JPH0526639Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Field of Application] The present invention relates to a feature detection device for music signals such as music and voice, and particularly relates to a device for detecting tempo features from music signals.

[Conventional technology]

Traditionally, devices have been used to extract and display the characteristics of sounds and to determine the content of sounds when playing records, natural instruments, electronic instruments, and other musical instruments. There are two types: one that detects the sound signal, and one that analyzes the frequency and level of the sound signal using a spectrum analyzer.

Among such conventional devices, those that detect the volume of A cannot capture the content (characteristics) of the sound. In addition, although the content of the sound can be accurately captured in the case of B, the structure is complicated,
In addition, it is expensive and cannot be used generally.

Therefore, the following feature detection device can be considered as a feature detection device that can relatively accurately detect the content (characteristics) of a music signal such as music or voice with a simple configuration.

FIG. 1 shows an example of a music signal feature detection device.

In FIG. 1, a music signal V _io such as a musical tone or voice is applied to an input terminal 2 . This music signal V _io
is applied to the inverting input terminal (-) of the comparator 4 as a detection means for detecting an amplitude portion exceeding a predetermined reference level V _ref , and the level is applied to its non-inverting input terminal (+) as a control means. A reference level V _ref is added from the setting means 6, and the two are compared. Therefore, when the amplitude of the music signal _Vio exceeds the reference level _Vref , the comparator 4 outputs a pulse corresponding to the exceeded amplitude portion, and the generation interval of this output pulse exceeds the reference level _Vref . It corresponds to the time interval in which the amplitude arrives.

The level setting means 6 applies the voltage V of the voltage source 10 between the terminals of the variable resistor 8, sets an arbitrary voltage division ratio by adjusting the variable resistor 8, and sets a predetermined reference level.
V _ref is set.

And the comparison output (pulse) of this comparator 4
is applied to a tempo recognition circuit 12 installed as a tempo signal generating means for determining characteristic components of the music signal V _io from the output. This tempo recognition circuit 1
2, the time interval of the output is determined from the output of the comparator 4, and a signal V _p representing the tempo, which is a characteristic component of the music signal, is output, and this signal V _p is sent to the output terminal 14 as a characteristic of the music signal V _io . taken from.

Therefore, this music signal feature detection device detects the amplitude portion of the music signal _Vio that exceeds a predetermined level _Vref , and detects the amplitude portion from the repetition time interval (irregular time interval or specific period) of this amplitude portion. music signal
Determine the tempo of V _io and signal representing this tempo
V _p is obtained.

Next, FIG. 2 shows a specific example of the circuit configuration of the tempo recognition circuit 12.

As shown in FIG. 2, the tempo recognition circuit 12
It is composed of an integrating circuit 120 that integrates the output of the comparator 4 and converts it into a signal corresponding to the time interval of the output of the comparator 4. Integrating circuit 12 of this embodiment
0 is composed of a diode 121, a capacitor 122, and a resistor 123, and the integration time constant (time constant of the capacitor 122 and resistor 123) is
For example, it is set to be sufficiently larger than the period corresponding to the frequency of a general music signal, and smaller than the time interval corresponding to the fastest tempo of a general music signal.

In this case, when the music signal V _io shown in A in FIG. 3 is applied to the input terminal 2, this music signal V _io and
The comparator 4 compares the reference level V _ref with the reference level V _ref , and the comparator 4 _outputs each pulse train P ₁ , as shown in B in FIG. P ₂ ... is output. This pulse output is integrated by an integrating circuit 120, and as shown in FIG. 3C, a signal V _p is obtained which changes in accordance with the time interval TP of each pulse train P ₁ , P ₂ . this signal
V _p is a time signal representing the repetition interval TP of each pulse train P ₁ , P _{2 .} . . shown in FIG. 3B, and represents characteristics such as the tempo of the music signal V _io .

Next, FIG. 4 shows another specific example of the circuit configuration of the tempo recognition circuit 12.

As shown in FIG. 4, the tempo recognition circuit 12
It is composed of a monostable multivibrator 124 that generates an output pulse with a constant pulse width in response to the output pulse of the comparator 4. In this way, the music signal V _io and the reference level shown in A of FIG.
By comparison with V _ref , the fifth
In response to the first pulse in each pulse train P ₁ , P _{2 .} Each pulse OP ₁ ,
Since OP _{2 .} in this case,
Output pulse width of monostable multivibrator 124
T _p shall be set to a time sufficiently longer than the period corresponding to the frequency of a general music signal.

[The problem that the idea attempts to solve]

By the way, in such a feature detection device, a certain detection level is set as a condition for detecting the feature of the music signal, that is, the indentation, so even simple amplitude fluctuations of the music signal can be detected. There is a risk that it will be detected as the amplitude of a characteristic part, and this detection error cannot be ignored.

Therefore, an object of this invention is to provide a music signal feature detection device that suppresses the occurrence of detection errors due to mere amplitude fluctuations of the music signal and improves the reliability of feature detection.

[Means to solve the problem]

As illustrated in FIG. 6, the music signal feature detection device of this invention includes a detection means (comparator 4) for detecting an amplitude portion exceeding a predetermined level of an input music signal, and a detection output of this detection means. a tempo signal generating means (tempo recognition circuit 12) that generates an output signal representing the tempo of the music signal based on the tempo signal; Control means (level setting means 60
etc.).

[Effect]

In this music signal feature detection device, after rapidly increasing a predetermined level set in the detection means in order to detect the amplitude portion representing the characteristics of the music signal for each output signal generated by the tempo signal generation means. The generation of the output signal of the tempo signal generating means is controlled by level control that gradually decreases the level. That is, the predetermined level set in the detection means is determined after detecting the amplitude portion representing the characteristics of the music signal.
Since the level is controlled to correspond only to the amplitude portion representing the characteristics of the music signal, it is possible to avoid the influence of mere level changes in the music signal.

Therefore, this feature detection device is not affected by mere amplitude fluctuations, increases the accuracy of detecting the features of the music signal, that is, the tempo, and can obtain an output signal representing the tempo. be.

〔Example〕

Hereinafter, embodiments of this invention will be described in detail with reference to the drawings.

FIG. 6 shows an embodiment of the music signal feature detection device of this invention, and combines this feature detection device with the feature detection device shown in FIG. 1 and the tempo recognition circuit shown in FIGS. 2 and 4. Common parts are given the same reference numerals. In this embodiment, explanations of parts that overlap with the explanations of FIGS. 1 to 5 are omitted.

In this embodiment, a control means is added which feeds back the output of the tempo recognition circuit 12 to the level setting means 6 side and variably controls the reference level V _ref using the output of the tempo recognition circuit 12. That is, as shown in FIG. 6, the device of this embodiment applies the output of the comparator 4 to the monostable multivibrator 124 via a differentiator circuit consisting of a capacitor 16 and a resistor 18 to trigger the monostable multivibrator 124. do.
The output of this monostable multivibrator 124 is then sent to the output terminal 14 as a signal representing the tempo.
In addition to taking out as V _p , level setting means 6
0, the output of the monostable multivibrator 124 is applied to the capacitor 26 of the level setting means 60 via the _buffer circuit 20 with an amplification gain of "+1", the resistor 22, and the diode 24, which constitute means for controlling the reference level V ref.

The level setting means 60 of this embodiment has a capacitor 26 connected through a high resistance 28 to a variable terminal for taking out the reference level V _ref of the variable resistor 8 of the level setting means 6 in the feature detection device shown in FIG. The voltage generated by charging the capacitor 26 is applied to the non-inverting input terminal (+) of the comparator 4 as a comparison level _Vc . In this case, capacitor 26
Discharging takes place via the resistors 8 and 28, and the discharging time constant is set much larger than the charging time constant.

Therefore, in the device of this embodiment, the reference level V _ref is first set as the initial value of the comparison level V _c , but the amplitude of the music signal V _io does not exceed this reference level.
When V _ref is exceeded, the comparator 4 generates a pulse, and the monostable multivibrator 124 responds to the first pulse of this pulse train by generating a pulse with a constant pulse width, in response to which the capacitor 2
6 is charged, and this charging causes the comparison level V _c
is raised. Therefore, as shown in A of FIG. 7, when the amplitude envelope of the music signal V _io increases stepwise, the capacitor 26 charges more with respect to the reference level V _ref and the value set by the capacitor 26 increases. Since the comparison level V _c is set according to the amplitude envelope of the music signal V _io , the music signal V _io
The music signal remains constant even if the amplitude envelope of
A large amplitude part of V _io is detected, and a signal representing the repetition interval of that amplitude part is detected as shown in FIG.
V _p will be taken out from the output terminal 14.
If the comparison level of the comparator 4 is variably controlled in accordance with the detection output (signal V _p ) in this way, the reliability of detection of the amplitude part representing the characteristics of the music signal V _io can be increased, and the amplitude fluctuations of the music signal V _io can be suppressed. Detection errors due to this can be removed.

(Application example) Since the output signal V _p of the tempo recognition circuit 12 represents the tempo of the song and the musical style (music) of the song, this signal is used to determine the color, shape, and movement of the image displayed on the video display. By changing and controlling the display mode, it is possible to obtain a video that matches the style of the song.

Moreover, if the output signal V _p of the tempo recognition circuit 12 is displayed together with the level display of the music signal V _io ,
You can visually represent the tempo of a song.

Note that the comparison level of the comparator 4 is the music signal V _io
The average amplitude value per arbitrary time may be determined, and the change control may be performed according to that value.

In addition, although the comparator 4 is used as a means for detecting a specific amplitude of the music signal V _io , in place of this comparator 4, a Schmitt circuit that generates an output when the amplitude of the music signal V _io exceeds an arbitrary level is used. It may be configured with other detection circuits such as.

[Effect of idea]

As explained above, according to this invention, the predetermined level set in the detection means is rapidly raised and then gradually lowered in response to the signal regarding the tempo of the music signal, so that the output of the tempo signal generation means is Since the generation of the signal is controlled, the reliability of detecting the amplitude part representing the characteristics of the music signal can be increased, and detection errors due to amplitude fluctuations of the music signal can be eliminated, and the characteristics of the music signal can be detected with a simple configuration. It can be detected easily and accurately.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an example of a music signal feature detection device, and FIG. 2 is a circuit diagram showing a specific circuit configuration example of a tempo recognition circuit in the music signal feature detection device shown in FIG. 3 is a diagram showing operating waveforms of the tempo recognition circuit shown in FIG. 2, and FIG. 4 is a diagram showing another specific circuit configuration example of the tempo recognition circuit in the music signal feature detection device shown in FIG. 1. 5 is a circuit diagram showing the operating waveforms of the tempo recognition circuit shown in FIG. 4, FIG. 6 is a circuit diagram showing an embodiment of the music signal feature detection device of this invention, and FIG.
This figure is a diagram showing operating waveforms of the music signal feature detection device shown in FIG. 6. 4... Comparator as detection means, 12... Tempo recognition circuit as tempo signal generation means, 120
...Integrator circuit as tempo signal generating means, 12
4... Monostable multivibrator as tempo signal generating means, 20... Buffer circuit, 22...
Resistor, 24...diode, 60...level setting means as control means.

Claims (1)

[Claims for Utility Model Registration] (1) Detection means for detecting an amplitude portion exceeding a predetermined level of an input music signal; and generating an output signal representing the tempo of the music signal based on the detection output of the detection means. tempo signal generating means for generating the tempo signal; and generating the tempo signal by rapidly increasing the predetermined level set in the detecting means and then gradually lowering it each time the output signal is generated from the tempo signal generating means. A music signal feature detection device comprising: a control means for controlling generation of the output signal of the means; (2) The utility model characterized in that the detection means is constituted by a comparator that compares the music signal with the predetermined level and outputs a pulse every time the amplitude of the music signal exceeds the predetermined level. A music signal feature detection device according to claim 1. (3) The scope of the utility model registration claim characterized in that the tempo signal generating means is constituted by a monostable multivibrator that generates a rectangular wave pulse having a predetermined time width in response to the output pulse of the detecting means. The music signal feature detection device according to item 1.