CN107610684B - Electronic musical instrument control system - Google Patents

Abstract

The invention provides an electronic musical instrument control system, which comprises a plurality of modulation source trigger modules, a plurality of modulation target trigger modules, a plurality of modulation modules, a display module and a control module, wherein the modulation source trigger modules are connected with the modulation target trigger modules; the control module is used for enabling the display module to display modulation matrix parameters corresponding to all modulation parameters of the modulation target which can be connected with the modulation source when a certain modulation source trigger module is connected with a certain modulation target trigger module, enabling a setting value of an adjustment module corresponding to the modulation parameters of the modulation target which can be connected with the modulation source to serve as a value of the modulation matrix parameters corresponding to the modulation parameters, and enabling the display module to display the set modulation matrix parameters. The electronic musical instrument control system effectively solves the contradiction between the engine complexity, the panel size and the control intuition of the electronic musical instrument control system.

Description

Electronic musical instrument control system

Technical Field

The invention relates to the technical field of electronic control, in particular to an electronic musical instrument control system.

Background

An electronic music synthesizer, also called electronic synthesizer for short, is an electronic device for synthesizing various sound timbres. There are many ways to produce sound using synthesizers, and different timbres can be produced by initially connecting several fundamental waveform oscillators together, and varying their respective frequencies and amplitudes. Later, voltage control methods are used to modulate frequency, amplitude, waveform, duration, envelope, etc. In recent years, frequency modulation methods, waveform memory methods, pulse digital modulation methods, and the like have been used. Of course, the above methods may be mixed and used.

The electronic synthesizer will be briefly described below. Generally, electronic synthesizers can be simply classified into the following two types:

one, Analog Synthesizer (Analog Synthesizer)

Analog synthesizers can be simply divided into two categories:

(1) subtraction synthesizer

A large proportion of early analog synthesizers produced sound by a subtractive synthesizer that used complex waveforms as samples and then filtered some of the frequencies in the sample waveform to produce a different target waveform, as required by the frequency of the waveform from which the sound is to be produced, i.e. the target waveform.

(2) Adder synthesizer

Compared with a subtraction synthesizer, the addition synthesizer is a more complex synthesis method, which starts from a basic waveform, and then adds harmonics with different frequencies into the basic waveform according to the requirements of a target waveform to generate harmonic resonance of sound waves, thereby generating different timbres.

Second, Digital Synthesizer (Digital Synthesizer)

Digital synthesizers have used digital signals (e.g., sample-and-play synthesizers) initially, or have used digital computation methods to digitize analog signals beginning at some step in the processing of the oscillator signal. Although digital synthesizers may be considered "analog" to true analog synthesizers. However, the initial point of development of digital synthesizers is to expect musicians to play the timbre of the analog synthesizer more stably and perfectly. The prior digital synthesizer has hundreds of pre-prepared timbres, and a user can even download more master timbres on the network, and only needs to select the stored timbres to press a confirmation key during playing.

Digital synthesizers can be simply divided into three types:

(1) method for synthesizing digital Frequency Modulation (FM)

The digital FM synthesis was a digital electronic synthesizer method developed by stanford university in the 70 s. FM is a method using frequency modulation, and the above expression is realized by changing the phase of the carrier frequency by some waveform (modulation signal). According to its principle, any sound signal can be simulated in principle.

(2) Sampling playback synthesis method

Unlike the digital FM synthesis method, the waveform is not a basic waveform generated by an oscillator, but a waveform obtained by actually recording a musical instrument. The principle of the method is as follows: the method comprises the steps of firstly taking one or more periods of waveforms from a musical instrument as a base, then determining the starting point and the ending point of the period, and processing and testing the amplitude of the sampled waveforms to meet the requirement of sound playback. The amplitude of the waveform is adjusted by using a conventional envelope to simulate the effect of a natural musical instrument when the instrument is played naturally, the frequency of the waveform is subjected to re-processing such as filtering, and then the waveform and corresponding synthesis coefficients are written into a ROM memory of an electronic synthesizer. Since these waveforms and synthesis coefficients are stored in the ROM of the synthesizer in the form of a waveform table, the sampling synthesizer is also called a wavetable synthesizer.

(3) Digital-analog synthesis technique

With the increasing power of computers, synthesizers using digital-analog technology were emerging in the 90 s, using computers to simulate traditional waveforms and circuits such as envelopes, filters. This type of synthesizer has Nord Lead and Access Virus. As the price of processors and memory decreases, a variety of featured synthesizers emerge.

A prior art digital synthesizer, also known as a soft synthesizer, can be fully simulated in software using a common computer. This soft implementation requires reasonable programming and a fast CPU to achieve the delayed response as with conventional hardware. To reduce the delay, some professional sound card manufacturers have developed dedicated DSP devices (digital signal processing devices). The digital synthesizer has many advantages in user experience, such as keys for setting selection and switching, and knobs for setting multiple parameters, and the graphical interface of the soft synthesizer is very rich.

Whether it is an analog synthesizer or a digital synthesizer, it is a special manipulation system to realize the synthesis of electronic music. In the prior art, a control system of an electronic synthesizer has the following characteristics:

1) all manipulations of the analog synthesizer are integrated on the manipulation panel, such as MiniMoog; some modern small digital synthesizers, such as Roland Gaia, also do so, resulting in operational complexity limited to the panel size;

2) due to the connection extension module and the control complexity, the connection is complex, and a non-professional person cannot operate the device;

3) menu-type manipulations, such as MiniNova and Korg; wherein, a single page menu and a multi-page menu can be included; but the operation is complex and the flexibility is poor;

4) matrix manipulation, such as the MicroKorg series, but is complex;

5) the multi-screen or long-screen advanced matrix operation, such as Ultranova, has poor intuitiveness in operation.

Therefore, the existing electronic musical instrument control system has the contradiction that the engine complexity, the panel size and the control intuition can not be reconciled, so that the user experience is poor.

Disclosure of Invention

In view of the above drawbacks of the prior art, an object of the present invention is to provide an electronic musical instrument control system, which is used for solving the contradiction between the engine complexity, the panel size, and the control intuition of the electronic musical instrument control system, and improving the user experience.

To achieve the above and other related objects, the present invention provides an electronic musical instrument manipulation system, comprising: the modulation source trigger cluster comprises a plurality of modulation source trigger modules, and modulation sources corresponding to the modulation source trigger modules comprise a plurality of modulation parameters; the modulation target triggering cluster comprises a plurality of modulation target triggering modules, and the modulation targets corresponding to the modulation target triggering modules comprise a plurality of modulation parameters; a plurality of adjustment modules; each modulation parameter corresponds to one adjusting module; a display module; the control module is used for establishing connection between the modulation source trigger module and the modulation target trigger module when any modulation source trigger module and any modulation target trigger module are triggered according to preset conditions; and when a certain modulation source trigger module is connected with a certain modulation target trigger module, enabling the display module to display modulation matrix parameters corresponding to all modulation parameters of the modulation target which can be connected with the modulation source, taking a setting value of an adjustment module corresponding to the modulation parameters of the modulation target which can be connected with the modulation source as a value of the modulation matrix parameters corresponding to the modulation parameters, and enabling the display module to display the set modulation matrix parameters.

In an embodiment of the present invention, the modulation source trigger cluster includes a plurality of low frequency oscillator trigger modules and a plurality of envelope trigger modules.

In an embodiment of the present invention, the modulation target trigger cluster includes one or more combinations of a plurality of oscillator trigger modules, a frequency modulation trigger module, a ring modulation trigger module, a noise trigger module, a sound mixing trigger module, a plurality of filter trigger modules, an amplifier trigger module, a plurality of pre-effect trigger modules, a delay trigger module, a reverberation trigger module, a post-effect trigger module, a total volume trigger module, and a vocoder trigger module.

In an embodiment of the invention, the adjusting module employs a rotary potentiometer or an encoder.

In an embodiment of the present invention, the display module includes a plurality of display sub-modules corresponding to the adjustment modules one to one, and the display sub-modules are configured to display setting values of the corresponding adjustment modules.

In an embodiment of the present invention, the control module is further configured to, when any modulation source trigger module or modulation target trigger module is triggered according to the first manner, enable the display module to display current setting values of all modulation parameters corresponding to the modulation source trigger module or modulation target trigger module, and enable the display module to display the set modulation parameters, where the setting value of a certain adjustment module is used as a value of a corresponding modulation parameter.

In an embodiment of the present invention, the preset condition is that the modulation source trigger module and the modulation target trigger module are triggered simultaneously for more than a first preset time; the first mode is that the modulation source trigger module or the modulation target trigger module is triggered for no more than a second preset time.

In an embodiment of the present invention, the control module is further configured to indicate all modulation target trigger modules that have established a connection with any modulation source trigger module when the modulation source trigger module is triggered for more than a third preset time; and when any connected modulation target triggering module is triggered, entering a setting flow of the modulation matrix parameters of the corresponding modulation target by the corresponding modulation source.

In an embodiment of the present invention, the control module is further configured to indicate all modulation source trigger modules that have established connection with any modulation target trigger module when the modulation target trigger module is triggered for more than a fourth preset time; and when any connected modulation source trigger module is triggered, entering a setting flow of the modulation matrix parameters of the corresponding modulation target by the corresponding modulation source.

In an embodiment of the present invention, the electronic musical instrument is an electronic synthesizer. As described above, the electronic musical instrument manipulation system of the present invention has the following advantageous effects:

(1) the contradiction between the engine complexity, the panel size and the control intuition of the electronic musical instrument control system is effectively solved;

(2) the flexible setting of each modulation parameter of the modulation target and the modulation source and the modulation depth of each modulation parameter of the modulation target by the modulation source can be realized;

(3) the convenience of establishing and checking the modulation matrix is obviously improved;

(4) manual wiring connection is not needed, and the operation is simple;

(5) the user experience is good.

Drawings

FIG. 1 is a schematic view of an electronic musical instrument control system according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a panel structure of an electronic musical instrument control system according to an embodiment of the present invention.

Description of the element reference numerals

1 modulation source trigger module

2 modulation target trigger module

3 adjusting module

4 display module

5 control module

Detailed Description

The embodiments of the present invention are described below with reference to specific embodiments, and other advantages and effects of the present invention will be easily understood by those skilled in the art from the disclosure of the present specification. The invention is capable of other and different embodiments and of being practiced or of being carried out in various ways, and its several details are capable of modification in various respects, all without departing from the spirit and scope of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

It should be noted that the drawings provided in the following embodiments are only for illustrating the basic idea of the present invention, and the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, and the type, quantity and proportion of the components in actual implementation may be changed freely, and the layout of the components may be more complicated.

In electronic music, modulation refers to a way of using one waveform (control signal) to shape or change the characteristics of another waveform (modulated signal). The modulation source refers to an initiator which causes parameters to change according to a certain rule. A modulation target refers to one or more parameters that need to be varied according to a certain law.

As shown in fig. 1, in an embodiment, the electronic musical instrument control system of the present invention includes a modulation source trigger cluster 1, a modulation target trigger cluster 2, a plurality of adjusting modules 3, a display module 4 and a control module 5.

The modulation source trigger cluster 1 comprises a plurality of modulation source trigger modules, and modulation sources corresponding to the modulation source trigger modules comprise a plurality of modulation parameters.

Preferably, the modulation source triggering module adopts a button, and the modulation source triggering module is triggered by pressing the button. More preferably, the modulation source triggering module adopts a button with a lamp, and whether the modulation source triggering module is triggered or not is indicated by the on and off of the button with the lamp.

As shown in fig. 2, in an embodiment, the modulation source trigger cluster includes modulation source trigger modules such as several low frequency oscillator trigger modules (LFO1, LFO2, LFO3, LFO4) and several envelope trigger modules (ENV1, ENV2, ENV3, ENV 4). The modulation source corresponding to the low-frequency oscillator triggering module is a low-frequency oscillator; the modulation source corresponding to the envelope triggering module is the envelope.

The same or different number of modulation parameters are included for different modulation sources. For example, the low frequency oscillator includes modulation parameters as shown in table 1.

TABLE 1 modulation parameters of Low Frequency Oscillator (LFO)

The modulation target trigger cluster 2 comprises a plurality of modulation target trigger modules, and the modulation targets corresponding to the modulation target trigger modules comprise a plurality of modulation parameters.

Preferably, the modulation target triggering module adopts a button, and the modulation target triggering module is triggered by pressing the button. More preferably, the modulation target triggering module adopts a button with a lamp, and whether the modulation target triggering module is triggered or not is indicated by the on and off of the button with the lamp.

As shown in fig. 2, in one embodiment, the modulation target trigger cluster includes one or more combinations of oscillator trigger modules (OSC1, OSC2, OSC3), frequency modulation trigger modules (FM1, FM2, FM3), ring modulation trigger module (RM), NOISE trigger module (NOISE), mixing trigger Module (MIX), FILTER trigger modules (FILTER1, FILTER2), amplifier trigger module (AMP), pre-effect trigger modules (PREFX1, PREFX2), DELAY trigger module (DELAY), reverberation trigger module (REVERB), post-effect trigger module (POSTFX), total volume trigger Module (MASTER), and VOCODER trigger module (VOCODER).

The modulation target corresponding to the oscillator trigger module is an oscillator; the modulation target corresponding to the frequency modulation trigger module is frequency, the modulation target corresponding to the ring modulation trigger module is ring modulation, the modulation target corresponding to the noise trigger module is noise, the modulation target corresponding to the sound mixing trigger module is sound mixing, the modulation target corresponding to the filter trigger module is a filter, the modulation target corresponding to the amplifier trigger module is an amplifier, the modulation target corresponding to the pre-effect trigger module is a pre-effect, the modulation target corresponding to the delay trigger module is delay, the modulation target corresponding to the reverberation trigger module is reverberation, the modulation target corresponding to the post-effect trigger module is post-effect, the modulation target corresponding to the total volume trigger module is total volume, and the modulation target corresponding to the vocoder trigger module is vocoder.

The same or different number of modulation parameters are included for different modulation targets. For example, the modulation parameters included in the noise are shown in table 2.

TABLE 2 modulation parameters of noise

Modulation parameter	Modulation parameter meaning
		NoisType	Type of noise
NoisFilt	Noise filter type
		NoiseFc	Noise filter Fc
NoiseRes	Noise filter Resonance

The above-described modulation source trigger cluster and modulation target trigger cluster are one preferred embodiment, and are not limited to this preferred embodiment.

The adjusting module 3 is connected with the modulation source trigger cluster 1 and the modulation target trigger cluster 2. Each modulation parameter corresponds to one of the adjustment modules 3. The adjusting module 3 is configured to set a parameter value of a modulation parameter or a modulation matrix parameter corresponding to the adjusting module. Preferably, the adjustment module 3 employs a rotary potentiometer encoder. Wherein, the rotary potentiometer realizes the fine setting of parameter values through 360 degrees of rotation. It should be noted that the correspondence between the modulation parameters and the adjustment module is set by the control module 5, and is initialized when the system is started.

The display module 4 is connected with each other and adopts an LCD display screen or an LED display screen. Preferably, the display module adopts a two-line display mode, wherein one line displays the name of the parameter, and the other line displays the setting value of the parameter.

The control module 5 is connected with the modulation source trigger cluster 1, the modulation target trigger cluster 2, the plurality of adjusting modules 3 and the display module 4, and is used for establishing connection between the modulation source trigger module and the modulation target trigger module when any modulation source trigger module and any modulation target trigger module are triggered according to preset conditions; and when a certain modulation source trigger module is connected with a certain modulation target trigger module, enabling the display module to display modulation matrix parameters corresponding to all modulation parameters of the modulation target which can be connected with the modulation source, taking a setting value of an adjustment module corresponding to the modulation parameters of the modulation target which can be connected with the modulation source as a value of the modulation matrix parameters corresponding to the modulation parameters, and enabling the display module to display the set modulation matrix parameters.

In an embodiment, the predetermined condition is that the modulation source trigger module and the modulation target trigger module are triggered simultaneously for more than a first predetermined time. That is, if any modulation source trigger module and any modulation target trigger module are triggered simultaneously for more than a first preset time, the connection between the modulation source trigger module and the modulation target trigger module can be established.

Preferably, the first preset time is 1 s.

The modulation matrix parameter refers to the modulation depth of the modulation source to the modulation parameter of the modulation target. The modulation depth in the present invention refers to the degree of modulation of the modulation source on the modulation matrix parameters of the modulation target.

Specifically, a connection between a modulation source trigger module and a modulation target trigger module is established first, so that a corresponding modulation target can be modulated by a corresponding modulation source; once the connection is established, the display module displays the modulation matrix parameters corresponding to all the modulation parameters capable of establishing the connection with the corresponding modulation source in the modulation parameters of the corresponding modulation target, so as to set the parameter values of the corresponding modulation matrix parameters through the adjustment module corresponding to the modulation parameters, that is, the modulation depth of the modulation source to the modulation target.

For example, modulation of Filter Cutoff (modulation target) using ENV1 (modulation source) is applied to the bass tone of the classical synthesizer, modulation of Filter Cutoff (modulation target) using sawtooth wave LFO1 (modulation source) is applied to the tone common to the science fiction tablet, and modulation of pitch (modulation target) using square wave (modulation source) is applied to the nintendo red-white machine. Different effects of sound timbre are synthesized by setting different modulation depths. In one embodiment, the current value of the modulation parameter OSC2Type of the modulation source OSC2 is set to 64; if the OSC2Type of the desired sound to be heard is left-right shaking, the modulation depth of the LFO1 (modulation source) for the OSC2 (modulation target) modulation matrix parameter OSC2Type is set to 10 after the modulation connection between LFO1 (modulation source) and OSC2 (modulation target) is established. Thus, the actual value of the OSC2 automatically oscillates between 54-74.

It should be noted that, when the modulation depth is 0, it indicates that the modulation connection between the modulation source and the modulation target is turned off.

In an embodiment of the present invention, the control module is further configured to, when any modulation source trigger module or modulation target trigger module is triggered according to the first manner, enable the display module to display current setting values of all modulation parameters corresponding to the modulation source trigger module or modulation target trigger module, and enable the display module to display the set modulation parameters, where the setting value of a certain adjustment module is used as a value of a corresponding modulation parameter.

Therefore, in the electronic musical instrument control system of the invention, based on the operations of the modulation source triggering module, the modulation target triggering module and the adjusting module, the control and the viewing of the modulation parameters of the modulation source and the modulation target can be realized under the control of the control module, and the parameter values of the corresponding modulation parameters are displayed by the display module.

Specifically, when the modulation parameters of the modulation source or the modulation target need to be checked, the corresponding modulation source trigger module or the modulation target trigger module is triggered according to a first manner, so that the display module is controlled by the control module to display the current setting values of all the modulation parameters corresponding to the modulation source trigger module or the modulation target trigger module. The first mode is that the modulation source trigger module or the modulation target trigger module is triggered for no more than a second preset time. Preferably, the second preset time is 1 s. When the modulation parameters of the modulation source or the modulation target need to be set, the value of the modulation parameters is set by operating the adjustment module corresponding to the modulation parameters, and the control module controls the display module to display the set parameter values of the modulation parameters in real time for the user to refer to.

In an embodiment, the display module includes display sub-modules corresponding to the adjustment modules one to one, and the display sub-modules are configured to display setting values of the corresponding adjustment modules. As shown in fig. 2, in this embodiment, 8 rotary potentiometers are included as the adjustment module, and 8 display sub-modules are respectively in one-to-one correspondence with the 8 rotary potentiometers, and are used to display the setting values of the corresponding rotary potentiometers. Specifically, when a modulation source or a modulation parameter of a modulation target or a modulation matrix parameter of the modulation source to the modulation target is set by a certain adjustment module, the display sub-module corresponding to the adjustment module displays the set modulation parameter or modulation matrix parameter in real time, and the other display sub-modules do not change.

Preferably, when the number of the parameters is larger than the number of the display sub-modules, all the parameters can be displayed in a split screen display mode. For example, the tone as the modulation target includes 11 modulation parameters, the display module includes 8 display sub-modules, 6 display sub-modules are adopted to display 6 modulation parameters on the first screen, and 1 display sub-module is shifted to the next screen; in the second screen, 5 display submodules are adopted to display the remaining 5 modulation parameters, so that the display of all the parameters is completed.

From the above, the present invention can realize the flexible setting of the modulation depth of each modulation parameter of the modulation target and the modulation source and the modulation matrix parameter of the modulation source to the modulation target, and has great advantages compared with the prior art. For example, when modulation from ENV3 (modulation source) to Filter response (modulation target) is performed by Mininova, it is necessary to enter many layers of menus, and the modulation can be realized through very complicated menu operations. On the matrix brute, although the matrix key is directly operated, a very large space is required to visit the key of the matrix; and the space of the matrix becomes drastically larger as the number of sources and targets grows. The module synthesizer is realized through physical connection, so that the cost is high, and the occupied space is large.

When the modulation target trigger modules connected with the current modulation source trigger module need to be checked, the control module is further configured to indicate all modulation target trigger modules connected with the modulation source trigger module when any modulation source trigger module is triggered for more than a third preset time. Preferably, the indication may be made by turning on or off an indicator light associated with the modulation target triggering module. When the modulation target triggering module is a button with a lamp, the modulation target triggering module can indicate through the flashing of the button with the lamp. After the indication is completed, triggering any modulation target triggering module for establishing connection can enter a setting process of the modulation source to the modulation matrix parameters of the modulation target, namely setting the corresponding modulation matrix parameters through the adjusting module.

Preferably, the third preset time is 1 s.

When the modulation source trigger modules connected with the current modulation target trigger module need to be checked, the control module is further configured to indicate all modulation source trigger modules connected with the modulation target trigger module when any modulation target trigger module is triggered for more than a fourth preset time. Preferably, the indication may be made by turning on or off an indicator light associated with the modulation source triggering module. When the modulation source triggering module is a button with a lamp, the indication can be carried out through the flashing of the button with the lamp. After the indication is completed, triggering any modulation source triggering module for establishing connection can enter a setting process of the modulation source to the modulation matrix parameters of the modulation target, namely setting the corresponding modulation matrix parameters through the adjusting module.

Preferably, the fourth preset time is 1 s.

Therefore, the parameter checking mode is very concise, and the user experience is good. In Mininova, however, deep menus still need to be entered for viewing, operating in a manner equivalent to modulation creation. Although the MaxBrute is relatively intuitive, the problems of space occupation and contradiction of degree of freedom still exist. The module synthesizer is used for directly checking the physical connection, and the checking of the connection is very inconvenient.

Preferably, the electronic musical instrument of the present invention includes an electronic synthesizer.

In conclusion, the electronic musical instrument control system effectively solves the contradiction between the engine complexity, the panel size and the control intuition of the electronic musical instrument control system; the flexible setting of each modulation parameter of the modulation target and the modulation source and the modulation depth of each modulation parameter of the modulation target by the modulation source can be realized; the convenience of establishing and checking the modulation matrix is obviously improved; manual wiring connection is not needed, and the operation is simple; the user experience is good. Therefore, the invention effectively overcomes various defects in the prior art and has high industrial utilization value.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (10)

1. An electronic musical instrument manipulation system characterized by: the method comprises the following steps:

the modulation source trigger cluster comprises a plurality of modulation source trigger modules, and modulation sources corresponding to the modulation source trigger modules comprise a plurality of modulation parameters;

the modulation target triggering cluster comprises a plurality of modulation target triggering modules, and the modulation targets corresponding to the modulation target triggering modules comprise a plurality of modulation parameters;

a plurality of adjustment modules; each modulation parameter corresponds to one adjusting module;

a display module;

the control module is used for establishing connection between the modulation source trigger module and the modulation target trigger module when any modulation source trigger module and any modulation target trigger module are triggered according to preset conditions; when a certain modulation source trigger module is connected with a certain modulation target trigger module, enabling the display module to display modulation matrix parameters corresponding to all modulation parameters of the modulation target which can be connected with the modulation source, taking a setting value of an adjusting module corresponding to the modulation parameters of the modulation target which can be connected with the modulation source as a value of the modulation matrix parameters corresponding to the modulation parameters, and enabling the display module to display the set modulation matrix parameters; the modulation matrix parameter refers to the modulation depth of a modulation source to the modulation parameter of a modulation target; the modulation depth refers to the modulation degree of the modulation source on the modulation matrix parameters of the modulation target.

2. The electronic musical instrument manipulation system according to claim 1, wherein: the modulation source trigger cluster comprises a plurality of low-frequency oscillator trigger modules and a plurality of envelope trigger modules.

3. The electronic musical instrument manipulation system according to claim 1, wherein: the modulation target trigger cluster comprises one or more combinations of a plurality of oscillator trigger modules, a frequency modulation trigger module, a ring modulation trigger module, a noise trigger module, a sound mixing trigger module, a plurality of filter trigger modules, an amplifier trigger module, a plurality of front effect trigger modules, a delay trigger module, a reverberation trigger module, a rear effect trigger module, a total volume trigger module and a vocoder trigger module.

4. The electronic musical instrument manipulation system according to claim 1, wherein: the adjusting module adopts a rotary potentiometer or an encoder.

5. The electronic musical instrument manipulation system according to claim 1, wherein: the display module comprises a plurality of display sub-modules which are in one-to-one correspondence with the adjusting modules, and the display sub-modules are used for displaying the setting values of the corresponding adjusting modules.

6. The electronic musical instrument manipulation system according to claim 1, wherein: the control module is further configured to, when any one of the modulation source trigger module and the modulation target trigger module is triggered according to the first mode, cause the display module to display current setting values of all modulation parameters corresponding to the modulation source trigger module or the modulation target trigger module, take the setting value of a certain adjustment module as a value of the corresponding modulation parameter, and cause the display module to display the set modulation parameter.

7. The electronic musical instrument manipulation system according to claim 6, wherein: the preset condition is that the modulation source trigger module and the modulation target trigger module are triggered simultaneously for more than a first preset time; the first mode is that the modulation source trigger module or the modulation target trigger module is triggered for no more than a second preset time.

8. The electronic musical instrument manipulation system according to claim 1, wherein: the control module is also used for indicating all modulation target trigger modules which are connected with any modulation source trigger module when the modulation source trigger module is triggered for more than a third preset time; and when any connected modulation target trigger module is triggered, entering a setting flow of modulation matrix parameters of a modulation target corresponding to a corresponding modulation source.

9. The electronic musical instrument manipulation system according to claim 1, wherein: the control module is also used for indicating all modulation source trigger modules which are connected with any modulation target trigger module when the modulation target trigger module is triggered for more than a fourth preset time; and when any connected modulation source trigger module is triggered, entering a setting flow of modulation matrix parameters of a modulation target corresponding to the corresponding modulation source.

10. The electronic musical instrument manipulation system according to claim 1, wherein: the electronic musical instrument is an electronic synthesizer.

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