JP2011150060A - Recording device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a recording device which improves detection precision of a musical piece start. <P>SOLUTION: The recording device includes: a filter section (a band pass filter section 10) for extracting a predetermined band from a sound signal; a power calculation section (a power calculation section 11) for calculating the average value of a sound power of the predetermined band corresponding to the sound signal of the predetermined band which is output from the filter section; a musical piece start detection section (a musical piece start/end detection section 12) for detecting the start of the musical piece, on the basis of the average value of the sound power of the predetermined band calculated by the power calculation section; and a recording section (a recording and reproducing section 4) for recording a sound signal which does not pass through the filter section in a recording medium (an IC memory 5). <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a recording apparatus for recording an audio signal.

  A recording device such as an IC recorder is used for recording, for example, recording of interviews and conversations, recording of conferences, recording of lectures, etc., recording of music or vocal music without musical instrument accompaniment. In this specification, “music” means a musical instrument played.

  A conventional recording device analyzes the audio signal obtained by a microphone, etc., and automatically starts recording when the audio signal level exceeds a preset threshold, and the audio signal level is preset. Some of them are equipped with an automatic recording function that automatically stops recording when the threshold is exceeded.

JP 2006-277855 A (paragraph 0025) Japanese Patent Laid-Open No. 10-116099 (summary, paragraph 0041)

  The conventional recording device equipped with the above automatic recording function judges the automatic recording start timing based only on the level of the entire audio signal, so it automatically starts automatic recording due to noise (for example, outdoor wind sound). This is not suitable for automatic recording of music.

  Patent Document 1 discloses a recording device that extracts and records a music portion from a broadcast audio signal. In Patent Document 1, as a method for extracting the start position of music, only a method for extracting, as a start position of music, a portion where a state where the volume level is below a predetermined level continues for a certain period of time is exemplified. Such a music start position extraction method has a problem that, for example, it is not possible to automatically record music that is being performed under the condition where wind sounds are generated outdoors.

  Further, Patent Document 2 discloses a voice activated recording apparatus that varies the filter characteristics of a bandpass filter in a digital signal processing unit according to the voice input sensitivity and limits the frequency band of the voice signal input to the digital signal processing unit. Has been. The voice activated recording device disclosed in Patent Document 2 records the voice data compressed into a digital signal by the digital signal processing unit in the semiconductor memory unit, and therefore records the voice data band-limited according to the voice input sensitivity. In other words, there is a problem that when the music is automatically recorded, the original sound of the music cannot be recorded.

  An object of this invention is to provide the recording device which can improve the detection precision of a music start in view of said situation.

  In order to achieve the above object, a recording apparatus according to the present invention includes a filter unit that extracts a predetermined band from an audio signal, and an audio power of the predetermined band corresponding to the audio signal of the predetermined band output from the filter unit. A power calculation unit that calculates an average value, a music start detection unit that detects the start of music based on the average value of the audio power of the predetermined band calculated by the power calculation unit, and the filter unit A configuration (first configuration) is provided that includes a recording unit that records a non-voice signal on a recording medium.

  In the recording device having the first configuration, the predetermined band may be changed (second configuration).

  In the recording device of the first configuration or the second configuration, the recording unit automatically starts or resumes recording when the music start detection unit detects the start of music (third (Configuration).

  Also, in the recording device of the first configuration or the second configuration, the recording unit records the music start index indicating the start position of the music detected by the music start detection unit on the recording medium. A configuration for recording on the recording medium in association with a signal (fourth configuration) may be used.

  Further, in the recording apparatus having any one of the first to fourth configurations, when the music start detection unit has an average value of the sound power of the predetermined band calculated by the power calculation unit equal to or greater than a threshold value. It may be determined that the music has started.

  Further, in the recording device having any one of the first to fourth configurations, the music start detection unit has an average value of the sound power of the predetermined band calculated by the power calculation unit equal to or greater than a threshold value for a predetermined time. If there is, the start time of the predetermined time may be set as the start position of the music.

  According to the recording apparatus of the present invention, a filter unit that extracts a predetermined band from an audio signal, and a power that calculates an average value of the audio power of the predetermined band corresponding to the audio signal of the predetermined band output from the filter unit. A calculation unit and a music start detection unit that detects the start of music based on the average value of the audio power of the predetermined band calculated by the power calculation unit. By setting the output to a large frequency band, the start of music is not erroneously detected due to noise, and the detection accuracy of music start can be improved.

  Moreover, according to the recording apparatus according to the present invention, since the recording unit that records the audio signal that has not passed through the filter unit on the recording medium is provided, the original sound of the music can be recorded. .

It is a block diagram which shows the structure of the recording device which concerns on 1st, 3rd, 4th embodiment of this invention. It is a flowchart which shows the recording operation | movement of the recording device which concerns on 1st Embodiment of this invention in the case of being set to the automatic recording mode of a music. It is a time chart of the average value of a voice waveform and voice power. It is a block diagram which shows the structure of the recording device which concerns on 2nd Embodiment of this invention. It is a flowchart which shows the recording operation | movement of the recording device which concerns on 2nd Embodiment of this invention when set to the automatic recording mode of a music. It is a time chart of the average value of a voice waveform and voice power. It is a flowchart which shows the recording operation | movement of the recording device which concerns on 3rd Embodiment of this invention when set to music detection mode. It is a time chart of the average value of a voice waveform and voice power. It is a flowchart which shows the recording operation | movement of the recording device which concerns on 4th Embodiment of this invention when set to music detection mode. It is a time chart of the average value of a voice waveform and voice power. It is a figure which shows the modification of CPU with which the recording device which concerns on this invention is provided. It is a figure which shows the other modification of CPU with which the recording device which concerns on this invention is provided.

  Embodiments of the present invention will be described below with reference to the drawings.

<First Embodiment>
FIG. 1 shows the configuration of a recording apparatus according to the first embodiment of the present invention. The recording apparatus according to the first embodiment of the present invention shown in FIG. 1 is an IC recorder, which includes a microphone 1, an amplification unit 2, an A / D conversion unit 3, a recording / playback unit 4, an IC memory 5, and the like. , D / A conversion unit 6, amplification unit 7, speaker 8, CPU 9, operation unit 13, and display unit 14.

  The CPU 9 controls the driving operation of the entire recording apparatus. Further, the CPU 9 includes a band pass filter unit 10, a power calculation unit 11, and a music start / end detection unit 12.

  The microphone 1 converts the collected sound into an audio signal that is an electrical signal. The amplifying unit 2 amplifies the audio signal output from the microphone 1. The A / D converter 3 converts the analog signal output from the amplifier 2 into a digital signal. The digital audio signal output from the A / D conversion unit 3 is supplied to the recording / reproducing unit 4 and the CPU 9.

  The recording / reproducing unit 4 executes a recording process (recording process) and a reproducing process in accordance with an instruction from the CPU 9. The recording / reproducing unit 4 performs a compression encoding process on the digital audio signal output from the A / D conversion unit 3 when recording processing is performed, and records the compression encoded signal obtained as a result in the IC memory 5. . In addition, the recording / reproducing unit 4 decompresses and decodes the compressed and encoded signal read from the IC memory 5 when executing the reproduction process, and outputs the resulting digital audio signal to the D / A converting unit 6.

  The D / A converter 6 converts the digital signal output from the recording / reproducing unit 4 into an analog signal. The amplification unit 7 amplifies the analog audio signal output from the D / A conversion unit 6. The speaker 8 reproduces and outputs audio based on the amplified analog audio signal output from the amplifying unit 7.

  The operation unit 13 outputs an operation signal corresponding to the operation content of the user to the CPU 9. The CUP 9 performs control and various settings related to various operations such as a recording operation and a reproduction operation based on an operation signal output from the operation unit 13.

  The display unit 14 displays an operation state, various setting states, and the like in accordance with instructions from the CPU 9.

  Next, the recording operation of the recording apparatus according to the first embodiment of the present invention shown in FIG. 1 when the automatic music recording mode is set will be described with reference to FIGS. FIG. 2 is a flowchart showing a recording operation of the recording apparatus according to the first embodiment of the present invention shown in FIG. 1 when the automatic music recording mode is set.

  First, the CPU 9 confirms the operation signal output from the operation unit 13, determines whether or not the recording key of the operation unit 13 is pressed (step S10), and determines that the recording key is pressed (step S10). (YES in step S10), the process proceeds to step S20.

  In step S20, the CPU 9 detects the start of music. Specifically, the band pass filter unit 10 extracts a predetermined band from the digital audio signal output from the A / D conversion unit 3, and the power calculation unit 11 outputs the predetermined band output from the band pass filter unit 10. The average value of the audio power in the predetermined band corresponding to the digital audio signal is calculated, and the music start / end detecting unit 12 has the audio power average value of the predetermined band calculated by the power calculating unit 11 equal to or greater than a preset threshold value. It is determined whether or not there is a music, and if the average value of the sound power in the predetermined band is equal to or greater than a threshold, it is determined that the music has started.

  If the average value of the audio power in the predetermined band is equal to or greater than the threshold value (YES in step S20), the music start / end detecting unit 12 instructs the recording / reproducing unit 4 to start recording or resume recording, and then proceeds to step S60. Transition.

  On the other hand, if the average value of the audio power in the predetermined band is not equal to or greater than the threshold value (NO in step S20), the CPU 9 confirms the operation signal output from the operation unit 13 and confirms that the stop key of the operation unit 13 is pressed. If it is determined whether the stop key is not pressed (NO in step S40), the process returns to step S20. If it is determined that the stop key is pressed (YES in step S40), the recording standby state is established. Is canceled (step S50), and then the process returns to step S10.

  In step S60, the CPU 9 detects the end of music. Specifically, the band pass filter unit 10 extracts a predetermined band from the digital audio signal output from the A / D conversion unit 3, and the power calculation unit 11 outputs the predetermined band output from the band pass filter unit 10. The average value of the audio power in the predetermined band corresponding to the digital audio signal is calculated, and the music start / end detecting unit 12 presets the average value of the audio power in the predetermined band calculated by the power calculating unit 11 for a predetermined time. If the average value of the audio power in the predetermined band is equal to or lower than the threshold value for a predetermined time, it is determined that the music has ended at the start time of the predetermined time. In addition, although the threshold value in step S20 and the threshold value in step S60 may be the same or different, they are the same in this embodiment.

  If the average value of the audio power in the predetermined band is equal to or less than the threshold value for a predetermined time (YES in step S60), the music start / end detection unit 12 instructs the recording / playback unit 4 to stop recording (pause recording). (Step S70), and then returns to step S20.

  On the other hand, if the average value of the audio power in the predetermined band is not equal to or less than the threshold value for a predetermined time (NO in step S60), the CPU 9 confirms the operation signal output from the operation unit 13 and the stop key of the operation unit 13 Is determined (step S80). If it is determined that the stop key is not pressed (NO in step S80), the process returns to step S60 and if it is determined that the stop key is pressed (YES in step S80). Recording is stopped (step S90), and then the process returns to step S10.

  The fact that the detection accuracy of the music start can be improved by the recording operation as described above will be described with reference to FIG. Note that T in FIG. 3 indicates the predetermined time in step S60. The characteristics of the band pass filter unit 10 are set so that the band pass filter unit 10 extracts a frequency band with low noise and a large music output as the predetermined band. With this setting, as shown in FIG. 3, the amplitude of the noise portion is reduced in the audio waveform of the predetermined band corresponding to the digital audio signal of the predetermined band output from the band pass filter unit 10. As a result, the start of music is not erroneously detected in the first two noise portions, and the detection accuracy of the start of music can be improved. Accordingly, in the automatic recording mode of music, it is possible to reduce the wasteful consumption of the capacity of the IC memory 5 due to the erroneous start or restart of recording due to noise, and the use efficiency of the IC memory 5 can be improved. .

Second Embodiment
A recording apparatus according to the second embodiment of the present invention will be described, which has higher detection accuracy of music start than the recording apparatus according to the first embodiment of the present invention. FIG. 4 shows the configuration of a recording apparatus according to the second embodiment of the present invention. 4 that are the same as those in FIG. 1 are given the same reference numerals, and detailed descriptions thereof are omitted.

  The recording apparatus according to the second embodiment of the present invention shown in FIG. 4 has a configuration in which a FIFO (First-In / First-Out) memory 15 is added to the recording apparatus according to the first embodiment of the present invention shown in FIG. is there. The FIFO memory 15 is a ring buffer capable of storing audio signals for a predetermined time in step S25 described later, and is provided between the A / D conversion unit 3 and the recording / reproducing unit 4. The digital audio signal output from the A / D conversion unit 3 is supplied to the FIFO memory 15 and the CPU 9.

  Further, in the recording apparatus according to the second embodiment of the present invention shown in FIG. 4 and the recording apparatus according to the first embodiment of the present invention shown in FIG. Is different.

  FIG. 5 is a flowchart showing a recording operation of the recording apparatus according to the second embodiment of the present invention shown in FIG. 4 when the automatic music recording mode is set. In FIG. 5, the same steps as those in FIG. 2 are denoted by the same reference numerals, and detailed description thereof is omitted.

  The flowchart of FIG. 5 is obtained by replacing step S20 with step S25 in the flowchart of FIG.

  In step S25, the CPU 9 detects the start of music. Specifically, the band pass filter unit 10 extracts a predetermined band from the digital audio signal output from the A / D conversion unit 3, and the power calculation unit 11 outputs the predetermined band output from the band pass filter unit 10. The average value of the audio power in the predetermined band corresponding to the digital audio signal is calculated, and the music start / end detecting unit 12 presets the average value of the audio power in the predetermined band calculated by the power calculating unit 11 for a predetermined time. If the average value of the audio power in the predetermined band is equal to or higher than the threshold for a predetermined time, it is determined that the music has started at the start time of the predetermined time. Note that the threshold value in step S25 and the threshold value in step S60 may be the same or different, but are the same in this embodiment. The predetermined time in step S25 and the predetermined time in step S60 may be the same or different, but in this embodiment, the predetermined time in step S25 is set longer than the predetermined time in step S60. ing.

  It will be described with reference to FIG. 6 that the detection accuracy of the music start can be improved as compared with the first embodiment by the recording operation as described above. In addition, T1 in FIG. 6 has shown the predetermined time in step S25, and T2 in FIG. 6 has shown the predetermined time in step S60. The characteristics of the band pass filter unit 10 are set so that the band pass filter unit 10 extracts a frequency band with low noise and a large music output as the predetermined band. With this setting, as shown in FIG. 6, the amplitude of the noise portion is reduced in the audio waveform of the predetermined band corresponding to the digital audio signal of the predetermined band output from the band pass filter unit 10. Furthermore, the start of music is detected only when the average value of the audio power in the predetermined band is equal to or greater than the threshold during the predetermined time T1. As a result, not only in the first two noise portions but also in the third noise portion, the music start is not erroneously detected, and the detection accuracy of the music start can be improved as compared with the first embodiment.

<Third Embodiment>
A recording apparatus according to the third embodiment of the present invention will be described. The block diagram of the recording apparatus according to the third embodiment of the present invention is the same as the block diagram of the recording apparatus according to the first embodiment of the present invention, and is as shown in FIG. However, the recording / reproducing unit 4 and the CPU 9 are different from each other in the recording apparatus according to the third embodiment of the present invention and the recording apparatus according to the first embodiment of the present invention.

  A recording operation of the recording apparatus according to the third embodiment of the present invention shown in FIG. 1 when the music detection mode is set will be described with reference to FIGS. 1 and 7. FIG. 7 is a flowchart showing the recording operation of the recording apparatus according to the third embodiment of the present invention shown in FIG. 1 when the music detection mode is set.

  First, the CPU 9 checks the operation signal output from the operation unit 13 to determine whether or not the recording key of the operation unit 13 has been pressed (step S110), and determines that the recording key has been pressed (step S110). (YES in step S110), the process proceeds to step S120.

  In step S120, the CPU 9 issues an instruction to start recording to the recording / reproducing unit 4, and then proceeds to step S130.

  In step S130, the CPU 9 detects the start of music. Specifically, the band pass filter unit 10 extracts a predetermined band from the digital audio signal output from the A / D conversion unit 3, and the power calculation unit 11 outputs the predetermined band output from the band pass filter unit 10. The average value of the audio power in the predetermined band corresponding to the digital audio signal is calculated, and the music start / end detecting unit 12 has the audio power average value of the predetermined band calculated by the power calculating unit 11 equal to or greater than a preset threshold value. It is determined whether or not there is a music, and if the average value of the sound power in the predetermined band is equal to or greater than a threshold, it is determined that the music has started.

  If the average value of the audio power in the predetermined band is equal to or greater than the threshold (YES in step S130), the music start / end detection unit 12 creates a music start index indicating the start position of the music (step S140), and then proceeds to step S160. Transition. The music start index can indicate the start position of the music by including, for example, the recording time at the start of the music in the constituent elements.

  On the other hand, if the average value of the audio power in the predetermined band is not equal to or greater than the threshold (NO in step S130), the CPU 9 confirms the operation signal output from the operation unit 13 and confirms that the stop key of the operation unit 13 is pressed. If it is determined whether or not the stop key is not pressed (NO in step S150), the process returns to step S130. If it is determined that the stop key is pressed (YES in step S150), a step described later is performed. The process proceeds to S190.

  In step S160, the CPU 9 detects the end of the music. Specifically, the band pass filter unit 10 extracts a predetermined band from the digital audio signal output from the A / D conversion unit 3, and the power calculation unit 11 outputs the predetermined band output from the band pass filter unit 10. The average value of the audio power in the predetermined band corresponding to the digital audio signal is calculated, and the music start / end detecting unit 12 presets the average value of the audio power in the predetermined band calculated by the power calculating unit 11 for a predetermined time. If the average value of the sound power in the predetermined band is equal to or lower than the threshold value for a predetermined time, it is determined that the music has ended. Note that the threshold value in step S130 and the threshold value in step S160 may be the same or different, but are the same in this embodiment.

  If the average value of the audio power in the predetermined band is equal to or less than the threshold value for a predetermined time (YES in step S160), the music start / end detection unit 12 sets the start time of the predetermined time as the music end position, and ends the music A music end index indicating the position is created (step S170), and then the process returns to step S130. The music end index can indicate the end position of music by including, for example, a recording time at the end of music as a component.

  On the other hand, if the average value of the audio power in the predetermined band is not equal to or less than the threshold value for a predetermined time (NO in step S160), the CPU 9 confirms the operation signal output from the operation unit 13 and the stop key of the operation unit 13 Is determined (step S180). If it is determined that the stop key is not pressed (NO in step S180), the process returns to step S160 and if it is determined that the stop key is pressed (YES in step S180). The process proceeds to step S190.

  In step S190, the CPU 9 stops recording, sends the created music start index and music end index to the recording / playback unit 4, and the recording / playback unit 4 records the music start index and music end index in association with the recorded audio signal. The recording / reproducing unit 4 is controlled so as to write to the IC memory 5, and then the process returns to step S110.

  The fact that the detection accuracy of the music start can be improved by the recording operation as described above will be described with reference to FIG. Note that T in FIG. 8 indicates the predetermined time in step S160. The characteristics of the band pass filter unit 10 are set so that the band pass filter unit 10 extracts a frequency band with low noise and a large music output as the predetermined band. With this setting, as shown in FIG. 8, the amplitude of the noise portion is reduced in the audio waveform of the predetermined band corresponding to the digital audio signal of the predetermined band output from the band pass filter unit 10. As a result, the start of music is not erroneously detected in the first two noise portions, and the detection accuracy of the start of music can be improved. In addition, when recording is performed in the music detection mode, the music start index and music end index are automatically recorded in association with the recorded audio signal, so that music search at the time of playback and editing work at the time of data editing can be performed. It becomes easy.

<Fourth embodiment>
A recording apparatus according to the fourth embodiment of the present invention, which has higher detection accuracy of music start than the recording apparatus according to the third embodiment of the present invention, will be described. The block diagram of the recording apparatus according to the fourth embodiment of the present invention is the same as the block diagram of the recording apparatus according to the third embodiment of the present invention, and is as shown in FIG. However, the recording apparatus according to the fourth embodiment of the present invention and the recording apparatus according to the third embodiment of the present invention differ in the method of detecting the start of music by the music start / end detection unit 12.

  FIG. 9 is a flowchart showing the recording operation of the recording apparatus according to the fourth embodiment of the present invention shown in FIG. 1 when the music detection mode is set. In FIG. 9, the same steps as those in FIG. 7 are denoted by the same reference numerals, and detailed description thereof is omitted.

  The flowchart of FIG. 9 is obtained by replacing step S130 with step S135 in the flowchart of FIG.

  In step S135, the CPU 9 detects the start of music. Specifically, the band pass filter unit 10 extracts a predetermined band from the digital audio signal output from the A / D conversion unit 3, and the power calculation unit 11 outputs the predetermined band output from the band pass filter unit 10. The average value of the audio power in the predetermined band corresponding to the digital audio signal is calculated, and the music start / end detecting unit 12 presets the average value of the audio power in the predetermined band calculated by the power calculating unit 11 for a predetermined time. If the average value of the sound power in the predetermined band is equal to or higher than the threshold value for a predetermined time, the start point of the predetermined time is set as the music start position. In step S140, the music start / end detection unit 12 creates a music start index indicating the start position of the music. The threshold value in step S135 and the threshold value in step S160 may be the same or different, but are the same in this embodiment. Further, the predetermined time in step S135 and the predetermined time in step S160 may be the same or different, but in this embodiment, the predetermined time in step S135 is made longer than the predetermined time in step S160. ing.

  It will be described with reference to FIG. 10 that the detection accuracy of music start can be improved as compared with the third embodiment by the recording operation as described above. Note that T1 in FIG. 10 indicates the predetermined time in step S135, and T2 in FIG. 10 indicates the predetermined time in step S160. The characteristics of the band pass filter unit 10 are set so that the band pass filter unit 10 extracts a frequency band with low noise and a large music output as the predetermined band. With this setting, as shown in FIG. 10, the amplitude of the noise portion is reduced in the audio waveform of the predetermined band corresponding to the digital audio signal of the predetermined band output from the band pass filter unit 10. Furthermore, the start of music is detected only when the average value of the audio power in the predetermined band is equal to or greater than the threshold during the predetermined time T1. As a result, not only in the first two noise portions but also in the third noise portion, the music start is not erroneously detected, and the detection accuracy of the music start can be improved as compared with the third embodiment.

<Others>
As mentioned above, although embodiment which concerns on this invention was described, the range of this invention is not limited to this, A various change can be added and implemented in the range which does not deviate from the main point of invention. Some examples of changes are shown below.

  The recording apparatus according to the first to fourth embodiments of the present invention has a configuration in which the microphone 1 is built, but instead of or in addition to this, an external audio input terminal that can be connected to an external microphone or the like is provided. You may make it the structure provided.

  In addition, the recording apparatus according to the first to fourth embodiments of the present invention has a configuration in which the speaker 8 is built in. However, instead of or in addition to this, an external audio output that can be connected to an external speaker or the like. You may make it the structure provided with a terminal.

  In addition, the recording apparatus according to the first to fourth embodiments of the present invention has a configuration in which the IC memory 5 is built, but instead of or in addition to this, an external memory (for example, an SD card) is detachable. You may make it the structure provided with the memory mounting part with which it mounts | wears. Further, the audio signal may be recorded on a recording medium (for example, an optical disk) other than the IC memory.

  Since the frequency band in which the output of the music is large differs depending on the type of musical instrument being played in the music, when the characteristics of the bandpass filter unit 10 are fixed to one, there is a possibility that various music cannot be appropriately handled. Therefore, as in the configuration example of the CPU shown in FIG. 11, the band-pass filter unit 10 is a variable band-pass filter 16 whose pass band is variable, and the CPU 9 is variable according to the setting of the type of music set by the operation unit 13. The pass band of the band pass filter 16 may be changed. Alternatively, as in the configuration example of the CPU illustrated in FIG. 12, the bandpass filter unit 10 includes a plurality of bandpass filters 17-1 to 17-n and bandpass filters 17-1 to 17-n having different pass bands. The switch 9 may be configured to change the selection destination of the switch 18 in accordance with the setting of the type of music set by the operation unit 13. As types of music set by the operation unit 13, for example, “music with trumpet performance”, “music with drum performance”, “music with guitar performance”, “music with piano performance”, and the like are conceivable. .

DESCRIPTION OF SYMBOLS 1 Microphone 2 Amplifying part 3 A / D conversion part 4 Recording / reproducing part (an example of a recording part)
5 IC memory (an example of a recording medium)
6 D / A converter 7 Amplifier 8 Speaker 9 CPU
10 Bandpass filter section (an example of filter section)
11 power calculation unit 12 music start / end detection unit (an example of music start detection unit)
DESCRIPTION OF SYMBOLS 13 Operation part 14 Display part 15 FIFO memory 16 Variable band pass filter 17-1 to 17-n Band pass filter 18 Switch

Claims (6)

A filter unit for extracting a predetermined band from the audio signal;
A power calculation unit that calculates an average value of the audio power of the predetermined band corresponding to the audio signal of the predetermined band output from the filter unit;
A music start detector that detects the start of music based on the average value of the audio power of the predetermined band calculated by the power calculator;
A recording apparatus comprising: a recording unit that records an audio signal that has not passed through the filter unit on a recording medium.   The recording apparatus according to claim 1, wherein the predetermined band is changeable.   The recording device according to claim 1 or 2, wherein the recording unit automatically starts or restarts recording when the music start detection unit detects the start of a music. The recording unit is
The recording apparatus according to claim 1, wherein a music start index indicating a start position of the music detected by the music start detection unit is recorded on the recording medium in association with an audio signal to be recorded on the recording medium. .   The music start detection unit determines that the music has started when the average value of the audio power of the predetermined band calculated by the power calculation unit is equal to or greater than a threshold value. Recording device according to.   The music start detection unit, if the average value of the sound power of the predetermined band calculated by the power calculation unit is equal to or greater than a threshold value for a predetermined time, the start time of the predetermined time is set as the music start position. The recording device according to any one of 1 to 4.

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