JP2024014552A - Acoustic control device and acoustic control program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an acoustic control device and an acoustic program that can easily mix a first music piece with a second music piece without discomfort.

SOLUTION: An acoustic control device for mixing a first and second music piece includes a playback control unit 68 that moves a playback position of the first music piece to a first position in the first music piece and moves a playback position of the second music piece to a second position before a predetermined scheduled mixing position with the first music piece in the second music piece in response to an operation of an operator that controls volume of the first music piece and volume of the second music piece.

SELECTED DRAWING: Figure 9

COPYRIGHT: (C)2024,JPO&INPIT

Description

The present invention relates to a sound control device and a sound control program.

Conventionally, an audio device that mixes and outputs a plurality of songs is known (for example, see Patent Document 1).
The audio device described in Patent Document 1 is a so-called mixer, which mixes music supplied from a music supply device such as a PC and a smartphone, and outputs an audio signal corresponding to the mixed music to a speaker.
The audio device includes operators such as a first channel fader, a second channel fader, and a cross fader. Each of the first channel fader and the second channel fader has an operator that can move up and down, and the cross fader has an operator that can move left and right. When the first channel fader is operated, the audio device adjusts the volume of the music input from the music supply device to the first channel, and when the second channel fader is operated, the sound volume is adjusted from the music supply device to the second channel. Adjust the volume of the input song. Furthermore, when the crossfader is operated, the audio device adjusts the balance between the volume of the first channel and the volume of the second channel. For example, as the crossfader control is moved to the left, the proportion of the first channel in the volume output from the audio device increases, and as the control is moved to the right, the proportion of the volume output from the audio device increases. The proportion of the second channel in the volume increases.

International Publication No. 2022/054263

However, when mixing music input into the first channel and music input into the second channel, if an inexperienced user such as a beginner operates the audio device, the music on the first channel and the music on the second channel may be mixed. There is a problem in that it is difficult to mix the two without causing any discomfort.

A sound control device according to a first aspect of the present invention is a sound control device that mixes a first music piece and a second music piece. Accordingly, the playback position of the first song is moved to a first position in the first song, and the playback position of the first song is moved to a second position before a predetermined mixing position with the first song in the second song. and a playback control section that moves the playback positions of the two songs.

The sound control program according to the second aspect of the present invention is recorded in a computer-readable manner and causes the computer to function as the sound control device according to the first aspect.

FIG. 1 is a schematic diagram showing the configuration of an acoustic control device in a first embodiment. FIG. 3 is a schematic diagram showing a high frequency band adjustment section, a medium frequency band adjustment section, and a low frequency band adjustment section in the first embodiment. FIG. 2 is a block diagram showing a control unit in the first embodiment. FIG. 7 is a diagram showing changes in the volume of the entire first song and changes in the volume of the entire second song when the crossfader is operated in the first embodiment. FIG. 7 is a diagram showing changes in the volume level of each frequency band of the first song and changes in the volume level of each frequency band of the second song when the crossfader is operated in normal mode in the first embodiment. The figure which shows an example of the change of BPM at the time of each reproduction|regeneration of the 1st music and the 2nd music when the crossfader is operated in the assist mode in 1st Embodiment. FIG. 7 is a diagram illustrating changes in the volume of the entire first song when operating the first channel fader and changes in the volume of the entire second song when operating the second channel fader in the first embodiment. The figure which shows an example of the change of BPM at the time of each reproduction|regeneration of a 1st music and a 2nd music when a 1st channel fader and a 2nd channel fader are operated in the assist mode in 1st Embodiment. FIG. 3 is a diagram illustrating an example of first reproduction control processing in the first embodiment. FIG. 7 is a diagram illustrating an example of third reproduction control processing in the first embodiment. The block diagram which shows the control part with which the acoustic control apparatus in 2nd Embodiment is equipped. FIG. 7 is a diagram showing changes in the volume level of each frequency band of the first song and the second song when the crossfader is operated in the assist mode in the second embodiment. The figure which shows the change of the volume level of each frequency band of each of the 1st music and the 2nd music when the preset level of the low frequency band of the 1st music in a 2nd embodiment is 0.6. The figure which shows another example of the change of BPM at the time of each reproduction|regeneration of a 1st music and a 2nd music when a crossfader is operated in assist mode in 2nd Embodiment. Changes in the volume levels of the high frequency band and medium frequency band of the first song when the first channel fader is operated in the assist mode in the second embodiment, and changes in the volume level of the second song when the second channel fader is operated. FIG. 3 is a diagram showing changes in volume levels in each of a high frequency band and a medium frequency band. FIG. 7 is a diagram illustrating an example of changes in the volume levels of the low frequency bands of the first music piece and the second music piece when the first channel fader and the second channel fader are operated in the assist mode in the second embodiment.

[First embodiment]
Hereinafter, a first embodiment of the present invention will be described based on the drawings.
[Configuration of sound control device]
FIG. 1 is a schematic diagram showing the configuration of an acoustic control device 1 according to this embodiment.
The sound control device 1 according to this embodiment mixes a plurality of songs. Specifically, the audio control device 1 mixes the first music loaded onto the first channel and the second music loaded onto the second channel, and outputs an audio signal corresponding to the mixed music.
As will be described in detail later, the sound control device 1 operates in a normal mode in which the first music piece and the second music piece are mixed according to a plurality of operators, and an assist mode in which the mixing of the first music piece and the second music piece is assisted. One of its features is that
As shown in FIG. 1, the audio control device 1 includes a housing 2, two channel operation sections 3, a mode changeover switch 4, and a crossfader 5. Although not shown in FIG. 1, the sound control device 1 further includes a control section 6 (see FIG. 3) that controls the operation of the sound control device 1.

[Case configuration]
The housing 2 is formed into a substantially rectangular parallelepiped shape and accommodates the control unit 6 therein. The housing 2 has a top surface 21, a top surface 22, a bottom surface 23, a left side surface 24, a right side surface 25, and a bottom surface (not shown).
Two channel operation sections 3, a mode changeover switch 4, and a cross fader 5 are arranged on the top surface 21.

[Configuration of channel operation section]
The two channel operation units 3 operate the playback state of music loaded into the corresponding channels. The two channel operation units 3 include a first channel operation unit 3A that operates the playback state of the first song loaded on the first channel, and a first channel operation unit 3A that operates the playback status of the second song loaded on the second channel. This is a 2-channel operation section 3B.
Each channel operation section 3A, 3B has a jog dial 31, an equalizer adjustment section 32, a channel fader 33, and a tempo slider 34.

The jog dial 31 is rotatably provided on the top surface 21 and is used to adjust the playback direction and playback speed of the music being played. Note that a scratch operation unique to DJ performance is performed by the user combining a change in the rotation direction and a change in rotation speed of the jog dial 31.

The equalizer adjustment section 32 performs equalizer adjustment processing for the corresponding channel. Specifically, the equalizer adjustment section 32 of the first channel operation section 3A performs equalizer adjustment processing for the first channel, and the equalizer adjustment section 32 of the second channel operation section 3B performs equalizer adjustment processing for the second channel. Each equalizer adjustment section 32 includes a level adjustment section 321 , a high frequency band adjustment section 322 , a medium frequency band adjustment section 323 , a low frequency band adjustment section 324 , and an effect adjustment section 325 .
The level adjustment section 321, the high frequency band adjustment section 322, the medium frequency band adjustment section 323, the low frequency band adjustment section 324, and the effect adjustment section 325 are rotary encoders having knobs that can be rotated in one direction and the other around the rotation axis. .

The level adjustment section 321 adjusts the input level of the input music.
The effect adjustment section 325 is an operator that adjusts the effect amount of the effect set in the corresponding channel operation section 3.

FIG. 2 is a schematic diagram showing the high frequency band adjustment section 322, the medium frequency band adjustment section 323, and the low frequency band adjustment section 324. In addition, in FIG. 2, each of the high frequency band adjustment section 322, the medium frequency band adjustment section 323, and the low frequency band adjustment section 324 is arranged at a position indicating "0.5".
The high frequency band adjustment section 322 adjusts the volume level of the high frequency band of the input music. The high frequency band is, for example, a frequency band of 4649 Hz or higher.
The high frequency band adjustment section 322 adjusts the volume level in a range of 0 or more and 1 or less, as shown in FIG. If the volume level set by the high frequency band adjustment section 322 is the set level, when the high frequency band adjustment section 322 is rotated to the counterclockwise limit position, the set level of the high frequency band becomes 0, and the set level of the high frequency band becomes 0. When rotated to the limit position, the set level of the high frequency band becomes 1. That is, when the high frequency band adjustment section 322 is placed at a position pointing to "0", the set level of the high frequency band becomes 0, and when the high frequency band adjustment section 322 is placed at a position pointing to "1", the high frequency band The set level of is 1. Further, when the high frequency band adjustment section 322 is placed at a position pointing to "0.5", the set level of the high frequency band becomes 0.5.

Hereinafter, the set level of the high frequency band of the first music piece set by the high frequency band adjustment section 322 of the first channel operation section 3A will be referred to as the set level H1lv. The set level of the high frequency band of the second music piece set by the high frequency band adjustment unit 322 of the second channel operation unit 3B is set as the set level H2lv. The set level H1lv is the volume level set by the user using the high frequency band adjustment section 322 of the first channel operation section 3A as the maximum level of the high frequency band of the first song. The set level H2lv is the volume level set by the user using the high frequency band adjustment section 322 of the second channel operation section 3B as the maximum level of the high frequency band of the second music.
Further, the minimum volume level of the high frequency band of the first music piece is set as the minimum level H1min, and the minimum volume level of the high frequency band of the second music piece is set as the minimum level H2min. The minimum level H1min is a value smaller than the set level H1lv, and the minimum level H2min is a value smaller than the set level H2lv. In the following description, the minimum levels H1min and H2min are assumed to be 0 for convenience.

The medium frequency band adjustment section 323 adjusts the volume level of the medium frequency band of the input music. The medium frequency band is, for example, a frequency band exceeding 284 Hz and below 4649 Hz.
As shown in FIG. 2, the medium frequency band adjustment section 323 adjusts the volume level in a range of 0 or more and 1 or less. The setting of the volume level by the medium frequency band adjustment section 323 is similar to the setting of the volume level by the high frequency band adjustment section 322.
Hereinafter, the volume level set by the medium frequency band adjustment section 323 will be referred to as the set level. To explain in detail, the set level of the middle frequency band of the first song set by the middle frequency band adjustment section 323 of the first channel operation section 3A is referred to as the set level M1lv. The set level of the middle frequency band of the second song set by the middle frequency band adjustment unit 323 of the second channel operation unit 3B is referred to as the set level M2lv. The set level M1lv is the volume level set by the user as the maximum level of the intermediate frequency band of the first song using the intermediate frequency band adjustment section 323 of the first channel operation section 3A. The set level M2lv is the volume level set by the user as the maximum level of the intermediate frequency band of the second music piece using the intermediate frequency band adjustment section 323 of the second channel operation section 3B.
Further, the minimum volume level of the intermediate frequency band of the first song is set to the minimum level M1min, and the minimum volume level of the intermediate frequency band of the second song is set to the minimum level M2min. The minimum level M1min is a value smaller than the set level M1lv, and the minimum level M2min is a value smaller than the set level M2lv. In the following description, the minimum levels M1min and M2min are set to 0 for convenience.

The low frequency band adjustment section 324 adjusts the volume level of the low frequency band of the input music. The low frequency band is, for example, a frequency band of 284 Hz or less.
As shown in FIG. 2, the low frequency band adjustment section 324 adjusts the volume level in a range of 0 or more and 1 or less. The setting of the volume level by the low frequency band adjustment section 324 is similar to the setting of the volume level by the high frequency band adjustment section 322.
Hereinafter, the volume level set by the low frequency band adjustment section 324 will be referred to as the set level. More specifically, the set level of the low frequency band of the first music piece set by the low frequency band adjustment section 324 of the first channel operation section 3A is referred to as the set level L1lv. The set level of the low frequency band of the second music piece set by the low frequency band adjustment unit 324 of the second channel operation unit 3B is referred to as the set level L2lv. The set level L1lv is the volume level set by the user using the low frequency band adjustment section 324 of the first channel operation section 3A as the maximum level of the low frequency band of the first song. The set level L2lv is the volume level set by the user using the low frequency band adjustment section 324 of the second channel operation section 3B as the maximum level of the low frequency band of the second music piece.
Further, the minimum volume level of the low frequency band of the first music piece is set as the minimum level L1min, and the minimum volume level of the low frequency band of the second music piece is set as the minimum level L2min. The minimum level L1min is a value smaller than the set level L1lv, and the minimum level L2min is a value smaller than the set level L2lv. In the following description, the minimum levels L1min and L2min are assumed to be 0 for convenience.

The channel fader 33 shown in FIG. 1 is an operator that adjusts the volume output from the corresponding channel operation section 3. Specifically, the channel fader 33 of the first channel operation section 3A is a first channel fader 33A, and adjusts the volume output from the first channel operation section 3A. The channel fader 33 of the second channel operation section 3B is a second channel fader 33B, and adjusts the volume output from the second channel operation section 3B.
Each channel fader 33 has a fader operator 331 that can be slid up and down. When the fader operator 331 is operated upward, a volume adjustment section 65, which will be described later, increases the volume of the entire song output from the corresponding channel operation section 3. When the fader operator 331 is operated downward, the volume adjustment section 65 lowers the volume of the entire song output from the corresponding channel operation section 3.

In the following description, the fader operator 331 of the first channel fader 33A will be referred to as a first operator 33A1, and the fader operator 331 of the second channel fader 33B will be referred to as a second operator 33B1. The first operator 33A1 adjusts the volume of the entire first music piece loaded onto the first channel, and the second operator 33B1 adjusts the volume of the entire second music piece loaded onto the second channel.
Further, the maximum volume of the entire first music piece is the first set volume set by the first controller 33A1, and the maximum volume of the entire second music piece is the second set volume set by the second controller 33B1. It's the volume.
Note that changing the volume of the entire song according to the position of the fader operator 331 means that the signal in the high frequency band has an intensity that corresponds to the preset level of the high frequency band, and the signal has an intensity that corresponds to the preset level of the medium frequency band. By amplifying each of the medium frequency band signal and the low frequency band signal with an intensity corresponding to the preset level of the low frequency band with an amplification factor corresponding to the position of the fader operator 331, each frequency band is It means increasing or decreasing the volume.

The tempo slider 34 shown in FIG. 1 is an operator that adjusts the playback speed of a song by adjusting the BPM (Beats Per Minute) during playback of the song loaded into the corresponding channel. The original BPM of a song refers to the tempo of the original song, that is, the number of beats per minute of the original song, and the playback BPM refers to the tempo at the time of song playback, that is, the number of beats per minute of the original song. It represents the number of beats per minute.
The tempo slider 34 of the first channel operation section 3A is a first tempo slider 34A, and adjusts the BPM during playback of the first music loaded on the first channel. The tempo slider 34 of the second channel operation section 3B is a second tempo slider 34B, and adjusts the BPM when the second music piece loaded on the second channel is played.
In this embodiment, the BPM of the first song is the adjusted BPM when playing the first song when the BPM when playing the first song is adjusted by the first tempo slider 34A; If the BPM during playback of the first song is not adjusted by , it is the BPM of the original song of the first song. Similarly, in the present embodiment, when the BPM of the second song is adjusted by the second tempo slider 34B, the BPM of the second song is the adjusted BPM of the second song, and the BPM of the second song is the adjusted BPM of the second song. If the BPM during reproduction of the second song is not adjusted by 34B, it is the BPM of the original song of the second song.

[Mode selection switch configuration]
The mode changeover switch 4 shown in FIG. 1 is a switch for switching the operation mode of the acoustic control device 1. By pressing the mode changeover switch 4, the operation mode of the acoustic control device 1 is switched between normal mode and assist mode.

[Crossfader configuration]
The crossfader 5 shown in FIG. 1 has a fader operator 51 that can be moved left and right, and has a volume of a first song loaded on the first channel and a volume of a second song loaded on the second channel. This is an operator that adjusts the balance. As the fader operator 51 is moved to the left, the proportion of the volume of the first music piece in the volume output from the audio control device 1 increases. As the fader operator 51 is moved to the right, the proportion of the volume of the second music piece in the volume output from the audio control device 1 increases.
Specifically, when the fader operator 51 is placed at the left end, the volume of the first song is the maximum, and the volume of the second song is the minimum. When the fader operator 51 is placed at the right end, the volume of the first song is the minimum, and the volume of the second song is the maximum.
Hereinafter, among both ends of the operable range RC of the fader operator 51, one end will be referred to as a first end TC1, and the other end will be referred to as a second end TC2. In this embodiment, since the moving direction of the fader operator 51 is the left-right direction, the first end TC1 is the left end in the operable range RC, and the second end TC2 is the right end in the operable range RC. .

[Configuration of control unit]
FIG. 2 is a block diagram showing the configuration of the control section 6. As shown in FIG.
The control section 6 is constituted by a circuit board having at least one processor such as a CPU (Central Processing Unit), and reads and processes an audio control program stored in a computer-readable manner in a storage section (not shown). That is, the processor constituting the control section 6 is a computer, and the control section 6 controls the operation of the sound control device 1 based on a sound control program. Specifically, the control unit 6 not only plays back the songs loaded into each channel, but also adjusts the mix state of the first song and the second song based on operations on the crossfader 5 and channel faders 33A and 33B.
As shown in FIG. 2, the control unit 6 includes a first playback unit 61, a second playback unit 62, a position acquisition unit 63, a mode switching unit 64, a volume adjustment unit 65, a BPM setting unit 66, and an operation determination unit. 67, a playback control section 68, a position setting section 69, and a position selection section 70.

The first playback section 61 plays back the first song loaded onto the first channel. Specifically, when the operation mode of the sound control device 1 is the normal mode, the first reproduction unit 61 reproduces the first music piece at the BPM of the first music piece described above. When the operation mode of the acoustic control device 1 is the assist mode, the first playback section 61 plays back the first music at a BPM set by a BPM setting section 66, which will be described later.
The second playback section 62 plays back the second music loaded onto the second channel. Specifically, when the operation mode of the sound control device 1 is the normal mode, the second reproduction unit 62 reproduces the second music at the BPM of the second music described above. When the operation mode of the acoustic control device 1 is the assist mode, the second reproduction section 62 reproduces the second music at a BPM set by a BPM setting section 66, which will be described later.

The position acquisition unit 63 acquires the position of each operator. For example, the position acquisition unit 63 determines the position of the fader operator 331 in the operable range of each channel fader 33, the position of each tempo slider 34 in the operable range, and the position of the fader operator 51 in the operable range of the crossfader 5. Get location.
To be more specific, the position acquisition unit 63 sets the value to 0 when it is located at a first end TA1, which will be described later, in the operable range of the first operator 33A1, and set it to 1 when it is located at a second end TA2, which will be described later. A numerical value indicating the position of the first operator 33A1 in the case is acquired. Similarly, the position acquisition unit 63 sets 0 when the second controller 33B1 is located at a first end TB1 (described later) in the operable range, and 1 when the second controller 33B1 is located at a second end TB2 (described later). A numerical value indicating the position of the second operator 33B1 is acquired.
The position acquisition unit 63 also determines the position where the fader operator 51 is located at a first end TC1, which will be described later, as 0, and when it is located at a second end TC2, which will be described later, as 1. A numerical value indicating the relative position of the fader operator 51 with respect to the first end TC1 is acquired.

The mode switching unit 64 switches the operation mode of the acoustic control device 1 between a normal mode and an assist mode in response to an input operation on the mode changeover switch 4. Although details will be described later, the normal mode is a mode in which the audio control device 1 does not assist when mixing the first music and the second music. The assist mode is a mode in which the sound control device 1 assists in mixing the first music and the second music without causing any discomfort.

[Volume control function]
The volume adjustment unit 65 adjusts the volume of the first music piece to be output from the first channel and the volume of the first song to be output from the second channel based on the positions of the fader operator 51 and each operator 33A1, 33B1 acquired by the position acquisition unit 63. In addition to adjusting the volume of the second song played, the balance between the volume of the first song and the volume of the second song is adjusted. Specifically, the volume adjustment section 65 adjusts the balance between the volume of the first song and the volume of the second song according to the position of the fader operator 51. Further, the volume adjustment section 65 adjusts the volume of the first music according to the position of the first operator 33A1 of the first channel fader 33A, and adjusts the volume of the first music according to the position of the second operator 33B1 of the second channel fader 33B. 2 Adjust the volume of the songs.
The volume adjustment of each song when the fader operator 51 is operated and the volume adjustment of each song when the operators 33A1 and 33B1 are operated will be described in detail later.

[Function of BPM setting section]
The BPM setting unit 66 sets the BPM when playing the first music piece played by the first playback unit 61 and also sets the BPM when playing the second music piece played by the second playback unit 62.
Specifically, when the operation mode of the sound control device 1 is the normal mode, the BPM setting unit 66 sets the BPM when playing the first music piece according to the operation of the first tempo slider 34A, and also sets the BPM when the first music piece is played back. The BPM at the time of reproduction of the second music piece is set according to the operation of the second tempo slider 34B.
When the operation mode of the sound control device 1 is the assist mode, the BPM setting unit 66 sets the BPM for each of the first music piece and the second music piece during reproduction according to the position of the fader operator 51. Further, when the operation mode of the sound control device 1 is the assist mode, the BPM setting unit 66 sets the BPM during playback of the first music according to the position of the first operator 33A1, and The BPM at the time of reproduction of the second music is set according to the following.
As described above, the first playback unit 61 plays the first song at the playback BPM set by the BPM setting unit 66, and the second playback unit 62 plays the first song at the playback BPM set by the BPM setting unit 66. Play the second song.

[Processing when operating the crossfader]
FIG. 4 is a diagram showing changes in the volume of the entire first song and changes in the volume of the entire second song when the crossfader 5 is operated. In FIG. 4, a numerical value indicating the relative position of the fader operator 51 acquired by the position acquisition unit 63 is set on the horizontal axis of the graph.
The volume adjustment section 65 adjusts the balance between the volume of the entire first song and the volume of the entire second song based on the position of the fader operator 51 of the crossfader 5 within the operable range. Note that the volume of the entire first song refers to all the volumes of the first song, including the volume of the high frequency band, the volume of the medium frequency band, and the volume of the low frequency band. The maximum value of the volume of the entire first music piece is the first set volume V1st set by the first operator 33A1. The balance between the high frequency band, medium frequency band, and low frequency band in the first song corresponds to the ratio of the preset level H1lv for the high frequency band, the preset level M1lv for the medium frequency band, and the preset level L1lv for the low frequency band. are doing. The same applies to the volume of the entire second music piece, and the maximum value of the volume of the entire second music piece is the second set volume V2st set by the second operator 33B1. The balance between the high frequency band, medium frequency band, and low frequency band in the second song corresponds to the ratio of the set level H2lv of the high frequency band, the set level M2lv of the middle frequency band, and the set level L2lv of the low frequency band. are doing.
Note that the direction from the first end TC1 to the second end TC2 is the +DC direction, and the direction from the second end TC2 to the first end TC1 is the -DC direction.

When the fader operator 51 is arranged at the first end TC1, the volume adjustment section 65 sets the volume of the entire first song to the above-mentioned first set volume V1st, as shown in FIG. The overall volume is set to the second minimum volume V2min.
The volume adjustment section 65 decreases the volume of the entire first music piece and increases the volume of the entire second music piece as the fader operator 51 is operated in the +DC direction from the first end TC1. In other words, the volume adjustment section 65 increases the volume of the entire first song and decreases the volume of the entire second song as the fader operator 51 is operated from the second end TC2 in the −DC direction.
That is, as the fader operator 51 is operated in the +DC direction, the ratio of the second music piece to the volume output from the audio control device 1 increases. As the fader operator 51 is operated in the −DC direction, the ratio of the first music piece to the volume output from the audio control device 1 increases.

When the fader operator 51 is disposed at the second end TC2, the volume adjustment section 65 sets the volume of the entire first music piece to a first minimum volume V1min, and sets the volume of the entire second music piece to the second setting as described above. The volume is set to V2st.
In this way, the volume of the entire first music piece and the volume of the entire second music piece are adjusted according to the position of the fader operator 51 in the operable range RC. Then, by operating the fader operator 51 from the first end TC1 to the second end TC2, the output music is switched from the first music to the second music. By operating the fader operator 51 from the second end TC2 to the first end TC1, the output music is switched from the second music to the first music.

Here, the volume level of each frequency band of each song when the crossfader 5 is operated will be explained.
As mentioned above, the volume of the entire song is determined by a high frequency band signal with a strength corresponding to the preset level of the high frequency band, a medium frequency band signal with a strength corresponding to the preset level of the medium frequency band, and a low frequency band signal with a strength corresponding to the preset level of the medium frequency band. It is determined by amplifying a signal in a low frequency band whose intensity corresponds to the preset level of , with an amplification factor corresponding to the position of the fader operator 331 . In other words, if the position of the fader operator 331 is not changed, by changing the volume level of each frequency band with the set level as the upper limit, the overall volume of each song, and by extension the volume balance of each song, is adjusted. Ru.

FIG. 5 is a diagram showing changes in the volume level of each frequency band of the first song and changes in the volume level of each frequency band of the second song when the crossfader 5 is operated. To be more specific, the first row from the top of FIG. 5 shows the position of the fader operator 51, and the second row shows the volume level of each high frequency band of the first song and the second song. There is. The third row from the top of FIG. 5 shows the volume level of the medium frequency band of each song, and the fourth row shows the volume level of the low frequency band of each song. Note that on the horizontal axes of the graphs shown in the second, third, and fourth rows of FIG. 5, numerical values indicating the relative positions of the fader operators 51 described above are set. Note that although the set level H1lv and the set level H2lv are shown as the same value in FIG. 5, the set level H1lv and the set level H2lv do not necessarily have to be the same value. The same goes for the set levels M1lv and M2lv, and the same goes for the set levels L1lv and L2lv.
As shown in FIG. 5, the volume adjustment section 65 adjusts the overall volume of each song as shown in FIG. 4 by changing the volume level of each frequency band of each song according to the position of the fader operator 51. Adjust.

Specifically, as shown in the first and second rows in FIG. The volume level of the high frequency band of the second music piece is varied within the range of the minimum level H1min to above the preset level H1lv, and the volume level of the high frequency band of the second song is varied within the range of the minimum level H2min to below the preset level H2lv. That is, as the fader operator 51 is operated in the +DC direction from the first end TC1, the volume adjustment section 65 increases the volume level of the high frequency band of the first music piece from the minimum level H1min to the preset level H1lv as the upper limit. At the same time, the volume level of the high frequency band of the second music is lowered from the set level H2lv to the minimum level H2min as the lower limit.

Similarly, as shown in the third and fourth rows of FIG. The volume level of the low frequency band of the first song is varied within the range of the minimum level L1min or more and the preset level L1lv or less, and the volume level of the low frequency band of the first song is changed within the range of the minimum level L1min or more and the preset level L1lv or less. The volume level of the frequency band is changed in the range of the minimum level M2min or more and the preset level M2lv or less, and the volume level of the low frequency band of the second song is changed in the range of the minimum level L2min or more and the preset level L2lv or less. . That is, as the fader operator 51 is operated in the +DC direction from the first end TC1, the volume adjustment section 65 increases the volume level of the medium frequency band of the first song from the minimum level M1min to the preset level M1lv as the upper limit. At the same time, the volume level of the middle frequency band of the second song is lowered from the set level M2lv to the minimum level M2min as the lower limit. In addition, as the fader operator 51 is operated in the +DC direction from the first end TC1, the volume adjustment section 65 increases the volume level of the low frequency band of the first song from the minimum level L1min to the preset level L1lv as the upper limit. At the same time, the volume level of the low frequency band of the second music piece is lowered from the set level L2lv to the minimum level L2min as the lower limit.
In this way, the volume adjustment section 65 adjusts the volume level of each frequency band of each song between the minimum level and the preset level according to the position of the fader operator 51, thereby adjusting the volume of the first song. and the volume of the second song are adjusted, and the volume balance of each song is adjusted.

FIG. 6 is a diagram illustrating an example of a change in BPM during reproduction of the first music piece and the second music piece in the assist mode. Specifically, FIG. 6 shows the results of the first and second songs when the crossfader 5 is operated in assist mode when the BPM of the first song is 100 and the BPM of the second song is 120. It is a figure which shows the change of BPM at the time of each reproduction|regeneration. Note that on the horizontal axis of the graph shown in FIG. 6, a numerical value indicating the relative position of the fader operator 51 described above is set.
The BPM setting section 66 sets the BPM of each song during playback according to the position of the fader operator 51, as shown in FIG. 6, when the operation mode of the audio control device 1 is the assist mode. Hereinafter, the setting of BPM during playback by the BPM setting section 66 in the assist mode will be explained.

As the fader operator 51 is operated in the +DC direction from the first end TC1 to the second end TC2, the BPM setting section 66 changes the BPM of each song so that the BPM of the first song approaches the BPM of the second song. Set the BPM when playing.
Then, when the fader operator 51 is placed at the second end TC2, the BPM setting section 66 sets the BPM of the second song as the BPM during playback of each song. In the example of FIG. 6, the BPM during playback of each song is set to 120.
As the fader operator 51 is operated in the -DC direction from the second end TC2 to the first end TC1, the BPM setting section 66 changes the BPM of each song so that the BPM of the second song approaches the BPM of the first song. Set the BPM when playing music.
Then, when the fader operator 51 is placed at the first end TC1, the BPM setting section 66 sets the BPM of each song during playback to the BPM of the first song. In the example of FIG. 6, the playback BPM of each song is set to 100, which is the BPM of the first song.

When the fader operator 51 is placed in the middle position of the operable range RC, the BPM setting unit 66 sets the BPM of each song during playback to an intermediate value between the BPM of the first song and the BPM of the second song. do.
Although the rate of change in BPM during reproduction when the fader operator 51 is operated in the ±DC direction is constant in the example of FIG. 6, it may not be constant. For example, the rate of change may change as the fader operator 51 is operated in the ±DC direction.
In this way, depending on the operation of the fader operator 51, it is possible to easily align the BPM of each piece of music to be mixed during playback. Therefore, each song can be mixed naturally without any discomfort.

[Processing when operating the channel fader]
FIG. 7 is a diagram showing changes in the volume of the entire first song when the first channel fader 33A is operated, and changes in the volume of the entire second song when the second channel fader 33B is operated. In FIG. 7, numerical values indicating the relative positions of the respective operators 33A1 and 33B1 are set on the vertical axis of the left graph.
As shown in FIG. 7, the volume adjustment section 65 adjusts the volume of the entire first music piece based on the position of the first operator 33A1 of the first channel fader 33A, and adjusts the volume of the entire first music piece based on the position of the first operator 33A1 of the first channel fader 33A. Based on the position of 33B1, the volume of the entire second music piece is adjusted. That is, the volume adjustment unit 65 sets the first set volume V1st, which is the volume of the entire first music piece, between the first minimum volume V1min and the first maximum volume V1max based on the position of the first controller 33A1. do. The volume adjustment unit 65 sets a second set volume V2st, which is the volume of the entire second music piece, between the second minimum volume V2min and the second maximum volume V2max based on the position of the second operator 33B1. Note that the first maximum volume V1max is the maximum volume of the entire first song that can be output from the audio control device 1, and the second maximum volume V2max is the maximum volume of the entire second song that can be output from the audio control device 1. be.

Hereinafter, among both ends of the operable range RA of the first operator 33A1, one end will be referred to as a first end TA1, and the other end will be referred to as a second end TA2. The direction from the first end TA1 to the second end TA2 is the +DA direction, and the direction from the second end TA2 to the first end TA1 is the -DA direction. Furthermore, one end of the operable range RB of the second operator 33B1 is defined as a first end TB1, and the other end is defined as a second end TB2. The direction from the first end TB1 to the second end TB2 is the +DB direction, and the direction from the second end TB2 to the first end TB1 is the -DB direction.
In this embodiment, since the +DA direction and the +DB direction are along the upward direction, the first ends TA1 and TB1 are the lower ends of the operable ranges RA and RB, and the second ends TA2 and TB2 are the lower ends of the operable ranges RA and RB. This is the upper end of RA and RB.

Specifically, when the first operator 33A1 is placed at the first end TA1, the volume adjustment section 65 sets the first set volume V1st to the first minimum volume V1min, as shown in FIG. As a result, the volume of the entire first music piece becomes the first minimum volume V1min.

When the first operator 33A1 is operated, the volume adjustment section 65 changes the first set volume V1st. That is, when the first operator 33A1 is operated in the +DA direction, the volume adjustment unit 65 increases the first set volume V1st, and when the first operator 33A1 is operated in the -DA direction, the volume adjustment unit 65 increases the first set volume V1st. The completed volume V1st is decreased.
In the example of FIG. 7, the rate of change in the overall volume of the first song is constant, and the amount of movement of the first controller 33A1, the amount of change in the first set volume V1st, and the amount of change in the overall volume of the first song are is directly proportional. However, the present invention is not limited to this, and the rate of change of the first preset volume V1st and the rate of change of the volume of the entire first music piece may not be constant; for example, the first controller 33A1 may move in the +DA direction or -DA direction. It may change as it is operated.
When the first operator 33A1 is placed at the second end TA2, the volume adjustment section 65 sets the first set volume V1st to the first maximum volume V1max. As a result, the volume of the entire first music piece becomes the first maximum volume V1max.

On the other hand, when the second operator 33B1 is placed at the first end TB1, the volume adjustment section 65 sets the second set volume V2st to the second minimum volume V2min. As a result, the volume of the entire second music piece becomes the second minimum volume V2min.
The volume adjustment section 65 changes the second set volume V2st when the second operator 33B1 is operated. That is, when the second operator 33B1 is operated in the +DB direction, the volume adjustment section 65 increases the second set volume V2st according to the position of the second operator 33B1, thereby increasing the volume of the entire second music piece. Increase volume. Further, when the second operator 33B1 is operated in the -DB direction, the volume adjustment section 65 lowers the second set volume according to the position of the second operator 33B1, thereby controlling the entire second music piece. Decrease volume. At this time, although the rate of change of the second set volume V2st and the rate of change of the volume of the entire second music piece are constant in the example shown in FIG. 7, they do not need to be constant. For example, the rate of change of the second set volume V2st and the rate of change of the volume of the entire second music piece may each be different, and change as the second operator 33B1 is operated in the +DA direction or -DA direction. It's okay.
When the second operator 33B1 is placed at the second end TB2, the volume adjustment section 65 sets the second set volume V2st to the second maximum volume V2max. As a result, the volume of the entire second music piece becomes the second maximum volume V2max.
Therefore, for example, from a state where the first operator 33A1 is arranged at the second end TA2 and the second operator 33B1 is arranged at the first end TB1, the first operator 33A1 is operated in the -DA direction, and the first operator 33A1 is operated in the -DA direction. By operating the second operator 33B1 in the +DB direction, the music output from the audio control device 1 can be replaced from the first music to the second music.

FIG. 8 is a diagram illustrating an example of a change in BPM during playback of each of the first song and the second song in the assist mode. Specifically, FIG. 8 shows a state in which the first music piece is played when the first operator 33A1 is operated in assist mode when the BPM of the first music piece is 100 and the BPM of the second music piece is 120. It is a figure explaining the change of BPM, and the change of BPM at the time of reproduction|regeneration of the 2nd music when 2nd operator 33B1 is operated.
When the operation mode of the acoustic control device 1 is the assist mode, the BPM setting unit 66 sets the BPM during playback of the first music according to the position of the first operator 33A1, as shown in FIG. The BPM at the time of reproduction of the second music piece is set according to the position of the operator 33B1. To be more specific, the BPM setting unit 66 sets the BPM of the first music piece and the second music piece according to the division result obtained by dividing the numerical value indicating the position of the first operator 33A1 by the numerical value indicating the position of the second operator 33B1. Set the BPM for each playback.

Here, the storage unit (not shown) stores the graph shown in FIG. 8 in advance. That is, the storage unit stores BPM change information indicating the BPM corresponding to the numerical value of the division result. Specifically, the storage unit stores, as BPM change information, a function that approaches the BPM of the second song as the numerical value of the division result becomes smaller, and approaches the BPM of the first song as the numerical value of the division result increases. . Note that the function stored in the storage unit as BPM change information may be a linear function as shown in FIG. 8, or may be a high-order function such as a quadratic function.
The volume adjustment section 65 adjusts the volume of the entire first music piece based on the position of the first controller 33A1, and adjusts the volume of the entire second music piece based on the position of the second controller 33B1. ing. Therefore, instead of the BPM change information, the storage unit (not shown) stores BPM change information indicating the BPM corresponding to the numerical value of the division result obtained by dividing the volume of the entire first song by the volume of the entire second song. It's okay.

Based on such BPM change information, the BPM setting unit 66 acquires the BPM corresponding to the above-mentioned division result, and sets the acquired BPM as the BPM of each song.
Therefore, for example, if the first operator 33A1 is arranged at the first end TA1 and the second operator 33B1 is arranged at the second end TB2, the BPM setting section 66 Let the BPM at the time of each reproduction be the BPM of the second music piece. In the example of FIG. 8, the playback BPM of each song is set to 120, which is the BPM of the second song.
On the other hand, for example, if the first operator 33A1 is arranged at the second end TA2 and the second operator 33B1 is arranged at the first end TB1, the BPM setting section 66 controls the speed of the first music and the second music. Let the BPM of each playback be the BPM of the first music piece. In the example of FIG. 8, the playback BPM of each song is set to 100, which is the BPM of the first song.

Then, as the first operator 33A1 is operated in the +DA direction or as the second operator 33B1 is operated in the -DB direction, the BPM of each song approaches the BPM of the first song. Furthermore, as the first operator 33A1 is operated in the -DA direction or as the second operator 33B1 is operated in the +DB direction, the BPM of each song approaches the BPM of the second song.

[Configuration of operation determination unit]
The operation determination unit 67 shown in FIG. 3 functions when the operation mode of the acoustic control device 1 is the assist mode.
The operation determination unit 67 determines the operation of the fader operator 51. Specifically, the operation determination unit 67 determines whether the speed of the fader operator 51 when reaching the other end from one of the first end TC1 and the second end TC2 is equal to or higher than a predetermined value. Determine whether or not. In other words, the operation determination unit 67 determines that the fader operator 51 operated from one end of the first end TC1 and the second end TC2 to the other end within a predetermined period of time. It is determined whether or not the part has been reached.
The operation determination unit 67 determines operations on the first operator 33A1 and the second operator 33B1. Specifically, the operation determination unit 67 determines whether one of the first operator 33A1 located at the second end TA2 and the second operator 33B1 located at the first end TB1 is operated. During a predetermined period of time, the first operator 33A1 disposed at the second end TA2 reaches the first end TA1, and the second operator 33B1 disposed at the first end TB1 reaches the first end TA1. It is determined whether the second end TB2 has been reached.
Further, the operation determination unit 67 determines whether one of the first operator 33A1 located at the first end TA1 and the second operator 33B1 located at the second end TB2 is operated. During a predetermined period of time, the first operator 33A1 located at the first end TA1 reaches the second end TA2, and the second operator 33B1 located at the second end TB2 reaches the first end. It is determined whether or not part TB1 has been reached.

[Configuration of playback control unit]
The reproduction control unit 68 functions when the operation mode of the acoustic control device 1 is the assist mode. The playback control unit 68 controls the playback state of the first music piece by the first playback unit 61 and the playback state of the second music piece by the second playback unit 62 in accordance with the operation of the fader operator 51. Specifically, the playback control unit 68 controls the respective playback positions of the first music piece and the second music piece based on the determination result by the operation determination unit 67.

When the reproduction control unit 68 determines that the speed of the fader operator 51 when reaching the other end from one end of the first end TC1 and the second end TC2 is equal to or higher than a predetermined value. In this case, the following first regeneration control process is executed, and if the speed is determined to be less than a predetermined value, the following second regeneration control process is executed.
In other words, the playback control unit 68 controls the fader operator 51 operated from one end of the first end TC1 and the second end TC2 to the other end within a predetermined period of time. If it is determined that the other end has not been reached within a predetermined time, the following first playback control process is executed, and if it is determined that the other end has been reached within a predetermined time, the following second playback control process is executed. Execute control processing.
In any of the playback control processes, if the fader operator 51 is placed at the first end TC1 or the second end TC2, the playback control unit 68 controls the first music piece by the first playback unit 61. and the reproduction of the second music piece by the second reproduction section 62 are not controlled.

[First playback control process]
The first playback control process is a process performed when the fader operator 51 is slowly operated from one end of the first end TC1 and the second end TC2 to the other end. In the following description, a case will be described in which the fader operator 51 is operated from the first end TC1 to the second end TC2.
When the fader operator 51 is operated in the +DC direction from the first end TC1, the playback control unit 68 moves the playback position of the first song to a predetermined first playback position, and moves the playback position of the second song. to a predetermined third playback position. Note that if the second playback section 62 has stopped playing the second song, the playback control section 68 causes the second playback section 62 to start playing the second song. The first playback position corresponds to the first position in each song, and the third playback position corresponds to the second position in each song.

When the playback position of the first song moves to the first playback position, the playback control unit 68 loops between the first playback position and a predetermined second playback position that is a playback position after the first playback position. Let it play. Further, when the playback position of the second song moves to the third playback position, the playback control unit 68 controls the playback position between the third playback position and a predetermined fourth playback position that is a playback position after the third playback position. play in a loop. That is, the playback position of the second music piece moved when the fader operator 51 is operated from the first end TC1 in the +DC direction is the third playback position, which is the playback position before the fourth playback position. . Note that the fourth playback position corresponds to the planned mixing position in each song.
When the fader operator 51 reaches the second end TC2, the playback control section 68 cancels the loop playback of the first song by the first playback section 61, and causes the second playback section 62 to stop the loop playback of the second song. unlock.
This makes it possible to replace the first song with the second song and to play the second song at the fourth playback position.

[Specific example of first playback control process]
FIG. 9 is a diagram illustrating an example of the first reproduction control process by the reproduction control section 68. In addition, in FIG. 9, "Breakdown" is written as "Break".
Next, a specific example of the first reproduction control process will be described with reference to FIG. 9.
In the example of FIG. 9, the first song and the second song each include intro, breakdown 1, buildup 1, drop 1, breakdown 2, and buildup. It is a song in which the song components are connected in the order of Buildup 2, Drop 2, and Outro. In the example of FIG. 9, the start position of the outro is set as the first playback position (first position) of the first song, and the end position of the outro is set as the second playback position of the first song, that is, the end of the first song. The position of is set. In the example of FIG. 9, the position in the middle of build-up 1 is set as the third playback position (second position) of the second song, and the start position of drop 1 is set as the fourth playback position (planned mix position) of the second song. is set. Note that the third playback position of the second music piece is, for example, a position at least one bar before the fourth playback position of the second music piece.

For example, as shown in the first row from the top of FIG. The reproduction of the second music piece by the second reproduction unit 62 is not controlled. Therefore, the first music piece is played back by the first playback unit 61 at the BPM of the first music piece.
As shown in the second row from the top of FIG. 9, when the fader operator 51 is operated from the first end TC1 in the +DC direction, the playback control unit 68 changes the playback position PP1 of the first song to the outro start position. (first playback position), and also moves the playback position PP2 of the second music piece to a position in the middle of build-up 1 (third playback position). As described above, when the reproduction of the second music piece is stopped, the reproduction control unit 68 causes the second reproduction unit 62 to start playing the second music piece.

As shown in the third row from the top of FIG. 9, when the playback position PP1 of the first song moves to the start position of the outro of the first song, the playback control unit 68 controls the start position of the outro and the outro of the first song. The first playback unit 61 repeatedly plays back the music portion between the end position (second playback position) and the end position (second playback position). At the same time, when the playback position PP2 of the second song moves to a position in the middle of build-up 1, the playback control unit 68 moves between the middle position of build-up 1 and the start position of drop 1 of the second song (fourth playback position). The second reproducing unit 62 repeatedly reproduces the music portion between the two positions.

As shown in the fourth row from the top of FIG. 9, when the fader operator 51 is placed at the second end TC2, the playback control unit 68 cancels the repeat playback of the first song and the repeat playback of the second song. do. As a result, the playback of the first music piece by the first playback unit 61 ends when the playback of the outro of the first music piece ends, and the playback of the second music piece by the second playback unit 62 continues, and after a while. Drop 1 of the second song is played. As described above, when the fader operator 51 is placed at the second end TC2, the volume adjustment section 65 sets the volume of the entire first song to the first minimum volume V1min, and sets the volume of the entire second song to the first minimum volume V1min. The volume is set to the second set volume V2st. Furthermore, the BPM setting unit 66 sets the BPM of each song during playback to the BPM of the second song.

The case where the fader operator 51 is operated from the first end TC1 to the second end TC2 has been described above. The same applies when the fader operator 51 is operated from the second end TC2 to the first end TC1.
That is, when the fader operator 51 is operated from the second end TC2 in the -DC direction, the playback position PP2 is moved to the first playback position of the second song, and then the first playback position and the second song are moved. The song portion between the second playback position and the second playback position is repeatedly played, and after the playback position PP1 is moved to the third playback position of the first song, the third playback position and the fourth playback position of the first song are moved. The part of the song between is played repeatedly. Then, when the fader operator 51 is placed at the first end TC1, the playback control section 68 cancels the repeat playback of each song.
In this way, the playback position of the first music piece and the playback position of the second music piece are controlled in accordance with the operation from the first end TC1 and the second end TC2 of the fader operator 51. Accordingly, it is possible to mix the first music piece and the second music piece naturally.

[Play music when starting operation]
In the first playback control process described above, the playback control unit 68 changes the playback position of the first song to the first playback at the timing when the fader operator 51 disposed at the first end TC1 is moved in the +DC direction, for example. position (first position). However, if the playback position of the first music piece at the timing when the fader operator 51 disposed at the first end TC1 is moved in the +DC direction is not at a measure break, the playback control unit 68 controls the playback control unit 68 to move the playback position to the next measure break position. The playback position of the first music piece may be moved to the first playback position after the first music piece is played back.
Further, for example, at the timing when the fader operator 51 disposed at the first end TC1 was moved in the +DC direction, the playback position of the second music piece was moved to the third playback position (second position). However, if the playback position of the second music piece at the timing when the fader operator 51 disposed at the first end TC1 is moved in the +DC direction is not at a bar break, the playback control unit 68 controls the playback control unit 68 to control the playback position at the next bar break. The playback position of the second music piece may be moved to the third playback position after the second music piece is played back up to the third playback position.
Similarly, when the fader operator 51 located at the second end TC2 is moved in the -DC direction, if the playback position of the first song is not at a bar break, the first song is played back to the next bar break position, and then the first song is played back to the next bar break position. The playback position of one song may be moved to a third playback position. In this case, if the playback position of the second song is not at a bar break, the playback position of the second song may be moved to the first playback position after being played to the next bar break.

[Play music when reaching the end]
In the first playback control process described above, the playback control unit 68 controls the third playback position and the fourth playback position in the second music piece when the fader operator 51 operated in the +DC direction reaches the second end TC2. The repeat playback of the part of the song between is canceled. That is, although repeat playback is canceled for the second music piece, playback continues from the playback position at the time when the fader operator 51 reaches the second end TC2. However, the reproduction control unit 68 may implement one of the following first pattern and second pattern.

In the first pattern, the playback position PP2 of the second music piece is moved to the fourth playback position at the timing when the fader operator 51 reaches the second end TC2. In the example of FIG. 9, drop 1 of the second song is played at the timing when the volume of the first song reaches the minimum value, so it is possible to naturally replace the first song with the second song.
In the second pattern, if the playback position PP2 of the second music piece at the timing when the fader operator 51 reaches the second end TC2 has not reached the bar break, the playback position PP2 at the timing when the next bar break is reached. Then, the playback position PP2 is moved to the fourth playback position. In the example of FIG. 9, the playback position PP2 of the second song is moved to drop 1 at the timing when the next bar break is reached, so each song can be mixed naturally without any sudden changes in composition.

[Second playback control process]
The second playback control process is a process performed when the fader operator 51 is momentarily operated from one end of the first end TC1 and the second end TC2 to the other end. Specifically, in the second playback control process, when the fader operator 51 is momentarily operated from the first end TC1 to the second end TC2, the second playback control process changes the playback position of the second song to the fourth end of the second song. When the player moves to the playback position and momentarily operates from the second end TC2 to the first end TC1, the playback position of the first music piece is moved to the fourth playback position of the first music piece. In this case, the first minimum volume V1min is set as the volume of the entire first music piece by the volume adjustment unit 65, so the first music piece is not output.
In the case where the second music piece shown in FIG. 9 is played back by the second playback unit 62 and the second playback control process is executed by the playback control unit 68, the playback position of the first music piece is not changed; The playback position of the second song is moved to the start position of drop 1. Note that if the second playback section 62 has stopped playing the second song, the playback control section 68 causes the second playback section 62 to start playing the second song. Note that when the fader operator 51 reaches the second end TC2 by the above-mentioned volume adjustment section 65, the overall volume of the first music piece becomes the minimum value, and the overall volume of the second music piece becomes the maximum value. Furthermore, the BPM setting unit 66 sets the BPM of each song during playback to the BPM of the second song.
With such second playback control processing, when instantly switching from the first song to the second song, for example, the chorus of the second song can be instantly played back.

[Processing of the playback control section when the channel fader is operated]
The playback control unit 68 controls the playback control unit 68 to perform the first operation after one of the first operator 33A1 disposed at the second end TA2 and the second operator 33B1 disposed at the first end TB1 is operated. If it is determined that the time required for the operator 33A1 to reach the first end TA1 and for the second operator 33B1 to reach the second end TB2 is longer than the predetermined time, the following third reproduction is performed. The control process is executed, and if it is determined that the time is less than the predetermined time, the following fourth reproduction control process is executed.
That is, the playback control unit 68 performs a predetermined operation after one of the first operator 33A1 located at the second end TA2 and the second operator 33B1 located at the first end TB1 is operated. If the first operator 33A1 reaches the first end TA1 and the second operator 33B1 reaches the second end TB2 during the time period, the following fourth regeneration control process is executed. , if the first operator 33A1 does not reach the first end TA1 within a predetermined time, or if the second operator 33B1 does not reach the second end TB2, the following third regeneration control process is performed. Execute.

[Specific example of third playback control process]
FIG. 10 is a diagram illustrating an example of the third reproduction control process by the reproduction control section 68. Note that in FIG. 10, "Breakdown" is written as "Break".
A specific example of the third reproduction control process will be described below with reference to FIG. 10.
In the example of FIG. 10, each of the first song and the second song is the same song as the example of FIG. In addition, in the example of FIG. 10, the first playback position (first position) of the first song, the second playback position (second position) of the first song, the third playback position (second position) of the second song, and the second playback position (second position) of the second song. The 4 playback position (scheduled mix position) is also the same as the example in FIG.

For example, as shown in the first row from the top of FIG. 10, when the first operator 33A1 is arranged at the second end TA2 and the second operator 33B1 is arranged at the first end TB1, 68 does not control the reproduction of the first music piece by the first reproduction unit 61 and the reproduction of the second music piece by the second reproduction unit 62. In other words, if each of the operators 33A1 and 33B1 is placed at a position where the volume of the first music piece becomes the maximum value and the volume of the second music piece becomes the minimum value, the playback control section 68 controls the first playback section. The playback of the first music piece by 61 and the playback of the second music piece by the second playback unit 62 are not controlled.

As shown in the second row from the top of FIG. 10, the first operator 33A1 is operated from the second end TA2 in the -DA direction, and the second operator 33B1 is operated from the first end TB1 in the +DB direction. When at least one of the operations is performed, the playback control unit 68 moves the playback position PP1 of the first song to the outro start position (first playback position) and builds the playback position PP2 of the second song. Move to a position in the middle of Up 1 (third playback position). At this time, if the reproduction of the second music piece is stopped, the reproduction control unit 68 causes the second reproduction unit 62 to start playing the second music piece.

As shown in the third row from the top of FIG. 10, when the playback position PP1 of the first music piece moves to the outro start position of the first music piece, the playback control unit 68 controls the outro start position of the first music piece and the outro start position of the first music piece. The first playback unit 61 repeatedly plays back the music portion between the end position (second playback position) and the end position (second playback position). At the same time, when the playback position PP2 of the second song moves to a position in the middle of build-up 1, the playback control unit 68 moves the playback position PP2 to the middle position of build-up 1 of the second song (third playback position) and the start of drop 1. The second reproduction section 62 repeatedly reproduces the music portion between the position (fourth reproduction position).

As shown in the fourth row from the top of FIG. 10, the first operator 33A1 operated in the -DA direction reaches the first end TA1, and the second operator 33B1 operated in the +DB direction reaches the first end TA1. When reaching the second end TB2, the playback control unit 68 cancels the repeat playback of the first music piece and the repeat playback of the second music piece. As a result, the playback of the first music piece by the first playback unit 61 ends when the playback of the outro of the first music piece ends, and the playback of the second music piece by the second playback unit 62 continues, and after a while. Drop 1 (at the planned mix position) of the second song is played. When each of the operators 33A1 and 33B1 is operated in this manner, the volume adjustment section 65 sets the overall volume of the first song to the minimum value, and sets the overall volume of the second song to the maximum value. Further, the BPM setting unit 66 sets the BPM of each song at the time of reproduction to the BPM of the second song.

The case where the first operator 33A1 is operated from the second end TA2 to the first end TA1 and the second operator 33B1 is operated from the first end TB1 to the second end TB2 has been described above. The same applies when the first operator 33A1 is operated from the first end TA1 to the second end TA2, and the second operator 33B1 is operated from the second end TB2 to the first end TB1.
That is, when at least one of the operation of the first operator 33A1 from the first end TA1 in the +DA direction and the operation of the second operator 33B1 from the second end TB2 in the -DB direction are performed. , after the playback position PP2 of the second song is moved to the first playback position of the second song, the song portion between the first playback position and the second playback position of the second song is repeatedly played. Along with this, after the playback position PP1 of the first song is moved to the third playback position of the first song, the song portion between the third playback position and the fourth playback position of the first song is repeatedly played. . Then, when the first operator 33A1 reaches the second end TA2 and the second operator 33B1 reaches the first end TB1, the playback control unit 68 cancels the repeat playback of each song.

In this way, the playback position of the first music piece and the playback position of the second music piece are controlled in accordance with the operations of the respective operators 33A1 and 33B1, so that the first music piece and the second music piece are naturally mixed. can.
Note that the movement pattern of the playback position of each song is the same as the movement pattern of the playback position when the fader operator 51 is operated. That is, for example, if the playback position of the music at the timing when at least one of the first operator 33A1 and the second operator 33B1 is operated from the end of the operable range is not at a measure break, the position of the next measure break The playback position of the song may be moved to the first playback position after the music is played back up to the first playback position.
Also, for example, the playback position of the first song and the second song at the timing at which the volume of one song becomes the minimum value and the volume of the other song becomes the maximum value is not at the bar break. In this case, the playback position of the other song may be moved to the fourth playback position (scheduled mix position) after the music is played back to the next bar break position.

[Specific example of fourth playback control process]
In the fourth playback control process, the first operator 33A1 is instantaneously operated from the first end TA1 to the second end TA2, and the second operator 33B1 is moved from the second end TB2 to the first end TB1. or when the first operator 33A1 is instantaneously operated from the second end TA2 to the first end TA1, and the second operator 33B1 moves from the first end TB1 to the first end TA1. This process is performed when the second end TB2 is momentarily operated.

Almost simultaneously when the first operator 33A1 is instantaneously operated from the first end TA1 to the second end TA2, the second operator 33B1 is instantaneously operated from the second end TB2 to the first end TB1. If so, the playback control unit 68 moves the playback position of the first song to the fourth playback position (scheduled mix position) of the first song as a fourth playback control process. At this time, the volume adjustment section 65 sets the volume of the first song to the maximum value and the volume of the second song to the minimum value, and the BPM setting section 66 sets the BPM of each song when playing back to the BPM of the first song. becomes.
On the other hand, when the first operator 33A1 is instantaneously operated from the second end TA2 to the first end TA1, the second operator 33B1 is instantaneously operated from the first end TB1 to the second end TB2. When the operation is performed, the playback control unit 68 moves the playback position of the second song to the fourth playback position (scheduled mix position) of the second song as a fourth playback control process. At this time, the volume adjustment section 65 sets the volume of the first song to the minimum value and the volume of the second song to the maximum value, and the BPM setting section 66 sets the BPM of each song when playing back to the BPM of the second song. becomes.
With such fourth playback control processing, when the first music piece is instantly replaced with the second music piece, for example, the chorus of the replaced music piece can be instantly played back.

[Configuration of position setting section and position selection section]
The position setting unit 69 shown in FIG. 3 sets points that can be set at the first playback position, the second playback position, the third playback position, and the fourth playback position for each song according to the user's operation. An example of such a point is a cue. Further, for example, the point may be the start position of each component included in the song. Note that, as described above, the constituent elements are constituent elements such as an intro, a drop, and an outro.
The position selection unit 70 functions when the operation mode of the acoustic control device is the assist mode. The position selection unit 70 selects a first playback position, a second playback position, a third playback position, and a fourth playback position of each song from the points set by the position setting unit 69 according to the user's operation. Each playback position selected by the position selection unit 70 is used in the first to fourth playback control processes by the playback control unit 68 described above.
The position setting section 69 and the position selection section 70 allow the user to set and select each playback position at an arbitrary position.

[Effects of the first embodiment]
The sound control device 1 according to the present embodiment described above has the following effects.
The sound control device 1 mixes the first music and the second music. The audio control device 1 includes a playback control section 68.
The playback control unit 68 changes the playback position of the first music piece to the first playback position in accordance with the operation of the fader operator 51 that adjusts the volume of the first music piece and the volume of the second music piece, or each of the operators 33A1 and 33B1. At the same time, the playback position of the second music piece is moved to a third playback position before the fourth playback position in the second music piece.
That is, the crossfader 5 having the fader operator 51 corresponds to an operator that adjusts the volume of the first song and the volume of the second song. Further, the first channel fader 33A having the first operator 33A1 and the second channel fader 33B having the second operator 33B1 correspond to operators for adjusting the volume of the first music and the volume of the second music. . The first playback position corresponds to the first position in the first song. The third playback position corresponds to a second position before the planned mixing position, and the fourth playback position corresponds to a predetermined mixing position with the first song.

According to such a configuration, when the fader operator 51 or the operators 33A1 and 33B1 are operated so that the overall volume of the first song decreases and the overall volume of the second song increases, for example, the volume of each song increases. The playback position is moved as described above. Thereby, it is possible to replace the outputted music piece from the first piece of music with the second piece of music, and to quickly reproduce the planned mixing position of the second piece of music. Therefore, the mixing from the first song to the second song can be performed smoothly without any discomfort, and the second song can be quickly played from a preferred playback position as a position where the second song is replaced with the first song. .

The playback control unit 68 controls the playback control unit 68 to change the playback position from the first playback position in the first song until the fader operator 51 is operated in the +DC direction from the first end TC1 and reaches the second end TC2. The range from the third playback position to the fourth playback position in the second music piece is played back in a loop. Further, the playback control unit 68 controls the first operator 33A1 to be operated from the second end TA2 in the -DA direction and reach the first end TA1, and the second operator 33B1 to be moved from the first end TB1 to the first end TA1. Until the operation is performed in the +DB direction and the second end TB2 is reached, the range from the first playback position to the second playback position in the first music piece is played in a loop, and the range from the third playback position to the fourth playback position in the second music piece is played in a loop. Plays the range up to the playback position in a loop.
That is, until the fader operator 51 is operated and the volume of the entire first song reaches the first minimum volume V1min and the volume of the entire second song reaches the second set volume V2st, or for each operation. Until the child 33A1, 33B1 is operated and the volume of the entire first song reaches the first minimum volume V1min and the volume of the entire second song reaches the second set volume V2st, the playback control unit 68: The range from the first playback position to the second playback position in the first music piece is loop-played, and the range from the third playback position to the fourth playback position in the second music piece is loop-played.
Note that the second playback position corresponds to the third position. The fact that the volume of the entire first song reaches the first minimum volume V1min is synonymous with the volume of the entire first song becoming the minimum. The second set volume V2st is the maximum volume of the entire second music piece set by the second operator 33B1.

According to such a configuration, for example, when operating the fader operator 51 or the operators 33A1, 33B1 to switch from the first song to the second song, the volume of the entire first song becomes the first minimum volume V1min, and the volume of the entire first song becomes the first minimum volume V1min. Each song can be played in a loop until the volume of the entire two songs reaches the second set volume V2st. That is, each song can be played in a loop until the replacement from the first song to the second song is completed. Thereby, regardless of the moving speed of the fader operator 51 and the moving speed of each operator 33A1, 33B1, it is possible to smoothly switch from the first music to the second music.

The second playback position as the third position is, for example, the end position of each song. That is, the second playback position of the first music piece is, for example, the end position of the first music piece.
According to such a configuration, for example, when replacing the first song with the second song, the position from the first playback position of the first song to the end position of the first song is changed until the first song is replaced with the second song. The period up to this point will be played in a loop. According to this, even if it takes a long time to switch from the first song to the second song, the first song can be smoothly switched to the second song.

The playback control unit 68 moves the fader operator 51 to the second end TC2, and at the timing when the fader operator 51 is operated to set the volume of the entire first song to the first minimum volume V1min. , cancels the loop playback of the second song. Furthermore, the playback control unit 68 cancels the loop playback of the second music at the timing when the first operator 33A1 is moved to the first end TA1 and the second operator 33B1 is moved to the second end TB2. do.
According to such a configuration, the loop playback of the second song is canceled at the timing when the first song is replaced by the second song, so that the second song that has been replaced from the first song can be smoothly played and output. .

The playback control unit 68 moves the fader operator 51 to the second end TC2, and at the timing when the fader operator 51 is operated to set the volume of the entire first song to the first minimum volume V1min. , moves the playback position of the second music piece to the fourth playback position (scheduled mix position). Furthermore, the playback control unit 68 changes the playback position of the second music piece to the second position at the timing when the first operator 33A1 is moved to the first end TA1 and the second operator 33B1 is moved to the second end TB2. 4 Move to the playback position (planned mix position).
According to such a configuration, the second song can be played from the planned mix position at the timing when the first song is replaced by the second song. Therefore, the first music piece can be smoothly replaced with the second music piece without any discomfort.

The playback control unit 68 moves the fader operator 51 to the second end TC2 and controls the fader operator 51 at the timing at which the volume of the entire first song is set to the first minimum volume V1min. If the playback position of the second music piece is not a bar break position, the playback position of the second music piece is moved to the fourth playback position (scheduled mix position) after being played to the next bar break position. The playback control unit 68 also controls the playback position of the second music piece at the timing when the first operator 33A1 is moved to the first end TA1 and the second operator 33B1 is moved to the second end TB2. If not, the second music piece is played back to the next bar break position, and then the playback position of the second music piece is moved to the fourth playback position.
According to such a configuration, when the first music piece is slowly replaced with the second music piece, it is possible to prevent the playback position of the second music piece from being suddenly moved and causing a sense of discomfort in the rhythm. Therefore, the first music piece can be smoothly replaced with the second music piece without any discomfort.

The playback control unit 68 performs an operation to increase the volume of the entire second music piece from a state where the volume of the entire first music piece is a first set volume V1st and the volume of the entire second music piece is a second minimum volume V2min. When executed on the operator 51, the playback position of the first music piece and the playback position of the second music piece are moved. Specifically, the playback control unit 68 moves the playback position of the first music piece and the playback position of the second music piece when an operation to move the fader operator 51 from the first end TC1 in the +DC direction is performed. . Furthermore, the playback control unit 68 moves the first operator 33A1 in the -DA direction from a state in which the first operator 33A1 is disposed at the second end TA2 and the second operator 33B1 is disposed at the first end TB1. or when the second operator 33B1 is operated in the +DB direction, the playback position of the first music piece and the playback position of the second music piece are moved.
Note that the first set volume V1st is the maximum volume of the entire first music piece set by the first operator 33A1.
According to such a configuration, the playback control unit 68 uses an operation on the fader operator 51 or the operators 33A1 and 33B1 when switching from the first song to the second song as a trigger, and changes the playback position of the first song and the second song. You can move the playback position of the song.

The playback control unit 68 determines the timing at which the operation for increasing the volume of the entire second music piece is performed on the controller from the position of the operator when the volume of the entire second music piece reaches the second minimum volume V2min. When the playback position of the first music piece is not at a bar break, the playback position of the first music piece is moved to the first position after being played to the next bar break position. Specifically, if the playback position of the first music piece at the timing when the operation of moving the fader operator 51 from the first end TC1 in the +DC direction is not at a bar break, the playback control unit 68 controls the playback position at the next bar. After the first music piece is played back to the delimiter position, the playback position of the first music piece is moved to the first position. Furthermore, the first operation element 33A1 may be moved from the second end TA2 in the -DA direction, or the second operation element 33B1 may be moved from the first end TB1 in the +DB direction. If the playback position of one piece of music is not at a bar break, the playback control unit 68 moves the playback position of the first piece of music to the first position after playing to the next bar break position.
According to such a configuration, when moving the playback position of the first music piece, it is possible to suppress that the playback position of the first music piece is suddenly moved and the rhythm of the first music piece is shifted. Therefore, the first music piece can be smoothly replaced with the second music piece without any discomfort.

The first playback position of the first music piece is the first position of the first music piece. The first playback position of the first music piece is, for example, the start position of the outro in the first music piece.
According to such a configuration, when replacing the first song with the second song, the playback position of the first song is moved to the outro start position in response to the operation of the fader operator 51 or the operators 33A1 and 33B1. Ru. Therefore, the playback position of the first music piece can be quickly moved to the final stage position of the first music piece. Therefore, the first music piece can be smoothly replaced with the second music piece.

The fourth playback position of the second song is the planned mixing position of the second song. The fourth playback position of the second song is, for example, the start position of one of the drop and chorus in the second song.
According to such a configuration, when the first music piece is replaced with the second music piece, a characteristic drop or chorus in the second music piece can be quickly reproduced. Therefore, for example, the music played in the hall can be replaced from the first music to the second music without degrading the mood in the hall where the acoustic control device 1 is installed.

The third playback position of the second song is the second position of the second song. The third playback position of the second music piece is, for example, a position at least one bar before the fourth playback position, which is the planned mix position, in the second music piece.
According to such a configuration, depending on the speed of operation on the fader operator 51 or the operators 33A1 and 33B1, the playback position of the second song is scheduled to be mixed immediately after the first song is completely replaced with the second song. It is possible that the position has been exceeded. In this case, there is a possibility that the mood in the venue where the acoustic control device is installed will deteriorate.
On the other hand, since the second position is at least one bar before the planned mix position, the playback position of the second song will change to the planned mix position immediately after the first song is completely replaced by the second song. You can prevent things from going too far. Therefore, the first music piece can be smoothly replaced with the second music piece.

The sound control device 1 includes a BPM setting section 66. The BPM setting unit 66 lowers the volume of the entire first music piece from a state where the volume of the entire first music piece is a first set volume V1st and the volume of the entire second music piece is a second minimum volume V2min. When an operation to increase the volume of the entire two songs is performed on the operator, the BPM when playing the first song and the BPM when playing the second song change from the BPM of the first song to the BPM of the second song. Bring it closer. Specifically, when the fader operator 51 is operated in the +DC direction from the first end TC1, the BPM setting unit 66 changes the BPM when playing the first song and the BPM when playing the second song into the first song. The BPM of the song is brought closer to the BPM of the second song. The BPM setting unit 66 also operates at least one of the operation of the first operator 33A1 from the second end TA2 in the -DA direction and the operation of the second operator 33B1 from the first end TB1 in the +DB direction. When the above operation is performed, the BPM when playing the first song and the BPM when playing the second song are brought closer to the BPM of the second song from the BPM of the first song.
According to such a configuration, as the ratio of the second music piece to the volume output from the sound control device 1 becomes larger than the ratio of the first music piece, the BPM during playback of each song becomes smaller than the BPM of the first music piece. The BPM will be close to that of the second song. Therefore, the BPM of each song can be matched according to the volume balance between the first song and the second song. In other words, since each song is played at a BPM that is close to the BPM of the song that accounts for a larger proportion of the output volume, it is possible to reduce the sense of discomfort when mixing the first and second songs that have different BPMs. . Therefore, the first music piece can be replaced with the second music piece without any discomfort.

As described above, the operator for moving the playback position of each song is the crossfader 5, which has the fader operator 51 that adjusts the balance between the volume of the first song and the volume of the second song. In other words, the playback control unit 68 moves the playback position of each song in response to an operation on the crossfader 5 having the fader operator 51 that adjusts the balance between the volume of the first song and the volume of the second song.
According to such a configuration, by operating the fader operator 51, the first music and the second music can be mixed without any discomfort. Therefore, compared to operating the first operator 33A1 that adjusts the volume of the first song and the second operator 33B1 that adjusts the volume of the second song, the operation of mixing the first song and the second song is more efficient. can be easily implemented.

The sound control program executed by the arithmetic processing unit, which is a computer constituting the control unit 6, is recorded in a computer-readable manner, and causes the computer to function as the sound control device 1 described above.
By executing such a sound control program by the arithmetic processing unit of the sound control device 1, the above-described effects can be achieved.

[Second embodiment]
Next, a second embodiment of the present invention will be described.
The sound control device according to the present embodiment has the same configuration as the sound control device 1 according to the first embodiment, but the operation of the volume adjustment section and the operation of the BPM setting section are different when the operation mode is the assist mode. . In the following description, parts that are the same or substantially the same as parts that have already been described are given the same reference numerals, and the description thereof will be omitted.

FIG. 11 is a block diagram showing the configuration of a control section 6A included in the acoustic control device according to this embodiment.
The sound control device according to the present embodiment has the same configuration and structure as the sound control device 1 according to the first embodiment, except that it includes a control section 6A shown in FIG. 11 instead of the control section 6 according to the first embodiment. Equipped with functions.
Like the control unit 6, the control unit 6A controls the audio control device according to the present embodiment, and includes a CPU (Central Processing Unit), etc. that reads and executes an audio control program stored in a storage unit (not shown). The computer is configured to include at least one processor. That is, the processor is a computer.
The control section 6A has the same configuration as the control section 6 except that it includes a volume adjustment section 65A instead of the volume adjustment section 65 according to the first embodiment. That is, the control section 6A includes a first playback section 61, a second playback section 62, a position acquisition section 63, a mode switching section 64, a volume adjustment section 65A, a BPM setting section 66, an operation determination section 67, a playback control section 68, and a position acquisition section 63. It includes a setting section 69 and a position selection section 70.

[Configuration of volume control section]
When the operation mode of the sound control device is the normal mode, the volume adjustment section 65A functions similarly to the volume adjustment section 65 according to the first embodiment.
When the operation mode of the sound control device is the assist mode, unlike the volume adjustment unit 65 according to the first embodiment, the volume adjustment unit 65A adjusts the volume of each of the high frequency band and the medium frequency band of the first music, and the volume of the first music. The volume of the low frequency band of one song is individually adjusted, and the volume of each of the high frequency band and medium frequency band of the second song, and the volume of the low frequency band of the second song are individually adjusted. To be more specific, the volume adjustment section 65A adjusts the volume level of the high frequency band and medium frequency band of the first song, and the volume level of the low frequency band of the first song, thereby adjusting the volume level of the first song. Adjust the volume of each frequency band individually. The volume adjustment unit 65A adjusts the volume level of each frequency band of the second music by individually adjusting the volume level of each of the high frequency band and medium frequency band of the second music and the volume level of the low frequency band of the second music. Adjust the volume individually.

[Volume adjustment when operating the crossfader in assist mode]
FIG. 12 is a diagram showing changes in the volume level of each frequency band of the first song and changes in the volume level of each frequency band of the second song when the crossfader 5 is operated in the assist mode. On the horizontal axis of the graph shown in FIG. 12, a numerical value indicating the relative position of the fader operator 51 described above is set. Further, in FIG. 12, the set level H1lv and the set level H2lv are shown as the same value, but the set level H1lv and the set level H2lv do not necessarily have to be the same value. The same goes for the set levels M1lv and M2lv, and the same goes for the set levels L1lv and L2lv.
In the assist mode, the operable range RC of the fader operator 51 includes a first range RC1, a second range RC2, and a third range RC3, as shown in FIG.
The first range RC1 is a range between the first position PC1 and the second position PC2. The second position PC2 is set in the +DC direction with respect to the first position PC1.
The second range RC2 is a range between the second position PC2 and the third position PC3. The third position PC3 is set in the +DC direction with respect to the second position PC2.
The third range RC3 is a range between the third position PC3 and the fourth position PC4. The fourth position PC4 is set in the +DC direction with respect to the third position PC3.
In this embodiment, the first position PC1 is set at the first end TC1, and the fourth position PC4 is set at the second end TC2. The first range RC1 is 1/3 of the operable range RC from the first end TC1, and the second range RC2 is 1/3 of the operable range RC from the second position PC2. The third range RC3 is 1/3 of the operable range RC from the third position PC3.

When the operation mode is the assist mode and the fader operator 51 is arranged at the first end TC1, the volume adjustment section 65A adjusts the volume level of each wavelength band of the first music, as shown in FIG. Let the set levels of each frequency band of the first song be H1lv, M1lv, L1lv, and the volume level of each wavelength band of the second song be the minimum level of each frequency band of the second song H2min, M2min, L2min. As a result, the volume of the entire first song becomes the first set volume V1st, and the volume of the entire second song becomes the second minimum volume V2min.

When the operation mode is the assist mode and the fader operator 51 is arranged in the first range RC1, the volume adjustment section 65A sets the volume level of each wavelength band of the first music to the set level H1lv, M1lv, L1lv, and while keeping the volume level of the low frequency band of the second song at the minimum level L2min, as the fader operator 51 is operated in the +DC direction, the volume level of each of the high frequency band and medium frequency band of the second song is adjusted. increase. That is, the volume level that changes in the first range RC1 is the volume level of the high frequency band and the volume level of the medium frequency band of the second music piece.
In the first range RC1, the volume level of the high frequency band of the second song is changed in the range from the minimum level H2min of the high frequency band of the second song to the preset level H2lv.
In the first range RC1, the volume level of the intermediate frequency band of the second song is changed in the range from the minimum level M2min of the intermediate frequency band of the second song to the preset level M2lv.

When the fader operator 51 is arranged at the second position PC2, the volume adjustment section 65A sets the volume level of each frequency band of the first music to the preset levels H1lv, M1lv, L1lv, and sets the volume level of each frequency band of the first music to the low frequency band of the second music. While keeping the volume level of the second song at the minimum level L2min, the volume level of the high frequency band of the second song is set to the set level H2lv, and the volume level of the middle frequency band of the second song is set to the set level M2lv.

When the operation mode is the assist mode and the fader operator 51 is arranged in the second range RC2, the volume adjustment section 65A sets the volume level of the high frequency band of the first music to the preset level H1lv, The volume level of the middle frequency band of the song is set to the set level M1lv, the volume level of the high frequency band of the second song is set to the set level H2lv, and the volume level of the middle frequency band of the second song is set to the set level M2lv, As the fader operator 51 is operated in the +DC direction, the volume level of the low frequency band of the first song is decreased from the set level L1lv, and the volume level of the low frequency band of the second song is increased from the minimum level L2min. . That is, the volume level that changes in the second range RC2 is the volume level of the low frequency band of the first song and the volume level of the low frequency band of the second song.
In the second range RC2, the volume level of the low frequency band of the first song is changed in the range from the minimum level L1min of the low frequency band of the first song to the preset level L1lv.
In the second range RC2, the volume level of the low frequency band of the second song is changed in the range from the minimum level L2min of the low frequency band of the second song to the preset level L2lv.

The set level L1lv of the low frequency band of the first music and the set level L2lv of the low frequency band of the second music are the same, and the minimum level L1min of the low frequency band of the first music and the low frequency of the second music When the minimum band level L2min is the same, when the fader operator 51 is placed at the center position of the second range RC2, the volume adjustment section 65A adjusts the volume level of the low frequency band of the first song and the second song. Match the volume level of the low frequency band.
Therefore, depending on whether the fader operator 51 is operated in the +DC direction or -DC direction with respect to the center position of the second range RC2, the volume level of the low frequency band of the first song and the The magnitude relationships between the volume levels of the low frequency bands of the two songs are swapped, and in turn, the magnitude relationships between the volume levels of the low frequency bands of each song are swapped. That is, when the fader operator 51 is operated in the +DC direction with respect to the center position of the second range RC2, the volume of the low frequency band of the second song becomes larger than the volume of the low frequency band of the first song. On the other hand, when the fader operator 51 is operated in the -DC direction with respect to the center position of the second range RC2, the volume of the low frequency band of the first song becomes larger than the volume of the low frequency band of the second song. .
Note that the center position in the second range RC2 coincides with the center position in the operable range RC.

In the present embodiment, the volume level change rate of the low frequency band of the first song and the volume level change rate of the low frequency band of the second song in the second range RC2 are constant. Therefore, when the fader operator 51 is operated from the second position PC2 in the +DC direction, the volume level of the low frequency band of the first song decreases at a constant rate, and the volume level of the low frequency band of the second song decreases at a constant rate. Levels increase at a constant rate. Furthermore, when the fader operator 51 is operated from the third position PC3 in the -DC direction, the volume level of the low frequency band of the first song increases at a constant rate, and the volume level of the low frequency band of the second song increases. The level decreases at a constant rate.
However, the present invention is not limited to this, and the volume level change rate of the low frequency band of the first song and the volume level change rate of the low frequency band of the second song in the second range RC2 may not be constant. For example, when the fader operator 51 is operated in the +DC direction in the second range RC2, the volume level of the low frequency band of the first song may be lowered in a predetermined curve shape, and the low frequency band of the second song The volume level of the band may be increased in a predetermined curve. That is, the rate of change in the volume level of the low frequency band of each song may change according to the operation of the fader operator 51.

When the fader operator 51 is arranged at the third position PC3, the volume adjustment section 65A sets the volume level of the high frequency band of the first song to the set level H1lv, and sets the volume level of the middle frequency band of the first song. The volume level of the high frequency band of the second song is set to the set level H2lv, the volume level of the middle frequency band of the second song is set to the set level M2lv, and the volume level of the low frequency band of the first song is set to the set level M1lv. is set as the minimum level L1min, and the volume level of the low frequency band of the second music piece is set as the set level L2lv.

When the operation mode is the assist mode and the fader operator 51 is arranged in the third range RC3, the volume adjustment section 65A sets the volume level of the low frequency band of the first song to the minimum level L1min, and sets the volume level of the low frequency band of the first song to the minimum level L1min, With the volume levels of the high frequency band, medium frequency band, and low frequency band set at the preset levels H2lv, M2lv, and L2lv, as the fader operator 51 is operated in the +DC direction, the volume level of the high frequency band of the first song increases. is lowered from the set level H1lv, and the volume level of the middle frequency band of the first song is lowered from the set level M1lv. That is, the volume level that changes in the third range RC3 is the volume level of the high frequency band and the volume level of the middle frequency band of the first song.
In the third range RC3, the volume level of the high frequency band of the first song is changed in the range from the minimum level H1min of the high frequency band of the first song to the preset level H1lv.
In the third range RC3, the volume level of the intermediate frequency band of the first song is changed in a range from the minimum level M1min of the intermediate frequency band of the first song to the preset level M1lv.

When the fader operator 51 is placed at the fourth position PC4, that is, when the fader operator 51 is placed at the second end TC2, the volume adjustment section 65A adjusts the high frequency band and medium frequency of the first song. The respective volume levels of the band and low frequency band are set to minimum levels H1min, M1min, and L1min, and the respective volume levels of the high frequency band, medium frequency band, and low frequency band of the second song are set levels H2lv, M2lv, L2lv. . As a result, the volume of the entire first song becomes the first minimum volume V1min, the volume of the entire second song becomes the second set volume V2st, and the mixing from the first song to the second song is completed.

[Minimum level setting]
In the above description, the minimum levels H1min, M1min, L1min, H2min, M2min, and L2min of each wavelength band are set to 0 for convenience. However, the present invention is not limited to this, and at least one of the minimum levels H1min, M1min, L1min, H2min, M2min, and L2min may not be 0.
For example, the minimum levels H1min, M1min, L1min, H2min, M2min, and L2min may be set according to the values of the set levels H1lv, M1lv, L1lv, H2lv, M2lv, and L2lv.
In a more detailed example, if the set level H1lv of the high frequency band of the first song is 0 or more and 0.5 or less, the minimum level H1min is set to 0, and the set level H1lv exceeds 0.5 and is 1 or less. In this case, the minimum level H1min may be a value obtained by subtracting 0.5 from the set level H1lv. When the set levels M1lv, L1lv, H2lv, M2lv, L2lv are 0 or more and less than 0.5, the minimum levels M1min, L1min, H2min, M2min, L2min are similarly set.

FIG. 13 shows each frequency band of the first song when the set level L1lv of the low frequency band of the first song is 0.6 and the set level L2lv of the low frequency band of the second song is 0.5. FIG. 4 is a diagram showing changes in the volume level of the second song and changes in the volume level of each frequency band of the second song.
For example, if the low frequency band adjustment unit 324 sets the low frequency band level L1lv of the first song to 0.6, as shown in FIG. The level may be set to 0.1.
Even in such a case, by operating the fader operator 51, the volume of the first music piece and the volume of the second music piece can be switched. In particular, by operating the fader operator 51 in the second range RC2, the volume of the low frequency band of the first song and the low frequency band of the second song can be adjusted, regardless of the volume of the high frequency band and medium frequency band of each song. You can change the volume.
Note that the difference between the set level and the minimum level is not limited to 0.5, and can be changed as appropriate.

FIG. 14 is a diagram illustrating another example of a change in BPM during playback of each of the first song and the second song in the assist mode. Specifically, FIG. 14 shows the change in BPM during playback of each song when the crossfader 5 is operated in assist mode when the BPM of the first song is 100 and the BPM of the second song is 120. It is a figure which shows another example. Note that on the horizontal axis of the graph shown in FIG. 14, a numerical value indicating the relative position of the fader operator 51 described above is set.
As described in the first embodiment, the BPM setting unit 66 changes the BPM of each song during playback in the same way throughout the operable range RC in accordance with the operation of the fader operator 51. However, the present invention is not limited to this. For example, as shown in FIG. Accordingly, the BPM during playback of each of the first music piece and the second music piece may be adjusted.

In this case, when the fader operator 51 is arranged at the first end TC1 (first position PC1), the BPM setting section 66 sets the BPM of the first music and the second music at the time of playback of each of the first music and the second music. The BPM of In the example of FIG. 14, the playback BPM of each song is set to 100, which is the BPM of the first song.
When the fader operator 51 is arranged in the first range RC1, the BPM setting unit 66 sets the BPM in the range between the BPM of the first song and the intermediate value between the BPM of the first song and the BPM of the second song. Depending on the position of the fader operator 51, the BPM at the time of playback of each song is set. In the example of FIG. 14, the BPM of the first song is 100, and the intermediate value between the BPM of the first song and the BPM of the second song is 110, so the fader operator 51 is arranged in the first range RC1. If so, the BPM during playback of each song is set to a value greater than 100 and less than 110.

When the fader operator 51 is arranged at the second position PC2, the second range RC2, and the third position PC3, the BPM setting section 66 sets the BPM during playback of each of the first music piece and the second music piece to the above-mentioned intermediate value. Set to . In the example of FIG. 14, the BPM during playback of each song is set to 110.
When the fader operator 51 is arranged in the third range RC3, the BPM setting unit 66 sets the BPM of the first song according to the position of the fader operator 51 in the range between the above-mentioned intermediate value and the BPM of the second song. and the BPM at the time of reproduction of each of the second songs. In the example of FIG. 14, the BPM of the second song is 120, so the BPM of each song during playback is set to a value greater than 110 and less than 120.

When the fader operator 51 is arranged at the second end TC2 (fourth position PC4), the BPM setting unit 66 sets the BPM of each of the first music and the second music at the time of playback to the BPM of the second music. do. In the example of FIG. 14, the BPM during playback of each song is set to 120.
Note that although the rate of change in BPM during reproduction in the first range RC1 and the third range RC3 is constant in the example of FIG. 14, it may not be constant. For example, the rate of change may change as the fader operator 51 is operated in the ±DC direction.
In this way, when the BPM changes during playback of each song, the BPM setting section 66 adjusts the volume level of the high frequency band and medium frequency band according to the operation of the fader operator 51 by the volume adjustment section 65. You can adjust the BPM when playing music. Therefore, each song can be mixed naturally without any discomfort.

[Volume adjustment when operating the channel fader in assist mode]
Hereinafter, the volume adjustment of each song by the volume adjustment section 65A when the operation mode of the audio control device is the assist mode and the operators 33A1 and 33B1 of the respective channel faders 33A and 33B are operated will be described. Note that the content of the BPM settings at the time of playback by the BPM setting unit 66 of each song when operating each of the operators 33A1 and 33B1 in the assist mode is the same as that at the time of playback of each song by the BPM setting unit 66 described in the first embodiment. The settings are the same as those for BPM.
When the operation mode of the acoustic control device is the assist mode, the volume adjustment section 65A adjusts the volume of each frequency band of the first music according to the range in which the first operator 33A1 is located in the operable range RA. Further, when the operation mode of the sound control device 1 is the assist mode, the volume adjustment section 65 adjusts the volume of each frequency band of the second music according to the range in which the second operator 33B1 is located in the operable range RB. Adjust.

FIG. 15 shows changes in the volume level of the high frequency band and the volume level of the medium frequency band of the first song when operating each channel fader 33A, 33B in assist mode, and the volume level and volume level of the high frequency band of the second song. FIG. 3 is a diagram showing changes in volume level in a medium frequency band.
When the operation mode of the sound control device 1 is the assist mode, the volume adjustment unit 65A adjusts the volume level of each frequency band of the first music according to the range in which the first operator 33A1 is located in the operable range RA. to adjust the volume of the first song. Further, when the operation mode of the sound control device 1 is the assist mode, the volume adjustment unit 65A adjusts the volume level of each frequency band of the second music according to the range in which the second operator 33B1 is located in the operable range RB. to adjust the volume of the second song.
As shown in FIG. 15, a predetermined position between the first end TA1 and the second end TA2 in the operable range RA of the first operator 33A1 is defined as a position PA1. The position PA1 can be set at ⅓ of the operable range RA from the second end TA2. The range from the first end TA1 to the position PA1 is defined as a first range RA1, and the range from the position PA1 to the second end TA2 is defined as a second range RA2.
Further, in the operable range RB of the second operator 33B1, a predetermined position between the first end TB1 and the second end TB2 is defined as a position PB1. The position PB1 can be set to ⅓ of the operable range RB from the second end TB2. The range from the first end TB1 to the position PB1 is defined as a first range RB1, and the range from the position PB1 to the second end TB2 is defined as a second range RB2.

[Volume adjustment in the first range of the channel fader]
As shown in FIG. 15, the volume adjustment unit 65A adjusts the volume level of each of the high frequency band and medium frequency band of the first music according to the position of the first operator 33A1 in the first range RA1, and Depending on the position of the second operator 33B1 in the range RB1, the volume level of each of the high frequency band and medium frequency band of the second music is adjusted.
Note that the first set volume V1st is set in advance based on the position of the first controller 33A1, and the second set volume V2st is set in advance based on the position of the second controller 33B1. shall be. For example, the first set volume V1st can be set to a volume corresponding to the position of the first operator 33A1 when the mode changeover switch 4 is pressed and the mode changeover section 64 switches the operation mode to the assist mode. . The second set volume V2st can be set to a volume corresponding to the position of the second operator 33B1 when the mode changeover switch 4 is pressed and the mode changeover section 64 switches the operation mode to the assist mode. However, the present invention is not limited to this, and the first set volume V1st may be set in advance by other methods or other operators. The same applies to the second set volume V2st.

When the first operator 33A1 is placed at the first end TA1 in the assist mode, the volume adjustment section 65A sets the volume level of each of the high frequency band, medium frequency band, and low frequency band of the first music to the minimum level H1min, M1min and L1min are set, and the volume of the entire first music piece is set to the first minimum volume V1min.
When the first operator 33A1 is arranged in the first range RA1, when the first operator 33A1 is operated, the volume adjustment section 65A adjusts the low frequency band of the first music, although not shown in FIG. As shown in FIG. 15, the volume level of the high frequency band of the first song is changed between the minimum level H1min and the preset level H1lv according to the position of the first controller 33A1, while keeping the volume level of the first music piece at the minimum level L1min. At the same time, the volume level of the middle frequency band of the first music piece is adjusted between the minimum level M1min and the preset level M1lv. That is, when the first operator 33A1 is operated in the +DA direction in the first range RA1, the volume adjustment section 65A increases the volume level of each of the high frequency band and the medium frequency band of the first song, and increases the volume level in the -DA direction. When operated, the volume level of each of the high frequency band and medium frequency band of the first song is reduced. As a result, the volume of the entire first song changes. Note that in the example of FIG. 15, the rate of change in the volume level of each of the high frequency band and medium frequency band of the first song is constant, but it does not have to be constant. For example, each rate of change may change as the first operator 33A1 is operated in the ±DA direction.

When the first controller 33A1 is placed at the position PA1, the volume adjustment unit 65 sets the volume level of the high frequency band of the first music while keeping the volume level of the low frequency band of the first music at the minimum level L1min. The level is set to H1lv, and the volume level of the middle frequency band of the first song is set to the set level M1lv.
In this way, the volume change of the first music piece when the first controller 33A1 is placed in the first range RA1 is the same as the volume change of the first music piece when the fader operator 51 is placed in the third range RC3. Same as change.

When the second operator 33B1 is placed at the first end TB1 in the assist mode, the volume adjustment unit 65A sets the volume level of each of the high frequency band, medium frequency band, and low frequency band of the second music to the minimum level H2min, M2min and L2min are set, and the volume of the entire second music piece is set to the second minimum volume V2min.
When the second operator 33B1 is arranged in the first range RB1, when the second operator 33B1 is operated, the volume adjustment section 65A adjusts the low frequency band of the second music, although not shown in FIG. While keeping the volume level of the second song at the minimum level L2min, as shown in FIG. At the same time, the volume level of the middle frequency band of the second music piece is adjusted between the minimum level M2min and the preset level M2lv. That is, when the second operator 33B1 is operated in the +DB direction in the first range RB1, the volume adjustment section 65A increases the volume level of each of the high frequency band and the medium frequency band of the second song, and increases the volume level in the -DB direction. When operated, the volume level of each of the high frequency band and medium frequency band of the second song is reduced. As a result, the volume of the entire first song changes. Note that in the example of FIG. 15, the rate of change in the volume level of each of the high frequency band and medium frequency band of the second song is constant, but it does not have to be constant. For example, each rate of change may change as the second operator 33B1 is operated in the ±DB direction.

When the second controller 33B1 is placed at position PB1, the volume adjustment unit 65 sets the volume level of the high frequency band of the second music while keeping the volume level of the low frequency band of the second music at the minimum level L2min. The level is set to H2lv, and the volume level of the middle frequency band of the second song is set to the set level M2lv.
In this way, the volume change of the second music piece when the second controller 33B1 is placed in the first range RB1 is the same as the volume change of the second music piece when the fader operator 51 is placed in the first range RC1. Same as change.

[Volume adjustment in the second range of the channel fader]
The volume adjustment unit 65A adjusts the first music from the minimum level L1min to the preset level L1lv according to the position of the first operator 33A1 in the second range RA2 and the position of the second operator 33B1 in the second range RB2. The volume level of the low frequency band of the second song is adjusted between the minimum level L2min and the preset level L2lv.

Specifically, when the first operator 33A1 is placed in the second range RA2 and the second operator 33B1 is placed in the second range RB2, the volume adjustment unit 65A controls the first The numerical value indicating the position of the operator 33A1 and the numerical value indicating the position of the second operator 33B1 are converted. To be more specific, the volume adjustment unit 65A sets the acquired numerical value indicating the position of the first operator 33A1 to 0 when the first operator 33A1 is located at the position PA1, and sets the value to 0 when the first operator 33A1 is located at the position PA1, and sets the value indicating the position of the first operator 33A1 to 0 at the second end TA2. It is converted into a numerical value that becomes 1 when the child 33A1 is located. Similarly, the volume adjustment unit 65A sets the obtained numerical value indicating the position of the second operator 33B1 to 0 when the second operator 33B1 is located at the position PB1, and sets the value to 0 when the second operator 33B1 is located at the position PB1, and sets the value to 0 when the second operator 33B1 is located at the position PB1, Convert to a numerical value that becomes 1 when 33B1 is located.
Next, the volume control unit 65A divides the converted numerical value indicating the position of the first operator 33A1 by the converted numerical value indicating the position of the second operator 33B1, and obtains the numerical value of the division result.
Thereafter, the volume adjustment unit 65A obtains the volume level of the first music piece and the volume level of the second music piece that correspond to the numerical value of the division result.

FIG. 16 is a diagram illustrating an example of a change in the volume level of the low frequency band of each of the first music piece and the second music piece when the first operator 33A1 and the second operator 33B1 are operated in the assist mode. In other words, FIG. 16 is a diagram illustrating the contents of level change information stored in a storage section (not shown).
Here, the storage unit (not shown) stores the graph shown in FIG. 16 in advance. That is, the storage unit stores level change information indicating the volume level of the low frequency band of each song corresponding to the numerical value of the division result. To be more specific, the storage unit stores, as level change information indicating the volume level of the low frequency band of the first song, the smaller the numerical value of the division result approaches the minimum level L1min, and the larger the numerical value of the division result, the preset level. A function that approaches L1lv is memorized. The storage unit also stores, as level change information indicating the volume level of the low frequency band of the second music, the smaller the numerical value of the division result, the closer to the set level L2lv, and the larger the numerical value of the division result, the lower the set level L2min. It remembers the function it approaches. Note that the function stored in the storage unit as level change information may be a linear function as shown in FIG. 16, or may be a high-order function such as a quadratic function.

Based on such level change information, the volume adjustment unit 65A acquires the volume level of the low frequency band of each song, and sets the volume level of the low frequency band of each song to the acquired volume level.
Note that when the respective operators 33A1 and 33B1 are arranged in the second ranges RA2 and RB2, the respective volume levels of the high frequency band and medium frequency band of the first music are set levels H1lv and M1lv, The respective volume levels of the high frequency band and medium frequency band are set levels H2lv and M2lv.
In this way, when the first operator 33A1 is arranged in the second range RA2 and the second operator 33B1 is arranged in the second range RB2, the volume change of each song is as follows: This is the same as the change in volume of each song when placed in RC2.

[Replacement of the first song and the second song in the output song]
When the operation mode of the sound control device 1 is the assist mode, the volume adjustment section 65A adjusts the volume level of each frequency band of the first music and the second music as described above. From this, by operating each of the operators 33A1 and 33B1 as follows, the volume of each frequency band of the first song and the volume of each frequency band of the second song can be adjusted in the same way as when operating the fader operator 51. You can change the volume.

For example, assume that the first operator 33A1 is arranged at the second end TA2, and the second operator 33B1 is arranged at the first end TB1. In this case, the volume of the entire first song is the first set volume V1st, and the volume of the entire second song is the second minimum volume V2min.
From this state, when only the second controller 33B1 is operated in the +DB direction, the second controller While 33B1 is located in the first range RB1, the volume level of the low frequency band of the second song remains at the minimum level L2min, and the volume level of each of the high frequency band and medium frequency band of the second song increases. Then, when the second operator 33B1 reaches position PB1, the volume level of the high frequency band of the second music becomes the set level H2lv, and the volume level of the middle frequency band of the second music becomes the set level M2lv. In this way, similarly to the case where the fader operator 51 is operated in the first range RC1, the volume of each of the high frequency band and medium frequency band of the second music piece can be adjusted.

When only the second controller 33B1 is operated from position PB1 in the +DB direction, the volume level of the high frequency band of the second song remains at the set level H2lv, and the volume level of the middle frequency band of the second song remains the set level M2lv. As shown in FIG. 16, the volume level of the low frequency band of the second song increases from the minimum level L2min, and the volume level of the low frequency band of the first song decreases from the preset level L1lv. Accordingly, the volume of the entire first song decreases from the first set volume V1st.
Then, when the second operator 33B1 reaches the second end TB2, since the first operator 33A1 is also arranged at the second end TA2, as shown in FIG. The volume level of the first music piece and the volume level of the low frequency band of the first music piece are both equal to each other.
After this, when only the first controller 33A1 is operated from the second end TA2 in the -DA direction, the volume level of the high frequency band of the first song remains at the set level H1lv, and the volume level of the middle frequency band of the first song remains the same. As shown in FIG. 16, while the volume level remains at the set level M1lv, the volume level of the low frequency band of the first song decreases, and the volume level of the low frequency band of the second song increases.
Then, when the first controller 33A1 reaches position PA1, the volume level of the low frequency band of the first music becomes the minimum level L1min, and the volume level of the low frequency band of the second music reaches the preset level L2lv. Become. Accordingly, the volume of the entire second music piece becomes the second set volume V2st. That is, the conditions for the volume of the entire second music to be the second preset volume V2st are that the second controller 33B1 is located at the second end TB2, and the first controller 33A1 is located at the position PA and the first It is arranged in range RA1 or first end TA1. Note that the conditions for the volume of the entire first music piece to be the first set volume V1st are also the same.

When the first operator 33A1 is operated in the -DA direction from the position PA1 while the second operator 33B1 is placed at the second end TB2, the volume level of the low frequency band of the first music is set to the minimum level L1min. As shown in the graph of the volume levels of the high frequency band and the medium frequency band of the first music piece shown on the left side of FIG. 15, the volume level of the high frequency band and the medium frequency band of the first music piece decreases.
When the first controller 33A1 reaches the first end TA1, the volume level of the high frequency band of the first song becomes the minimum level H1min, the volume level of the middle frequency band of the second song becomes the minimum level M1min, and the first The volume of the entire music becomes the first minimum volume V1min. In this way, similarly to the case where the fader operator 51 is operated in the third range RC3, the volume level of each of the high frequency band and medium frequency band of the first music piece can be adjusted.

As described above, by operating the second controller 33B1 in the second range RB2 and operating the first controller 33A1 in the second range RA2, the volume level of the low frequency band of the first music piece is lowered. , the volume level of the low frequency band of the second song can be increased. That is, in a state where the volume levels of the high frequency band and medium frequency band of the first song are set to preset levels H1lv and M1lv, and the volume levels of the high frequency band and medium frequency band of the second song are set to preset levels H2lv and M2lv, By increasing or decreasing the volume levels of the low frequency bands of the first music piece and the second music piece, it is possible to replace the volume levels of the low frequency bands of the first music piece and the second music piece.

[Effects of second embodiment]
The sound control device according to the present embodiment described above can have the same effects as the sound control device 1 according to the first embodiment described above, and can also have the following effects.
In the sound control device according to the present embodiment, the operable range RC of the fader operator 51 includes a first range RC1, a second range RC2, and a third range RC3.
The first range RC1 is a range between the first position PC1 and the second position PC2. The second position PC2 is located in the +DC direction with respect to the first position PC1. The +DC direction corresponds to a first operation direction from the first end TC1 to the second end TC2.
The second range RC2 is a range between the second position PC2 and the third position PC3. The third position PC3 is located in the +DC direction with respect to the second position PC2.
The third range RC3 is a range between the third position PC3 and the fourth position PC4. The fourth position PC4 is located in the +DC direction with respect to the third position PC3.
As the fader operator 51 is moved in the +DC direction, the BPM setting unit 66 brings the BPM of the first music piece and the second music piece closer to the BPM of the second music piece. The BPM setting unit 66 sets the BPM during playback of the first music piece and the BPM during playback of the second music piece as the first operator 33A1 is moved in the -DA direction or as the second operator 33B1 is moved in the +DB direction. The time BPM is brought closer to the BPM of the second song.
According to such a configuration, it is possible to change the BPM of each song during playback so that it approaches the BPM of the second song. Therefore, the operation for bringing the BPM of each song closer to the BPM of the second song during reproduction can be simplified.

In the sound control device according to the present embodiment, when the fader operator 51 is arranged in the first range RC1, the volume adjustment section 65A adjusts the volume of each of the high frequency band, medium frequency band, and low frequency band of the first song. When the levels are the set levels H1lv, M1lv, L1lv and the volume level of the low frequency band of the second song is the minimum level L2min, as the fader operator 51 is operated in the +DC direction, the second song starts. Increase the volume level of each of the high frequency band and medium frequency band.
When the fader operator 51 is arranged in the second range RC2, the volume adjustment section 65A controls the high frequency band of the first song, the middle frequency band of the first song, the high frequency band of the second song, and the middle frequency of the second song. While the volume level of each band is at the set level H1lv, M1lv, H2lv, M2lv, as the fader operator 51 is operated in the +DC direction, the volume level of the low frequency band of the first song is decreased, The volume level of the low frequency band of the second song is increased.
When the fader operator 51 is arranged in the third range RC3, the respective volume levels of the high frequency band, medium frequency band, and low frequency band of the second music are the preset levels H2lv, M2lv, L2lv, and In a state where the volume level of the low frequency band of one music piece is the minimum level L1min, as the fader operator 51 is operated in the +DC direction, the volume levels of each of the high frequency band and medium frequency band of the first music piece are lowered.
As described above, the preset levels H1lv, M1lv, and L1lv are the maximum levels of the high frequency band, medium frequency band, and low frequency band of the first song, and the high frequency band adjustment section 322 of the first channel operation section 3A, the medium frequency band This is the volume level set by the user using the adjustment section 323 and the low frequency band adjustment section 324. The set levels H2lv, M2lv, and L2lv are the maximum levels of the high frequency band, medium frequency band, and low frequency band of the second song, and are set as the maximum levels of the high frequency band, medium frequency band, and low frequency band of the second music piece. This is the volume level set by the user using the frequency band adjustment section 324.

According to such a configuration, by moving the fader operator 51 from the first end TC1 to the second end TC2, the volume of each of the high frequency band and the medium frequency band of the second music is increased, and the volume of the second music is increased. After the volume of the low frequency band of the song and the volume of the low frequency band of the first song are swapped, the respective volumes of the high frequency band and the medium frequency band of the first song are decreased. Therefore, the first music piece can be replaced with the second music piece without any discomfort.

In addition, when the fader operator 51 is arranged in the second range RC2, the high frequency band of the first song, the middle frequency band of the first song, the high frequency band of the second song, and the middle frequency band of the second song. In a state where the respective volume levels are at the set levels H1lv, M1lv, H2lv, M2lv, as the fader operator 51 is operated in the +DC direction, the volume level of the low frequency band of the first song decreases, and the volume level of the low frequency band of the first song decreases. The volume level of the low frequency band increases.
According to this, by operating the fader operator 51 in the +DC direction at a constant speed, when changing the music output from the sound control device from the first music to the second music, the high frequency band of the first music and The volume of the low frequency band of the first song and the volume of the low frequency band of the second song are maintained while maintaining the respective volumes of the medium frequency band and the respective volumes of the high frequency band and the medium frequency band of the second song. Can be replaced. Therefore, it is possible to prevent the sounds in the low frequency band of each song from overlapping and becoming louder than the sounds in other frequency bands. Therefore, even an inexperienced user as described above can naturally replace each song without feeling any discomfort. At this time, since the playback BPM of each of the first song and the second song is an intermediate value between the BPM of the first song and the BPM of the second song, the first song and the second song can be mixed without any discomfort. .

Note that in another example shown in FIG. 14, when the fader operator 51 is arranged in the first range RC1, the BPM setting section 66 sets the BPM of each of the first music and the second music on the fader. Depending on the position of the operator 51, it is set in a range from the BPM of the first music piece to an intermediate value between the BPM of the first music piece and the BPM of the second music piece.
As a result, when the volume of the entire first song is at maximum, as the volume of the high frequency band and medium frequency band of the second song increases, the BPM when playing each song is changed from the BPM of the first song to the above-mentioned intermediate level. It can be set within a range of up to a value.

In another example shown in FIG. 14, when the fader operator 51 is arranged in the second range RC2, the BPM setting unit 66 does not change the BPM when playing the first song and the BPM when playing the second song. . That is, the BPM during playback of each song becomes the above-mentioned intermediate value.
According to this, when replacing the low frequency band of each song, the BPM of each song during playback is not changed to the same BPM. Therefore, compared to the case where the sounds in the low frequency band of each song are played back at different BPMs, the first song and the second song can be mixed without any discomfort.

In another example shown in FIG. 14, when the fader operator 51 is arranged in the third range RC3, the BPM during playback of each of the first song and the second song is changed from the above intermediate value to the BPM of the second song. Set within the range.
As a result, when the volume of the entire second song is at maximum, as the volume of the high frequency band and medium frequency band of the first song decreases, the BPM of the second song when playing each song is changed from the above intermediate value. It can be set up to BPM.

In the acoustic control device according to this embodiment, the first position PC1 is the first end TC1, and the fourth position PC4 is the second end TC2. The first range RC1 is 1/3 of the operable range RC from the first end TC1. The second range RC2 is 1/3 of the operable range RC from the second position PC2. The third range RC3 is 1/3 of the operable range RC from the third position PC3.
According to such a configuration, the user can intuitively grasp the respective positions of the first range RC1, the second range RC2, and the third range RC3. Therefore, it is possible to easily operate the fader operator 51 when mixing the first music and the second music.

[Modification of embodiment]
The present invention is not limited to the above-described embodiments, and modifications and improvements within the range that can achieve the purpose of the present invention are included in the present invention.
In each of the embodiments described above, the crossfader 5 has a fader operator 51 as an operator that accepts an operation to adjust the volume of the first song and the volume of the second song as well as an operation to move the playback position of each song. The first channel fader 33A has an operator 33A1, and the second channel fader 33B has a second operator 33B1. However, the present invention is not limited to this, and the operator according to the present invention does not have to be a slidable operator, and may be, for example, an operating knob that is rotatable about a rotation axis. That is, the operator in the present invention may be another operator.

Further, the acoustic control device of the present invention may include only the assist mode as the operation mode. Furthermore, the acoustic control device of the present invention may include an operator for normal mode and an operator for assist mode. In this case, the mode changeover switch 4 and the mode changeover section 64 can be omitted.

In each of the above embodiments, depending on the operation of the fader operator 51 or each of the operators 33A1 and 33B1, the volume of the first music piece becomes the minimum until the volume of the entire second music piece reaches the maximum. Loop playback is performed from the first playback position (first position) to the second playback position (third position) in the second song, and the loop playback is performed from the third playback position (second position) to the fourth playback position (mix schedule) in the second song. The loop playback is performed up to (position). However, the present invention is not limited to this, and if the playback position of the first song is moved to the first playback position, it is not necessary to play the loop from the first playback position to the second playback position (third position). . Similarly, if you move the playback position of the second song to the third playback position (second position), you do not necessarily have to perform loop playback from the third playback position to the fourth playback position (planned mix position). good. Furthermore, even in the case of loop playback, only one of the first song and the second song may be used.

In each of the above embodiments, in the first song, the first playback position, which is the first position, is the start position of the outro, and the second playback position, which is the third position, is the end position of the outro, that is, the first playback position of the first song. It is assumed to be the terminal position. In the second song, the fourth playback position, which is the planned mixing position, is the drop start position, and the third playback position, which is the second position, is a position in the middle of the build-up before the fourth playback position. However, the present invention is not limited to this, and each position can be changed as appropriate. For example, if the song includes a chorus as a song component, the fourth playback position may be the chorus.
Further, the configurations of the first music piece and the second music piece described above are merely examples, and the configuration of the music piece processed by the sound control device of the present invention is not limited to the above.

In each of the embodiments described above, the playback control unit 68 cancels the loop playback of the second song at the timing when the operation to minimize the volume of the entire first song is performed. That is, the playback control unit 68 cancels the loop playback of the second song when the fader operator 51 is moved to the second end TC2 where the volume of the entire first song becomes the minimum volume V1min. However, the present invention is not limited to this, and the playback control unit 68 may cancel loop playback of the second song when an operation is performed to lower the volume of the entire first song to a predetermined value or less.

In each of the above embodiments, the playback control unit 68 controls the playback control unit 68 when an operation is performed to increase the volume of the second song from a state where the volume of the entire first song is maximum and the volume of the second song is the minimum value. , the playback position of each song is moved. That is, the playback control unit 68 moves the playback position of each song when the fader operator 51 is operated in the +DC direction from the first end TC1 so that the volume of the entire first song becomes the first set volume V1st. I decided to let it happen. The playback control unit 68 also controls whether the first operator 33A1 or the second operator 33B1 is operated, the playback position of each song is moved. However, the present invention is not limited to this, and the volume of each song and the position of each operator when the playback position of each song is moved can be changed as appropriate.

In each of the embodiments described above, the sound control device functions when the operation mode is the assist mode, and includes the BPM setting unit 66 that aligns the BPM when the first music is played and the BPM when the second music is played. However, the present invention is not limited to this, and the BPM setting section 66 may not be provided.

In each of the embodiments described above, the sound control program read and executed by the arithmetic processing circuit that is a computer is stored in a storage unit (not shown). However, the present invention is not limited thereto, and the sound control program may be recorded on a computer-readable recording medium, and may be read from the recording medium and executed when the sound control device 1 is operated.
Further, the acoustic control program may be provided from a providing device such as a server via a network such as the Internet.

[Summary of the present invention]
Below, a summary of the present invention will be added.
[1] A sound control device that mixes the first music and the second music,
The playback position of the first song is moved to a first position in the first song in accordance with the operation of an operator that adjusts the volume of the first song and the volume of the second song, and the playback position of the first song is moved to a first position in the first song, and The music player includes a playback control unit that moves the playback position of the second music piece to a second position before a predetermined mixing position with the first music piece.
According to such a configuration, the playback control section moves the playback position of the first song to the first position in response to the operation of the operator that adjusts the volume of each song, and the playback position of the second song moves to the first position. It is moved to a second position before the scheduled position. Therefore, for example, when you operate the controls so that the overall volume of the first song decreases and the overall volume of the second song increases, the playback position of each song is moved as described above, and the output is The music to be played can be replaced from the first music to the second music, and the planned mixing position of the second music can be quickly reproduced. Therefore, the mixing from the first song to the second song can be performed smoothly without any discomfort, and the second song can be quickly played from a preferred playback position as a position where the second song is replaced with the first song. .

[2] In the sound control device according to [1],
The playback control unit is configured to perform, in accordance with the operation of the operator, a period from when the volume of the entire first song reaches a minimum and until the volume of the entire second song reaches a maximum.
Playing a loop from the first position in the first song to a third position after the first position,
A loop is played from the second position to the planned mix position in the second music piece.
According to such a configuration, for example, when operating the controller to switch from the first song to the second song, the entire volume of the first song becomes the minimum and the volume of the entire second song reaches the maximum. , each song can be played in a loop. That is, each song can be played in a loop until the replacement from the first song to the second song is completed. Thereby, it is possible to smoothly switch from the first music piece to the second music piece, regardless of the moving speed of the operator.

[3] In the sound control device according to [2],
The third position is the end position of the first music piece.
According to such a configuration, for example, when switching from the first song to the second song, from the first position of the first song to the end position of the first song until the first song is replaced with the second song. The period between is played in a loop. According to this, even if it takes a long time to switch from the first song to the second song, the first song can be smoothly switched to the second song.

[4] In the sound control device according to [2] or [3],
The playback control unit cancels loop playback of the second music piece at a timing when an operation is performed using the operator to minimize the volume of the entire first music piece.
According to such a configuration, the loop playback of the second song is canceled at the timing when the first song is replaced by the second song, so that the second song that has been replaced from the first song can be smoothly played and output. .

[5] In the sound control device according to [4],
The playback control unit moves the playback position of the second music piece to the planned mixing position at a timing when an operation is performed using the operator to minimize the volume of the entire first music piece.
According to such a configuration, the second song can be played from the planned mix position at the timing when the first song is replaced by the second song. Therefore, the first music piece can be smoothly replaced with the second music piece without any discomfort.

[6] In the sound control device according to [4],
If the playback position of the second music piece at the timing when the operation to minimize the volume of the entire first music piece is performed on the operator is not a bar break position, the playback control unit sets the playback position to the next bar break position. After the second music piece is played back up to that point, the playback position of the second music piece is moved to the planned mixing position.
According to such a configuration, when the first music piece is slowly replaced with the second music piece, it is possible to prevent the playback position of the second music piece from being suddenly moved and causing a sense of discomfort in the rhythm. Therefore, the first music piece can be smoothly replaced with the second music piece without any discomfort.

[7] In the sound control device according to any one of [1] to [6],
The playback control unit performs an operation on the operator to increase the volume of the entire second song from a state where the volume of the entire first song is maximum and the volume of the entire second song is minimum. At this time, the playback position of the first music piece and the playback position of the second music piece are moved.
According to such a configuration, the playback control section can move the playback position of the first music piece and the playback position of the second music piece using an operation on the operator when switching from the first music piece to the second music piece as a trigger. can.

[8] In the sound control device according to any one of [1] to [7],
The playback control unit determines the timing at which an operation is performed on the operator to increase the volume of the entire second music piece from the position of the operator when the volume of the entire second music piece is at a minimum. If the playback position of the first music piece is not at a bar break, the playback position of the first music piece is moved to the first position after being played to the next bar break position.
According to such a configuration, when moving the playback position of the first music piece, it is possible to suppress that the playback position of the first music piece is suddenly moved and the rhythm of the first music piece is shifted. Therefore, the first music piece can be smoothly replaced with the second music piece without any discomfort.

[9] In the sound control device according to any one of [1] to [9],
The first position is the start position of the outro in the first music piece.
According to such a configuration, when replacing the first song with the second song, the playback position of the first song is moved to the outro start position in accordance with the operation of the operator. Therefore, the playback position of the first music piece can be quickly moved to the final position of the first music piece. Therefore, the first music piece can be smoothly replaced with the second music piece.

[10] In the sound control device according to any one of [1] to [9],
The planned mix position is the start position of one of a drop and a chorus in the second music piece.
According to such a configuration, when the first music piece is replaced with the second music piece, a characteristic drop or chorus in the second music piece can be quickly reproduced. Therefore, for example, the music played in the hall can be replaced from the first music to the second music without degrading the mood in the hall where the acoustic control device is installed.

[11] In the acoustic control device according to any one of [1] to [10],
The second position is a position at least one bar before the planned mix position in the second music piece.
With such a configuration, depending on the speed of operation on the controller, the playback position of the second song may pass the planned mix position immediately after the first song is completely replaced by the second song. It will be done. In this case, there is a possibility that the mood in the venue where the acoustic control device is installed will deteriorate.
On the other hand, since the second position is at least one bar before the planned mix position, the playback position of the second song will change to the planned mix position immediately after the first song is completely replaced by the second song. You can prevent things from going too far. Therefore, the first music piece can be smoothly replaced with the second music piece.

[12] In the sound control device according to any one of [1] to [11],
The operation of decreasing the volume of the entire first music piece and increasing the volume of the entire second music piece from a state where the volume of the entire first music piece is maximum and the volume of the entire second music piece is the minimum. a BPM setting unit that brings the BPM of the first music piece and the second music piece closer to the BPM of the second music piece from the BPM of the first piece of music when applied to the operator; .
According to such a configuration, as the ratio of the second music piece to the volume output from the sound control device becomes larger than the ratio of the first music piece, the BPM during playback of each music piece increases from the BPM of the first music piece to the second music piece. The BPM will be close to that of the two songs. Therefore, the BPM of each song can be matched according to the volume balance between the first song and the second song. In other words, since each song is played at a BPM that is close to the BPM of the song that accounts for a larger proportion of the output volume, it is possible to reduce the sense of discomfort when mixing the first and second songs that have different BPMs. . Therefore, the first music piece can be replaced with the second music piece without any discomfort.

[13] In the sound control device according to any one of [1] to [12],
The operator is a crossfader having a fader operator that adjusts the balance between the volume of the first music piece and the volume of the second music piece.
According to such a configuration, by operating the fader operator, the first music piece and the second music piece can be mixed without any discomfort. Therefore, the mixing operation between the first music piece and the second music piece can be performed more easily than when operating an operator that adjusts the volume of the first music piece and an operator that adjusts the volume of the second music piece.

[14] The sound control program is recorded in a computer-readable manner and causes the computer to function as the sound control device according to any one of [1] to [13].
By causing a computer to execute such a sound control program, the same effects as the above-described sound control device can be achieved.

1...Sound control device, 33A...1st channel fader (controller), 33A1...1st control element, 33B...2nd channel fader (controller), 33B1...2nd control element, 5...Cross fader (controller) , 51... Fader operator, 6, 6A... Control section, 61... First playback section, 62... Second playback section, 63... Position acquisition section, 64... Mode switching section, 65, 65A... Volume adjustment section, 66... BPM setting section, 67... Operation determination section, 68... Playback control section, 69... Position setting section, 70... Position selection section, PP1, PP2... Playback position, RA, RB, RC... Operable range, TA1, TB1, TC1 ...first end, TA2, TB2, TC2...second end.

Claims (14)

In a sound control device that mixes a first song and a second song,
The playback position of the first song is moved to a first position in the first song in accordance with the operation of an operator that adjusts the volume of the first song and the volume of the second song, and the playback position of the first song is moved to a first position in the first song, and A sound control device comprising: a playback control unit that moves a playback position of the second music piece to a second position before a predetermined mixing position with the first music piece. The sound control device according to claim 1,
The playback control unit is configured to perform, in accordance with the operation of the operator, a period from when the volume of the entire first song reaches a minimum and until the volume of the entire second song reaches a maximum.
Playing a loop from the first position in the first song to a third position after the first position,
A sound control device characterized in that a loop reproduction is performed between the second position and the planned mix position in the second music piece. The sound control device according to claim 2,
The sound control device is characterized in that the third position is a position at the end of the first music piece. The sound control device according to claim 2 or 3,
The playback control unit is configured to cancel loop playback of the second song at a timing when an operation is performed on the operator to minimize the volume of the entire first song. Device. The sound control device according to claim 4,
The playback control unit moves the playback position of the second song to the planned mix position at a timing when an operation is performed on the operator to minimize the volume of the entire first song. Features a sound control device. The sound control device according to claim 4,
If the playback position of the second music piece at the timing when the operation to minimize the volume of the entire first music piece is performed on the operator is not a bar break position, the playback control unit controls the playback position of the second music piece at the next bar break position. A sound control device characterized in that, after the second music piece is played back up to that point, the playback position of the second music piece is moved to the planned mixing position. The sound control device according to any one of claims 1 to 3,
The playback control unit performs an operation on the operator to increase the volume of the entire second song from a state where the volume of the entire first song is maximum and the volume of the entire second song is minimum. A sound control device characterized in that, when the first music piece and the second music piece are played back, a playback position of the first music piece and a playback position of the second music piece are moved. The sound control device according to any one of claims 1 to 3,
The playback control unit determines the timing at which an operation is performed on the operator to increase the volume of the entire second music piece from the position of the operator when the volume of the entire second music piece is at a minimum. If the playback position of the first music piece is not at a bar break, the playback position of the first music piece is moved to the first position after playing to the next bar break position. Device. The sound control device according to any one of claims 1 to 3,
The sound control device is characterized in that the first position is a start position of an outro in the first music piece. The sound control device according to any one of claims 1 to 3,
The sound control device is characterized in that the planned mix position is a start position of one of a drop and a chorus in the second music piece. The sound control device according to any one of claims 1 to 3,
The sound control device is characterized in that the second position is a position at least one bar before the planned mixing position in the second music piece. The sound control device according to any one of claims 1 to 3,
The operation of decreasing the volume of the entire first music piece and increasing the volume of the entire second music piece from a state where the volume of the entire first music piece is maximum and the volume of the entire second music piece is the minimum. a BPM setting unit that brings the BPM of the first music piece and the second music piece closer to the BPM of the second music piece from the BPM of the first piece of music when applied to the operator; , a sound control device characterized by: The sound control device according to any one of claims 1 to 3,
The sound control device is characterized in that the operator is a crossfader having a fader operator that adjusts the balance between the volume of the first music piece and the volume of the second music piece. A sound control program that is recorded in a computer-readable manner and causes a computer to function as the sound control device according to any one of claims 1 to 3.

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