JPS6029689A - Displaying system - Google Patents

Abstract

PURPOSE:To grasp easily the information of the arrival time of an earthquake wave and its classification, etc. by indicating clearly the waveform of a detecting signal by a vertical straight line at the display position of a start time point of its amplitude variation, in case of displaying the waveform of the detecting signal, and also displaying its amplitude direction by the display of a vertical arrow. CONSTITUTION:Sensors S1-Sn placed in each place are connected to a center 2 by a circuit 1. For instance, when the sensor S1 detects an earthquake in the vicinity of the sensor S1, a detecting signal I1 is received by a receiving part 3, and sent to a sampling circuit 4 and a display control device 5. A detecting signl D is outputted from the sampling circuit 4, and it is sent to a discriminating part 6. When the first sampling signal d1 of the detecting signal D is received, the discriminating part 6 generates a set signal F, and sets a time data T0 of a time counter 7 to a register 8. Also, the discriminating part 6 discriminates the polarity of the first sampling signal d1 of the detecting signal I1, generates a positive signal P and a negative signal M in case of positive and in case of negative polarity respectively to display on a display part 14.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Technical Field of the Invention The present invention relates to a display method for displaying vibration waveform information of earthquakes and the like.

(b) Prior Art and Problems In an earthquake information analysis and processing system, photosensitive signals from sensors placed in various locations are collected at a center and analyzed by a processor. The processing results are graphically displayed on the display device, and the monitor (observer) makes a judgment based on the output and takes appropriate measures. In this conventional method,
An output display method as shown in FIG. 1 is adopted. Figure 1 shows the display screen of the display device, with the central seismic wave (
The time of the earthquake (9:12:27.0) is shown above the P wave).
5) The display indicates the rising point of the display wave indicating the rising direction of the seismic wave. The seismic waves differ depending on the earthquake generating mechanism, and the initial ν motion direction is either positive (upward) or negative (downward), and it is extremely important to quickly understand the type. be. As shown in Fig. 1, in the conventional method, the rising υ direction of the waveform is indicated by a letter (UP), so the monitor can grasp the type and the arrow display a clearly indicates the start point of the vibration. There was an inescapable drawback.

(C) Purpose of the Invention The present invention has been made to solve the above-mentioned drawbacks.
The purpose is to provide a display method that makes it easy to understand earthquake information.

(d) Structure of the invention The present invention connects a sensor and a processing device having a display section,
A system for displaying a detection signal from a sensor on a display unit and analyzing it by a processing device, comprising: a time counter that operates with a pulse at 1 o'clock; and means for storing data at a rising or falling point p of the detection signal; means for determining the rise or fall; a first vertical straight line display pattern indicating the direction of the rise υ; a second vertical arrow display button indicating the direction of the fall; and a vertical line display pattern indicating the lower nine points in time, and when receiving the detection signal from the sensor, determines the direction of change in the initial amplitude of the detection signal, and records the time at which the amplitude changes. , when displaying the waveform of the detection signal on the display section, the vertical straight line display is displayed at the start of change of the detection signal waveform, and when the change is a rising edge, the first vertical arrow display is displayed as the first vertical arrow display. This display method is characterized in that the second vertical arrow display is displayed at the start of the change, or when the change is a falling one, the second vertical arrow display is displayed.

As described above, when displaying the waveform of a detection signal, the present invention clearly indicates this with a straight line (for example, a broken line) perpendicular to the display position at the start of the amplitude change, and also displays the waveform in the amplitude direction (rise/fall 4). The device is equipped with a means for displaying a vertical arrow.

(e) Examples of the invention The present invention will be explained below with reference to the drawings. FIG. 2 is a display example for explaining an embodiment of the invention. In FIG. 2, the first change point e of the waveform display of the input signal I is clearly indicated by a vertical straight line B, and the first change direction (positive direction) of the signal waveform is indicated by a vertical arrow A. There is.

As is clear from comparing Fig. 2 with Fig. 1 (conventional method), the display method according to the present invention makes it possible to quickly grasp the starting point of change in the signal waveform and the perforation direction. This makes it extremely easy.

The operation for displaying the output shown in FIG. 2 will be explained with reference to FIG.

In FIG. 1@3, sensors (seismic wave detectors) S and ~Sn placed at various locations are connected to a center 2 by a line 1. For example, Sen? When an earthquake occurs near the SI and the sensor SI detects it, a detection signal (1) is received by the receiving section 3 and sent to the sampling circuit 4 and the display control device 5. The sampling circuit 4 outputs a detection signal, which is sent to the determining section 6. Discrimination unit 6 detection signal 0 replacement unit 11 frost, @A, winter spirit entry μ
The set signal F is issued, and the time data T of the time counter 7 is
Set o in register 8. Furthermore, the determination unit 6 determines the first sampling signal d of the detection signal T1.

Determine the polarity of
emits. In the case of the embodiment, since the sampling signal d1 is "plus", the plus number d P is sent to the control section 9. The button memory 10 stores a plus arrow button p, a minus arrow button m, and a bar line display button b. The control section 8 takes out the plus arrow pattern p and the bar line display pattern b, and sends them to the display control section 11 and the brightness modulation section 12. On the other hand, the detection signal (analog) II from the receiving section 3 is also input to the display control section 11 and the brightness modulation section 12, and the time data T set in the register 7.

Since the signal is also sent to the synchronization circuit 13, the display shown in FIG. 2 is obtained on the display section 14. Note that the clock pulse CL from the Hals generation circuit 15 is supplied to the time counter 7 and the synchronization circuit 13.

(f) Effects of the Invention As described above, the present invention has the advantage that information such as the arrival time of seismic waves and their type can be easily grasped.

[Brief explanation of the drawing]

FIG. 1 is a display example of a conventional method, FIG. 2 is a display example explaining an embodiment of the present invention, and FIG. 3 is a block diagram explaining an embodiment of the present invention. is as follows. 1 is a line, 2 is a center, 3 is a receiving section, 4 is a sampling circuit, 5 is a display control device, 6 is a discrimination section, 7 is a time counter, 8 is a register, 9 is a control section, 10 is a button memory,
11 is a display control unit, 12 is a brightness modulation unit, 13 is a synchronization circuit, 14 is a display unit, 15 is a pulse generation circuit, 16 is a delay circuit, A is a plus arrow display, B is a vertical line display, CL is a clock pulse, D is a detection signal, e is a change time point (display position), F is a set signal, 11. In is a detection signal, M is a minus signal, P is a plus signal, To is time data, a is an arrow display, b is a bar line display button, d is a sampling signal, m is a minus arrow button, p is a plus arrow button,
shows. Agent Patent Attorney Hiroshi Matsuoka ■-)-,・ u 1-L Nino

Claims (1)

[Claims] A wave sensor and a processing device having a waveform display means are connected, and the detection signal from the sensor is displayed on the display means, and
In a system for analyzing signals by a processing device, a time clock operated by a clock pulse, means for storing data at the rising or falling point of the detection signal, means for determining the rising edge or falling edge of the detection signal, and the above-mentioned The first one indicates the direction of the standing position.
a vertical arrow display button, and a second button indicating the direction of the falling button.
a vertical arrow display button and a vertical straight line display button indicating the rising or falling point, and when receiving the detection signal from the sensor, determines the direction of change in the initial amplitude of the detection signal, When recording the time at which the amplitude changes and displaying the waveform of the detection signal No. 41 on the display means, a straight arrow display indicating the vertical straight line is displayed at the start of change of the detection signal waveform. 3. A display method characterized in that the second vertical arrow is displayed on a portion of the screen, or when the change is a falling one, the second vertical arrow is displayed.