JP6790338B2 - Electronic musical instrument - Google Patents

Description

The present invention relates to an electronic musical instrument.

In electronic musical instruments, performance sounds according to user operations are electrically synthesized and output. In conventional electronic musical instruments, MIDI (Musical Instrument) is used as a sound source.
Semiconductor chips such as Digital Interface) sound source chips, FM (Frequency Modulation) sound source chips, and PCM (Pulse Code Modulation) sound source chips have been used. By operating the sound source chip according to the pre-installed firmware (software) in some electronic musical instruments, it is possible to play the performance sound of the tone selected by the user from a plurality of predetermined tones. Some were composed of.

If the elements that the performer of the electronic musical instrument perceives during the performance, for example, the operation feeling of the operator during the performance operation can be made to match the type of the above-selected timbre, the performance (user) will be satisfied. It can be further improved. Patent Documents 1 to 4 disclose techniques that enable such a situation. Patent Documents 1 to 3 describe a technique for adjusting the operation feeling (weight of touch) of a key provided in a keyboard device of an electronic keyboard instrument. More specifically, each operator (each key) mounted on the apparatus described in Patent Documents 1 to 3 is provided with a magnetic material. The magnetic force corresponding to the strength of the magnetic field generated by the magnetic material and the magnetic force corresponding to the strength of the magnetic field generated by the electromagnet provided at a position substantially opposite to the magnetic material repel each other, thereby pressing the key. Resistant to. This resistance is transmitted to the user as an operation feeling for the key pressing operation. The magnitude of the magnetic force generated by this electromagnet is determined by the amount of current supplied to the electromagnet. Therefore, by adjusting the amount of the current, the user can feel a desired operation feeling for the key pressing operation.

Patent Document 4 describes a technique for controlling a click feeling (a feeling of being caught in a moving operation) of a motor fader. More specifically, a motor is attached to a holder provided on the motor fader described in Patent Document 4, and a pulley is provided on the rotating shaft of the motor. Another pulley is provided at a position opposite to the motor in this holder, and a belt is laid between the pulleys. An operation knob used when the user performs a slide operation is connected to this belt. According to this motor fader, when the user performs a slide operation via the operation knob, if the operation position of the fader (actual position of the operation knob) is within a predetermined range, a predetermined voltage (torque indicated voltage) is applied to the motor. ) Is given to generate torque in the motor according to the operating position. Therefore, it is possible to transmit the click feeling according to the operation position of the fader to the user.

Japanese Unexamined Patent Publication No. 09-218682 Japanese Unexamined Patent Publication No. 2000-089750 JP-A-2009-092861 Japanese Unexamined Patent Publication No. 11-097218

If the technique described in each of the above patent documents is used, the operation can be performed by changing the setting of the above current value (Patent Documents 1 to 3) or the voltage value (Patent Document 4) according to the user selecting a tone color. It is possible to make the operation feeling of the child (key or fader) suitable for the selected tone type. However, in this case, the user has to change the setting of the current value or the voltage value every time the tone color is selected, which is troublesome.

The present invention has been made in view of the circumstances described above, and an object of the present invention is to provide a technique for making the operation feeling for a performance operation suitable for the type of timbre without bothering the user.

The present invention includes an operation input unit that includes a performance operator and accepts a user's operation, an operation feeling imparting unit that generates a resistance force against the operation of the performance operator in response to an operation feeling control signal, and an operation on the performance operator. A performance sound signal generation process for generating a performance sound signal representing a performance sound of a preselected type of sound and an operation feeling control signal generation process for generating an operation feeling control signal according to the sound color are executed according to the above. Provided is an electronic musical instrument characterized by having a control unit.

According to the present invention, the control unit generates an operation feeling control signal according to the type of the tone color selected in advance, and the operation feeling control unit generates a drag force against the operation of the performance operator according to the operation feeling control signal. Let me. The drag force is transmitted to the user through the performance operator for which the performance operation is performed, and the user feels the operation feeling for the performance operation. In the present invention, the user does not need to set the current value and the like related to the operation feeling control signal one by one according to the selection of the type of tone color. That is, according to the present invention, it is possible to make the operation feeling of the performance operation suitable for the type of timbre without taking time and effort for the user.

It is a perspective view which shows the appearance of the electronic musical instrument 10 of one Embodiment of this invention. It is a figure which shows an example of the usage mode of an electronic musical instrument 10. It is a figure for demonstrating the download of the sound source software to the electronic musical instrument 10. It is a figure which shows an example of the hardware composition of the electronic musical instrument 10. It is a figure which shows an example of the software structure of the electronic musical instrument 10. It is a figure which shows an example of the structure of the operation feeling giving part 40a provided in the performance operation input module 110a. It is a figure which shows an example of the structure of the operation feeling giving part 40b provided in the performance operation input module 110b. It is a figure which shows an example of the structure of the operation feeling giving part 40b provided in the performance operation input module 110c. It is a figure which shows the operation feeling control table stored in the sound source software C and D. It is a figure which shows an example of the image displayed on the display medium attached to each key of a keyboard.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view showing the appearance of the electronic musical instrument 10 according to the embodiment of the present invention.
As shown in FIG. 1, the electronic musical instrument 10 has performance operation input modules 110a, 110b1 to b8 and 110c1 to 110c11 as input devices for allowing the user to perform a performance operation. Each of the performance operation input modules 110a, 110b1 to b8 and 110c1 to 110c11 is provided with an operator for performance operation. The performance operation in the present embodiment includes an operation for adjusting the volume of the performance sound and an operation for instructing the electronic musical instrument 10 to start or end the sound of the performance sound at a certain pitch. It includes operations such as adjusting the degree of sound effect to be performed.

As shown in FIG. 1, the performance operation input module 110a is an input device imitating a piano keyboard, and each of the black key and the white key is an operator for performance operation. By pressing each key provided on the performance operation input module 110a, the user of the electronic musical instrument 10 can instruct the electronic musical instrument 10 to perform the pitch of the performance sound and start the sound of the performance sound, and release the key press. By doing so, it is possible to instruct the end of the sound of the performance sound. In the present embodiment, an input device imitating a piano keyboard is used as a performance operation input module for instructing the user to instruct the pitch, start and end of the performance sound, but a plucked string instrument such as a guitar or a violin is rubbed. An input device that imitates a wind instrument such as a stringed instrument or a trumpet may be used. For example, in the case of an input device that imitates a plucked string instrument or a stringed string instrument, the pitch, the start of pronunciation, and the end of pronunciation may be instructed by an operator that imitates a string. Further, in the case of an input device imitating a wind instrument, the pitch, the start of pronunciation, and the end of pronunciation may be instructed by an operator imitating a singing mouth or a valve of the wind instrument.

Each of the performance operation input modules 110b1 to 110b8 is provided with four controls imitating a volume (potency meter) as controls for performance operations. In the present embodiment, each of the performance operation input modules 110b1 to 110b8 is associated with different frequency bands, and each of the four controls imitating the volume is each frequency band obtained by dividing the frequency band into four. Is associated with. The user of the electronic musical instrument 10 can operate, for example, an operator provided on the performance operation input module 110b1 to control a signal component belonging to the band corresponding to the operator among the performance sounds output from the electronic musical instrument 10. You can adjust the volume. In the following, when it is not necessary to distinguish each of the performance operation input modules 110b1 to 110b8, it is referred to as "performance operation input module 110b". The performance operation input module 110b of the present embodiment is provided with four controls imitating a volume, but the number of controls provided in the performance operation input module 110b may be one to three. It may be 5, or more.

The performance operation input modules 110c1 to 110c11 are provided with an operator imitating a slider as an operator for the performance operation. In the present embodiment, different acoustic effects are associated with each of the performance operation input modules 110c1 to 110c11. For example, a pitch bend is associated with the performance operation input module 110c1, and the user of the electronic musical instrument 10 can adjust the degree of pitch bend given to the performance sound by operating the operator of the performance operation input module 110c1. it can. The performance operation input modules 110c1 to 110c11 are also referred to as "performance operation input module 110c" when it is not necessary to distinguish between them. The performance operation input module 110c of the present embodiment is provided with one operator imitating a slider, but two or more operators may be provided. In the present embodiment, an operator that imitates a volume or a slider is used as an operator for adjusting the degree of the acoustic effect given to the performance sound, but an operator that imitates a switch may also be used.

In the following, when it is not necessary to distinguish each of the performance operation input modules 110a, 110b and 110c, it is referred to as "performance operation input module 110". Although detailed illustration is omitted in FIG. 1, the electronic musical instrument 10 has a display unit, a sound output unit, and a setting operation for allowing the user of the electronic musical instrument 10 to perform various setting operations in addition to the performance operation input module 110. Includes an input section. The display unit is, for example, a display device such as a liquid crystal display, and displays an image or the like prompting execution of a setting operation. The sound output unit is, for example, a speaker, and outputs a performance sound according to a user's performance operation. The setting operation input unit is a numeric keypad, a mouse, or the like.

In the present embodiment, the performance operation input module 110 is detachably configured with respect to the electronic musical instrument 10. Therefore, the user of the electronic musical instrument 10 can customize the type and number of the performance operation input modules 110 attached to the electronic musical instrument 10 (that is, the user interface for the performance operation) according to his / her taste. For example, the performance operation input module 110a is removed (see FIG. 2A), and another performance operation input module (for example, a performance operation input module imitating a stringed instrument such as a violin) is attached. If the performance operation input module 110 shown in FIG. 1 includes a performance operation input module 110 that is not used by the user of the electronic instrument 10, the unused performance operation input module 110 may be removed and removed. For example, FIG. 2B illustrates a case where the performance operation input module 110b1 and the performance operation input module 110c1 are removed. Further, of course, the performance operation input module 110 may be further attached to the electronic musical instrument 10 shown in FIG.

In addition, the electronic musical instrument 10 of the present embodiment does not have hardware (so-called sound source chip or the like) that plays a role of a sound source, and the feature of the present embodiment also appears in this respect. In the electronic musical instrument 10 of the present embodiment, the sound source is realized by software. Hereinafter, software that plays the role of a sound source is referred to as "sound source software". By installing sound source software according to one's taste and the type of music to be played on the electronic musical instrument 10, the user of the electronic musical instrument 10 can adjust the sound color or the type of music to be played according to his / her taste. It is possible to output the performance sound of the sound to the electronic musical instrument 10 and to add a desired acoustic effect (that is, customize the performance sound). The sound source software includes a performance sound database that stores waveform data representing the sonic shape of the performance sound of an instrument in association with the pitch, and waveform data corresponding to the pitch specified by the user by the performance operation. It includes a read-out control program for causing the electronic musical instrument 10 to execute a process of reading from the computer, performing signal processing according to the sound effect instructed to be given by the performance operation, and outputting the data. The sound source software of the present embodiment was composed of a performance sound database and a read control program. However, the operation of hardware sound sources such as FM sound source chips is performed by the CPU (Central).
A program to be simulated by the Processing Unit) may be used as sound source software.

Various modes can be considered for installing the sound source software on the electronic musical instrument 10, but in the present embodiment, the above installation is realized by communication via a telecommunication line such as the Internet. More specifically, in the present embodiment, as shown in FIG. 3, a sound source server device 30 in which a plurality of sets of sound source software and tag information indicating the characteristics of the sound source software are associated and stored is stored in advance in the telecommunication line 20. It is connected. The sound source server device 30 is a computer device having a web server function, and has a function of returning sound source software corresponding to tag information received via a telecommunication line 20 to a source of the tag information.

Specific examples of the tag information include a character string indicating the tone of the performance sound emitted by operating the electronic musical instrument 10 according to the sound source software, a character string indicating the genre of the music suitable for playing with the tone, and the like. Can be mentioned. In the example shown in FIG. 3, the sound source software A is stored in the sound source server device 30 in association with the tag information called AAA (hereinafter referred to as “tag information AAA”), and the tag information called BBB (hereinafter referred to as “tag information”). The sound source software B is stored in the sound source server device 30 in association with the "BBB"). The tag information in the present embodiment is a character string indicating the genre of the music. Specifically, the tag information AAA represents classical music, and the tag information BBB represents jazz. The sound source software A in the present embodiment is software that reproduces the piano playing sound of the tone suitable for playing a classical song on the electronic musical instrument 10, and the sound source software B is the software that reproduces the piano playing sound of the tone suitable for playing jazz on the electronic musical instrument 10. It is software to reproduce in.

A web browser is pre-installed on the electronic musical instrument 10 of the present embodiment. The web browser is software that enables a computer to perform WWW-compliant data communication. In the present embodiment, as shown in FIG. 3, the electronic musical instrument 10 is connected to the telecommunications line 20, and the sound source server device 30 is made to perform communication with the sound source server device 30 according to the web browser. Search for sound source software stored in, acquisition (download) of sound source software from the sound source server device 30, and installation of the acquired sound source software on the electronic musical instrument 10 are realized. In addition, in order to facilitate the search by the web browser, the above tag information is associated with the sound source software corresponding to the tag information and the information indicating the storage location thereof (so-called URI), and registered in advance in a search engine or the like. You can leave it.

Further, in the present embodiment, the web browser is also used for executing the sound source software (more accurately, the read control program included in the sound source software). That is, the sound source software of this embodiment is a web application executed in the program execution environment provided by the web browser. In this embodiment, the sound source software is used as a web application because it does not require a program execution environment other than a browser (for example, JVM in Java (registered trademark)) and depends on the OS (Operating System), the model of the electronic musical instrument 10, and the like. This is to prevent sex from occurring.

In this way, the electronic musical instrument 10 of the present embodiment can customize the user interface and sound source for the performance operation, but the electronic musical instrument 10 is further operated exclusively for the performance operation when the performance sound is customized. It is configured so that the operation feeling of the child can be made according to the type of the sound source, and this point is a feature of the present embodiment.

FIG. 4 is a diagram showing an example of the hardware configuration of the electronic musical instrument 10.
As shown in FIG. 4, the electronic musical instrument 10 includes a sound output unit 120, a setting operation input unit 130, a control unit 140, a communication interface (hereinafter referred to as “I / F”) unit 150, a module I / F unit 160, and a storage unit. It has a unit 170, a display unit 190, and a bus 180 that mediates data transfer between these components.

A performance operation input module 110 is detachably attached to the module I / F unit 160. Specific examples of the module I / F unit 160 include USB I / F and serial I / F. The module I / F unit 160 mediates the exchange of data between the performance operation input module 110 connected to itself and the control unit 140. As a specific example of the data given from the performance operation input module 110 to the control unit 140 via the module I / F unit 160, an operation signal representing the user's operation content with respect to the operator provided in the performance operation input module 110 Can be mentioned.

The control unit 140 is, for example, a CPU. The control unit 140 functions as a control center of the electronic musical instrument 10 by executing various programs stored in the storage unit 170 (more accurately, the non-volatile storage unit 174). The communication I / F unit 150 is, for example, a NIC (Network Interface Card) and is connected to the telecommunication line 20. The communication I / F unit 150 delivers the data received from the telecommunication line 20 to the control unit 140, while transmitting the data given by the control unit 140 to the telecommunication line 20.

As shown in FIG. 4, the storage unit 170 has a volatile storage unit 172 and a non-volatile storage unit 174. The volatile storage unit 172 is, for example, a RAM (Random Access Memory). The volatile storage unit 172 is used as a work area when executing various software. The non-volatile storage unit 174 is, for example, a hard disk or a flash ROM. The sound source software downloaded from the sound source server device 30 is stored in the non-volatile storage unit 174. Further, as shown in FIG. 4, the non-volatile storage unit 174 stores in advance the OS software 174a and the browser runtime 174b for realizing the OS in the control unit 140. FIG. 5 is a diagram showing a software configuration (hierarchical relationship between software) in the electronic musical instrument 10. The OS software 174a and the browser runtime 174b will be described with reference to FIG.

As shown in FIG. 5, the OS software 174a includes a kernel, driver software, and a web browser. The driver software is software for causing the control unit 140 to control the operation of the performance operation input module 110, the setting operation input unit 130, and the communication I / F unit 150 connected to the module I / F unit 160. The kernel is a program that causes the control unit 140 to control the execution of other software (software other than the kernel) such as a web browser. The control unit 140 reads the kernel from the non-volatile storage unit 174 to the volatile storage unit 172 when the power of the electronic musical instrument 10 (not shown in FIG. 4) is turned on, and starts the execution thereof. The control unit 140 operating according to the kernel communicates with the performance operation input module 110 of the connection destination via the module I / F unit 160 to identify the type, and the driver software corresponding to the performance operation input module 110. Is read out to the volatile storage unit 172. For the identification of the type of the performance operation input module 110 connected to the module I / F unit 160, an existing technique such as plug-adon play may be appropriately used. After that, the control unit 140 controls the operation of the performance operation input module 110 according to the driver software read into the volatile storage unit 172. The same applies to the operation control of the setting operation input unit 130 and the like.

The control unit 140, which has completed reading various driver software and is operating according to the kernel, can execute a program according to a user's instruction given via the setting operation input unit 130. For example, when the execution of the web browser is instructed via the setting operation input unit 130, the web browser and the browser runtime 174b are read from the non-volatile storage unit 174 to the volatile storage unit 172, and the execution of the web browser is started. The control unit 140 operating according to the web browser is provided with a function of searching and acquiring various information according to a user's operation on the setting operation input unit 130, a function of executing a web application, and the like. The browser runtime 174b is a set of subroutines that realize functions common to various web applications, and is appropriately referred to by the control unit 140 in the execution process of the web application.

As described above, in the present embodiment, the web browser is used when acquiring the sound source software from the sound source server device 30 and executing the sound source software. The sound source software is a web application executed in the program execution environment provided by the web browser. As mentioned above, the sound source software includes a read control program and a performance sound database. The read control program included in the sound source software has a predetermined sound color according to the user's performance operation (in the present embodiment, the sound color of the performance sound represented by the waveform data stored in the performance sound database, that is, This is a program for causing the control unit 140 to execute a performance sound signal generation process of generating a performance sound signal of a performance sound of a sound source software installed in the electronic musical instrument 10 according to the type of sound source software and giving it to the sound output unit 120. The performance sound signal generation process includes the following first to third processes. The first process is a process of converting an operation signal representing a user's performance operation into a control signal such as a note-on signal instructing the start of sounding a sound of a certain pitch or a signal instructing the addition of a sound effect such as pitch bend. Is. The second process is a process of reading the waveform data of the pitch represented by the control signal from the performance sound database. The third process is a process of adding an acoustic effect or the like to the waveform data and outputting it as a performance sound signal to the sound output unit 120. In the present embodiment, the first and third processes of the first to third processes are converted into subroutines and included in the browser runtime 174b, and the sound source software has a code for calling each of these subroutines. include.

The control unit 140, which operates according to the sound source software, executes the above-mentioned performance sound signal generation process and also executes the operation feeling control signal generation process in response to the performance operation on the operator provided in the performance operation input module 110. .. The operation feeling control signal generation processing is a process for making the operation feeling of the performance operation suitable for the type of sound source software (the type of the tone color of the performance sound represented by the performance sound signal generated according to the sound source software). Is. In the present embodiment, the magnetic force generated by the electromagnet is used to control the operation feeling of the performance operation with respect to the operator of the performance operation input module 110a. Further, the torque generated by the motor is used to control the operation feeling of the controls (volume and slider) provided on the performance operation input modules 110b and 110c. In the present embodiment, by transmitting the force corresponding to the magnetic force or torque to the user, a drag force against the operation of the operator (that is, a feeling of operation of the operator) is produced. The operation feeling control signal is a control signal for controlling the operation of the electromagnet or the motor, that is, controlling the current value of the current supplied to the electromagnet or the motor.

Hereinafter, a specific configuration for generating the magnetic force or torque will be described. FIG. 6 is a diagram showing an example of the configuration of the operation feeling imparting unit 40a provided in the performance operation input module 110a. FIG. 7 is a diagram showing an example of the configuration of the operation feeling imparting unit 40b provided in the performance operation input module 110b. FIG. 8 is a diagram showing an example of the configuration of the operation feeling imparting unit 40b provided in the performance operation input module 110c. The operation feeling control unit 40a converts the operation feeling control signal generated by the control unit 140 into a magnetic force. The operation feeling control unit 40b converts the operation feeling control signal generated by the control unit 140 into torque. In the following, when it is not necessary to distinguish each of the operation feeling giving unit 40a and 40b, it is referred to as "operation feeling giving unit 40". The configuration of the operation feeling imparting units 40a and 40b shown in the present embodiment is an example, and each may be configured by using other existing technologies.

FIG. 6 shows a white key and a black key which are controls in the performance operation input module 110a, and an operation feeling imparting unit 40a. Although detailed illustration is omitted in FIG. 6, the operation feeling imparting unit 40a is provided for each key. As shown in FIG. 6, the operation feeling imparting unit 40a has a driving unit 41a and a magnetic body 42a. The magnetic body 42a is a permanent magnet whose main raw material is ferrite, neodymium, or the like. FIG. 6 shows a magnetic body 42a provided at the lower end of the white key. The magnetic body 42a is provided so that the magnetic pole on the side that comes into contact with the white key is the S pole and the magnetic pole on the opposite side is the N pole. The drive unit 41a includes a D / A converter 410a, an electromagnet drive circuit 420a, and an electromagnet 430a. When the D / A converter 410a receives the operation feeling control signal from the control unit 140, the D / A converter 410a performs D / A conversion on the operation feeling control signal and outputs the control current which is the conversion result to the electromagnet drive circuit 420a. The electromagnet drive circuit 420a is, for example, an amplifier such as a transistor, which amplifies the control current in order to drive the electromagnet 430a and outputs the control current to the electromagnet 430a. The electromagnet 430a is provided at a position substantially opposite to the magnetic body 42a. When a control current flows through the coil wound around the iron core of the electromagnet 430a due to a key pressing operation, a magnetic field corresponding to the magnitude of the control current is generated. By constantly transmitting the operation feeling control signal to the operation feeling control unit 40 to the control unit 140, the control current may be supplied to the electromagnet 430a regardless of the presence or absence of the key pressing operation, and the magnetic field may be constantly generated.

In the present embodiment, the direction of the control current output by the D / A converter 410a is predetermined so that the magnetic body 42a side of the electromagnet 430a becomes the north pole. As a result, the magnetic force corresponding to the magnitude of the magnetic field generated by the electromagnet 430a and the magnetic force corresponding to the magnitude of the magnetic field generated by the magnetic body 42a repel each other, and a drag force against the key pressing operation is generated. This drag is transmitted to the user via the key, and the user feels this drag as an operation feeling (touch weight) for the key pressing operation.

FIG. 7 shows a volume having a frame, a knob, and a fixture, and an operation feeling imparting portion 40b. The operation feeling imparting unit 40b is provided for each volume. As shown in FIG. 7, the operation feeling imparting unit 40b has a driving unit 41b and a torque generating unit 42b. The drive unit 41b includes a D / A converter 410b and a torque generation circuit 420b. When the D / A converter 410b receives the operation feeling control signal from the control unit 140, the D / A converter 410b D / A-converts the operation feeling control signal and outputs a control current corresponding to the current value to the torque generation circuit 420b. The torque generation circuit 420b is, for example, an amplifier such as a transistor, which amplifies the control current in order to drive the torque generation unit 42b and outputs the control current to the torque generation unit 42b. The torque generating portion 42b is, for example, a motor, and is fixed to the knob via a fixture. The torque generating unit 42b generates torque according to the control current.

In the present embodiment, the control unit 140 generates an operation feeling control signal according to the direction of the volume rotation operation by the user and transmits it to the operation feeling giving unit 40b. Specifically, as shown in FIG. 7, the control unit 140 generates torque in the direction opposite to the direction (clockwise in the illustrated example) of the volume rotation operation by the user (counterclockwise in the illustrated example). Generates a feeling of operation control signal. This torque acts on the knob connected to the torque generating portion 42b via the fixture, and rotates the knob in the direction opposite to the rotation operation. As a result, a drag force against the rotation operation of the volume is generated. The drag force is transmitted to the user via the knob, and the user experiences the drag force as an operation feeling of the rotation operation.

FIG. 8 shows a slider having a pulley, a belt, and an operation knob, and an operation feeling imparting portion 40b. The operation feeling imparting unit 40b is provided for each slider. The configuration of the operation feeling imparting unit 40b is as described above. A pulley (not shown) is provided on the rotation shaft of the torque generating portion 42b (motor) and on the opposite side thereof, and a belt is laid between the pulleys. An operation knob used when the user performs a slide operation is connected to the belt.

The torque generated by the torque generating unit 42b acts on a belt connected to the torque generating unit 42b via a pulley (not shown), and moves the belt in the longitudinal direction of the slider. The control unit 140 generates an operation feeling control signal according to the direction of the slide operation of the slider by the user. Specifically, as shown in FIG. 8, the control unit 140 generates an operation feeling control signal that generates torque in the direction opposite to the slide operation (rightward in the illustrated example) by the user (leftward in the illustrated example). To do. As a result, a drag force is generated against the sliding operation of the slider. The drag force is transmitted to the user via the operation knob, and the user experiences the drag force as an operation feeling of the slide operation.

Next, the details of the operation feeling control signal generation processing executed by the control unit 140 according to the sound source software will be described. The sound source software of the present embodiment includes an identifier indicating an operator (operator expected to be used in the sound source software) that is expected to be used during a performance operation, and operation feeling data that indicates the operation feeling of the operator. The operation feeling control table associated with is stored in advance. The operation feeling data represents the current value of the above-mentioned operation feeling control signal. This current value is a value according to the type of sound source software (that is, the type of timbre of the performance sound produced according to the sound source software). The control unit 140 generates an operation feeling control signal of the current value indicated by the operation feeling data corresponding to the operator indicated by the operation signal given from the performance operation input module 110, and the operation provided in the operator indicated by the operation signal. It is transmitted to the sensation giving unit 40.
The above is the configuration of the electronic musical instrument 10.

(Operation example)
Hereinafter, either the sound source software C that reproduces the performance sound of the organ tone on the electronic musical instrument 10 or the sound source software D that reproduces the performance sound of the piano tone on the electronic musical instrument 10 is downloaded to the electronic musical instrument 10 and downloaded. The operation of the electronic musical instrument 10 will be described by taking as an example the case where the control unit 140 is operated according to the sound source software. In both the sound source software C and the sound source software D, an input device imitating a keyboard is assumed as an input device for performance operation. That is, in each of the operation feeling control tables of the sound source software C and the sound source software D, an identifier indicating a key is stored as an identifier indicating an operator that is expected to be used.

FIG. 9A is a diagram showing an operation feeling control table stored in the sound source software C, and FIG. 9B is a diagram showing an operation feeling control table stored in the sound source software D. In the present embodiment, the operation feeling data of the same value is stored in association with the identifier indicating each operation so that the same operation feeling is reproduced for all the controls of the performance operation input module 110a. More specifically, as shown in FIG. 9A, Ic is stored as the operation feeling data in the operation feeling control table of the sound source software C, and as shown in FIG. 9B, the sound source software Id is stored as operation feeling data in the operation feeling control table of D. As described above, the value of the operation feeling data stored in the operation feeling control table of the sound source software C is set to a value that reproduces the playing feeling of the musical instrument whose playing sound is reproduced according to the sound source software C. The value of the operation feeling data stored in the operation feeling control table of the sound source software D is set to a value that reproduces the playing feeling of the musical instrument in which the playing sound is reproduced according to the sound source software D. Since the key touch of the piano is generally heavier than the key touch of the organ, Ic <Id is defined in this embodiment.

When the sound source software C is downloaded to the electronic musical instrument 10 and executed, the control unit 140 that operates according to the sound source software C has an operation feeling control signal having a current value Ic each time the operator of the performance operation input module 110a is operated. Is generated and transmitted to the operation feeling imparting unit 40a. As a result, the drag force corresponding to the current value Ic is transmitted to the user via the key for which the key is pressed. As a result, the operation feeling of the piano is reproduced. On the other hand, when the sound source software D is downloaded to the electronic musical instrument 10 and executed, the control unit 140 that operates according to the sound source software D generates an operation feeling control signal of the current value Id and gives an operation feeling. It is transmitted to 40a. As a result, the drag force corresponding to the current value Id is transmitted to the user via the key for which the key is pressed. As a result, the operation feeling of the organ is reproduced. In this operation example, the control of the operation feeling of the operator of the performance operation input unit 110a has been described, but the same applies to the control of the operation feeling of the operator of the performance operation input module 110b or the performance operation input module 110c. Further, in this operation example, the case where the same operation feeling is reproduced for all the controls of the performance operation input module 110a has been described, but different operation feelings may be reproduced for each operator. Specifically, the operation feeling data having different values for each operator may be stored in the operation feeling control table in association with the identifier of each operator.

As described above, in the present embodiment, the operation feeling of the operator of the performance operation input module 110 is automatically changed according to the type of sound source software to be executed by the control unit 140, and the user can change the operation feeling. No special operation is required. That is, according to the present embodiment, it is assumed that the operation feeling of the operator matches the type of sound source software (that is, the type of tone color of the performance sound reproduced according to the sound source software) without any trouble for the user. It becomes possible.

<Other embodiments>
Although one embodiment of the present invention has been described above, it is of course possible to add the following modifications to this embodiment.

(1) In the above embodiment, in order to realize a performance in which the musical instrument player can feel a more fulfilling feeling, the operation feeling of the operator during the performance operation is set according to the type of sound source software. However, there are various other factors that the musical instrument player perceives when playing, and specific examples thereof include the decoration (pattern and color scheme) of the operator when playing the musical instrument. For example, if the electronic musical instrument 10 is provided with the following means, it is possible to make the decoration of the operator suitable for the type of sound source software without taking time and effort for the user.

A display medium such as electronic paper, which can electrically rewrite the display contents such as characters and images, is attached to the surface of the operator, for example, the surface of each key on the keyboard. Image data representing an image to be displayed on a display medium is stored in the sound source software in advance. This image shall correspond to the type of sound source software. For example, if the genre of the performance sound emitted by the electronic musical instrument 10 that operates according to the sound source software is a ballad, the sound source software is provided with image data representing an image (for example, a gray or blue single color image) reminiscent of a lonely image. Store it in advance. The control unit 140 transmits the image data stored in the sound source software to the display medium, and causes the display medium to display the image represented by the image data. As a result, the decoration of the operator becomes suitable for the type of sound source software, and the musical instrument player can perform in the atmosphere created by the image displayed on the display medium, and can be more absorbed in the performance. .. FIG. 10 is a diagram showing an example of an image displayed on a display medium attached to each key of the keyboard. As shown in FIG. 10, when the images displayed on the display medium attached to each key are joined together, one cohesive image may be formed.

(2) In the above embodiment, the operation feeling of a specific musical instrument such as a well-known musical instrument may be reproduced by controlling the operation feeling of the operator. In order to realize this aspect, the specific musical instrument is provided in a sound source software having a performance sound database storing waveform data of the performance sound of the specific musical instrument and an operation feeling control table showing the operation feeling of the specific musical instrument. Information indicating the attributes of the musical instrument, for example, a character string indicating the name of the musical instrument and a character string indicating the characteristics of the musical instrument may be associated with the tag information and stored in the sound source server device 30. For example, if the instrument to be reproduced is a piano called "A made by Y company played by □□ in the X hall on the XX day of the year XX", the character indicating the name of the piano. The string "A" and the character string "○○, △△, XX, □□, X, Y" indicating the characteristics of the piano are used as tag information to reproduce the playing sound and operation feeling of the instrument. It is stored in the sound source server device 30 in association with the sound source software to be used. The electronic musical instrument 10 downloads the sound source software corresponding to the tag information from the sound source server device 30 to the electronic musical instrument 10 using a browser, and operates the control unit 140 of the electronic musical instrument 10 according to the sound source software. You can easily experience the feeling of playing an instrument (the feeling of hearing the playing sound and the feeling of operating the controls).

(3) In the above embodiment, an operation feeling control signal executed by the control unit 140 when the operator assumed to be used in the sound source software and the operator mounted on the electronic musical instrument 10 match. The details of the generation process have been described. In this case, each of the controls actually mounted on the electronic musical instrument 10 matches any of the controls expected to be used in the sound source software prior to executing the operation feeling control signal generation process. The control unit 140 may execute a process of determining whether or not the operation feeling is controlled and transmitting the operation feeling control signal only to the operation feeling giving unit 40 corresponding to the matching operators. According to this aspect, it is possible to avoid the generation of an unnecessary operation feeling control signal.

(4) In the above embodiment, the operation feeling control table is stored in the sound source software, but the operation feeling control table may be stored in the sound source server device 30. More specifically, an operation feeling control table is created in advance for each sound source software, and is stored in the storage unit of the sound source server device 30 in association with an identifier indicating the sound source software. The control unit 140 transmits an identifier of the sound source software installed in the electronic musical instrument 10 to the sound source server device 30 via the telecommunications line 20, and the sound source server device 30 searches for an operation feeling control table corresponding to the identifier. And return the operation feeling data. The control unit 140 generates an operation feeling control signal of the current value indicated by the operation feeling data received from the sound source server device 30, and transmits the operation feeling control signal to the operation feeling giving unit 40. According to such an embodiment, the data size of the sound source software can be reduced by the amount that does not include the operation feeling control table as compared with the above embodiment. Similarly, the performance sound database may be stored in the sound source server device 30.

(5) In the above embodiment, the operation feeling control signal generation process may be converted into a subroutine and included in the browser runtime 174b, and the sound source software may include only the code for calling the subroutine.

(6) In the above embodiment, the sound source software is a web application, but the sound source software may be an application program that does not assume a program execution environment by a browser. For example, an application program that assumes another execution environment such as a JVM may be used, or an application program whose source code is described in C language or C ++ (an application program that does not require a program execution environment other than the OS). It may be. However, in the former aspect, it is necessary to install software for realizing another program execution environment such as the JVM in the control unit 140 in advance in the electronic musical instrument 10, and in the latter aspect, for each OS. It is necessary to create sound source software (or for each hardware such as each model of the electronic musical instrument 10).

Further, when the sound source software is used as a web application as in the above embodiment, the data structure of the performance sound database and the specifications of the read control program (access specifications for the performance sound database and access specifications for the browser runtime) are open to the public. You may. According to such an aspect, general users can freely create sound source software and publish it so that others can download it, and the sound source software available to users of the electronic musical instrument 10 is enriched. Can be encouraged.

(7) In the above-described embodiment and each modification, an example of application of the present invention to an electronic musical instrument whose sound source is realized by software has been described, but the present invention is applied to an electronic musical instrument whose sound source is realized by hardware. It is also possible. As described above, there are some electronic musical instruments such as those whose timbres can be selected. The control unit of such an electronic musical instrument may be made to execute the operation feeling control signal generation processing, and the operation feeling of the operator may be adjusted to match the type of timbre. That is, as firmware for this type of electronic musical instrument, software for causing the control unit of the electronic musical instrument to execute the performance sound signal generation process for controlling the operation of the hardware sound source and the operation feeling control signal generation process is provided. You may.

10 ... Electronic musical instrument, 20 ... Telecommunications line, 30 ... Sound source server device, 40a, 40b ... Operation feeling imparting unit, 41a, 41b ... Drive unit, 42a ... Magnetic material, 42b ... Torque generator, 410a, 410b ... D / A converter, 420a ... electromagnet drive circuit, 420b ... torque generation circuit, 430a ... electromagnet, 110 ... performance operation input module, 120 ... sound output unit, 130 ... setting operation input unit, 140 ... control unit, 150 ... communication I / F unit, 160 ... Module I / F unit, 170 ... Storage unit, 172 ... Volatile storage unit, 174 ... Non-volatile storage unit, 180 ... Bus, 190 ... Display unit.

Claims (3)

An operation input unit that accepts user operations, including performance controls,
An operation feeling imparting unit that generates a drag force against the operation of the performance operator in response to the operation feeling control signal,
A performance sound signal generation process that generates a performance sound signal representing a performance sound of a type of tone selected in advance according to an operation on the performance operator, and an operation feeling control signal that generates an operation feeling control signal according to the sound color. The operation input unit includes a plurality of types of the performance controls, and has a control unit that executes the generation process.
The plurality of types of performance controls are modularized for each type, and can be attached and detached in module units.
The control unit executes the performance sound signal generation process and the operation feeling control signal generation process according to the sound source software.
The sound source software has one of a performance sound database that stores waveform data of the performance sound of a specific musical instrument and an operation feeling control table that stores information indicating the operation feeling of the specific musical instrument, and according to the sound source software. The operating control unit communicates with a server device that stores the other of the performance sound database and the operation feeling control table via a telecommunications line.
In the performance sound signal generation process, the control unit generates the performance sound signal by referring to the performance sound database, and in the operation feeling control signal generation process, the operation feeling control signal is referred to by the operation feeling control table. To generate,
An electronic musical instrument characterized by that. It also has a display
The electronic musical instrument according to claim 1, wherein the control unit displays an image corresponding to the type of the sound source software on the display unit. The electronic musical instrument according to claim 2 , wherein a plurality of types of the performance controls include a key, and the display unit is a display medium provided on the surface of the key.

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