JP2003143038A - Modulation system display device, method, program and recording medium with the program recorded thereon - Google Patents

Abstract

PROBLEM TO BE SOLVED: To display modulation systems of respective channels. SOLUTION: In bar chart, the positions in the transverse direction of blocks 322a-322h denote channels. Further, since the number of stacked rectangles of the blocks 322a-322h correspond to modulation systems, the modulation system of each channel can be identified.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to display of a modulation system in coded multiplex system communication such as a CDMA communication system.

[0002]

2. Description of the Related Art FIG. 16 shows an example of display of measurement results of code domain power in a CDMA communication system.

In FIG. 16, the vertical axis W represents electric power. The horizontal axis shows the channel CH. In the example of FIG. 16, the communication method is cdma2000, the Walsh length is “64”, and the channel of 64 channels is set to be connectable, and channels 0, 1, 3, 5, 7, 9, 11, 13, ... 61,
It is shown that 63 is transmitting a signal. The signal of each channel is modulated by a method such as BPSK.

[0004]

However, the modulation method of each channel is not limited to BPSK, but QPSK, 8PSK, 16QAM.
And so on. Moreover, the modulation method can be changed for each channel. Therefore, depending on the display in the conventional technique, the modulation method for each channel cannot be known.

Therefore, an object of the present invention is to display the modulation method of each channel.

[0006]

According to a first aspect of the present invention, there is provided measurement data recording means for recording a measurement target channel for a predetermined spreading code length, a modulation scheme for the measurement target channel, and measurement data for the measurement target channel,
Graph display means for displaying a graph having a form corresponding to the modulation method, the position of which is determined by the channel to be measured, the position of which is arranged at a height corresponding to the measurement data.

According to the modulation method display device configured as described above, a graph having a form corresponding to the modulation method related to the measurement target channel is displayed, so that the modulation method of the measurement target channel can be known.

The invention according to claim 2 is the invention according to claim 1, wherein the graph is composed of rectangles stacked in the height direction, and the number of rectangular stacks is determined according to the modulation method. Is configured as follows.

The invention according to claim 3 is the invention according to claim 1, wherein the graph is composed of a rectangle, and the height of the rectangle is determined corresponding to the modulation method.

The invention according to claim 4 is the invention according to claim 1, wherein the graph is composed of points stacked in the height direction, and the number of stacked points is determined corresponding to the modulation method. Is configured as follows.

The invention according to claim 5 is the invention according to claim 1, wherein the graph is configured such that the number of vertices is determined corresponding to the modulation method.

The invention according to claim 6 is the invention according to any one of claims 1 to 5, wherein the measurement data recording means further records a signal spreading code length and a signal channel corresponding to the signal. The graph display means is further configured to display a ruled line which is located by the signal spreading code length and the signal channel and extends in the height direction.

According to a seventh aspect of the present invention, there is provided a measurement data recording means for recording a measurement target channel for a predetermined spreading code length, a modulation method for the measurement target channel and measurement data for the measurement target channel, and a position by the measurement target channel. And a graph display unit configured to display a graph having a shape corresponding to the height corresponding to the measurement data and the modulation method.

The invention described in claim 8 is the invention described in claim 7, wherein the measurement data recording means further records the signal spreading code length and the signal channel corresponding to the signal, and the graph display means is the same. The graph belonging to the signal channel is displayed separately from other graphs.

The invention according to claim 9 is the invention according to claim 7, wherein the shape of the head of the graph corresponds to the modulation method.

The invention according to claim 10 is the invention according to claim 7, wherein the color of the graph corresponds to the modulation method.

The invention according to claim 11 is the invention according to claim 7, wherein the characters displayed in the graph correspond to the modulation method.

The twelfth aspect of the invention is the invention according to the seventh aspect, wherein the graph display means is configured to display a graphic corresponding to the modulation method on the upper part of the graph.

The invention according to claim 13 is the invention according to claim 7, wherein the pattern of the graph corresponds to the modulation system.

According to a fourteenth aspect of the present invention, there is provided a measurement data recording step of recording a measurement target channel for a predetermined spreading code length, a modulation method for the measurement target channel, and measurement data for the measurement target channel, and a position is determined by the measurement target channel. And a graph display step of displaying a graph having a shape corresponding to the modulation method, the graph display step being arranged at a height corresponding to the measurement data.

According to a fifteenth aspect of the present invention, a measurement data recording step of recording a measurement target channel for a predetermined spreading code length, a modulation method for the measurement target channel and measurement data for the measurement target channel, and a position depending on the measurement target channel. And a graph displaying step of displaying a graph having a shape corresponding to the height corresponding to the measurement data and the modulation method.

According to a sixteenth aspect of the present invention, a measurement data recording process for recording a measurement target channel for a predetermined spreading code length, a modulation scheme for the measurement target channel, and measurement data for the measurement target channel, and a position depending on the measurement target channel are used. It is a program for causing a computer to execute a graph display process for displaying a graph that is defined and arranged at a height corresponding to measurement data and has a form corresponding to a modulation method.

According to a seventeenth aspect of the present invention, a measurement data recording process for recording a measurement target channel for a predetermined spreading code length, a modulation method for the measurement target channel and measurement data for the measurement target channel, and a position depending on the measurement target channel. It is a program for causing a computer to execute a graph display process for displaying a graph having a shape that is defined and has a height corresponding to measurement data and a form corresponding to a modulation method.

According to the eighteenth aspect of the present invention, a measurement data recording process for recording a measurement target channel for a predetermined spreading code length, a modulation method for the measurement target channel, and measurement data for the measurement target channel, and a position depending on the measurement target channel are used. A computer-readable recording medium that stores a program for causing a computer to execute a graph display process that is set at a height corresponding to measurement data and that displays a graph having a form corresponding to a modulation method. is there.

According to a nineteenth aspect of the present invention, a measurement data recording process for recording a measurement target channel for a predetermined spreading code length, a modulation method for the measurement target channel, and measurement data for the measurement target channel, and a position depending on the measurement target channel. The recording medium is a computer-readable recording medium that stores a program for causing a computer to execute a graph display process that displays a graph having a shape corresponding to a height corresponding to measurement data and a modulation method.

[0026]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings.

First Embodiment FIG. 1 is a block diagram showing the structure of a modulation type display device according to the first embodiment. The modulation method display device according to the first embodiment measures and displays the power for each measurement target channel for a received signal of the cdma2000 method.

The modulation type display device comprises a local oscillator 1
0, mixer 12, bandpass filter (BPF) 14, analog / digital (A / D) converter 16, signal analysis unit 20
And a display unit 30.

The local oscillator 10 generates a predetermined local signal used for frequency conversion. The mixer 12 is
The local signal output from the local oscillator 10 and the input received signal of the cdma2000 system (RF: Radio Frequency)
ncy), and outputs an analog intermediate frequency (IF) signal, which is the difference between them. The frequency of this IF signal is a frequency that can be converted into digital data by the A / D converter 16 in the subsequent stage. The bandpass filter 14 performs band limitation processing on the IF signal output from the mixer 12, and removes the aliasing component included in this IF signal. A / D
The converter 16 converts the input IF signal into digital data in order to perform various processes in the signal analysis unit 20 in the subsequent stage.

The signal analysis unit 20 calculates the power of each channel of the received signal using the cdma2000 system, based on the IF signal converted into digital data by the A / D converter 16. The signal analysis unit 20 includes a spread demodulation unit 21,
Spreading code generator 22, power calculator 23, analysis controller 24
Equipped with.

The spread demodulation unit 21 performs despreading (spread demodulation) on the received signal that has been spread and modulated using the spread code to restore the signal before modulation on the transmission side. The spread code generator 22 generates a spread code used in the despreading process performed by the spread demodulator 21 and supplies the spread code to the spread demodulator 21.

The power calculator 23 calculates the power value for each measurement target channel using the data that has been despread by the spread demodulator 21. For example, considering the case where QPSK modulation is used, the power calculation unit 23 separates the in-phase component I and the quadrature component Q of the signal after spread demodulation, and then adds the squared values of the respective data. By calculating I ² + Q ² by the calculation, the power value for each measurement target channel is calculated. The power calculator 23 also outputs the spreading code length, the measurement target channel, and the modulation scheme for each channel.
The output of the power calculation unit 23 becomes the output of the signal analysis unit 20.

In place of the power calculator 23, a means for calculating the noise component power value for each measurement target channel,
A means for measuring data may be provided for each measurement target channel. In this case, the data output from the power calculator 23 is the data measured for each measurement target channel.

The analysis control unit 24 sends an instruction to generate a spreading code to the spreading code generation unit 22 and also sends to the power calculation unit 23 an instruction to execute a power calculation process using the data obtained by the spreading demodulation process. .

The display unit 30 displays the power value calculated by the signal analysis unit 20 (data measured for each measurement target channel) on the screen in a predetermined format.

FIG. 2 shows the display unit 3 according to the first embodiment.
It is a block diagram which shows the detailed structure of 0. As shown in FIG. 2, the display unit 30 includes a ruled line interval recording unit 310, a measurement data recording unit 320, a graph display unit 322, a VRAM (Video Ra).
ndom Access Memory) 350, CRT (Cathode Ray Tub)
e) comprises 360.

The ruled line interval recording unit 310 records the ruled line interval. The recorded contents of the ruled line interval recording unit 310 are shown in FIG. As shown in FIG. 3, the spacing between ruled lines is determined by the spread code length. The ruled line interval is recorded as a coefficient to the common total length W regardless of the type of spread code length. For example, when the spread code length is 4, the ruled line interval is (1/4) W. FIG. 4 shows the relationship between the spread code length and the interval between ruled lines. In addition, W4, W8, ... Means the Walsh lengths 4, 8, ... And the numbers 0, 1, ... In the columns of W4, W8 ,. As is apparent from FIG. 4, when the spread code length is 4, the ruled line interval ΔW is (1/4) W, and when the spread code length is 8, the ruled line interval ΔW is (1/8) W. is there. The same applies when the spreading code length is 16, ...

In the case of the cdma2000 system, the spread code length (Walsh length) is 256 or less. The embodiment of the present invention is also applicable to the W-CDMA system, and in this case, the spreading code length (spreading factor) is 512.
It is the following. However, in the case where the spread code length is 256 or 512, the illustration is omitted from FIG. 3 onward.

The measurement data recording section 320 has a spread code length,
The measurement data (power) regarding the measurement target channel, the modulation method, and the measurement target channel is received from the signal analysis unit 20 and recorded. The measurement data recording unit 320 also records a signal channel from which a signal is output and a signal spreading code length related to the signal channel.

FIG. 5 shows the recorded contents of the measurement data recording unit 320. In the example of FIG. 5, as shown in FIG. 5A, the spreading code length, the measurement target channel, the modulation scheme, and the power [dBm] corresponding to the measurement target channel are recorded, and in FIG. As shown, the signal channel and the signal spreading code length are recorded. The spreading code length for the measurement target channel shown in FIG. 5A is 16.

For example, the power of channel 0 having a spreading code length of 16 is -10 [dBm], and BPSK modulation is performed (FIG. 5).
(See (a)). Further, a signal is output to channel 1 having a spread code length of 4 (see FIG. 5 (b)).

The graph display unit 322 displays a graph whose position is determined by the channel to be measured, is arranged at a height corresponding to the measurement data (power), and has a form corresponding to the modulation method. The graph display unit 322 further displays a ruled line whose position is determined by the signal spreading code length and the signal channel and which extends in the height direction.

FIG. 6 shows a graph display example by the graph display unit 322. The horizontal positions of the graphs 322a to 322a are defined by the measurement target channel. Further, the heights at which the graphs 322a to 322h are arranged correspond to the measurement data (power). Here, the forms of the graphs 322a to 322h correspond to the modulation method. In the example shown in FIG. 6, when the modulation method is BPSK, the graph is a rectangle. When the modulation method is QPSK, the graph is two rectangles stacked in the height direction. Modulation method is 8PSK
, The graph is three rectangles stacked in the height direction. When the modulation method is 16QAM, the graph is four rectangles stacked in the height direction.

The ruled line 322L is displayed on the boundary of the signal channel. For example, on the boundary between channels 0 and 1 having the spreading code length of 16 and channel 1 having the spreading code length of 16 and the spreading code length
The ruled line 322L is displayed on the boundary between the channel 1 of 8 and the channel 1 of the spreading code length 8 and the channel 1 of the spreading code length 4. Each of the ruled lines 322L extends to the lower end (-90 [dBm]) of the surface on which the graph is displayed.

As shown in FIG. 7, ruled lines 322L
Need only extend to the adjacent graphs, and need not extend to the lower end (-90 [dBm]) of the surface on which the graphs are displayed.

Further, as shown in FIG. 8, the graph may be one rectangle, and the height of the graph may be changed according to the modulation method. If the modulation scheme is BPSK, the graph is a rectangle and its height is H. Modulation method is Q
If it is PSK, the height of the graph is 2H. When the modulation method is 8PSK, the height of the graph is 3H. When the modulation method is 16QAM, the height of the graph is 4H.

Further, as shown in FIG. 9, the graph may have dots, and the number of dot stacks may be changed according to the modulation method. When the modulation method is BPSK, the graph has two points arranged horizontally and connected by a straight line. Modulation method is QPSK
In the case of, the graph is one in which two points are arranged side by side and two points are stacked. When the modulation method is 8PSK, the graph is one in which two points are arranged horizontally and three are stacked. When the modulation method is 16QAM, the graph is one in which two points are arranged horizontally and four are stacked.

As shown in FIG. 10, the graph may be polygonal and the number of vertices may be changed according to the modulation method. If the modulation scheme is BPSK, the graph is square. If the modulation scheme is QPSK, the graph is triangular. Alternatively, as shown in FIG. 11, when the modulation method is BPSK or QPSK, the graph is a quadrangle. If the modulation scheme is 8PSK, the graph is octagonal.

The VRAM 350 records the graph output by the graph display unit 322. The CRT 360 reads out and displays the recorded contents of the VRAM 350.

Next, the operation of the embodiment of the present invention will be described. First, the RF signal is mixed with the local signal by the mixer 12 to become an IF signal. The IF signal is band-limited by the bandpass filter 14, converted into digital data by the A / D converter 16, and input to the signal analysis unit 20.

The data input to the signal analysis unit 20 is demodulated by the spread demodulation unit 21, and the power calculation unit 23 calculates the power for each measurement target channel based on the demodulated data to calculate the spread code length and the measurement target. It is output to the modulation method recording unit 320 of the display unit 30 together with the channel. The spread code used by the spread demodulation unit 21 is generated by the spread code generation unit 22.

The graph display section 322 is used by the ruled line interval recording section 3
10 and the recording contents of the modulation method recording unit 320,
The bar graphs 322a to 322h and the ruled line 322L are displayed.

According to the first embodiment, a bar graph 322.
Since the forms from a to j indicate the modulation system, the modulation system of each channel can be known.

Second Embodiment The second embodiment is different from the first embodiment in that the graph has a height corresponding to the measurement data. The second embodiment is different from the first embodiment only in the graph display mode, and therefore only the graph display mode will be described.

FIG. 12 shows a graph display example by the graph display unit 322. The horizontal positions of the graphs 322a to 322a are defined by the measurement target channel. In addition, the height of each of the graphs 322a to 322h is measured data (power).
It corresponds to. Here, the forms of the graphs 322a to 322h correspond to the modulation method. In the example shown in FIG. 12, when the modulation method is BPSK, “B” is displayed on the graph. When the modulation method is QPSK, "Q" is displayed on the graph. When the modulation method is 8PSK, "8" is displayed on the graph. When the modulation method is 16QAM,
"16" is displayed on the graph.

The outline of the graph is displayed thick for each signal channel. For example, a graph 322a corresponding to channel 0 of spreading code length 16, a graph 322b corresponding to channel 1 of spreading code length 16, graphs 322c and d corresponding to channel 1 of spreading code length 8, channel 1 of spreading code length 4 The outline is displayed thicker for each of the graphs 322e, f, g, and h corresponding to. The color of the graph may be changed instead of displaying the outline thick. That is, the graph may be displayed so that it can be distinguished for each signal channel.

Further, as shown in FIG. 13, the shape of the top of the graph may be changed according to the modulation method. For example, when the modulation method is BPSK, the top of the graph is a triangle. When the modulation method is QPSK, the top of the graph is a rectangle. When the modulation method is 8PSK, the top of the graph is a trapezoid. When the modulation method is 16QAM, the top of the graph has a shape with a protrusion in the center.

Further, as shown in FIG. 14, a graphic corresponding to the modulation method may be further displayed on the upper part of the graph. For example, when the modulation method is BPSK, two dots are displayed at the top of the graph. When the modulation method is QPSK, four points are displayed at the top of the graph. When the modulation method is 8PSK, eight dots are displayed at the top of the graph. When the modulation method is 16QAM, 16 points are displayed at the top of the graph.

Further, as shown in FIG. 15, the pattern of the graph may be changed so as to correspond to the modulation method.

According to the second embodiment, the same effect as the first embodiment can be obtained.

In the above-described embodiment, a program for realizing each of the above parts is provided in a media reading device of a computer including a CPU, a hard disk, and a medium (floppy (registered trademark) disk, CD-ROM, etc.) reading device. Read the recorded media and install it on the hard disk. Even in this way,
A modulation method display device can be realized.

[0062]

According to the present invention, since the graph having the form corresponding to the modulation system for the measurement target channel is displayed, the modulation system of the measurement target channel can be known.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a modulation type display device according to an embodiment of a first embodiment.

FIG. 2 is a block diagram showing a detailed configuration of a display unit 30 according to the first embodiment.

FIG. 3 is a diagram showing recorded contents of a ruled line interval recording unit 310.

FIG. 4 is a diagram showing a relationship between a spread code length and a ruled line interval.

5A and 5B are diagrams showing recorded contents of a measurement data recording unit 320, showing a power and the like (FIG. 5A), a signal channel and a signal spreading code length (FIG. 5B). is there.

FIG. 6 is a diagram showing a display example of a graph by a graph display unit 322.

FIG. 7 is a diagram showing a display example of a graph by a graph display unit 322 in which the display mode of ruled lines 322L is changed.

FIG. 8 is a diagram showing a display example of a graph by a graph display unit 322 in which the height of the graph is changed according to the modulation method.

FIG. 9 is a diagram showing a display example of a graph by a graph display unit 322 using the graph as a point.

FIG. 10 is a diagram showing a display example of a graph by a graph display unit 322 in which the graph is a polygon.

FIG. 11 is a diagram showing a display example of a graph by a graph display unit 322 in which the graph is a polygon.

FIG. 12 is a diagram showing a display example of a graph by a graph display unit 322 in which characters indicating a modulation method are displayed on the graph.

FIG. 13 is a diagram showing a graph display example by the graph display unit 322 in which the shape of the top of the graph is changed according to the modulation method.

FIG. 14 is a diagram showing a display example of a graph by a graph display unit 322 which further displays a graphic corresponding to the modulation method on the upper part of the graph.

FIG. 15 is a diagram showing a display example of a graph by the graph display unit 322 in which the pattern of the graph is adapted to the modulation method.

FIG. 16 is a diagram showing an example of display of measurement results of code domain power in a conventional CDMA communication system.

[Explanation of symbols]

30 Display 310 Ruled Line Interval Recording Section 320 Measurement data recording unit 322 Graph display section 322a-h graph 322L ruled line 350 VRAM 360 CRT

Claims (19)

[Claims] 1. A measurement target channel for a predetermined spreading code length, a measurement data recording means for recording a modulation scheme for the measurement target channel and measurement data for the measurement target channel, and a position defined by the measurement target channel, A modulation method display device, comprising: a graph display unit arranged at a height corresponding to measurement data and displaying a graph having a form corresponding to the modulation method. 2. The modulation type display device according to claim 1, wherein the graph is composed of rectangles stacked in a height direction, and the number of the rectangular stacked layers is determined according to the modulation system. Method display device. 3. The modulation method display device according to claim 1, wherein the graph is a rectangle, and a height of the rectangle is determined corresponding to the modulation method. 4. The modulation method display device according to claim 1, wherein the graph is composed of points stacked in a height direction, and the number of stacked points is determined corresponding to the modulation method. Method display device. 5. The modulation method display device according to claim 1, wherein the number of vertices of the graph is determined corresponding to the modulation method. 6. The modulation method display device according to claim 1, wherein the measurement data recording means further records a signal spreading code length and a signal channel corresponding to the signal, The display device further displays a ruled line whose position is determined by the signal spreading code length and the signal channel and extends in the height direction. 7. A measurement target channel for a predetermined spread code length, a modulation method for the measurement target channel, and measurement data recording means for recording measurement data for the measurement target channel, and a position determined by the measurement target channel, A modulation method display device, comprising: a graph display means for displaying a graph having a height corresponding to measurement data and a form corresponding to the modulation method. 8. The modulation method display device according to claim 7, wherein the measurement data recording means further records a signal spreading code length and a signal channel corresponding to a signal, and the graph display means further includes the same one. A modulation method display device for displaying the graph belonging to a signal channel separately from other graphs. 9. The modulation method display device according to claim 7, wherein the top shape of the graph corresponds to the modulation method. 10. The modulation method display device according to claim 7, wherein the color of the graph corresponds to the modulation method. 11. The modulation method display device according to claim 7, wherein the characters displayed in the graph correspond to the modulation method. 12. The modulation method display device according to claim 7, wherein the graph display means displays a graphic corresponding to the modulation method on an upper part of the graph. 13. The modulation method display device according to claim 7, wherein the pattern of the graph corresponds to the modulation method. 14. A measurement data recording step of recording a measurement target channel for a predetermined spreading code length, a modulation scheme for the measurement target channel, and measurement data for the measurement target channel, and a position is defined by the measurement target channel, A modulation method display method comprising: a graph display step, which is arranged at a height corresponding to measurement data and displays a graph having a form corresponding to the modulation method. 15. A measurement data recording step of recording a measurement target channel for a predetermined spreading code length, a modulation scheme for the measurement target channel, and measurement data for the measurement target channel; and a position determined by the measurement target channel, A modulation method display method comprising: a graph display step of displaying a graph having a height corresponding to measurement data and a form corresponding to the modulation method. 16. A measurement data recording process for recording a measurement target channel for a predetermined spreading code length, a modulation scheme for the measurement target channel, and measurement data for the measurement target channel, and a position is defined by the measurement target channel, A program for causing a computer to execute a graph display process which is arranged at a height corresponding to measurement data and which displays a graph having a form corresponding to the modulation method. 17. A measurement data recording process for recording a measurement target channel for a predetermined spreading code length, a modulation method for the measurement target channel, and measurement data for the measurement target channel, and a position is defined by the measurement target channel, A program for causing a computer to execute a graph display process for displaying a graph having a height corresponding to measurement data and a form corresponding to the modulation method. 18. A measurement data recording process for recording a measurement target channel for a predetermined spreading code length, a modulation method for the measurement target channel, and measurement data for the measurement target channel; and a position determined by the measurement target channel, A computer-readable recording medium that stores a program for causing a computer to execute a graph display process that is arranged at a height corresponding to measurement data and that displays a graph having a form corresponding to the modulation method. 19. A measurement data recording process for recording a measurement target channel for a predetermined spreading code length, a modulation method for the measurement target channel, and measurement data for the measurement target channel; and a position determined by the measurement target channel, A computer-readable recording medium recording a program for causing a computer to execute a graph display process for displaying a graph having a height corresponding to measurement data and a form corresponding to the modulation method.