JP3767108B2 - Audio signal recording apparatus and audio signal recording / reproducing apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention, for example, a digital VTR or the like, relates to an audio signal recording and reproducing apparatus for recording and reproducing audio signal recording equipment Contact and audio signals for recording audio signals.
[0002]
[Prior art]
For example, in a recording apparatus having a function of recording an audio signal, such as a camera-integrated digital VTR, the audio signal that the user wants to record and reproduce is not affected by the wind sound signal caused by the wind sound or the like. In order to reduce the noise, a wind noise reduction circuit is provided in the preceding stage of a configuration for performing processing such as encoding for generating data to be recorded on the recording medium.
[0003]
The wind noise reduction circuit extracts a wind sound signal and generates a detection signal in association with the extracted wind sound signal. And the process which reduces the wind sound signal mixed in an audio | voice signal by performing gain adjustment etc. based on this detection signal is performed.
[0004]
[Problems to be solved by the invention]
Such wind noise reduction processing is a very effective method for recording and reproducing sound signals satisfactorily, but has the following problems. First, at the time of recording and reproduction, the signal level of the audio signal is conventionally displayed, but information relating to the strength of the wind such as the wind sound signal level is not displayed. For this reason, the user cannot know the wind sound signal level or the like in real time at the time of recording, or confirm conditions such as the wind sound at the time of recording at the time of reproduction.
[0005]
Also, since the AGC (Auto Gain Control) process is performed on the input signal (that is, the sum of the sound signal and the wind sound signal) prior to the wind noise reduction process, the sound signal level is suppressed when the wind sound signal level is high. As a result, the wind noise signal is reduced by the wind noise reduction process in the subsequent stage. As a result, a portion where the audio signal level is lower than the front and rear portions is generated during reproduction, and there is a problem that a sense of incongruity is felt in terms of hearing. .
[0006]
Accordingly, an object of the present invention provides an audio signal recording and reproducing apparatus and Contact audio signal recording equipment which has a function of preventing wind noise reduction processing after the audio signal level is reduced when wind noise signal level is high There is.
[0007]
[Circuit for Solving the Problems]
The invention of claim 1 is an AGC circuit for making the level of an input signal constant,
A wind noise reduction circuit that performs processing to reduce the wind noise component on the output signal of the AGC circuit;
A gain adjustment circuit that performs gain adjustment on the output signal of the wind noise reduction circuit;
A recording processing circuit that performs recording processing on the output signal of the gain adjustment circuit;
Recording means for recording the output signal of the recording processing circuit on a recording medium;
Controls the gain adjustment circuit gain so that the audio signal level remains constant when a wind noise signal is larger than the audio signal in the input signal and the signal level of the input signal exceeds the AGC point. A gain control circuit for generating a control signal to
An audio signal recording apparatus characterized by comprising:
[0008]
The invention of claim 1 0, an AGC circuit for a constant level of the input signal,
A wind noise reduction circuit that performs processing to reduce the wind noise component on the output signal of the AGC circuit;
A gain adjustment circuit that performs gain adjustment on the output signal of the wind noise reduction circuit;
A recording processing circuit that performs recording processing on the output signal of the gain adjustment circuit;
Recording means for recording the output signal of the recording processing circuit on a recording medium;
Controls the gain adjustment circuit gain so that the audio signal level remains constant when a wind noise signal is larger than the audio signal in the input signal and the signal level of the input signal exceeds the AGC point. A gain control circuit for generating a control signal to be
A recording unit having
Reproducing means for reproducing a signal from a recording medium;
A reproduction processing circuit for performing reproduction processing on the reproduction signal from the reproduction means;
A reproduction unit having
It is composed of an audio signal recording and reproducing apparatus according to claim.
[0010]
According to the invention as described above, the sound signal level fluctuation caused by the wind noise reduction process can be corrected by accurately performing the gain adjustment at the subsequent stage of the wind noise reduction process. The sound level can be made constant regardless of the signal level. For this reason, it is possible to eliminate or reduce the occurrence of a sense of incongruity during reproduction due to a change in the sound level.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
A configuration relating to recording of audio information according to an embodiment of the present invention, in which the present invention is applied to a digital VTR having an integrated video camera and liquid crystal monitor, will be described with reference to FIG. In addition, about the structure regarding a video signal, such as a video camera and its imaging signal processing system, description is abbreviate | omitted for simplicity. Input signals input from the left and right microphones 1L and 1R are supplied to an AGC (Auto Gain Controller) 3 via the microamplifiers 1L and 1R, respectively. The input signal is generally the sum of an audio signal and a wind sound signal. The AGC 3 performs gain adjustment for making the signal level of the input signal constant, and supplies the gain-adjusted signal to the A / D converter 4. The A / D converter 4 converts the supplied signal into a digital signal and supplies the digital signal to the wind noise reduction circuit 5.
[0012]
The wind noise reduction circuit 5 reduces the wind sound signal component from the supplied signal and supplies it to the audio signal gain adjustment amplifiers 6L and 6R. The wind noise reduction circuit 5 generates a detection signal in association with the process of reducing the wind sound signal component, and supplies the detection signal to the audio signal gain adjustment amplifiers 6L and 6R and the microcomputer 9.
[0013]
The audio signal gain adjustment amplifiers 6L and 6R perform gain adjustment on the output of the wind noise reduction circuit 5 and supply it to the recording system encoding processing circuit 7. Here, the gains of the audio signal gain adjustment amplifiers 6L and 6R are controlled by a gain control circuit 10 described later. Further, the recording system encoding processing circuit 7 performs an interleaving process on the outputs of the audio signal gain adjustment amplifiers 6L and 6R and a process of adding AAUX (audio AUX) data to be described later supplied from the microcomputer 9. Then, the data obtained by such processing is supplied to the recording system 8. The recording system 8 performs processing for recording supplied data on a recording medium such as a magnetic tape.
[0014]
On the other hand, based on the detection signal supplied from the wind noise reduction circuit 5, the microcomputer 9 generates information related to the strength of the wind in the signal format used in the wind noise level display unit 11 for recording, Output to the wind noise level display unit 11. For example, the wind sound signal level may be displayed as the information related to the strength of the wind, or the wind speed may be calculated and displayed by a predetermined conversion means. As the recording wind sound level display unit 11, for example, an electronic viewfinder, a liquid crystal monitor, an LED (Light Emitting Diode), or the like is used.
[0015]
In particular, for an electronic viewfinder, a liquid crystal monitor, and the like, a part of the screen (for example, the upper end portion of the screen) that displays a video signal related to a recording (photographing) target is used as the recording wind sound level display unit 11. It may be. Such a function is realized by using a configuration in which information related to the strength of the wind generated by the microcomputer 9 is superimposed on the video signal. Further, for example, the microcomputer 9 may control display / non-display of information related to the strength of the wind in relation to an external input by a user operation or the like.
[0016]
Furthermore, the microcomputer 9 generates AAUX data as subcode data including information related to the strength of the wind based on the detection signal, and supplies the AAUX data to the recording system encoding processing circuit 7. As described above, the recording system encoding processing circuit 7 performs an encoding process for recording the AAUX data together with the audio signal. By the way, the AAUX data may be recorded together with the video signal by supplying the AAUX data to a means for performing an encoding process on the video signal.
[0017]
Next, the wind noise reduction circuit 5 will be described in more detail with reference to FIG. The wind noise reduction circuit 5 receives L side and R side signals. These two signals are supplied to the calculator 20. The computing unit 20 computes the difference between the two supplied signals. In FIG. 2, the difference is calculated by subtracting the R side signal from the L side signal, but the difference is calculated by subtracting the L side signal from the R side signal. Also good. However, the following description of the subsequent processing of the arithmetic unit 20 is performed on the assumption that the arithmetic unit 20 subtracts the R side signal from the L side signal. The output of the arithmetic unit 20 is supplied to the LPF 21 that passes a component of, for example, 1 kHz or less. The output of the LPF 21 is a wind sound signal component extracted for the following reason.
[0018]
The first reason is that since the wind sound signal component has a smaller correlation between the L side signal and the R side signal than the audio signal component, the difference between the L side signal and the R side signal (that is, the computing unit). 20 outputs), there is a high possibility that they will remain without canceling each other. Furthermore, as a second reason, generally, since the wind sound signal component is distributed in a relatively low range (about several hundreds of Hz), there is a high possibility of passing through the LPF 21.
[0019]
The extracted wind sound signal component, that is, the output of the LPF 21 is supplied to the amplifier 22 and the amplifier 32. The amplifier 22 adjusts the gain of the output of the LPF 21 and supplies it to the absolute value conversion circuit 23. The absolute value circuit 23 performs an absolute value process on the supplied signal, that is, a process for making the polarity constant without changing the amplitude of the original signal. The output of the absolute value conversion circuit 23 is supplied to the attack characteristic / recovery characteristic setting circuit 24.
[0020]
The attack characteristic / recovery characteristic setting circuit 24 generates a detection signal by subjecting the supplied signal to processing that suppresses rapid level fluctuations and matches human hearing. As such processing, for example, at the beginning of wind noise, an attack characteristic with a quick response is set in order to improve followability to a gust of wind or the like. Further, for example, if the control response is accelerated when the level of the wind sound signal becomes small, the point of change in the wind sound signal level is likely to give a sense of incongruity for hearing, so that a recovery characteristic is set to delay the response. The detection signals generated in this way are supplied to the amplifiers 32 and 29 in the configuration of the variable gain amplifier in the microcomputer 9, the AND circuit 10 and the wind noise reduction circuit 5, respectively.
[0021]
On the other hand, the amplifier 32 adjusts the gain of the supplied output of the LPF 21 in response to the detection signal. The output of the amplifier 32 is supplied to the calculators 25 and 26. In the arithmetic unit 25, the output of the amplifier 32 is subtracted from the L side signal. On the other hand, in the calculator 26, the above-described calculator 20 calculates the difference by subtracting the R side signal from the L side signal, so that the R side signal is subtracted from the output of the amplifier 32. The operation to be executed is executed.
[0022]
The outputs of the calculators 25 and 26 are the difference between the L side and R side input signals and the signal obtained by adjusting the gain of the extracted wind sound signal based on the detection signal. The component is reduced. However, in order to make the reduction of the wind noise signal more reliable, the following configuration is provided.
[0023]
That is, the outputs of the calculators 25 and 26 are supplied to the calculator 27 and added, and the addition result is supplied to the LPF 28 that passes a component of, for example, 200 Hz or less. As the output of the LPF 28, wind sound signal components remaining in the outputs of the calculators 25 and 26 are extracted. The wind sound signal component is supplied to the amplifier 29, the gain is adjusted, and the arithmetic units 30 and 31 are supplied. The gain of the amplifier 29 is controlled based on the detection signal generated by the attack characteristic / recovery characteristic setting circuit 24.
[0024]
The arithmetic units 30 and 31 take the difference between the outputs of the arithmetic units 25 and 26 and the output of the amplifier 29, respectively. As a result, the outputs of the calculators 30 and 31 are those in which the wind sound signal component is further reduced. The outputs of the calculators 30 and 31 are the output signals on the L side and R side of the wind noise signal reduction circuit 5.
[0025]
In the wind noise signal reduction circuit 5, as described above, the gains of the amplifiers 32 and 29 are controlled based on the detection signal generated by the attack characteristic / recovery characteristic setting circuit 24. In the present invention, the detection signal is further supplied to the microcomputer 9 or the gain control circuit 10 and the like, so that the detection signal is used for processing outside the wind noise signal equalization circuit 5.
[0026]
That is, according to one embodiment of the present invention, based on the detection signal, the process for displaying the wind sound signal level during recording, the process for appropriately adjusting the gain after the wind sound reduction process, and the wind sound signal level during reproduction are performed. Processing to display is performed. Hereinafter, these processes will be described in order.
[0027]
First, as shown in FIG. 1, the detection signal is supplied to the microcomputer 9 and the wind sound level display unit 11 for recording is driven so that the wind sound signal level or the wind sound signal level is recorded. Information related to the strength of the wind, such as wind speed, obtained by converting the value of the wind speed by a predetermined method is displayed.
[0028]
Next, a process for appropriately adjusting the gain in the subsequent stage of the wind noise reduction process will be described. In order to facilitate understanding, first, the case where the audio signal level is reduced by the wind noise reduction processing will be described with reference to FIG. FIG. 3A shows a case where only an audio signal is input as an input signal. In this case, since the signal level of the input signal does not reach the AGC point, the signal level does not change even after the AGC processing by the AGC 3.
[0029]
On the other hand, FIG. 3B shows a case where the sum of the audio signal and the wind sound signal is input as the input signal, and the signal level of the audio signal is the same as in FIG. The case where the signal level of the input signal exceeds the AGC point because the signal level of the signal is large is shown. In such a case, since the signal level of the sum of the sound signal and the wind sound signal as input signals is suppressed to the AGC point, as a result, as shown in the center diagram, when the signal level of the sound signal is input Lower than signal level. When the wind noise signal is reduced by the wind noise reduction process, an audio signal having a lower signal level than the case of FIG. 3A remains as shown in the right diagram.
[0030]
Such a change in the audio signal level causes a situation in which the audio level falls without hearing noise due to wind noise, and makes the user feel uncomfortable. In order to improve such a situation, it is effective to perform gain adjustment after wind noise reduction processing so that the sound signal level is constant in relation to the detection signal. That is, when the wind sound signal is larger than the sound signal in the input signal and the signal level of the input signal exceeds the AGC point, the sound signal is referred to, for example, the sound signal gain adjustment amplifiers 6L and 6R. What is necessary is just to control the gain of the amplifier of the back | latter stage of the reduction circuit 5 exactly.
[0031]
That is, as described in FIG. 1, the AGC circuit 3 generates a predetermined signal when the input signal exceeds the AGC point and supplies it to the gain control circuit 10. The gain control circuit 10 is supplied with the detection signal from the wind noise reduction circuit as described above. Based on these signals, the gain control circuit 10 detects a situation in which the wind sound signal is larger than the audio signal in the input signal and the signal level of the input signal exceeds the AGC point. Is detected, the gains of the audio signal gain adjustment amplifiers 6L and 6R are appropriately controlled so that the audio signal level is constant.
[0032]
Further, a process for displaying information relating to wind strength such as a wind sound signal level during reproduction will be described with reference to FIG. FIG. 4 is a block diagram showing a configuration relating to reproduction of audio information in one embodiment of the present invention. Data recorded on the magnetic tape 40 as a recording medium is read by the magnetic heads 50L and 50R, and at an operation timing according to a clock generated by the read signal selection switch 51, the RF signal reproduction amplifier 52, the equalizer 53, and the PLL unit 55. The signals are sequentially processed by the operating A / D converter 54 and supplied to the channel decoder and ECC circuit 56 as a digital signal.
[0033]
The channel decoder and ECC circuit 56 performs a decoding process and an error correction process on the supplied signal to generate a reproduced audio signal, and, for example, a sub-signal together with the audio signal by the method described with reference to FIG. AAUX data recorded as a code is reproduced. The reproduced audio signal is supplied to the subsequent stage, subjected to interpolation processing and the like, and then supplied to audio generating means such as a speaker.
[0034]
On the other hand, the reproduced AAUX data is supplied to the microcomputer 57. The microcomputer 57 converts the portion related to the strength of the wind in the AAUX data into a signal format necessary for the operation of the wind level display unit 58 for playback, and supplies it to the wind level display unit 58 for playback. In this way, it becomes possible for the user to check information related to the strength of the wind, such as the wind sound signal level at the time of recording, during playback. As the reproducing wind sound level display section 58, for example, the same recording wind sound level display section 11 as described above can be used as shown in FIG.
[0035]
In addition, when information recorded on a recording medium is reproduced by a predetermined reproducing device and, for example, a television receiver or the like is used to output audio and video during reproduction, a part of the screen is reproduced as a reproduction-purpose wind. The sound level display unit 58 may be used. In these cases, it is necessary to provide a configuration in which information relating to the strength of the wind obtained by reproducing AAUX data is superimposed on the video signal in the reproduction system. Further, for example, the microcomputer 57 controls whether or not the information related to the strength of the wind is displayed on the reproduction wind sound level display unit 58 in relation to an external input by a user operation or the like. Also good.
[0036]
Next, the wind sound level display unit 11 used for the recording system and the reproduction system will be described. FIG. 5 shows an example of an on-screen display using an electronic viewfinder or a liquid crystal monitor that displays video information. For example, the upper left corner of the display surface is used as a wind sound level display area. Marks such as windsocks and windmills are displayed in this area, and the display of such marks is changed according to the signal level of the wind sound signal, etc. The display method can be used. More specifically, the blinking time interval of the mark is shortened as the signal level of the wind noise signal is increased, or in particular, when a mark such as a windmill is used, the wind turbine signal is increased as the signal level of the wind noise signal is increased. It is possible to display the rotation so that it can be seen more quickly.
[0037]
Further, for example, an LED or the like may be used as the wind sound level display unit 11, and a liquid crystal monitor or the like for displaying information related to the strength of wind is provided separately from the display for displaying video information. Also good.
[0038]
In the above-described embodiment of the present invention, the present invention is applied to a digital VTR. However, the present invention is a system for recording or / and reproducing information related to audio information having a microphone, such as an 8 mm camcorder, MD. (Minidis), DAT (digital audio tape), and the like.
[0039]
The present invention is not limited to the above-described embodiment, and various applications and modifications can be considered without departing from the gist of the present invention.
[0040]
【The invention's effect】
As described above, the present invention uses the detection signal generated by the wind noise reduction circuit to display information relating to the strength of the wind such as the wind sound signal level during recording and / or reproduction, and the wind sound. Processing other than wind noise reduction processing, such as processing for accurately performing gain adjustment at a later stage of the reduction processing, is performed.
[0041]
For this reason, at the time of recording, the user can know the wind sound signal level or information related to the strength of the wind such as the wind speed obtained by converting the wind sound signal level by a predetermined method.
[0042]
Further, at the time of reproduction, the user can know the wind sound signal level at the time of recording, or information related to the strength of the wind such as the wind speed obtained by converting the wind sound signal level by a predetermined method. For this reason, it is possible to easily grasp the situation at the time of recording or photographing.
[0043]
Furthermore, the sound level regardless of the wind noise signal level can be corrected by accurately adjusting the gain at the later stage of the wind noise reduction process so that the fluctuation of the sound signal level caused by the wind noise reduction process can be corrected. Can be made constant. For this reason, it is possible to eliminate or reduce the occurrence of a sense of incongruity during reproduction due to a change in the sound level.
[Brief description of the drawings]
FIG. 1 is a block diagram for describing a configuration relating to recording of audio information according to an embodiment of the present invention;
FIG. 2 is a block diagram for explaining a partial configuration related to recording of audio information according to the embodiment of the present invention.
FIG. 3 is a schematic diagram for explaining a variation in an audio signal level caused by wind noise reduction processing.
FIG. 4 is a block diagram for illustrating a configuration relating to reproduction of audio information in one embodiment of the present invention.
FIG. 5 is a schematic diagram for explaining wind sound level display performed in an embodiment of the present invention.
[Explanation of symbols]
3 ... AGC circuit, 5 ... Wind noise reduction circuit, 6L, 6R ... Audio signal gain adjustment amplifier, 9 ... Microcomputer, 10 ... Gain control circuit, 11 ... Recording wind Sound level display unit, 20 ... arithmetic unit, 21 ... LPF, 23 ... absolute value circuit, 24 ... attack characteristic / recovery characteristic setting circuit, 57 ... microcomputer, 58 ... reproduction Wind sound level display for hour

Claims (13)

An AGC circuit for keeping the level of the input signal constant;
A wind noise reduction circuit for performing a process of reducing wind noise components on the output signal of the AGC circuit;
A gain adjustment circuit that performs gain adjustment on the output signal of the wind noise reduction circuit;
A recording processing circuit for performing a recording process on the output signal of the gain adjustment circuit;
Recording means for recording the output signal of the recording processing circuit on a recording medium;
A gain of the gain adjustment circuit is set so that the sound signal level is constant when it is detected that the wind sound signal is larger than the sound signal in the input signal and the signal level of the input signal exceeds the AGC point. A gain control circuit for generating a control signal for controlling
An audio signal recording apparatus comprising: In claim 1,
The wind noise reduction circuit is
A wind sound signal extraction circuit that calculates a difference between the input audio signals of the left and right channels and extracts a low frequency component of the difference as a wind sound signal;
A wind sound signal gain adjustment circuit for performing gain adjustment in response to the detection signal with respect to the extracted wind sound signal;
An attack characteristic / recovery characteristic setting circuit for generating the detection signal for controlling the wind sound signal gain adjustment circuit so as to suppress a sudden level fluctuation;
Audio signal recording apparatus comprising: a. In claim 1,
An audio signal recording apparatus comprising: a circuit that generates subcode data including information related to wind intensity based on the detection signal. In claim 4,
An audio signal recording apparatus comprising a circuit for recording the subcode data together with an audio signal. In claim 4,
In addition, it has a function to record video signals,
An audio signal recording apparatus for recording the subcode data together with the video signal. In claim 1,
It further has a display circuit for recording that displays information to be recorded or recording conditions in real time,
An audio signal recording apparatus, wherein the recording display circuit is controlled based on the detection signal so as to display information relating to wind intensity. In claim 6 ,
An audio signal recording apparatus comprising: a circuit for controlling display / non-display of information relating to the strength of the wind according to an external operation with respect to the display circuit for recording. In claim 3 ,
Information on the strength of the wind
An audio signal recording apparatus characterized by a wind speed obtained by a predetermined conversion circuit based on a wind sound signal level or a wind sound signal level. In claim 6 ,
The recording display circuit displays a video signal,
An audio signal recording apparatus, wherein information relating to the strength of the wind is superimposed on the video signal in an analog manner. An AGC circuit for keeping the level of the input signal constant;
A wind noise reduction circuit for performing a process of reducing wind noise components on the output signal of the AGC circuit;
A gain adjustment circuit that performs gain adjustment on the output signal of the wind noise reduction circuit;
A recording processing circuit for performing a recording process on the output signal of the gain adjustment circuit;
Recording means for recording the output signal of the recording processing circuit on a recording medium;
A gain of the gain adjustment circuit is set so that the sound signal level is constant when it is detected that the wind sound signal is larger than the sound signal in the input signal and the signal level of the input signal exceeds the AGC point. A gain control circuit for generating a control signal for controlling
A recording unit having
Reproducing means for reproducing a signal from the recording medium;
A reproduction processing circuit for performing reproduction processing on the reproduction signal from the reproduction means;
A reproduction unit having
It is composed from the audio signal recording and reproducing apparatus according to claim. In claim 10,
The reproduction processing circuit is
Has a circuit for separating the audio signal reproduced and a reproduced sub-code data,
An audio signal recording / reproducing apparatus, wherein a reproducing display means for displaying reproduced information is controlled to display information relating to the strength of wind based on the subcode data. According to claim 1 0,
The playback display means displays a video signal,
An audio signal recording / reproducing apparatus characterized in that information relating to the strength of the wind is superimposed on the video signal in an analog manner. According to claim 1 0,
An audio signal recording / reproducing apparatus, characterized by comprising means for externally controlling display / non-display of information relating to the strength of the wind with respect to the display means for reproduction.

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