the method according to the invention and of the device according to the invention for displaying ordinate-abscissa value pairs on a display device will be explained in detail below with reference to the drawing. The figures of the drawing show:

1 shows a block diagram of a prior art spectrum analyzer,

2 is a block diagram of a device according to the invention for the representation of ordinate Abscissa value pairs on a display device,

3A, 3B show an ordinate abscissa representation of ordinate-abscissa value pairs at high and low data reduction in the abscissa direction and

4 shows a flowchart of the method according to the invention for the representation of ordinate

Abscissa value pairs on a display device.

The inventive device 7 for displaying ordinate-abscissa value pairs on a display device 6 in FIG. 2 receives from the logarithm 5 in the cycle of the FFT calculation a vector v_Y-log with a total of N _FFT discrete logarithmic level values Y_log of the power spectral lines to be represented. In a quantizer 8, the discrete logarithmic level values Y-log of the power spectral lines to be represented as ordinate values of a total of N _FFT ordinate abscissa value pairs are quantized in the ordinate direction with respect to the total Ly possible display points v_Y_log 'of the pixel graphics of the display device 6.

In an interpolator 9, which is preferably designed as a linear interpolator which, for each of a total of Lx can be displayed on the display device 6 abscissa value s, the ordinate v_Y _ün (s) and v_Yii _n (s + l) of additional ordinate abscissas Value pairs are calculated at half the distance of the respective abscissa value s to the next left-side and right-side adjacent abscissa value s-1 and s + 1 by means of interpolation of the two respectively nearest quantized discrete logarithmic level values Y_log 'of the power spectral lines to be represented. In an extreme value generator 10, for each abscissa value s of the display device 6, the maximum value v_Y _max (s) and the minimum value v_Y _m i _n (s) from all within the half distance of the respective abscissa value s to the next left and quantum discrete logarithmic level values Y_log 'of the displayed power spectral lines, plus the interpolated ordinate values v_Yi _in (s) and v_Yi _in (s + l) at half the distance of the respective abscissa value s to the next left side and s the right-hand side adjacent abscissa value s-1 and s + 1 determined.

The maximum and minimum values v_Y _max and v_Y _min determined overall by Lx in the extreme value generator 10 and representing the level values of the power spectral lines to be displayed in the total displayable levels of the display device 6 are displayed to the display device 6 as ordinate values in the pixel graphic on the display - Pass device 6 to be displayed ordinate-abscissa value pairs.

In Figs. 3A and 3B, for a different FFT length of the FFT transformer - double FFT length in Fig. 3A versus the FFT length in Fig. 3B - for a given pixel pitch, f _P i _xe i of the display means 6 in Fig. 3 The abscissa direction determines the maximum value v_Y _max (s) and the minimum value v_Y _min (s) in the respective abscissa value s and the linearly interpolated ordinate value v_Y _ün (s) at half the distance between the respective abscissa value s and its left and right adjacent Abscissa value s-1 and s + 1 shown.

Finally, FIGS. 3A and 3B also show the shaded area shown on the display device 6 between the respective maximum value v_Y _max (s) and minimum value v_Y _min (s) and the half distances between the respective abscissa value s and its left and right sides Abscissa value s-1 and s + 1 too which is intended to replace the ordinate-abscissa value pairs within the shaded area of the quantized logarithmic level values Y_log 'of the power spectral lines to be displayed on the display device 6.

In the following, the method according to the invention for representing ordinate-abscissa value pairs on a display device will be described with reference to FIG. 4.

In the first method step S10, the logarithmic 5, determined within a FFT cycle of the FFT transformer 3, are subjected to logarithmized, discrete level values v_Y_log of the power spectrum of a quantization in the quantizer 8, in which the

Level values at the output of the logarithm 5, which can assume a total of 65536 different values with a word width of 16 bits, reduced to the total of Ly on the display device 6 representable ordinate values. Consequently, Id (Ly) bits are required for the binary representation of the quantized logarithmized discrete level values v_Y_log 'at the output of the quantizer 8.

In the next method step S20, the interpolated ordinate values v_Yn _{n of} the power spectrum at half the distance between in each case two adjacent abscissa values by means of interpolation, in particular by means of linear interpolation, for each Lx that can be represented on the display device 6 are selected from the respective right-sided and on the left-hand side, quantized level values of the power spectrum determined by means of FFT transformation are calculated.

In the last method step S30, abscissa values which can be represented on the display device 6 for all Lx are all ordinate-abscissa value pairs located within the respective half distance to the abscissa value adjacent to the right-hand and left-hand side, respectively, and quantized by FFT transformation the respective maximum and minimum values v_Y _max (s) and v_Y _min (s) and the display device 6 for display as area between maximum and minimum values v_Y _max (s) and v_Y _min (s) for each representable on the display device 6 abscissa value s.

The invention is not limited to the illustrated embodiment. The invention covers not only linear interpolation but also other higher-order interpolation methods.

Claims

claims

1. A method for displaying ordinate-abscissa value pairs on a display device (6) with discrete display points in the abscissa and ordinate direction, the

Abscissa-resolution (Lx) compared to the abscissa-resolution of the ordinate-abscissa value pairs is reduced, by determining the maximum ordinate value (v_Y _max (s)) and the respective minimum ordinate value

(v_Y _min (s)) of each ordinate abscissa value pair which is within half the distance of the respective abscissa value (s) to the abscissa value (s + 1, s-1) of the display points respectively adjacent to the right and left sides, and substitution of all Ordinate-abscissa value pairs which are within half the distance of the respective abscissa value (s) to the respective right and left adjacent abscissa value (s + 1, s-1) of the display points, by an exne area between the respective maximum and the respective minimum Ordinate value (v_Y _max (s), v_Y _min (s)) and half the distance of the respective abscissa value (s) to the respective right and left adjacent abscissa value (s + 1, s-1) of the display points.

2. Method for displaying ordinate-abscissa value pairs according to claim 1, characterized in that by interpolation of the ordinate-abscissa value pairs to be represented in the respective half distances between the respective abscissa values (s) to the abscissa value respectively adjacent to the right or left side ( s + 1, s-1) of the display points, the interpolated ordinate values (v_Yi _in (s)) of additional ordinate-abscissa value pairs are determined.

3. A method for displaying ordinate-abscissa value pairs according to claim 2, characterized that the interpolation is a linear interpolation.

4. A method for representing ordinate-abscissa value pairs according to claim 2 or 3, characterized in that the interpolation determined by interpolation ordinate values (v_Yu _n (s)) of additional ordinate abscissa value pairs in determining the abscissa for each value (s ) of the display points respectively maximum and minimum ordinate value (v_Y _max (s), v_Y _m i _n (s)) of the ordinate-abscissa value pairs to be represented.

5. A method for displaying ordinate-abscissa value pairs according to one of claims 1 to 4, characterized in that the ordinate values (v_Y_log) of the ordinate-abscissa value pairs to be displayed are displayed on the ordinate values (v_Y_log ') which can be displayed on the display device (6). ) are quantized.

6. Method for displaying ordinate-abscissa value pairs according to one of claims 1 to 5, characterized in that the abscissa values (s) of the ordinate-abscissa value pairs to be displayed include sampling times and the ordinate values (v_Y_log) of the ordinate-abscissa value pairs to be displayed the sampling instants are signal levels or power level values of a sampled time signal.

7. Method for representing ordinate-abscissa value pairs according to one of claims 1 to 5, characterized in that the abscissa values (s) of the ordinate-abscissa value pairs to be displayed are frequency values and the ordinate values (v_Y_log) of the ordinate-abscissa value pairs to be displayed the signal levels associated with the frequency values. or power level values of a sampled frequency spectrum.

8. Apparatus for displaying ordinate-abscissa value pairs on a display device (6) with discrete display points in the abscissa and ordinate directions, the

Abscissa resolution (Lx) is reduced compared to the abscissa resolution of the ordinate-abscissa value pairs, with a quantizer (8) for quantizing the

Ordinate values (v_Y_log) of each ordinate-abscissa value pair to be displayed on the ordinate values (v_Y_log ') which can be displayed on the display device (6) and an extreme value former (10) for determining the respective maximum and minimum ordinate values (v_Y _max (s)),

(v_Y _m i _n (s)) of all ordinate-abscissa value pairs to be displayed, which are within half the distance between the respective abscissa value (s) to the respective right and left adjacent abscissa value (s + 1, s-1) of the display points ,

9. A device for displaying ordinate-abscissa value pairs according to claim 8, characterized in that the extreme value generator (10) in addition to a

Interpolator (9) for calculating interpolated ordinate values (v_Y _ün (s)) of additional ordinate-abscissa value pairs at the half-distances between the respective abscissa values (s) and the abscissa values (s + 1, s) adjacent to the right- and left-hand side 1) of the display points is connected upstream.