KR101035636B1 - Apparatus and method for detecting video signal - Google Patents

Abstract

PURPOSE: A video signal detecting apparatus is provided to detect accurate comparison value of a pulse section and to increase the reliability of video signal detection in order to prevent wrong signal by noise. CONSTITUTION: An integral value calculation unit(105) integrates input signals at predetermined intervals. An integral value comparison unit(110) compares the integral value of a first input signal with the integral value of a second input signal. An input signal selection unit(130) selects the input signal of the first input signal. A video signal detection unit(115) detects the selected input signal to a video signal.

Description

Apparatus and method for detecting video signal}

The present invention relates to an apparatus and a method for detecting a video signal. More particularly, the present invention relates to an apparatus and method for detecting a pulsed video signal.

Conventionally, a method using a threshold is mainly used when detecting a pulse video signal. There are two ways of using a threshold, a method in which a threshold is fixed, and a method in which a threshold is flexible depending on an input signal. Both methods compare the input signal with the threshold, and if the input signal is higher than the threshold, the output of '1' or '0' is output.

However, this method has the following problems. First, the pulse width to be constant varies according to the threshold. Depending on the threshold, the pulse width is widened or reduced. Secondly, it is vulnerable to noise and a false signal is detected. Sensitive to noise, a phenomenon that detects a noise signal higher than a threshold occurs. Third, in the case of detecting a pulse video signal of several channels, there is a disadvantage in that incorrect processing is performed when several channels simultaneously cross a threshold. Fourth, when detecting a low power signal, noise and the signal are not very different, which causes inconvenience in detecting the signal.

The present invention has been made to solve the above problems, and an object of the present invention is to provide an apparatus and method for detecting a video signal using an integral comparison method.

The present invention has been made to achieve the above object, the integral value calculating unit for calculating the integral value of each input signal by integrating the input signal for each interval of a predetermined size; An integral value comparison unit comparing an integral value of the first input signal, which is one of the input signals, with an integral value of the second input signal, which is the other one of the input signals, in consideration of a predetermined timing region; And a video signal detector for detecting the input signal selected by the comparison as a video signal.

Preferably, the video signal detection apparatus selects a specific input signal through the comparison, and further includes an input signal selector for selecting an input signal having a larger integral value as the specific input signal. More preferably, the video signal detecting apparatus maintains a specific value, the representative value deriving unit for deriving a representative value of each input signal from the calculated integral value to the specific value, and in the integration section for each input signal. The apparatus further includes a holding unit including a representative value holding unit for maintaining the derived representative value. Even more preferably, the representative value derivation unit derives an integral maximum value with the representative value.

Preferably, the video signal detection apparatus is to determine the timing region, the waveform extraction unit for extracting a signal waveform that meets a predetermined condition, the counting unit for counting the number of times the repetition of the extracted signal waveform, and the The apparatus further includes a timing zone determiner including a zone determiner configured to determine the timing zone from the extracted signal waveform. More preferably, the waveform extractor uses + 0.5V to + 5.0V as the predetermined condition.

Preferably, the video signal detecting apparatus further includes a pulse signal generating unit for generating a pulse signal having a constant pulse width with respect to the selected input signal, wherein the video signal detecting unit generates the generated pulse signal when detecting the video signal. Use digital values by

Preferably, the first input signal and the second input signal are different in channel.

Preferably, the video signal detection apparatus further includes a signal storage unit for dividing and storing the input signals for each section.

In addition, the present invention comprises the steps of (a) integrating the input signal for each interval of a predetermined size to calculate the integrated value of each input signal; (b) comparing an integral value of a first input signal, which is one of the input signals, with an integral value of a second input signal, which is the other one of the input signals, in consideration of a predetermined timing region; And (c) detecting the input signal selected by the comparison as a video signal.

Preferably, the step between (b) and (c) comprises selecting an input signal having a greater integral value through the comparison. More preferably, as an intermediate step between the steps (a) and (b), (aa) deriving a representative value of each input signal from the calculated integral value; And (ab) maintaining the derived representative value in an integration section for each input signal. Even more preferably, step (aa) derives the integral maximum value with the representative value.

Preferably, the step of the step (a) and the step (b), (a ') extracting a signal waveform that meets a predetermined condition; (a '') counting the number of repetitions of the extracted signal waveform; And (a '' ') determining the timing region from the extracted signal waveform according to the counting result. More preferably, the step (a ') uses + 0.5V ~ + 5.0V under the predetermined condition.

Advantageously, step (c) comprises: (ca) generating a pulse signal having a constant pulse width with respect to said selected input signal; And (cb) detecting the video signal using the digital value generated by the generated pulse signal.

Preferably, the step (b) uses two signals having different channels as the first input signal and the second input signal.

Preferably, the previous step of the step (a), comprising the step of storing the input signal divided by the interval.

According to the present invention, the following effects can be obtained by detecting a video signal using an integral comparison method. First, since the pulse intervals are integrated for each channel and compared, a more accurate comparison value can be detected. Second, an accurate value can be detected even at a low power signal compared to the conventional threshold method. Third, it is possible to prevent the phenomenon of false signal detection due to noise. Fourth, reliability of video signal detection can be improved.

1 is a block diagram schematically illustrating a video signal detection apparatus according to a preferred embodiment of the present invention.
2 is an exemplary diagram of a video signal detecting apparatus according to a preferred embodiment of the present invention.
3 is a reference diagram for explaining a video signal detection apparatus according to a preferred embodiment of the present invention.
4 is a flowchart illustrating a video signal detection method according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible even if displayed on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, the following will describe a preferred embodiment of the present invention, but the technical idea of the present invention is not limited thereto and may be variously modified and modified by those skilled in the art.

1 is a block diagram schematically illustrating a video signal detection apparatus according to a preferred embodiment of the present invention. According to FIG. 1, the video signal detecting apparatus 100 includes an integrated value calculating unit 105, an integrated value comparing unit 110, a video signal detecting unit 115, a power supply unit 120, and a main control unit 125.

The integral value calculator 105 calculates an integrated value of each input signal by integrating the input signals in intervals of a predetermined size.

The integral value comparator 110 compares the integral value of the first input signal, which is one of the input signals, with the second input signal which is the other one of the input signals, in consideration of the predetermined timing region. . In the present embodiment, the first input signal and the second input signal may be implemented as signals having different channels.

The video signal detector 115 detects an input signal selected by the comparison of the integral value comparator 110 as a video signal.

The power supply unit 120 supplies a power to each unit constituting the video signal detection apparatus 100.

The main controller 125 performs a function of controlling the overall operation of each unit constituting the video signal detection apparatus 100.

The video signal detection apparatus 100 may further include an input signal selector 130. The input signal selector 130 selects a specific input signal through the comparison of the integral value comparator 110 and performs a function of selecting an input signal having a larger integral value as the specific input signal.

The video signal detecting apparatus 100 may further include a holding unit 135. The holding unit 135 maintains a specific value, and includes a representative value deriving unit 136 and a representative value holding unit 137. The representative value deriving unit 136 performs a function of deriving a representative value of each input signal from the integrated value calculated by the integral value calculating unit 105 as a specific value. The representative value deriving unit 136 derives the integral maximum value as the representative value. The representative value holding unit 137 maintains the representative value derived in the integration section for each input signal.

The video signal detecting apparatus 100 may further include a timing region determiner 140. The timing zone determiner 140 determines a timing zone and includes a waveform extractor 141, a counter 142, and a zone determiner 143. The waveform extractor 141 extracts a signal waveform that meets a predetermined condition. The waveform extractor 141 uses + 0.5V to + 5.0V under predetermined conditions. The counting unit 142 performs a function of counting the number of repetitions of the extracted signal waveform. The zone determiner 143 determines a timing zone among the extracted signal waveforms according to the counting result.

The video signal detecting apparatus 100 may further include a pulse signal generator 145. The pulse signal generator 145 generates a pulse signal having a constant pulse width with respect to the input signal selected by the comparison of the integral value comparator 110. In the present embodiment, the video signal detector 115 uses a digital value generated by the pulse signal generated by the pulse signal generator 145 when detecting the video signal.

The video signal detection apparatus 100 may further include a signal storage unit 150. The signal storage unit 150 stores the input signals for each section having a predetermined size.

Next, the video signal detection apparatus 100 will be described with reference to one embodiment. 2 is an exemplary diagram of a video signal detecting apparatus according to a preferred embodiment of the present invention. The following description refers to FIG. 2.

The video signal detection apparatus 100 is implemented by an integral comparison method to supplement a pulse video signal detection method using a threshold. Integral comparison is a method of storing the integral video for the pulse video signal input of several channels, integrating, maintaining the maximum value by the integral section, and then comparing the integrated values with the comparison timing. Using this method, accurate values can be detected even at low power signals compared to conventional thresholds, and false signals are less likely to be detected due to noise.

The storage 200 stores the pulse signals to be compared. Accordingly, the storage unit 200 stores the pulse interval. The storage 200 is a concept corresponding to the signal storage 150 of FIG. 1. (A) in FIG. 3 is an example of an input signal.

Integrator 210 finds the sum of the stored signals. Accordingly, the integrator 210 is integrated by the pulse period. The integrator 210 is a concept corresponding to the integral value calculator 105 of FIG. 1.

The max hold 220 serves to maintain the maximum value max of the signal stored in the integrator 210 by the comparison interval. Even if the comparison timing is slightly misaligned, an accurate value can be obtained if the comparison is performed within the max hold interval. The max hold 220 maintains the maximum value by the pulse interval. The max hold 220 is a concept corresponding to the holding part 135 of FIG. 1. (B) in FIG. 3 is an example of an integrated and max hold processed signal. In (b), A and B correspond to the comparison timing.

Comparator 230 compares the max hold of the timing to compare and sends the result to the pulse generator 240. The comparator 230 compares for each channel. The comparator 230 is a concept corresponding to the integral value comparator 110 of FIG. 1.

The object to be compared in the comparator 230 is an integrated value of two channels. An integral comparison timing is generated to compare the integral values according to the timings to find a channel with a large integral value. Even if the integration comparison timing is slightly out of order, the maximum hold value is maintained for a certain period of time by using the max hold method to obtain accurate data. The desired value can be obtained by integrating for each channel at the maximum integration value.

The pulse generator 240 generates a signal with a desired pulse width and outputs the signal. In the pulse generator 240, a pulse is generated. The pulse generator 240 is a concept corresponding to the pulse signal generator 145 of FIG. 1.

The pulse generator 240 generates a signal with a pulse width of a desired specification. The comparator 230 compares the integral values and then generates a pulse at the signal output of the channel having the large integral value. In this embodiment, a pulse width is generated and sent at about 400 ns. Although the pulse width is not constant in the conventional method, the pulse width can be made constant using the pulse generator 240 in this embodiment. The output is either 1 or 0. This is because the information processor needs to send it as a digital signal.

Trigger 250, counter 251 and comparison timing generator 252 are used to create the desired comparison timing. The trigger 250, the counter 251, and the comparison timing generator 252 are concepts corresponding to the waveform extractor 141, the counter 142, and the zone determiner 143, respectively.

As described above, the video signal detecting apparatus 100 may perform a proper function even with a strong and low power of noise when comparing and detecting a pulsed video signal. In addition, since the integrated value is taken and compared with respect to the instantaneous noise, the signal can be detected normally.

Next, a video signal detection method of the video signal detection apparatus 100 will be described. 4 is a flowchart illustrating a video signal detection method according to a preferred embodiment of the present invention.

First, the integral value calculator 105 integrates the input signals for each interval of a predetermined size to calculate an integrated value of each input signal (S400). Thereafter, the integral value comparison unit 110 compares the integral value of the first input signal, which is one of the input signals, with the integral value of the second input signal, which is the other one of the input signals, in consideration of the predetermined timing region (S410). ). The integral value comparator 110 uses two different channel signals as the first input signal and the second input signal. Thereafter, the video signal detector 115 detects the input signal selected by the comparison as a video signal (S420).

Preferably, after the integral value comparison of the integral value comparison unit 110, the input signal selector 130 selects an input signal having a larger integral value through the comparison.

Preferably, after the integral value calculation of the integrated value calculator 105, the representative value deriving unit 136 derives the representative value of each input signal from the calculated integrated value. The integral value calculator 105 derives the integral maximum value from the representative value. Thereafter, the representative value holding unit 137 maintains the representative value derived in the integration section for each input signal.

Preferably, after the integral value calculation of the integral value calculator 105, the waveform extractor 141 extracts a signal waveform that meets a predetermined condition. The waveform extractor 141 uses + 0.5V to + 5.0V under predetermined conditions. Thereafter, the counting unit 142 counts the number of repetitions of the extracted signal waveform. Thereafter, the zone determination unit 143 determines a timing zone among the extracted signal waveforms according to the counting result.

Preferably, after the pulse signal generator 145 generates a pulse signal having a constant pulse width with respect to the selected input signal, the video signal detector 115 detects the video signal using the digital value generated by the generated pulse signal. do.

Preferably, before calculating the integral value of the integral value calculator 105, the signal storage unit 150 stores the input signals in sections.

The above description is merely illustrative of the technical idea of the present invention, and various modifications, changes, and substitutions may be made by those skilled in the art without departing from the essential characteristics of the present invention. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by the embodiments and the accompanying drawings. . The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

The present invention can be applied to communication equipment using a pulse video signal, for example, a command receiver (RT: Receiver / Transponder) such as a missile or a missile.

100: video signal detection device 105: integral value calculation unit
110: integral value comparison unit 115: video signal detection unit
120: power supply section 125: main control section
130: input signal selection unit 135: holding unit
136: representative value deriving unit 137: representative value holding unit
140: timing region determiner 141: waveform extractor
142: counting unit 143: zone determination unit
145: pulse signal generation unit 150: signal storage unit

Claims (13)

An integrated value calculator for integrating the input signals for each interval having a predetermined magnitude and calculating an integrated value of each input signal;
An integral value comparison unit comparing an integral value of a first input signal, which is one of the input signals, with an integral value of a second input signal having a different channel from the first input signal, among the input signals in consideration of a predetermined timing region. ;
An input signal selector configured to select an input signal having a greater integral value from the first input signal and the second input signal through the comparison; And
A video signal detector for detecting the selected input signal as a video signal
Video signal detection apparatus comprising a. The method of claim 1,
Retaining a specific value, the representative value deriving unit for deriving the representative value of each input signal from the calculated integral value to the specific value, and the representative value holding for maintaining the derived representative value in the integral section for each input signal Holding part including a part
The video signal detection apparatus further comprises. The method of claim 1,
A waveform extracting unit for extracting a signal waveform that meets a predetermined condition, a counting unit for counting the number of repetitions of the extracted signal waveform, and the extracted signal waveform according to the counting result; A timing zone determiner including a zone determiner for determining the timing zone
The video signal detection apparatus further comprises. The method of claim 3, wherein
The waveform extracting unit uses + 0.5V to + 5.0V under the predetermined condition. The method of claim 1,
A pulse signal generator configured to generate a pulse signal having a constant pulse width with respect to the selected input signal
More,
And the video signal detector uses the generated pulse signal when detecting the video signal. delete The method of claim 2,
And the representative value deriving unit derives an integral maximum value from the representative value. The method of claim 1,
A signal storage unit dividing and storing the input signals for each section
The video signal detection apparatus further comprises. calculating an integrated value of each input signal by integrating the input signals at intervals of a predetermined size;
(b) comparing an integral value of a first input signal which is one of the input signals with an integral value of a second input signal having a different channel from the first input signal among the input signals in consideration of a predetermined timing region; ;
(c) selecting an input signal having a greater integral value from the first input signal and the second input signal through the comparison; And
(d) detecting the selected input signal as a video signal
Video signal detection method comprising a. The method of claim 9,
As a previous step of step (a),
Dividing and storing the input signals for each of the sections;
Video signal detection method comprising a. The method of claim 9,
As an intermediate step between step (a) and step (b),
(aa) deriving a representative value of each input signal from the calculated integral value; And
(ab) maintaining the derived representative value in an integration section for each input signal;
Video signal detection method comprising a. The method of claim 9,
(a ') extracting a signal waveform corresponding to a predetermined condition;
(a '') counting the number of repetitions of the extracted signal waveform; And
(a ''') determining the timing region from the extracted signal waveform according to the counting result
Video signal detection method comprising a. The method of claim 9,
In step (d),
(da) generating a pulse signal having a constant pulse width with respect to the selected input signal; And
(db) detecting the video signal using the generated pulse signal
Video signal detection method comprising a.

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