JP2013080155A - Musical performance evaluating apparatus, program and musical performance evaluating method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable appropriate evaluation to be given even if the same note consecutively appears or the same phrase is repeated in the piece of music performed.SOLUTION: A musical performance evaluating apparatus prepares an evaluation matrix in which evaluation reference data, which is to be referenced in evaluation and in which note values each representing a sound pitch are arrayed in the sequence of progression in which a given piece of music is to be performed, and evaluation object data, which is to be evaluated and in which note values each representing a sound pitch are arrayed in the sequence of actual performance of the piece of music, are compared. A value, resulting from the totalization of values added according to whether mutually corresponding note values in the evaluation reference data and the evaluation object data in the evaluation matrix coincide with each other, is used as criterion of evaluation to search for a minimum route on which the criterion takes on the smallest value. According to the direction of the minimum route and whether or not the mutually corresponding note values in the evaluation reference data and the evaluation object data coincide with each other, whether or not each note value in the evaluation object data is correct is determined.

Description

  The present invention relates to a performance evaluation apparatus, a program, and a performance evaluation method for evaluating performance of music.

Conventionally, for each performance of a musical piece by a plurality of performers, the number of mistouches, which is a difference between the sound of the pitch to be originally played indicated by the musical notes of the score and the sound actually played by the performer, respectively. A performance evaluation apparatus is known that determines a player who has a minimum number of miss-touches as a reference player and makes a correct / incorrect determination based on the number of miss-touches of the reference player (see, for example, Patent Document 1). .
In such a performance evaluation apparatus, the performance of a music piece by a performer can be evaluated based on the number of mistouches of a reference performer as a reference for evaluation.

JP 2010-134207 A

By the way, in some music pieces, the same note is repeated or the same phrase is repeated. In addition, the performer sometimes unintentionally plays the same note continuously or repeats the same phrase.
However, in the conventional performance evaluation apparatus including the technique described in Patent Document 1, even if the sound is played unintentionally by the performer in this way, if the order of the correct notes of the music is the same, There was a case where it was not judged as mistouch and proper evaluation was not performed.

  This invention is made | formed in view of such a condition, and it aims at enabling appropriate evaluation also about the music in which the same note continues or the same phrase is repeated.

In order to achieve the above object, a performance evaluation apparatus according to an aspect of the present invention includes:
Note values indicating pitches are arranged in the order of progression of the music to be played, evaluation reference data serving as a reference for evaluation, and note values indicating the pitches when the music is actually played are arranged in the order of the performance of the music A matrix creating means for creating an evaluation matrix that compares the evaluation target data to be evaluated;
In the evaluation matrix created by the matrix creating means, an evaluation value is obtained by adding together values added based on whether or not each of the corresponding note values in the evaluation reference data and the evaluation target data match. As a minimum route search means for searching for the minimum route that minimizes the evaluation value,
In the minimum path searched by the minimum path search means, the evaluation is performed depending on a direction in which the minimum path is directed and whether or not each of the corresponding note values in the evaluation reference data and the evaluation target data match each other. Correctness determination means for determining whether the note value of the target data is correct or incorrect.

  According to the present invention, it is possible to appropriately evaluate a musical piece in which the same musical note continues or the same phrase is repeated.

It is a figure explaining the outline | summary of the process which evaluates the performance in the performance evaluation apparatus which concerns on embodiment of this invention. It is a block diagram which shows the structure of the hardware of the performance evaluation apparatus which concerns on embodiment of this invention. It is a flowchart explaining the flow of DP matching process which CPU of the performance evaluation apparatus which concerns on this embodiment performs. It is a figure explaining the procedure in which CPU of the performance evaluation apparatus which concerns on this embodiment calculates the penalty value of each cell in an evaluation matrix. It is a flowchart explaining the flow of the correctness determination process which CPU of the performance evaluation apparatus which concerns on this embodiment performs. It is the figure which showed the result of the correctness determination process by CPU of the performance evaluation apparatus which concerns on this embodiment on the evaluation matrix. It is a figure explaining the specific example of the result of the correctness determination process by CPU of the performance evaluation apparatus which concerns on this embodiment. It is a flowchart explaining the flow of the correctness determination mark process which CPU of the performance evaluation apparatus which concerns on this embodiment performs. It is a figure which shows an example of the image produced | generated by the correctness determination mark process which CPU of the performance evaluation apparatus which concerns on this embodiment performs. It is a flowchart explaining the flow of the regular evaluation process which CPU of the performance evaluation apparatus which concerns on a 1st application example performs. It is a flowchart explaining the flow of the chord evaluation process which CPU of the performance evaluation apparatus which concerns on a 2nd application example performs.

Hereinafter, a performance evaluation apparatus according to an embodiment of the present invention will be described with reference to the drawings.
First, in order to facilitate understanding of the present embodiment, an outline of a performance evaluation apparatus according to the present embodiment will be described.
FIG. 1 is a diagram for explaining an outline of processing for evaluating a performance in the performance evaluation apparatus according to the embodiment of the present invention.

In step SA, the performance evaluation apparatus performs DP (Dynamic Programming) matching processing.
In this process, the performance evaluation device first evaluates (measures as follows) evaluation criteria (teacher) data D1 for each measure of music and evaluation targets (hereinafter also referred to as students). (Student) Data D2 and an evaluation matrix for comparison are created.
Here, in this embodiment, the “evaluation standard (teacher) data” is SMF (Standard MIDI File) data, and is data in which note values indicating pitches are arranged in the order of progression of music to be played. The “evaluation target (student) data” is SMF data, and is data in which note values indicating pitches when a musical piece is actually played by the evaluation target (student) are arranged in the order of the musical performance.

  Next, the performance evaluation apparatus adds a penalty value to be added based on whether or not the corresponding note values in the evaluation reference (teacher) data D1 and the evaluation target (student) data D2 match each other in the evaluation matrix. A minimum evaluation value D3 that minimizes the evaluation value is calculated using the summed value as an evaluation value, and a minimum route MT that is a route from which the minimum evaluation value D3 is calculated is obtained.

  Here, in the present embodiment, the “evaluation value” is the case where the respective note values corresponding to each other in the evaluation reference (teacher) data D1 and the evaluation target (student) data D2 do not coincide with each other. This is the sum of the penalty values added according to the direction. Therefore, the “evaluation value” indicates that the smaller the value, the smaller the difference between the evaluation reference (teacher) data D1 and the evaluation target (student) data D2, that is, the performance is appropriate.

In step SB, the performance evaluation apparatus performs correct / incorrect determination processing.
In this process, the performance evaluation device determines whether the minimum path MT is in the direction of the minimum path MT and whether the respective note values corresponding to each other in the evaluation reference (teacher) data D1 and the evaluation target (student) data D2 match each other. Whether or not the note value of the evaluation target (student) data D2 is correct is determined based on whether or not, and correct / error data D4 is obtained.
Based on the correct / incorrect data D4, for example, the performance evaluation apparatus performs display control of image data indicating an image with a mark indicating that the user has performed erroneously for each note in the musical score of the music.

FIG. 2 is a block diagram showing a hardware configuration of the performance evaluation apparatus 1 according to the embodiment of the present invention.
In FIG. 2, the performance evaluation apparatus 1 includes a CPU 11, a ROM (Read Only Memory) 12, a RAM (Random Access Memory) 13, a bus 14, an input / output interface 15, an input unit 16, and an output unit 17. A storage unit 18, a MIDI interface unit 19, and a drive 20.

  The CPU 11 executes various processes according to a program recorded in the ROM 12 or a program loaded from the storage unit 18 to the RAM 13. Specifically, the CPU 11 executes DP matching processing, correctness determination processing, and correctness determination mark processing. The RAM 13 appropriately stores data necessary for the CPU 11 to execute various processes.

  The CPU 11, ROM 12, and RAM 13 are connected to each other via a bus 14. An input / output interface 15 is also connected to the bus 14. An input unit 16, an output unit 17, a storage unit 18, a MIDI interface unit 19, and a drive 20 are connected to the input / output interface 15.

  The input unit 16 includes a pointing device such as a mouse and a keyboard for character input, and outputs input signals from these to the CPU 11. When the performance evaluation apparatus 1 is configured as an electronic piano, for example, the input unit 16 includes a MIDI keyboard, and includes a keyboard and switches for inputting various information. When the key is pressed, the input unit 16 outputs to the CPU 11 a key number for identifying the key and information indicating the key pressing strength (hereinafter referred to as “velocity”). Or various information input by the user is output to the CPU 11.

The output unit 17 includes a display, a speaker, a D / A conversion circuit, and the like, and outputs images and sounds.
The storage unit 18 is composed of a hard disk, a DRAM (Dynamic Random Access Memory), or the like, and various programs for controlling the performance evaluation apparatus 1, evaluation criteria (teacher) data D1, evaluation targets (as shown in FIG. Student) Stores data such as data D2, minimum evaluation value D3, and correct / incorrect data D4. In addition, image data for displaying a score as a bitmap and a note database for displaying note values of the evaluation reference (teacher) data D1 as notes in the score are stored.

  The MIDI interface unit 19 is an interface that connects the sound source 41 that generates musical sounds and the performance evaluation apparatus 1. The sound source 41 outputs a musical sound based on the SMF data.

  A removable medium 31 made of a magnetic disk, an optical disk, a magneto-optical disk, a semiconductor memory, or the like is appropriately attached to the drive 20. The program read from the removable medium 31 by the drive 20 is installed in the storage unit 18 as necessary. The removable medium 31 can also store various data stored in the storage unit 18 in the same manner as the storage unit 18.

Next, a DP matching process executed by the CPU 11 of the performance evaluation device 1 according to the present embodiment will be described with reference to FIG.
FIG. 3 is a flowchart for explaining the flow of DP matching processing executed by the CPU 11 of the performance evaluation device 1 according to this embodiment.
In step S <b> 1, the CPU 11 reads evaluation target (student) data from the storage unit 18.
In step S <b> 2, the CPU 11 reads evaluation criterion (teacher) data of the N-th measure (N is an integer) from the storage unit 18. In this step, the CPU 11 reads evaluation criterion (teacher) data one by one from the first measure in the order of progress of the music.

  In step S3, the CPU 11 arranges the note values of the evaluation target (student) data on the vertical axis in the order of performance, arranges the note values of the evaluation reference (teacher) data on the horizontal axis in the order of the progress of the music, and evaluates (student). The number of note values of the data s × the number of note values of the evaluation reference (teacher) data t is created as a two-dimensional matrix composed of cells. Then, in this step, the CPU 11 compares the note value of the evaluation target (student) data with the note value of the evaluation reference (teacher) data in a round robin in the s × t two-dimensional matrix, and corrects each cell for accuracy. A correct / incorrect matrix is input. The “right / wrong determination result” is data indicating a positive if the note value of the evaluation target (student) data and the note value of the evaluation reference (teacher) data match in each cell. It is data indicating an error.

In step S4, the CPU 11 creates an evaluation matrix in which the penalty values of all cells in the correct / incorrect matrix are calculated.
FIG. 4 is a diagram for explaining a procedure by which the CPU 11 of the performance evaluation device 1 according to the present embodiment calculates a penalty value for each cell in the evaluation matrix.
A procedure for the CPU 11 to calculate the penalty value of the cell 51 will be described.
First, the penalty value includes an error penalty value that is added when the determination result of the correctness of the cell is incorrect, and a shift penalty value that is added by a route toward the cell for calculating the penalty value. The route toward the cell 51 for calculating the penalty value is from the upper left cell 52, the upper cell 53, and the left cell 54 indicated by arrows in FIG. The shift penalty value is added to the route from the upper cell 53 and the left cell 54 among these three routes.

The penalty value of the cell 51 is the wrong penalty value of the upper left cell 52 (for example, the false penalty value is 0 because it is positive in FIG. 4), and the wrong penalty value of the upper cell 53 (for example, the wrong penalty value is positive in FIG. 4 is 0) and the shift penalty value, and the sum of the false penalty value and the shift penalty value of the left cell 54, the smallest value is selected.
The CPU 11 stores the selected minimum value in the storage unit 18 as a penalty value of the cell 51. Further, the CPU 11 stores the selected route having the minimum value in the storage unit 18 as the route of the cell 51 (upper left, upper or left).
The CPU 11 creates an evaluation matrix by calculating penalty values for all cells in the same procedure.

  In this way, the CPU 11 that executes the processing of steps S1 to S4 arranges the note values indicating the pitches in the order of progression of the music to be played, and the evaluation reference data that serves as the reference for evaluation and the music is actually played. The note values indicating the pitches at that time are arranged in the order of performance of the music, and function as matrix creation means for creating an evaluation matrix that compares the evaluation target data to be evaluated.

  Returning to FIG. 3, in step S <b> 5, the CPU 11 searches for a route having the smallest evaluation value, which is the sum of the penalty values of the cells on the route, from among a plurality of routes from the lower right to the upper left of the evaluation matrix. The route having the smallest evaluation value is stored in the storage unit 18.

  In step S6, the CPU 11 determines whether or not the evaluation criterion (teacher) data read in step S2 is the last measure of the music. If it is determined that it is the last measure, the process proceeds to step S7. If it is determined that it is not the last measure, the process returns to step S2.

In step S7, the CPU 11 obtains the minimum path of the entire music composed of paths that minimize the evaluation value of each measure stored in step S5.
As described above, the CPU 11 that executes the processes of step S5 and step S7 determines whether or not the respective note values corresponding to each other in the evaluation reference data and the evaluation target data match in the evaluation matrix created by the matrix creating means. It functions as a minimum route search means for searching for the minimum route that minimizes the evaluation value, using the sum of the values added based on the evaluation value as an evaluation value.

Next, with reference to FIG. 5, the correctness determination process which CPU11 of the performance evaluation apparatus 1 which concerns on this embodiment performs is demonstrated.
FIG. 5 is a flowchart for explaining the flow of the correctness / incorrectness determination process executed by the CPU 11 of the performance evaluation apparatus 1 according to the present embodiment.

  In step S11, the CPU 11 sets the position at which the correctness determination process is started in the evaluation matrix to a cell corresponding to the first note value of the first measure of the evaluation reference (teacher) data, and the cell is set as a determination target cell. .

  In step S12, the CPU 11 determines whether or not the determination target cell is a cell on the minimum path obtained in step S7. If it is determined that the determination target cell is a cell on the minimum path, the process proceeds to step S14. If it is determined that the cell is not on the route, the process proceeds to step S13.

  In step S13, the CPU 11 moves the determination target cell to the next cell. Here, the “next cell” is a cell adjacent to the right of the determination target cell or a cell immediately below.

  In step S14, the CPU 11 determines whether or not the determination target cell is determined to be inconsistent between the note value of the evaluation target (student) data and the evaluation reference (teacher) data in the determination target cell in step S3. If it is determined that there is a mismatch, the process proceeds to step S16. If it is determined that there is no mismatch, the process proceeds to step S15.

  In step S15, the CPU 11 reads the route of the determination target cell stored in the storage unit 18 in step S4, determines whether the route is up or left, and is either up or left. If it is determined, the process proceeds to step S16, and if it is determined that the position is not one of the above and the left, the process proceeds to step S17. That is, the CPU 11 determines the direction in which the minimum path is directed in this step.

In step S <b> 16, the CPU 11 determines that the note value of the evaluation target (student) data is an erroneous note with respect to the note value of the evaluation reference (teacher) data corresponding to the determination target cell, and stores it in the storage unit 18.
In step S <b> 17, the CPU 11 determines that the note value of the evaluation target (student) data is a regular note with respect to the note value of the evaluation reference (teacher) data corresponding to the determination target cell, and stores the note in the storage unit 18.

In step S18, the CPU 11 determines whether or not the determination target cell is the last cell (for example, the rightmost cell in the evaluation matrix). If it is determined that the determination target cell is the last cell, the process ends. If it is determined that it is not the last cell, the process proceeds to step S19.
In step S19, the CPU 11 moves the determination target cell to the next cell, and returns the process to step S12.

FIG. 6 is a diagram showing, in an evaluation matrix, the result of correctness determination processing by the CPU 11 of the performance evaluation apparatus 1 according to the present embodiment.
FIG. 7 is a diagram illustrating a specific example of the result of the correctness / incorrectness determination process performed by the CPU 11 of the performance evaluation device 1 according to the present embodiment.
6 and 7, the evaluation matrix arranges the note values of the evaluation target (student) data in the order of performance on the vertical axis, and the note values of the evaluation reference (teacher) data on the horizontal axis in the order of progression of the music. It is a two-dimensional matrix composed of the number of note values of target (student) data s × the number of note values of evaluation reference (teacher) data. And the right and wrong judgment result of step S16 or step S17 is shown in the lowermost part of the evaluation matrix.

In the evaluation matrix, “x” indicates a cell on the minimum path, and the note value of the evaluation target (student) data does not match the note value of the evaluation reference (teacher) data. “◯” indicates that the note value of the evaluation target (student) data matches the note value of the evaluation reference (teacher) data in the cell on the minimum path. “.” Indicates a cell outside the minimum path, and the note value of the evaluation target (student) data and the note value of the evaluation reference (teacher) data do not match. “=” Indicates that the note value of the evaluation target (student) data matches the note value of the evaluation reference (teacher) data in a cell outside the minimum path.
In the correct / incorrect determination result at the bottom of the evaluation matrix, “correct” indicates that it is determined as a correct note in step S17, and “incorrect” indicates that it is determined as an incorrect note in step S16.

As shown in FIG. 6, for example, the cell corresponding to the note value of the third evaluation criterion (teacher) data from the left includes “◯”, but the direction of the minimum path is the direction from top to bottom. The determination result is “false”.
On the other hand, for example, the cell for the note value of the sixth evaluation criterion (teacher) data from the left is “◯”, and the direction of the minimum path is the direction from the upper left to the lower right. “Positive”.

Next, a specific example of the result of the correctness / incorrectness determination process by the CPU 11 will be described with reference to FIG.
In (a), all the cells corresponding to the note values of the evaluation criterion (teacher) data are “◯”, and the direction of the minimum path is all from the upper left to the lower right. ".
In (b), the direction of the minimum path is all from the upper left to the lower right, but since all the cells corresponding to the note values of the evaluation criterion (teacher) data are “x”, the correct / incorrect determination result is “all notes”. This is an error.
In (c), the direction of the minimum path is all from the upper left to the lower right, but since there is one “×” cell for the note value of the evaluation criterion (teacher) data, the correctness determination result is 1. Only the sound is “false”.
(D) is a direction in which the minimum path is all directed from the upper left to the lower right, but since there are two “×” cells for the note value of the evaluation criterion (teacher) data, the correctness determination result is 2 This indicates that the sound is “false”.
In (e), since the note value of the evaluation target (student) data with respect to the note value of the third evaluation criterion (teacher) data from the left is missing, the correctness determination result for the note value is “false”. Is shown.
In (f), since the note value of the evaluation target (student) data with respect to the note value of the third evaluation criterion (teacher) data from the left overlaps, the correctness determination result for the note value is “false”. It is shown that.
(G) indicates that the note value of the evaluation target (student) data with respect to the note value of the evaluation criterion (teacher) data at the end overlaps, so that the correctness determination result for the note value is “false”. Yes.
(H) indicates that since the note value of the evaluation target (student) data with respect to the note value of the evaluation criterion (teacher) data is duplicated a plurality of times, the correct / incorrect determination result for the note value is “false”. Yes.
(I) indicates that there is not enough note value of the evaluation target (student) data with respect to the note value of the evaluation reference (teacher) data, and therefore the correct / incorrect determination result for the missing note value is “false”. .
(J) indicates that the note value of the evaluation target (student) data is not sufficient for the note value of the evaluation reference (teacher) data that repeats the same phrase, and the correctness determination result for the missing note value is as follows. This is a “false”.

  In this way, the CPU 11 that executes the processing of steps S11 to S19, in the minimum path searched by the minimum path search means, each note corresponding to each other in the direction to which the minimum path is directed and in the evaluation reference data and the evaluation target data. It functions as a correct / incorrect determination means for determining the correctness of the note value of the evaluation target data depending on whether or not the values match.

Next, with reference to FIG. 8, the correctness determination mark process which CPU11 of the performance evaluation apparatus 1 which concerns on this embodiment performs is demonstrated.
FIG. 8 is a flowchart for explaining the flow of the correctness determination mark process executed by the CPU 11 of the performance evaluation apparatus 1 according to the present embodiment.

In step S <b> 21, the CPU 11 reads image data for displaying the score as a bitmap from the storage unit 18.
In step S <b> 22, the CPU 11 refers to a note database for displaying the note value of the evaluation reference (teacher) data as a note on the score stored in the storage unit 18, and reads the position information of the note in the score. In this step, the CPU 11 synthesizes the data for displaying the note with the image data for displaying the score read in step S21 as a bitmap based on the position information of the read note.
In step S23, the CPU 11 adds a mark to the note (note value) determined to be “wrong” in the data for displaying the note placed in step S22 based on the correctness determination result of the correctness determination process. Synthesize data for.

  In step S <b> 24, the CPU 11 performs display control to display an image based on the image data generated by the correctness determination mark process on a display unit included in the performance evaluation device 1 or an external display unit.

FIG. 9 is a diagram illustrating an example of an image generated by the correctness determination mark process executed by the CPU 11 of the performance evaluation device 1 according to the present embodiment.
The image generated by the right / wrong determination mark processing is, for example, an image in which a circle surrounding a note determined to be “wrong” is attached to a musical score in which a musical note played by an evaluation target (student) is shown. is there.

  In this way, the CPU 11 that executes the processing of step S21 to step S24 controls the display of the image indicating the correctness of the note value of the evaluation target data determined by the correctness determination means in the notes on the musical score. It functions as a control means.

As described above, the performance evaluation apparatus 1 according to the present embodiment includes the CPU 11.
The CPU 11 that executes the processing from step S1 to step S4 of the present embodiment arranges the note values indicating the pitches in the order of the progress of the music to be played, and evaluates the reference data as a reference for evaluation, and the music is actually played. The note values indicating the pitches at that time are arranged in the order of performance of the music, and function as matrix creation means for creating an evaluation matrix that compares the evaluation target data to be evaluated.
The CPU 11 that executes the processing of step S5 and step S7 is added based on whether or not the respective note values corresponding to each other in the evaluation reference data and the evaluation object data match in the evaluation matrix created by the matrix creating means. It functions as a minimum route search means for searching for the minimum route that minimizes the evaluation value, using the sum of the values as the evaluation value.
In the minimum path searched by the minimum path search means, the CPU 11 that executes the processing of steps S11 to S19 matches the direction of the minimum path and the respective note values corresponding to each other in the evaluation reference data and the evaluation target data. It functions as a correct / incorrect determination means for determining whether the note value of the evaluation target data is correct or not.
As a result, an evaluation matrix is created from the evaluation reference data and the evaluation target data, and the minimum path is searched in the evaluation matrix. Each direction corresponding to each other in the direction of the minimum path and in the evaluation reference data and the evaluation target data. Whether or not the note values match is judged whether it is correct or not.
For this reason, if the same note is repeated or the same phrase is repeated, the note value will be the same if the performer unintentionally plays the same note continuously or repeats the same phrase. Even so, it is erroneously determined because the direction of the minimum path is different.
Therefore, it is possible to appropriately evaluate a musical piece in which the same note is repeated or the same phrase is repeated.

In addition, the CPU 11 that executes the processing from step S21 to step S24 of the present embodiment controls the display of an image in which the correctness of the note value of the evaluation target data determined by the correctness determination means is indicated by the notes on the musical score. Functions as display control means.
Thereby, since the note that was wrongly performed can be specifically shown to the user, it is possible to feed back the portion that should be practiced with emphasis on the user.

[First application example]
Next, a first application example of this embodiment in which the periodic evaluation process is executed by the CPU 11 will be described.
In the regular evaluation process, the DP matching process, the correctness determination process, and the correctness determination mark process of the present embodiment are periodically executed.
FIG. 10 is a flowchart for explaining the flow of a periodic evaluation process executed by the CPU 11 of the performance evaluation apparatus according to the first application example.
In step S31, the CPU 11 waits for a period of time and the start of processing after step S32. Here, the “periodic time” in the first application example is a preset time (for example, 1 hour or 30 minutes), and is set by, for example, an operation of the user input unit 16 (see FIG. 2). .

  In step S32, the CPU 11 executes step S1 of the DP matching process (see FIG. 3), determines whether the number of note values in the evaluation target (student) data read from the storage unit 18 is equal to or greater than a predetermined number, If it is determined that the number is greater than or equal to the predetermined number, the process proceeds to step S33, and if it is determined that the number is not greater than the predetermined number, the process returns to step S31. Here, the “predetermined number” in the first application example is a number suitable for estimating that the user is practicing the performance. Specifically, the number of note values is the number of notes played by the music. If the number of notes is less than one measure, it can be assumed that the user is not practicing the performance. . On the other hand, for example, if the number of notes is about five, it can be estimated that the user is practicing one measure. Thus, the CPU 11 that executes the process of step S32 functions as a note value number determination unit that determines whether or not the number of note values of the evaluation target data is equal to or greater than a predetermined number.

  In step S33, the CPU 11 executes steps S2 to S7 (see FIG. 3) of the DP matching process, calculates a minimum evaluation value, and stores the evaluation value in the storage unit 18 as a temporary evaluation value.

  In step S34, the CPU 11 determines whether or not the temporary evaluation value stored in step S33 is greater than or equal to a predetermined value. If it is determined that the temporary evaluation value is greater than or equal to the predetermined value, the process proceeds to step S35 and is determined not to be greater than or equal to the predetermined value. In this case, the temporary evaluation value stored in step S33 is cleared, and the process returns to step S31. Here, the evaluation value corresponds to the case where the number of note values in the evaluation target (student) data is small, or the note value of the evaluation target (student) data and the note value of the evaluation reference (teacher) data match, including the route. If the ratio is high, that is, if the performance by the user is appropriate, the value is low. Therefore, it is desirable that the “predetermined value” in the first application example is a value suitable for estimating that the user is practicing a part that cannot be performed properly. As described above, the CPU 11 that executes the process of step S34 functions as an evaluation value determination unit that determines whether or not the evaluation value of the minimum route searched by the minimum route search unit is equal to or greater than a predetermined value.

  In step S35, the CPU 11 obtains the minimum path using the temporary evaluation value stored in the storage unit 18 in step S33 as the main evaluation value. As described above, the CPU 11 that executes the process of step S35 functions as a minimum route search unit that searches for the minimum route when the number of note values of the evaluation target data is determined to be greater than or equal to a predetermined number by the note value number determination unit. To do.

  In step S36, the CPU 11 executes a correctness determination process (see FIG. 5). As described above, the CPU 11 that executes the process of step S36 functions as a correct / incorrect determination unit that determines whether the note value of the evaluation target data is correct or not when the evaluation value determination unit determines that the evaluation value is equal to or greater than a predetermined value.

  In step S37, the CPU 11 executes a correctness / incorrectness determination mark process (see FIG. 8). After the end of this step, the CPU 11 returns the process to step S31.

According to the first application example, the CPU 11 that executes the process of step S34 functions as an evaluation value determination unit that determines whether or not the evaluation value of the minimum route searched by the minimum route search unit is a predetermined value or more.
The CPU 11 that executes the process of step S35 functions as a minimum route search unit that searches for the minimum route when the number of note values of the evaluation target data is determined to be greater than or equal to a predetermined number by the note value number determination unit.
The CPU 11 that executes the process of step S36 functions as a correctness / incorrectness determination unit that determines whether the evaluation value is greater than or equal to a predetermined value by the evaluation value determination unit.
Thus, the performance can be automatically evaluated at regular time intervals without the user being aware of the performance evaluation.

[Second application example]
Next, a second application example of the present embodiment in which the chord evaluation process is executed by the CPU 11 will be described.
In the chord evaluation process, the DP matching process, the correctness determination process, and the correctness determination mark process of the present embodiment are executed after rearranging the note values of the evaluation reference (teacher) data constituting the chord.
FIG. 11 is a flowchart for explaining the flow of chord evaluation processing executed by the CPU 11 of the performance evaluation apparatus according to the second application example.
In step S41, the CPU 11 reads the evaluation criterion (teacher) data of the Nth bar (N is an integer) including a plurality of note values indicating chords from the storage unit 18, and a plurality of note values indicating the read chords. Sort in ascending order of pitch. As described above, the CPU 11 that executes the process of step S41 functions as an evaluation reference chord note value rearranging unit that rearranges the note values of the evaluation reference data constituting one chord in a predetermined order.

  In step S42, the CPU 11 stands by for a short time. Here, the “short time” in the second application example is a time of several ms. For example, when a plurality of sounds are output in the actual performance of the evaluation target (student) that is the user, This is a time in a range where a plurality of sounds can be regarded as constituting a chord.

  In step S43, the CPU 11 determines whether or not there is an actual performance of the evaluation target (student). If it is determined that there is an actual performance, the process proceeds to step S44, and if it is determined that there is no actual performance, step S47. Move processing to. Here, “actual performance” means operation of a MIDI keyboard as the input unit 16 or operation of an electronic musical instrument externally attached to the performance evaluation apparatus 1 when the performance evaluation apparatus 1 is configured as an electronic piano, for example. say.

In step S <b> 44, the CPU 11 creates evaluation target (student) data based on the actual performance of the evaluation target (student) and stores it in the storage unit 18.
In step S45, when a plurality of note values are included in the evaluation target (student) data created in step S44, the CPU 11 rearranges the plurality of note values in order of increasing pitches. As described above, the CPU 11 that executes the process of step S45 rearranges the plurality of note values indicating the plurality of sounds actually played during a predetermined time in the evaluation target data in a predetermined order. Functions as sorting means.

  In step S46, the CPU 11 adds the plurality of note values rearranged in step S45 to the end of the evaluation target (student) data. After the end of this step, the CPU 11 returns the process to step S42.

  In step S <b> 47, for example, the CPU 11 determines that the actual performance of the evaluation target (student) has ended after a predetermined time has elapsed. Here, the “predetermined time” in the second application example is a preset time, for example, a time that can be estimated that the performance of the evaluation target (student) has been completed.

In step S48, the CPU 11 reads the evaluation reference (teacher) data in which the note values are rearranged in step S41 and the evaluation target (student) data to which the plurality of note values rearranged in step S46 are added. The processes from S3 to S7 (see FIG. 3) are executed. As described above, the CPU 11 that executes the process of step S48 uses the evaluation reference data including the note values rearranged by the evaluation reference chord note value rearranging unit and the note values rearranged by the evaluation target chord note value rearranging unit. It functions as a matrix creation means for creating an evaluation matrix that compares the data to be evaluated.
In step S49, the CPU 11 executes a correctness determination process (see FIG. 5).
In step S50, the CPU 11 executes a correct / incorrect determination mark process (see FIG. 8).

According to the second application example, the CPU 11 that executes the process of step S41 functions as an evaluation reference chord note value rearranging unit that rearranges the note values of the evaluation reference data constituting one chord in a predetermined order.
The CPU 11 that executes the process of step S45 serves as evaluation target chord note value rearranging means for rearranging a plurality of note values indicating a plurality of sounds actually played during a predetermined time in the evaluation target data in a predetermined order. Function.
The CPU 11 that executes the process of step S48 evaluates the evaluation reference data including the note values rearranged by the evaluation reference chord note value rearranging means and the evaluation target data including the note values rearranged by the evaluation target chord note value rearranging means. And function as a matrix creating means for creating an evaluation matrix.
Here, a chord is a sound that is generated when a plurality of sounds are output substantially simultaneously. For this reason, the plurality of sounds constituting the chord are musically correct regardless of the order in which they are output.
According to the second application example, in the note value of the evaluation reference data constituting the chord and the evaluation target data, a plurality of note values indicating a plurality of sounds actually played during a predetermined time are arranged in a predetermined order (for example, Since the comparison is made after rearrangement in the order of the lower pitches), it is possible to appropriately evaluate chords.

  In addition, this invention is not limited to the above-mentioned embodiment, The deformation | transformation in the range which can achieve the objective of this invention, improvement, etc. are included in this invention.

  For example, in the above-described embodiment, the evaluation target (student) data is read from the storage unit 18, but not limited thereto, for example, directly from a performance by a person to be evaluated (for example, a student who is a user). Evaluation target (student) data may be created.

  In the above-described embodiment, the evaluation standard (teacher) data is read from the storage unit 18. However, the present invention is not limited to this. For example, the evaluation standard directly from a performance by a person who becomes the evaluation standard (for example, a teacher). (Teacher) Data may be created.

  In the above-described embodiment, a general electronic device having an information processing function can be employed as the performance evaluation device 1. Specifically, for example, the performance evaluation apparatus 1 can be realized by a notebook personal computer, a desktop personal computer, a portable information terminal, a mobile phone, a portable game machine, or the like.

The series of processes described above can be executed by hardware or can be executed by software.
Each means may be constituted by hardware alone, software alone, or a combination thereof.

When a series of processing is executed by software, a program constituting the software is installed on a computer or the like from a network or a recording medium.
The computer may be a computer incorporated in dedicated hardware. The computer may be a computer capable of executing various functions by installing various programs, for example, a general-purpose personal computer.

  The recording medium including such a program is not only constituted by the removable medium 31 of FIG. 2 distributed separately from the apparatus main body in order to provide the program to the user, but also in a state of being incorporated in the apparatus main body in advance. It is comprised with the recording medium etc. which are provided in this. The removable medium 31 is composed of, for example, a magnetic disk (including a floppy disk), an optical disk, a magneto-optical disk, or the like. The optical disk is composed of, for example, a CD-ROM (Compact Disk-Read Only Memory), a DVD (Digital Versatile Disk), or the like. The magneto-optical disk is configured by an MD (Mini-Disk) or the like. In addition, the recording medium provided to the user in a state of being incorporated in advance in the apparatus main body includes, for example, the ROM 12 in FIG. 2 in which the program is recorded, the hard disk included in the storage unit 18 in FIG.

  In the present specification, the step of describing the program recorded on the recording medium is not limited to the processing performed in time series along the order, but is not necessarily performed in time series, either in parallel or individually. The process to be executed is also included.

  As mentioned above, although embodiment of this invention was described, this embodiment is only an illustration and does not limit the technical scope of this invention. The present invention can take other various embodiments, and various modifications such as omission and replacement can be made without departing from the gist of the present invention. These embodiments and modifications thereof are included in the scope and gist of the invention described in this specification and the like, and are included in the invention described in the claims and the equivalent scope thereof.

The invention described in the scope of claims at the beginning of the filing of the present application will be appended.
[Appendix 1]
Note values indicating pitches are arranged in the order of progression of the music to be played, evaluation reference data serving as a reference for evaluation, and note values indicating the pitches when the music is actually played are arranged in the order of the performance of the music A matrix creating means for creating an evaluation matrix that compares the evaluation target data to be evaluated;
In the evaluation matrix created by the matrix creating means, an evaluation value is obtained by adding together values added based on whether or not each of the corresponding note values in the evaluation reference data and the evaluation target data match. As a minimum route search means for searching for the minimum route that minimizes the evaluation value,
In the minimum path searched by the minimum path search means, the evaluation is performed depending on a direction in which the minimum path is directed and whether or not each of the corresponding note values in the evaluation reference data and the evaluation target data match each other. A performance evaluation apparatus comprising: correctness determination means for determining correctness of the note value of the target data.
[Appendix 2]
The performance evaluation according to claim 1, further comprising: display control means for controlling display of an image showing the correctness of the note value of the evaluation target data determined by the correctness determination means on the notes on the musical score of the music. apparatus.
[Appendix 3]
Note value number determination means for determining whether the number of the note values of the evaluation target data is a predetermined number or more;
Evaluation value determination means for determining whether or not the evaluation value of the minimum path searched by the minimum path search means is greater than or equal to a predetermined value;
The minimum path search means searches the minimum path when the number of note values of the evaluation target data is determined to be a predetermined number or more by the note value number determination means,
The performance evaluation apparatus according to appendix 1 or 2, wherein the correctness determination means determines whether the note value of the evaluation object data is correct or not when the evaluation value determination means determines that the evaluation value is equal to or greater than a predetermined value.
[Appendix 4]
Evaluation reference chord note value rearranging means for rearranging the note values of the evaluation reference data constituting one chord in a predetermined order;
In the evaluation target data, the evaluation target chord note value rearranging means for rearranging a plurality of note values indicating a plurality of sounds actually played during a predetermined time in the predetermined order, and
The matrix creating means includes the evaluation reference data including the note values rearranged by the evaluation reference chord note value rearranging means, and the evaluation including the note values rearranged by the evaluation target chord note value rearranging means. 4. The performance evaluation apparatus according to any one of appendices 1 to 3, wherein the evaluation matrix that compares target data is created.
[Appendix 5]
A computer that controls a performance evaluation device that evaluates the performance of a song,
Note values indicating pitches are arranged in the order of progress of the music, evaluation reference data serving as a reference for evaluation, and note values indicating pitches when the music is actually played are arranged in the order of performance of the music, and evaluation A matrix creation means for creating an evaluation matrix that compares the evaluation target data to be subject to
In the evaluation matrix created by the matrix creating means, an evaluation value is obtained by adding together values added based on whether or not each of the corresponding note values in the evaluation reference data and the evaluation target data match. As a minimum route search means for searching for a minimum route that minimizes the evaluation value,
In the minimum path searched by the minimum path search means, the evaluation is performed depending on a direction in which the minimum path is directed and whether or not each of the corresponding note values in the evaluation reference data and the evaluation target data match each other. Correctness determination means for determining correctness of the note value of the target data;
A program characterized by functioning as
[Appendix 6]
Note values indicating pitches are arranged in the order of progression of the music to be played, evaluation reference data serving as a reference for evaluation, and note values indicating the pitches when the music is actually played are arranged in the order of the performance of the music A matrix creation step for creating an evaluation matrix comparing the evaluation target data to be evaluated;
In the evaluation matrix created in the matrix creation step, an evaluation value is obtained by summing up values added based on whether or not each of the corresponding note values in the evaluation reference data and the evaluation target data match each other. As a minimum route search step for searching for the minimum route that minimizes the evaluation value,
In the minimum path searched in the minimum path search step, the evaluation is performed depending on a direction in which the minimum path is directed and whether or not each of the corresponding note values in the evaluation reference data and the evaluation target data match each other. A correct / incorrect determination step for determining correctness of the note value of the target data;
The performance evaluation method characterized by including.

  DESCRIPTION OF SYMBOLS 1 ... Performance evaluation apparatus, 11 ... CPU, 12 ... ROM, 13 ... RAM, 14 ... Bus, 15 ... Input / output interface, 16 ... Input part, 17 ... Output unit, 18 ... storage unit, 19 ... MIDI interface unit, 20 ... drive, 31 ... removable media, 41 ... sound source

Claims (6)

Note values indicating pitches are arranged in the order of progression of the music to be played, evaluation reference data serving as a reference for evaluation, and note values indicating the pitches when the music is actually played are arranged in the order of the performance of the music A matrix creating means for creating an evaluation matrix that compares the evaluation target data to be evaluated;
In the evaluation matrix created by the matrix creating means, an evaluation value is obtained by adding together values added based on whether or not each of the corresponding note values in the evaluation reference data and the evaluation target data match. As a minimum route search means for searching for the minimum route that minimizes the evaluation value,
In the minimum path searched by the minimum path search means, the evaluation is performed depending on a direction in which the minimum path is directed and whether or not each of the corresponding note values in the evaluation reference data and the evaluation target data match each other. A performance evaluation apparatus comprising: correctness determination means for determining correctness of the note value of the target data.   The performance according to claim 1, further comprising display control means for controlling display of an image in which the correctness of the note value of the evaluation target data determined by the correctness determination means is indicated by notes on the musical score of the music. Evaluation device. Note value number determination means for determining whether the number of the note values of the evaluation target data is a predetermined number or more;
Evaluation value determination means for determining whether or not the evaluation value of the minimum path searched by the minimum path search means is greater than or equal to a predetermined value;
The minimum path search means searches the minimum path when the number of note values of the evaluation target data is determined to be a predetermined number or more by the note value number determination means,
The performance evaluation device according to claim 1 or 2, wherein the correctness determination means determines whether the note value of the evaluation target data is correct or not when the evaluation value is determined to be equal to or greater than a predetermined value by the evaluation value determination means. . Evaluation reference chord note value rearranging means for rearranging the note values of the evaluation reference data constituting one chord in a predetermined order;
In the evaluation target data, the evaluation target chord note value rearranging means for rearranging a plurality of note values indicating a plurality of sounds actually played during a predetermined time in the predetermined order, and
The matrix creating means includes the evaluation reference data including the note values rearranged by the evaluation reference chord note value rearranging means, and the evaluation including the note values rearranged by the evaluation target chord note value rearranging means. The performance evaluation apparatus according to claim 1, wherein the evaluation matrix that compares target data is created. A computer that controls a performance evaluation device that evaluates the performance of a song,
Note values indicating pitches are arranged in the order of progress of the music, evaluation reference data serving as a reference for evaluation, and note values indicating pitches when the music is actually played are arranged in the order of performance of the music, and evaluation A matrix creation means for creating an evaluation matrix that compares the evaluation target data to be subject to
In the evaluation matrix created by the matrix creating means, an evaluation value is obtained by adding together values added based on whether or not each of the corresponding note values in the evaluation reference data and the evaluation target data match. As a minimum route search means for searching for a minimum route that minimizes the evaluation value,
In the minimum path searched by the minimum path search means, the evaluation is performed depending on a direction in which the minimum path is directed and whether or not each of the corresponding note values in the evaluation reference data and the evaluation target data match each other. Correctness determination means for determining correctness of the note value of the target data;
A program characterized by functioning as Note values indicating pitches are arranged in the order of progression of the music to be played, evaluation reference data serving as a reference for evaluation, and note values indicating the pitches when the music is actually played are arranged in the order of the performance of the music A matrix creation step for creating an evaluation matrix comparing the evaluation target data to be evaluated;
In the evaluation matrix created in the matrix creation step, an evaluation value is obtained by summing up values added based on whether or not each of the corresponding note values in the evaluation reference data and the evaluation target data match each other. As a minimum route search step for searching for the minimum route that minimizes the evaluation value,
In the minimum path searched in the minimum path search step, the evaluation is performed depending on a direction in which the minimum path is directed and whether or not each of the corresponding note values in the evaluation reference data and the evaluation target data match each other. A correct / incorrect determination step for determining correctness of the note value of the target data;
The performance evaluation method characterized by including.