KR100266674B1 - Analog signal detection method - Google Patents

Abstract

PURPOSE: A method for detecting an analog signal is provided to firstly detect a main signal, and to remove an envelope signal having a relatively lower frequency, then to detect the analog signal. CONSTITUTION: The first step is to acquire a sampling number consisting one period of a setup main signal. The second step is to acquire a sampling number consisting one period of a setup envelope signal. The third step is to receive an analog signal to perform a band pass filtering for the inputted analog signal on the basis of the main signal and the envelope signal, and to acquire a main signal input and an envelope input. The fourth step is to multiply the main signal input of the third step by a previous main signal input, and to acquire an accumulated average value of the main signal input and the envelope input. The fifth step is to decide whether the accumulated average values of the main signal input and the envelope signal input are positive numbers. If so, the sixth step is to detect an input of the analog signal. If the accumulated average values of the main signal input and the envelope signal input are not positive numbers, a process returns to the third step.

Description

Analog signal detection method

The present invention relates to an analog signal detection method, and in particular, by detecting the analog signal first and then removing and detecting the envelope signal having a relatively low frequency, the memory required for this detection is reduced and the rule of phase shifting rather than frequency analysis. The present invention relates to an analog signal detection method that can reduce the computation time using

In general, in the analog signal including the envelope signal, the envelope signal has a much lower frequency than the general signal. To detect this, the high frequency signal and the relatively low envelope signal are simultaneously detected through frequency analysis. In order to detect, the number of points in the frequency analysis must be large, and the calculation time and memory required for the detection are large.

1 is a flowchart of a conventional method for detecting an analog signal, and as shown therein, a first step of receiving an analog signal S + E including an envelope signal E for a predetermined time; The analog signal S + E is received and the frequency of the analog signal S + E is analyzed to determine the frequency amount Em of the envelope signal E and the frequency amount Sm of the main signal S. Obtaining a second step; A third step of determining whether the frequency amount Em of the envelope signal E and the frequency amount Sm of the main signal S are larger than a predetermined threshold th; As a result of the determination in the third step, if the frequency amounts Em and Sm of the envelope signal E and the main signal S are not greater than a predetermined threshold th, the feedback signal returns to the first step and the envelope signal E ) And if the frequency amounts Em and Sm of the main signal S are larger than a predetermined threshold th, a fourth step of detecting the analog signal S + E is performed. A description with reference to FIG.

First, an analog signal S + E as shown in FIG. 2 (a) including an envelope signal E generated by an external device is received, and an analog signal as shown in FIG. Analyze the frequency of S + E).

In this case, the frequency analysis is mainly composed of a fast Fourier transform and a constant time interval as shown in FIG. 2 (b). In this case, in order to detect the main signal S and the envelope signal E, The number of points, analysis time and threshold (th) of the Fast Fourier Transform must be determined.

After the frequency analysis of the analog signal S + E is completed, when the main signal S and the envelope signal E are larger than the threshold th set, the analog signal S + E is detected. It is considered successful.

However, such a conventional method requires excessive amount of calculation due to frequency analysis and requires memory as much as frequency analysis period, and it is difficult to apply generally when a signal change occurs due to the probability of setting a threshold. There was a problem.

Accordingly, the present invention devised in view of the above problems reduces the memory required for this detection by first detecting the analog signal and then detecting and removing the envelope signal having a relatively low frequency. It is an object of the present invention to provide an analog signal detection method that can reduce the calculation time using regularity.

1 is a flowchart of a conventional analog signal detection method.

2 is a waveform diagram of FIG. 1;

Figure 3 is a flow chart of the analog signal detection method of the present invention.

The present invention for achieving the above object is a first step of obtaining a sampling number of one period of the set main signal; Obtaining a sampling number of one cycle of the set envelope signal; Receives an arbitrary analog signal and band-passes the set main signal through a band pass filter to obtain the result as a main signal input, and receives the analog signal and sets it through the band pass filter. A third step of band-passing the envelope signal to obtain a result as an envelope input; The cumulative average value of the multiplication value is obtained by multiplying the main signal input of the third step by the preceding main signal input by the sampling number of one period of the main signal set in the first step, and obtaining the cumulative average value of the multiplication value. A fourth step of multiplying the preceding envelope input by the sampling number for one cycle of the envelope signal set in the second step to obtain an average value of the multiplication values; A fifth step of determining whether the cumulative average value of the main signal input and the cumulative average value of the envelope signal input of the fourth step are positive; If the cumulative average value of the main signal input and the cumulative average value of the envelope signal input of the fifth step are positive, the input of the analog signal is detected, and if the cumulative average value of the main signal input and the cumulative average value of the envelope signal input are positive, Characterized in that the sixth step of feeding back to the third step.

Hereinafter, with reference to the accompanying drawings, the operation and effects of the present invention will be described in detail.

FIG. 3 is a flowchart of the analog detection method of the present invention, comprising: a first step of obtaining a sampling number forming one cycle of the main signal Si set as shown in the figure; A second step of obtaining a sampling number forming one cycle of the set envelope signal Ei; The analog signal S + E is input and band-passed around the main signal Si set through the band pass filter, and the resultant value is obtained as the main signal input Sn, and the analog signal S + A third step of receiving E) by band-passing the envelope signal Ei set through the band pass filter and obtaining the result as an envelope input En; The cumulative average value (Ssum) of the multiplication value is multiplied by multiplying the preceding main signal input (Sn) by the number of samplings for one period of the main signal input (Sn) of the third step and the set main signal (Si) of the first step. ) Is multiplied by the preceding envelope input En by the number of samplings for one cycle of the envelope input En in the third step and the envelope signal Ei set in the second step. Obtaining a cumulative average value Esum; A fifth step of determining whether the cumulative average value Ssum of the main signal S and the cumulative average value Esum of the envelope signal E of the fourth step are positive; If the cumulative average value Ssum of the main signal S and the cumulative average value Esum of the envelope signal E of the fifth step are positive, the input of the analog signal S + E is sensed and the main signal S is detected. If the cumulative average value (Ssum) and the cumulative average value (Esum) of the envelope signal (E) are not positive, a sixth step of returning to the third step is performed. Referring to FIG. It will be described in detail.

First, a sampling number that forms one period of the main signal Si and the envelope signal Ei set by the user is obtained. If the sampling number of one period of the main signal Si and the envelope signal Ei is an integer, If not, take a predetermined multiple to obtain an integer.

At this time, when the predetermined analog signal S + E is input, the analog signal S + E is band-passed around the main signal Si through a band pass filter, and the resultant value is converted into the main signal input Sn. In addition, the analog signal S + E is band-passed around the envelope signal Ei through a band pass filter, and the resulting value is an envelope input En.

Subsequently, the main signal input Sn is multiplied by one period sampling number of the main signal input Sn and the main signal Si to obtain a cumulative average value Sum of the multiplication value, and the envelope input En ) Is multiplied by the preceding envelope input En by the number of cycles of the envelope signal Ei, and the cumulative average value Esum of the multiplication values is obtained.

When the cumulative average value Sum of the main signal input Sn and the cumulative average value Esum of the envelope input En are simultaneously positive, the input of the analog signal S + E is detected.

If the cumulative mean value Sum of the main signal input Sn and the cumulative mean value Esum of the envelope input En are both positive, the analog signal S + E is input again. Do it repeatedly.

As described in detail above, the present invention can detect the main signal first and then remove the envelope signal having a relatively low frequency to detect the analog signal, thereby reducing the memory required for the detection, and also converting the phase instead of frequency analysis. By using the regularity of the calculation time can be reduced.

Claims (1)

A first step of obtaining a sampling number forming one cycle of the set main signal Si; A second step of obtaining a sampling number forming one cycle of the set envelope signal Ei; The analog signal S + E is input and band-passed around the main signal Si set through the band pass filter, and the resultant value is obtained as the main signal input Sn, and the analog signal S + A third step of receiving E) by band-passing the envelope signal Ei set through the band pass filter and obtaining the result as an envelope input En; The cumulative average value (Ssum) of the multiplication value is multiplied by multiplying the preceding main signal input (Sn) by the number of samplings for one period of the main signal input (Sn) of the third step and the set main signal (Si) of the first step. ) Is multiplied by the preceding envelope input En by the number of samplings for one cycle of the envelope input En in the third step and the envelope signal Ei set in the second step. Obtaining a cumulative average value Esum; A fifth step of determining whether the cumulative average value Ssum of the main signal S and the cumulative average value Esum of the envelope signal E of the fourth step are positive; If the cumulative average value Ssum of the main signal S and the cumulative average value Esum of the envelope signal E of the fifth step are positive, the input of the analog signal S + E is sensed and the main signal S is detected. If the cumulative average value (Ssum) and the cumulative average value (Esum) of the envelope signal (E) is not a positive number, the analog signal detection method characterized in that the sixth step to return to the third step.