JPH05257470A - Automatic playing device - Google Patents

Abstract

PURPOSE:To alter an accompaniment pattern with specific length halfway during its performance on the automatic playing device which automatically plays music. CONSTITUTION:In a performance data memory 18, the pitch information and time information of the music performance and pattern selection information for accompaniment pattern selection according to the progress of the music are stored, and in an accompaniment memory device 2, a normal accompaniment pattern and a special accompaniment pattern are stored, and the pitch information and pattern selection information are read out of the memory 18 according to the time information. The pitch information is supplied to a musical sound generating circuit 30 to generate a musical sound signal, thereby automatically playing the melody and also automatically playing chords, rhythm sounds, etc., according to the accompaniment pattern selected among the accompaniment patterns in the memory device 22 according to the pattern selection information.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic performance device capable of automatically performing music performance with automatic accompaniment, and more particularly to pitch selection and time information for music performance and pattern selection for accompaniment pattern selection. By storing the information, the accompaniment pattern can be changed in the middle of the accompaniment pattern of a predetermined length.

[0002]

2. Description of the Related Art Conventionally, as an automatic rhythm playing device, 1
It is known to store data instructing how many times a rhythm pattern of a predetermined length, such as a measure, should be repeatedly played, in accordance with the progress of the music (for example, see Japanese Patent Laid-Open No. 57-201297).

It is also known to store data indicating the necessity of rhythm performance for each measure and the number of the rhythm pattern to be played together with chord (chord) progress information (for example, Japanese Patent Laid-Open No. 56-91298). (See the official gazette).

[0004]

According to the above-mentioned conventional technique, the rhythm pattern cannot be changed in the middle of the rhythm pattern of the predetermined length, and the accompaniment content is limited.

An object of the present invention is to provide a novel automatic performance device capable of automatically changing the accompaniment pattern even during one bar or the like.

[0006]

The automatic performance device according to the present invention comprises: (a) information storage means for storing pitch information and time information for musical performance and pattern selection information for accompaniment pattern selection in accordance with the progress of the musical composition. , (B) pattern storage means for storing a plurality of accompaniment patterns, (c) read means for reading the pitch information and the pattern selection information from the information storage means according to the time information, and (d) the information storage. The musical performance is automatically performed by generating a musical tone signal according to the pitch information from the means, and according to the accompaniment pattern selected from the plurality of accompaniment patterns according to the pattern selection information from the information storage means. It is provided with an automatic performance means for automatically performing an accompaniment by generating an accompaniment sound signal.

[0007]

According to the structure of the present invention, the pattern selection information is stored together with the time information for playing the music, and the pattern selection information is read according to the time information to select the accompaniment pattern. The accompaniment pattern can be changed at any place in the middle of the pattern.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows an electronic musical instrument having an automatic musical instrument according to an embodiment of the present invention.

The external recording means 10 is, for example, a magnetic tape on which music data relating to a specific musical piece is recorded, and the recording data format is as shown in FIG. 2 as an example. In FIG. 2, PTN is special accompaniment pattern data indicating a special accompaniment pattern unique to the performance music, IP
S is initial accompaniment pattern designation data for designating an accompaniment pattern at the start of performance, TCD is tone color data for designating a tone color for each musical tone type such as a melody tone, a chord, an arpeggio tone, a bass tone, a rhythm tone, and MPD is a performance song. Performance data including melody data, chord name data, and accompaniment pattern selection data in accordance with the note progression. The external recording means may be a perforation recording type, a bar code display type, or the like.

The data reading device 12 includes an external recording means 10.
Of the read data, the pattern-related data PT (the above-mentioned PTN or IPS) is stored in the register 14, and the tone color data TCD is stored in the tone color register 16.
, Performance data MPD in RAM (random access
The performance data memory 18 is composed of a memory.

First, the special accompaniment pattern data PTN is transmitted from the data reading device 12 in a serial format, and this data PTN is converted into parallel format data by the register 14. Then, the special accompaniment pattern data PTN from the register 14 is transferred via the selector 20 to the special accompaniment pattern memory 22 which is a RAM in the accompaniment pattern memory device 22.
is supplied to a. At this time, since the writing control signal WT is supplied from the data reading device 12 to the memory 22a, the special accompaniment pattern data PTN is written in the writing control signal WT.
Is written in the memory 22a in accordance with The normal accompaniment pattern memory 22b, which is a ROM (Read Only Memory) of the accompaniment pattern memory device 22,
A plurality of sets of normal accompaniment pattern data that can be commonly used for various musical pieces are stored in advance.

Following the special accompaniment pattern data PTN, the initial accompaniment pattern designating data IPS is sent from the data reading device 12 and stored in the register 14.

The initial accompaniment pattern designating data IPS of the register 14 is supplied to the accompaniment pattern memory device 22 via the selector 20 and designates a set of normal accompaniment pattern data to be read out from the memory 22b.

Following the initial accompaniment pattern designation data IPS, tone color data TCD is sent from the data reading device 12 and stored in the tone color register 16.

After that, the performance data MPD is sequentially transmitted from the data reading device 12 and sequentially stored in the performance data memory 18 in the format as shown in FIG. 3, for example. In FIG. 3, MLP is melody pitch data, C
HD is chord name data (consisting of root note data and chord type data), MLL is melody note length data, PST
Indicates special accompaniment pattern designation data, and PED indicates special accompaniment pattern designation cancellation data.

Each note related to the melody is pitch data ML.
P and the note length data MLL are expressed separately, and the pitch data MLP and the note length data MLL for each note are the notes N ₁ and N.
₂ , N ₃ ... Are sequentially arranged. In such a melody pitch / note length data array, the chord name data corresponding to the first chord is the pitch data MLP and the note length data MLL of the note N ₁ corresponding to the first melody note.
The chord name data corresponding to each of the second and subsequent chords is similarly inserted at the point where the chord is to be changed.
Further, the special accompaniment pattern designation data PST and the special accompaniment pattern designation cancellation data PED are respectively inserted at arbitrary positions where it is desired to change to the special accompaniment pattern and at positions where it is desired to change to the normal accompaniment pattern. In this way, the accompaniment pattern can be changed at any place. Also, since many pieces of melody-related data exist in one measure, if pattern change data such as pattern designation data or pattern designation cancellation data is inserted into the melody data array, accompaniment patterns of a predetermined length are played in the middle. The pattern can be changed.

Next, the automatic performance operation will be described. First, when a performance start switch (not shown) is turned on, the data reading circuit 24 reads the first note N ₁ from the performance data memory 18.
Melody pitch data MLP and chord name data C corresponding to
The HD and the code length data MLL are sequentially read. Here, when the code length data MLL is read, the code length data MLL is read.
Is measured by counting the tempo clock signal TCL from the tempo oscillator 26, and when the time is reached, the pitch data MLP and the note length data MLL corresponding to the next note N ₂ are measured. Are sequentially read. Then, the same data reading operation is performed for each note after the note N ₃ .

The tone pitch data MLP thus sequentially read out is supplied to the melody tone forming circuit 30 via the melody tone pitch register 28. The tone forming circuit 30 forms a tone signal corresponding to each tone pitch data from the register 28 based on the melody tone color data from the tone color register 16, and the speaker 3 via the output amplifier 32.
Supply to 4. Therefore, the auto melody sound is produced from the speaker 34.

At the start of the performance, the accompaniment pattern memory device 22 stores a set of normally accompaniment pattern data initially designated as described above in accordance with the count output of the counter 36 which counts the tempo clock signal TCL.
Read from. Therefore, the accompaniment pattern memory device 2
From 2, the chord tone generation timing signal CDT, the arpeggio tone generation control data AR, the bass tone generation control data BS, and the rhythm timing signal RP for each percussion instrument type are generated in accordance with the initially designated normal accompaniment pattern. Here, each arpeggio pronunciation control data AR indicates what number of notes the arpeggio sound to be pronounced is from the root note of the chord, and each bass pronunciation control data BS is the root of the chord of the bass note to be pronounced. It shows the pitch for a sound.

Rhythm timing signal R for each percussion instrument type
P is supplied to the rhythm tone forming circuit 38. The tone forming circuit 38 forms a rhythm sound signal by selectively driving various percussion instrument sound sources in accordance with the rhythm timing signal RP. The formed rhythm sound signal is output to the speaker 34 via the output amplifier 32. Supplied. Therefore,
From the speaker 34, an autorhythm sound is played according to the initially specified normal accompaniment pattern.

Thereafter, when the special accompaniment pattern designation data PST is read from the performance data memory 18, this data PST is stored in the register 40. Then, since the mark bit signal MB = "1" in the data PST is supplied to the selector 20 as the selection signal SB, the data P
The signal of the special accompaniment pattern designation bit in ST is supplied to the accompaniment pattern memory device 22 via the selector 20,
It is instructed to read the special accompaniment pattern data from the memory 22a. Therefore, the counter 36 is
The special accompaniment pattern data is read out in accordance with the count output of the chord, and the chord sounding timing signal CDT, the arpeggio sounding control data AR, the bass sounding control data BS and the rhythm timing signal RP are all generated according to the special accompaniment pattern. ..

When the rhythm timing signal RP is generated according to the special accompaniment pattern, the performance pattern of the auto rhythm changes from that corresponding to the normal accompaniment pattern to that corresponding to the special accompaniment pattern.

Thereafter, when the special accompaniment pattern designation release data PED is read from the performance data memory 18, this data PED clears the register 40. For this reason,
The selection signal SB of the selector 20 becomes “0”, and the accompaniment pattern memory device 22 is supplied with the initial accompaniment pattern designation data IPS from the register 14. Therefore, the chord sounding timing signal CDT and the arpeggio sounding control data A
R, the bass tone generation control data BS, and the rhythm timing signal RP are all generated according to the normal accompaniment pattern. As a result, the performance pattern of the autorhythm is restored to that corresponding to the normal accompaniment pattern.

The first chord name data CHD read from the performance data memory 18 is stored in the chord register 42. Then, the chord name data CHD in the register 42 is supplied to the chord data forming circuit 44.

The auxiliary sound data forming circuit 44 includes a register 42.
The auxiliary sound data is formed on the basis of the chord name data from, and the formed auxiliary sound data is supplied to the musical sound forming circuit 46 for chords together with the root data as chord constituent sound data. As an example, if the chord name data CHD specifies a C major, the tone forming circuit 46 is supplied with chord constituent tone data corresponding to the three tones C, E, and G.

The tone forming circuit 46 forms a chord signal on the basis of the chord tone color data from the tone color register 16 and the chord component tone data from the subtone data forming circuit 44, and the timing of sending the formed chord signal. Is controlled according to the chord sounding timing signal CDT. At this time, the chord sound generation timing signal CDT is generated according to the normal accompaniment pattern as described above. Since the chord signal sent from the tone forming circuit 46 is supplied to the speaker 34 via the output amplifier 32, the auto chord sound is produced from the speaker 34 according to the normal accompaniment pattern and in synchronization with the rhythm.

After that, when the second chord name data CHD is read from the performance data memory 18, chord signal formation is performed in the same manner as described above, and the auto chord tone is as follows.
A chord corresponding to the second chord name data is generated. Similarly, the chord pronunciation changes each time new chord name data is read from the memory 18. Further, as described above, when the chord sounding timing signal CDT is generated according to the special accompaniment pattern, the performance pattern of the auto chord changes from that corresponding to the normal accompaniment pattern to that corresponding to the special accompaniment pattern. After that, when the chord tone generation timing signal CDT is generated according to the normal accompaniment pattern as described above, the performance pattern of the auto chord is restored to that corresponding to the normal accompaniment pattern.

The arpeggio tone data forming circuit 48 uses the arpeggio tone generation control data AR to create the chord register 42.
The arpeggio sound data corresponding to the arpeggio sounds to be sequentially sounded is formed for each chord data from. Here, as an example of the formation of the arpeggio sound data, when the arpeggio pronunciation control data AR indicates the first note, the root note data in the chord name data is sent as the first note data, and the data AR indicates the second note. Then, 3 is added to the root note data.
When the data AR indicates the third note, the third note data is added as the third note data, and the third note data is added as the third note data. Is done. Then, the arpeggio sound data from the data forming circuit 48 is supplied to the arpeggio musical sound forming circuit 50.

The tone forming circuit 50 forms an arpeggio tone signal based on the arpeggio tone color data from the tone color register 16 and the arpeggio tone data from the data forming circuit 48. The formed arpeggio tone signal is output from the output amplifier 32. Is supplied to the speaker 34 via. Therefore,
An automatic arpeggio sound is produced from the speaker 34.

When the chord register 42 sends out chord name data different from the previous chord name data, new arpeggio tone data is formed based on this chord name data, so that the auto arpeggio tone changes in association with the chord change. The performance pattern of the auto arpeggio changes in accordance with the type of accompaniment pattern read from the accompaniment pattern memory device 22 (that is, the normal accompaniment pattern or the special accompaniment pattern), as in the case of the chord described above.

The bass tone data forming circuit 52 forms bass tone data corresponding to the bass tone to be produced, based on the bass tone generation control data BS and the chord name data from the chord register 42. Here, the formation of the bass tone data can be performed by adding the bass tone generation control data BS which is the pitch data to the root tone data in the chord name data. Then, the data forming circuit 5
The bass tone data from 2 is supplied to the bass tone forming circuit 54.

The tone forming circuit 54 forms a bass tone signal based on the bass tone color data from the tone color register 16 and the bass tone data from the data forming circuit 52. The formed tone signal is output from the output amplifier 32. Is supplied to the speaker 34 via. Therefore, the auto bass sound is produced from the speaker 34.

When the chord register 42 sends out chord name data different from the previous chord name data, new bass tone data is formed based on the chord name data, so that the auto bass tone changes in association with the chord change. The performance pattern of the auto bass changes in accordance with the type of accompaniment pattern read from the accompaniment pattern memory device 22 as in the case of the chord described above.

The keyboard 56 is for manual performance.
The key switch circuit 58 supplies key-depression data indicating a key pressed by the keyboard 56 to the tone forming circuit 60.

The tone forming circuit 60 forms a tone signal corresponding to the depressed key based on the tone color data from the tone color selector 62 and the key depression data from the key switch circuit 58. Is supplied to the speaker 34 via the output amplifier 32. Therefore, the speaker 34
From, the manual performance sound is also produced.

The above-mentioned auto melody, auto rhythm,
Auto chords, auto arpeggios, auto basses, etc. can be selected to be sounded or not sounded by a selection switch (not shown). Therefore, the performer must select his favorite automatic performance sound and perform a manual performance in accordance with the selected automatic performance sound. You can

FIG. 4 shows an electronic musical instrument having an automatic musical instrument according to another embodiment of the present invention. The same parts as those in FIG. 1 are designated by the same reference numerals and detailed description thereof will be omitted. To do.

The main feature of the embodiment shown in FIG. 4 is that a one-package type removable memory device 70 is provided as music data storing means.

The memory device 70 has a performance music data memory 70a composed of a ROM and a special accompaniment pattern memory 70b composed of a ROM. In the memory 70a,
Stores initial accompaniment pattern specification data for musical pieces, tone color data for each musical tone type, and performance data.
The storage format of the performance data can be the same as that shown in FIG. Further, the memory 70b stores special accompaniment pattern data indicating a special accompaniment pattern unique to the musical piece.

The normal accompaniment pattern memory 72 is a ROM
In addition, a plurality of sets of normal accompaniment pattern data that can be commonly used for each musical piece are stored in advance.

When a performance start switch (not shown) is turned on, the data reading circuit 74 reads the initial accompaniment pattern designating data IPS from the performance music data memory 70a and supplies it to the register 76. Then, the data IPS stored in the register 76 is supplied to the normal accompaniment pattern memory 72 and specifies one set of normal accompaniment pattern data to be read. At this time, the memory 72 receives the output signal “1” of the inverter 78 as the enable signal EN and is in the enabled state. Therefore, in the memory 72, a set of initially specified normal accompaniment pattern data is read according to the count output of the counter 36. Therefore, the chord sounding timing signal C is output from the memory 72 in accordance with the initially designated normal accompaniment pattern.
DT, arpeggio sound control data AR, bass sound control data BS and rhythm timing signal RP are generated.

Next, the data reading circuit 74 reads the tone color data TCD for each tone type from the musical composition data memory 70a. The read tone color data TCD is stored in the tone color register 16 and used when forming various musical tones. As described above, the auto rhythm performance can be performed based on the rhythm tone color data stored in the tone color register 16 and the rhythm timing signal RP.

Next, the data reading circuit 74 reads performance data from the performance music data memory 70a. The performance data read operation in this case is performed using the tempo clock signal TCL and the code length data, and is similar to that described for the data read circuit 24 in FIG. Since the melody pitch data MLP sequentially read from the performance music data memory 70a is supplied to the melody pitch register 28,
The auto melody performance becomes possible as described above. Since the chord name data CHD read from the memory 70a is supplied to the chord register 42, the auto chord, auto arpeggio, and auto bass can be played in the same manner as described above.

When the data reading circuit 74 reads out the special accompaniment pattern designating data PST from the performance tune data memory 70a while the automatic melody performance is in progress, this data PST is stored in the register 80. Then, the signal MB = “1” of the mark bit in the data PST is supplied to the special accompaniment pattern memory 70b as the enable signal EN to enable the memory. At this time, the inverter 78 outputs the output signal "0" in response to the mark bit signal MB = "1", so that the normal accompaniment pattern memory 72 is disabled.

In the memory 70b in the enabled state, the special accompaniment pattern data is read according to the count output of the counter 36. Therefore, the chord sounding timing signal C is output from the memory 70b in accordance with the special accompaniment pattern.
DT, arpeggio sound control data AR, bass sound control data BS and rhythm timing signal RP are generated. As a result, the performance patterns of auto rhythm, auto chord, auto arpeggio, and auto bass are all changed from those corresponding to the normal accompaniment pattern to those corresponding to the special accompaniment pattern.

Thereafter, the data read circuit 74 reads the special accompaniment pattern designation release data PE from the performance data memory 70a.
When D is read, this data PED clears the register 80. Therefore, the special accompaniment pattern memory 70b is disabled and the normal accompaniment pattern memory 72 is enabled. Therefore, the chord sounding timing signal CDT and the arpeggio sounding control data A
R, the bass pronunciation control data BS, and the rhythm timing signal RP are all generated according to the normal accompaniment pattern, and as a result, the auto chord,
The performance patterns of auto arpeggio, auto bass, and auto rhythm all return to those corresponding to the normal accompaniment pattern.

In the above embodiment, the generation of chords, arpeggios, bass tones, and rhythm sounds is controlled according to the special accompaniment pattern common to these accompaniment sounds. The special accompaniment pattern may be stored and the generation of each accompaniment sound may be individually controlled in accordance with the corresponding special accompaniment pattern during performance.

Further, in the case of the embodiment shown in FIG. 4, the music piece data for a plurality of pieces of music and the special accompaniment pattern data are stored in the removable memory device 70, and the selected piece of music is selected. You may make it play automatically.

[0049]

As described above, according to the present invention, since the accompaniment pattern can be changed in the middle of the accompaniment pattern of a predetermined length, it is possible to obtain an effect in which a variety of accompaniments can be performed. ..

As for the automatic accompaniment, as in the prior art, data that indicates the number of times the accompaniment pattern of a predetermined length is repeatedly played is stored, and data indicating whether or not the performance is required and the accompaniment pattern number is stored for each bar. There is also an advantage that the storage capacity is small and the configuration is simple.

[Brief description of drawings]

FIG. 1 is a block diagram showing an electronic musical instrument provided with an automatic musical instrument according to an embodiment of the present invention.

FIG. 2 is a diagram showing a format of externally recorded data.

FIG. 3 is a diagram showing a format of performance data in a performance data memory.

FIG. 4 is a block diagram showing another embodiment of the present invention.

[Explanation of symbols]

10: external recording means, 12: data reading device, 14, 4
0, 76, 80: register, 18: performance data memory,
20: selector, 22: accompaniment pattern memory device, 22
a, 70b: special accompaniment pattern memory, 22b, 72:
Normal accompaniment pattern memory, 24, 74: data reading circuit, 36: pattern reading counter, 38: rhythm tone forming circuit, 46: chord tone forming circuit, 50: arpeggio tone forming circuit, 54: bass tone forming circuit,
70: removable memory device, 70a: performance music data memory.

Claims (1)

[Claims] 1. An information storage means for storing (a) pitch information and time information for playing a musical composition and pattern selection information for accompaniment pattern selection in accordance with the progress of the musical composition, and (b) a pattern for storing a plurality of accompaniment patterns. Storage means; (c) reading means for reading the pitch information and the pattern selection information from the information storage means in accordance with the time information; and (d) a tone signal in accordance with the pitch information from the information storage means. The musical accompaniment is automatically performed by generating the accompaniment sound signal according to the accompaniment pattern selected from the plurality of accompaniment patterns in accordance with the pattern selection information from the information storage means, thereby automatically accompaniment. An automatic performance device equipped with automatic performance means for performing.