KR101420618B1 - Acquiring and revising method of present weather siginal - Google Patents

Abstract

The present invention relates to a method for acquiring and revising a present weather signal capable of acquiring a present weather signal by operating a device only when precipitation phenomenon occurs, and acquiring the present weather signal closest to reality by revising a pulse width for measuring the speed of particles to a value measured in the middle value of a pulse height. The method for acquiring and revising a present weather signal according to the present invention comprises a step of inputting a reference signal and a signal generated in a laser generator in a first comparator; a step of generating a trigger signal if the pulse height (Size) of the signal is higher than the height of the reference signal by colliding the signal generated in the laser generator with the precipitation particles; and a step of measuring the maximum value and width of the pulse signal after the trigger signal is generated. The step of measuring the width of the pulse signal is to measure the width of the pulse signal through a step of starting the measurement of time in a clock counter when the trigger signal is generated, and a step of generating the trigger signal again if the height of the pulse signal is lower than the reference signal, and measuring the pulse width (ΔT) between a time when the trigger signal is initially generated and a time when the next trigger signal is generated.

Description

{Acquiring and revising method of present weather siginal}

The present invention relates to a method for acquiring a current signal closest to an actual situation. More specifically, the present invention relates to a method for acquiring a current signal by causing an apparatus to operate only when a precipitation phenomenon occurs, The present invention relates to a method and apparatus for acquiring a current signal that is closest to an actual signal by correcting the current signal to a value measured at a median of the current signal.

The importance of weather information in terms of economic and industrial aspects has already become a matter of fact. Recently, we have been able to analyze and forecast weather phenomena with the successive weather changes such as heavy rains and guerrilla storms, And meteorological observation equipment and observation method which can provide more precise weather information and weather forecast by improving the technology for predicting and forecasting the climate are desperately required.

Present weather is a term referring to the present heaven (the same shall apply hereinafter), and the term "present weather" is used to mean a river importer (the term "heavy importer" means cloud, mist, etc. formed by condensation of water vapor around the condensation nucleus) Size, speed of movement, number concentration and direction to predict the current weather as well as future weather and climate.

On the other hand, visibility is a measure of the degree of atmospheric turbidity near the surface. Visibility depends on the turbidity of suspended matter such as fog and dust in the atmosphere. Major factors of visibility disorder are fog, Precipitation, and downpours, it has a decisive influence on the landing and landing of the aircraft as well as traffic obstacles in the land, and it has a great influence on the navigation of the ship in the sea. In the daytime, the maximum distance Is correct in that direction.

Patent No. 961533 relates to a method of monitoring the degree of contamination in a visibility system and a visibility system for implementing the same. The contents of the description include a light emitter having a photodetector for measuring light scattered by emitting light through a lens, And the amount of light emitted from the light emitter and the amount of light received by the light receiver are measured to calculate the correction distance. However, the visibility can be measured by calculating the amount scattered by the particles, but the measurement principle is fundamentally different from that of Hyuncheon, which predicts the current weather and climate by measuring the particle size, Therefore, there is a problem that accurate measurement can not be made.

In order to solve the above problems, the present applicant has developed a patent application No. 2011-147023 entitled " Device and Method for Measuring the Fusion Type of Visible Light Source, " There is a problem in that accuracy is different according to the particle size in measuring the size and velocity of the particles by calculating the pulse height (size) and width of the received laser after being projected and scattered and attenuated, It has been devised to solve.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a system and a method for improving the efficiency of a system by acquiring a current signal by causing a system to operate only when a precipitation phenomenon occurs, The present invention is to provide a method of acquiring and correcting a current signal which can obtain a current signal closest to an actual signal by correcting the measured value at a middle value of the pulse height instead of the lower end of the pulse.

According to an aspect of the present invention, there is provided a method for acquiring and correcting an actual signal, comprising: inputting a reference signal and a signal generated by a laser generator to a first comparator; Generating a trigger signal when a signal generated by the laser generator strikes a strong importer and a pulse height (size) of the signal is greater than a height of the reference signal; And measuring a maximum value and a width of the pulse signal after the trigger signal is generated. In the step of measuring the width of the pulse signal, when the trigger signal is generated, time measurement is started in a clock counter step; When the height (size) of the pulse signal becomes smaller than the reference signal, the trigger signal is generated again, and the pulse width? T between the time when the first trigger signal is generated and the time when the next trigger signal is generated is measured, Is measured.

Preferably, in the step of measuring the maximum value of the pulse signal, converting the analog signal from the first comparator into a digital signal; The second comparator compares the digital converted value with the previously measured value at regular intervals, discards the smaller value, measures the maximum value of the signal by taking a larger value, and measures the maximum value of the pulse signal.

Preferably, the step of measuring the pulse width? T is followed by the step of measuring the full width at half maximum (FWHM) by correcting the pulse width to measure the width of the pulse signal , And the correction formula for measuring the intermediate pulse width (FWHM)

, Where Vmax is the maximum value of the measured signal

              Vo is the reference value of the reference signal

              ΔT is the measured pulse width

to be.

In the current signal acquisition and correction method according to the present invention, the system circuit is operated only when a precipitation phenomenon occurs to acquire the current signal, thereby reducing the load on the system and increasing the efficiency. Further, by using the value corrected at the middle value of the pulse height instead of the lower end of the pulse in measuring the pulse width of the laser after the laser light source is projected on the steel importer in the atmosphere and scattered and attenuated, The pulse width for determining the speed is set to the value closest to the actual value, so that the accurate current time can be predicted.

1 is a schematic block diagram for explaining a method of acquiring a current signal according to the present invention.
2 is a schematic diagram for explaining an intermediate pulse width used as a current signal in the present invention.

The most significant technical feature of the current signal acquisition and correction method according to the present invention is that the system circuit is operated only when a precipitation phenomenon occurs and the efficiency is increased while reducing the load of the system, The pulse width is measured by using the value corrected at the middle value of the pulse height instead of the lower end of the pulse so that the velocity of the particle closest to the actual one can be measured.

When measuring the present weather, which represents current weather changes in the present and past, a laser is generated to determine the size and velocity of a steel importer by measuring the size and width of a pulse generated by a laser impinging on a steel importer. All the methods used so far measure the time from the time when the pulse value generated when the laser hits the steel importer to the reference signal value which is set beforehand to the time when the pulse value becomes smaller than the preset reference signal is measured as the pulse width, As the pulse height increases, the lower part of the pulse wave becomes larger and the value measured by the pulse width (ΔT) becomes larger. Therefore, even though the actual speed of the steel importer is fast, The accuracy of the signal is degraded. Therefore, there is a problem in acquiring the accurate current signal.

Generally, the measuring device for measuring the current includes a laser generator (transmitter) for generating a laser light source, a receiver for receiving a scattered and attenuated signal when the laser light source hits the hard importer, and a scattered and attenuated signal received at the receiver And a control unit for analyzing and judging the result. In the laser generator, a laser light source is continuously generated. In the receiver, scattered and attenuated signals of the laser light source are received by colliding with fine particles such as dust in the air regardless of presence or absence of a strong importer. There is a problem that the efficiency of the measurement system is reduced due to the load being applied to the entire measurement system including the control unit since the control unit circuit continues to operate.

The present invention improves the operation method of the measurement system up to now and improves the current signal acquisition method to determine the accurate size and moving speed of the hard importer. The first and second comparators 10 and 12, the analog-to-digital converter (ADC) 12, the time measuring instrument 13 and the like shown in FIG. 1 are connected to a control unit As shown in FIG.

A method of acquiring a current signal of the present invention includes the steps of inputting a reference signal and a signal generated by a laser generator to a first comparator; generating a pulse height (magnitude) of a scattered and attenuated signal by a laser light source, Generating a trigger signal when the amplitude of the trigger signal is greater than a height of the reference signal, and measuring a maximum value and a width of the pulse signal after the trigger signal is generated.

Since the reference signal is set in advance and scattered and attenuated pulses are not large when the laser light source strikes dust or particles in the air, the control circuit of the current measuring device is not operated until there is no steel importer in the atmosphere It is set to measure and judge the current value only at a value higher than the set reference value, thereby reducing the load on the device and increasing the efficiency.

The laser light source impinging on the importer of the steel exhibits a pulse signal as shown in FIG. 2. If the pulse height (magnitude) of the scattered and attenuated signal is larger than the height of the reference signal, a trigger signal is generated in the first comparator The trigger signal is a kind of command signal informing the start and stop of operation of the control circuit. When such a trigger signal is generated, the pulse value and the width of one pulse signal are measured only between the start of operation and the stop of operation.

In the step of measuring the pulse value, a step of converting the analog signal from the first comparator into a digital signal and a step of measuring the maximum value of the signal in the second comparator are performed. In the step of measuring the maximum value, Time interval) is compared with the previously measured value, the small value is discarded and the large value is taken. The maximum value of the signal is measured to extract the maximum value of the pulse signal height, .

An analog-to-digital converter (ADC) converts an analog signal received from the first comparator to a digital signal, and the digital converted value is measured immediately before a predetermined time period Value of the pulse is discarded and the process of taking a large value is repeated to obtain the maximum value of the pulse.

In the step of measuring the width of the pulse signal, a time measurement is started in a clock counter when a trigger signal indicating the start of operation is generated, and a step of stopping the operation when the height (size) of the pulse signal becomes smaller than the reference signal Measuring a pulse width (DELTA T) between a time at which the trigger signal (operation start signal) is first generated and a time at which the next trigger signal (operation stop signal) is generated; and a step And measuring the width of the pulse signal through a step of measuring a full width at half maximum (FWHM).

The trigger signal is issued as a command signal to start the operation of the circuit when the pulse height (magnitude) of the scattered and attenuated signal received at the receiver is larger than the height of the reference signal, and the pulse height (size) of the scattered and attenuated signal is If the height of the reference signal is smaller than the height of the reference signal, the signal is issued as a command signal to stop the operation of the circuit. By operating the circuit only during that period, unnecessary operation of the circuit can be avoided. Thus, the pulse width? T between the time when the circuit operates, that is, the time when the first trigger signal (operation start signal) is generated and the time when the next trigger signal (operation stop signal) is generated is measured.

If the measured pulse width (ΔT) is used as it is, since the accuracy of the measured value decreases when the size of the steel importer is large, it is different from the actual steel importer speed, The full width at half maximum (FWHM), which is the pulse width in the middle of the pulse height, is used without measuring the pulse width DELTA T in order to measure the accurate moving speed of the steel importer.

When the intermediate pulse width (FWHM) is measured, the correction is made to a value at the intermediate height in consideration of the maximum value of the measured pulse signal and the reference value of the reference signal.

, Where Vmax is the maximum value of the measured signal

              Vo is the reference value of the reference signal

              ΔT is the measured pulse width

to be.

The present invention measures the magnitude of a pulse by the maximum value of the signal measured as described above and measures the velocity of the pulse by the intermediate pulse width to acquire a current signal to determine the magnitude and velocity of the pulse, do.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention. Various modifications and variations will be possible without departing from the spirit of the invention. Therefore, the scope of the present invention should be construed as being covered by the scope of the appended claims, and technical scope within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

10: first comparator
11: Analog-to-digital converter (ADC)
12: second comparator
13: clock counter

Claims (4)

Inputting a reference signal and a signal generated by the laser generator to a first comparator;
Generating a trigger signal when a signal generated by the laser generator strikes a strong importer and a pulse height (size) of the signal is greater than a height of the reference signal;
Measuring a maximum value and a width of the pulse signal after the trigger signal is generated;
However,
In the step of measuring the width of the pulse signal,
When the trigger signal is generated, starting a time measurement in a clock counter;
Measuring a pulse width (DELTA T) between the time at which the first trigger signal is generated and the time at which the next trigger signal is generated; and generating the trigger signal again when the height (size) of the pulse signal becomes smaller than the reference signal;
And the width of the pulse signal is measured through the second signal line.
The method according to claim 1,
In the step of measuring the maximum value of the pulse signal,
Converting an analog signal from the first comparator into a digital signal;
Comparing the digitally converted value of the second comparator with a previously measured value at regular intervals to discard a smaller value and taking a larger value to measure a maximum value of the signal;
And the maximum value of the pulse signal is measured.
The method according to claim 1,
The width of the pulse signal is measured by further performing a step of measuring the pulse width ΔT and then measuring the full width at half maximum (FWHM) by correcting the pulse width Current signal acquisition and correction method.
The method of claim 3,
The correction formula for measuring the intermediate pulse width is,

, Where Vmax is the maximum value of the measured signal
Vo is the reference value of the reference signal
ΔT is the measured pulse width
Wherein the current signal acquisition and correction method comprises:

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