JP3997671B2 - Electronic musical instrument and performance calorie consumption measuring device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic musical instrument and a performance calorie consumption measuring apparatus capable of measuring a calorie consumption by a performance operation of a performer.
[0002]
[Prior art]
The act of playing an instrument uses a considerable amount of physical energy. Objectively measuring this energy consumption can be an indicator of how much you have practiced, and for those who want to balance playing instrument and diet, how much calorie is consumed by playing instrument If you know that, you can go on a diet referring to that.
[0003]
[Problems to be solved by the invention]
However, the present situation is that a device capable of measuring the energy consumption due to the performer's performance is not realized.
[0004]
According to the present invention, in many electronic musical instruments, performance operations are converted into performance information in a format such as MIDI data and transmitted from the performance device to the sound source device, and calorie consumption due to the performance of the performer is performed using the performance information. It is an object to provide an electronic musical instrument and a performance calorie consumption measuring device that can measure a musical instrument.
[0005]
[Means for Solving the Problems]
The invention according to claim 1 is a performance means for generating performance information according to the performance operation of the performer, a sound generation means for generating a musical sound according to the performance information, and a calorie consumption amount by the performance operation based on the performance information. And a calculation means for determining.
[0006]
In the present invention, the performance operation may be any operation such as an operation of pressing a performance keyboard (keyboard) or an operation of playing a wind instrument type controller, and the performance means stores performance information corresponding to such performance operation. The generated keyboard and wind instrument controller. The computing means calculates a calorie consumption amount according to the type of the performance means based on the performance information. The relationship between performance information and calorie consumption is, for example, in the case of a keyboard, the greater the velocity, the greater the calorie consumption. The shorter the keystroke interval, the greater the calorie consumption, even with the same number of keystrokes. The calorie consumption is calculated based on a rule such that the larger the is, the greater the calorie consumption is. Here, the calorie consumption generally represents the energy consumption by the performance operation of the performer, and the unit of calculation is not limited to calories (Cal). For example, it may be expressed in grams of food having joules or equivalent calories.
[0007]
The invention of claim 2 is the invention of claim 1, further comprising a reference database storing calorie consumption corresponding to the performance information generated by the performance means, wherein the Nose calculation means is performance information generated by the performance means. The calorie consumption is determined by searching the reference database.
[0008]
In this invention, the reference database stores the calorie consumption corresponding to one piece of performance information such as the strength of the performance operation and the pitch of the sound that has been instructed to sound, and a plurality of performances such as the interval and frequency of the performance operations. The calorie consumption corresponding to the information is also stored. In this reference database, the calorie consumption is larger as the velocity is larger, the calorie consumption is larger as the keying interval is shorter even with the same number of keystrokes, and the calorie consumption is larger as the pitch jump with consecutive keystrokes is larger. Is quantified.
[0009]
According to a third aspect of the present invention, in the first and second aspects of the present invention, the calculation means repeatedly calculates the calorie consumption, and integrates the calculated calorie consumption.
[0010]
In the present invention, the calculation means repeatedly calculates the calorie consumption, and calculates the calorie consumption (instantaneous value) at that time. Then, in order to measure how many calories are finally consumed, the calculated calorie consumption is integrated. By looking at this integrated value, it is possible to know how many calories the player has consumed by performing.
[0011]
The invention of claim 4 is the invention of claims 1 to 3, further comprising storage means for storing phrase calorie data, which is a standard calorie consumption for each predetermined section of the specific music, and the computing means is the performance means. The calorie consumption for every predetermined section of the specific music is calculated based on the performance information in which the specific music is generated, and a comparison result with the phrase calorie data is output.
[0012]
In the present invention, the standard calorie consumption can be, for example, the calorie consumption when a skilled performer performs normally, and the actual calorie consumption calculated and the standard calorie consumption. By outputting the comparison result with the amount, it is possible to know how much the performer deviates from the standard level. Thereby, it becomes possible to evaluate a performance based on calorie consumption.
[0013]
According to a fifth aspect of the present invention, in the fourth aspect of the invention, the storage means stores sequence data, which is pitch information to be generated in the order of progression of the specific music, in association with the phrase calorie data, and the performance The means generates velocity information indicating the strength of the performance operation and pitch information indicating the pitch as performance information, and the calculation means compares the pitch information generated by the performance means with the sequence data. And determining a performance location and calculating a calorie consumption for each predetermined section of the song based on at least the velocity information.
[0014]
The sequence data of the specific music is stored in the storage means, and the present performance position of the performer is determined by comparing the performance information generated by the performance means with the sequence data. The performance information for determining the performance position includes pitch information. The performance means also generates velocity information as performance information, and calorie consumption is calculated based on at least the velocity information. When pitch jumping is considered in calculating calorie consumption, pitch information is also information for calculating calorie consumption.
[0015]
According to a sixth aspect of the present invention, in the fifth aspect of the invention, the sequence data includes timing data indicating a timing at which each pitch information is generated, and the calculation means includes a calorie consumption amount and phrase calorie data for each predetermined section. The performance operation is scored on the basis of the comparison result between the pitch data generated by the performance means and the sequence data.
[0016]
The so-called performance scoring is performed based on the pitch of the played music and the timing of its occurrence and the degree to which the velocity coincides with the reference. In this invention, in addition to this, the calorie consumption is a standard value. The degree of agreement was also taken into consideration in scoring. Thereby, the appropriateness of performance operation can be judged from many fields.
[0017]
The invention according to claim 7 is an input means for outputting performance information corresponding to the performance operation of the performer from the performance device, a calculation means for calculating the calorie consumption amount due to the performance operation based on the input performance information, and an index Display means for displaying the calorie consumption.
[0018]
The invention of claim 8 is the invention of claim 7, further comprising a reference database storing calorie consumption corresponding to each aspect of the performance information generated by the performance means, wherein the calculation means is generated by the performance means. The calorie consumption is determined by searching the reference database with performance information.
[0019]
A ninth aspect of the invention is characterized in that, in the seventh and eighth aspects of the invention, the calculating means repeatedly calculates a calorie consumption amount and integrates the calculated calorie consumption amount.
[0020]
A tenth aspect of the invention is the invention according to the seventh to ninth aspects, further comprising storage means for storing phrase calorie data that is a standard calorie consumption for each predetermined section of the specific music, and the calculation means is the performance means. The calorie consumption for every predetermined section of the specific music is calculated based on the performance information in which the specific music is generated, and a comparison result with the phrase calorie data is output.
[0021]
According to an eleventh aspect of the present invention, in the tenth aspect of the present invention, the storage means stores sequence data, which is pitch information to be generated in the order of progression of the specific music, in association with the phrase calorie data, and the performance The means generates velocity information indicating the strength of the performance operation and pitch information indicating the pitch as performance information, and the calculation means compares the pitch information generated by the performance means with the sequence data. And determining a performance location and calculating a calorie consumption for each predetermined section of the song based on at least the velocity information.
[0022]
According to a twelfth aspect of the present invention, in the invention of the eleventh aspect, the sequence data includes timing data indicating a timing at which each pitch information is generated, and the calculation means includes calorie consumption and phrase calorie data for each predetermined section. The performance operation is scored on the basis of a comparison result between the performance information and the pitch information generated by the performance means and the sequence data.
[0023]
A thirteenth aspect of the present invention is the invention according to the eighth to twelfth aspects, wherein a plurality of the reference databases are provided corresponding to each of a plurality of types of performance apparatuses, and one of the plurality of reference databases is supplied to the arithmetic means. It is characterized by that.
[0024]
In the present invention, performance information generated by the performance operation of any performance device can be input from the input means. However, even with similar performance information, the calorie consumption varies depending on the performance device. In view of this, a reference database corresponding to a plurality of types of performance devices is provided, and the information corresponding to what is being played at that time is supplied to the computing means. This makes it possible to accurately calculate the calorie consumption.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram of an electronic musical instrument according to an embodiment of the present invention. This electronic musical instrument is an electronic keyboard musical instrument provided with a keyboard 15 for performance, and a musical tone can be generated from the sound source 18 by the performer operating the keyboard. Further, it is also possible to measure and display how many calories the player has consumed by playing based on the strength (velocity) and number of times of the performance operation.
[0026]
In the figure, a ROM 10, a RAM 12, a hard disk 13, an MD drive 14, a performance keyboard 15, an operation unit 16, a display unit 17, a sound source 18, an effector amplifier 19 and a MIDI interface 21 are connected to the CPU 10 that controls the entire apparatus. Has been.
[0027]
The ROM 11 stores a control program for the electronic musical instrument, a performance calorie consumption database, and the like. Note that the control program may be stored in the hard disk 13, and only the startup program may be stored in the ROM 11, and the control program may be read from the hard disk 13 to the RAM 12 during startup. Similarly, the performance calorie consumption database may be stored in the hard disk 13 and read out to the RAM 12 at startup.
[0028]
Various storage areas such as a calorie consumption integrated area, a phrase calorie consumption integrated area, and a point integrated area are set in the RAM 12. In the case of an electronic musical instrument that stores a control program and a performance calorie consumption database in the hard disk 13, the control program and the performance calorie consumption database are read into the RAM 12 at startup.
[0029]
The hard disk 13 stores a plurality of song data. The song data is basically automatic performance data, which can be automatically played by reading it according to the tempo, but with this electronic musical instrument, this song data is used to accurately represent the performance of the performer. It is used as a reference for determining the thickness. That is, when a performer performs by designating a song, the performance information generated by the performance (by operation of the keyboard 15) and the song data are compared, and the accuracy of the performance is determined based on the degree of coincidence. Quantify. The song data is composed of a sequence track and phrase calorie data as shown in FIG. Details of the song data will be described later. The hard disk 13 stores a plurality of pieces of music data, and the performer can select one of the music pieces by operating the music selection switch of the operation unit 16. An MD data disk 14 a is set in the MD drive 14. A plurality of song data can also be stored in the MD data disc 14a, and song data can be selected from both the hard disk 13 and the MD 14a. Also, the music data stored in the MD 14a can be copied to the hard disk 13.
[0030]
In addition, the calorie database can be stored in the MD 14 a and copied to the hard disk 13.
[0031]
The performance keyboard 15 has keys of about 5 octaves (61 keys). Each key has a key-on sensor for detecting on / off, an initial touch sensor for detecting the strength of key-on / key-off, and a key-on. An after-touch sensor for detecting the key pressing pressure inside is provided. The detection contents of these sensors are periodically read by the CPU 10 as performance information. The performance information includes pitch information indicating key-on and key-off, velocity, after-touch information, and the like.
[0032]
The operation unit 16 is provided with a reset switch, a music selection switch, a start switch, and the like. The reset switch is a switch for resetting the calorie consumption integration area. That is, when the reset switch is turned on, the integrated value of the calorie amount consumed by the performer by the operation of the keyboard 15 is reset. The music selection switch and the start switch are switches that are operated when a performance determination mode using music data is set. The performance determination mode is a mode for determining the accuracy of performance using the music data described above and measuring the calorie consumption by the performance of the music. The performer selects one of the music data using the music selection switch. When a performer turns on the start switch and starts a performance after selecting a specific song with the music selection switch, the CPU 10 compares the performance information generated by the performance with the song data to calculate points, and the performance depends on the performance. Determine calorie consumption.
[0033]
The display unit 17 is composed of a liquid crystal matrix display or the like, and displays the song name, calorie consumption, points, etc. of the song selected by the song selection switch.
[0034]
The sound source 18 is a circuit that generates musical sounds corresponding to the operation of the keyboard 15. The generated musical sound is input to the effector amplifier 19. The effector amplifier 19 amplifies the musical sound with a predetermined effect and emits the sound from the speaker 20.
[0035]
The MIDI interface 21 is an interface for connecting to other MIDI devices via a cable. Examples of other MIDI devices include an automatic performance device and a sound source device. The performance information generated by the operation of the keyboard 15 is converted into a MIDI message by the CPU 10 and is output from the MIDI interface 21. A MIDI message input from the MIDI interface 21 is supplied to the sound source 10 via the CPU 10, and a musical sound is generated by the MIDI message. As described above, the output function of the MIDI interface 21 is used when the keyboard 15 is used to sound an externally connected sound source other than the built-in sound source 18 or the performance information of the keyboard 15 is stored externally. The input function of the MIDI interface 21 is used when driving the built-in sound source 18 by inputting performance information from an externally connected automatic performance device or the like.
[0036]
FIG. 2A shows a performance calorie consumption database stored in the ROM 11 or the hard disk 14. This performance calorie consumption database stores the calories consumed by the performer due to the performance operation for generating the performance information based on the performance information. In addition to single performance information such as key-on (including pitch), key-off, etc. as a performance mode for determining calorie consumption, there are multiple pitch intervals between two sounds, key-on frequency (number of key-ons per unit time), etc. The performance mode consisting of the performance information is stored. Corresponding to each performance mode, a calorie consumption amount that will be consumed when the performer performs in the performance mode is stored.
[0037]
The calorie consumption may be stored as a specific numerical value, but may be stored as a function. For example, since the calorie consumption varies depending on the pitch and velocity, the key-on is stored as a function having the pitch and velocity as variables. The pitch interval is stored as a function with the interval (number of semitones) as a variable. The key-on interval is stored as a function with the time between two consecutive sounds as a variable. The key-on frequency is stored as a function having the number of key-ons per unit time as a variable. In these functions, the calorie consumption increases as the velocity increases, the calorie consumption increases as the pitch increases, and the calorie consumption increases as the interval between two consecutive pitches (jump) increases. It stores a functionalized rule such that the calorie consumption is larger as the sound interval is shorter, and the calorie consumption is larger as the number of pronunciations per unit time is larger.
[0038]
The calorie consumption may be a value obtained by actually playing a skilled player and sampling the actual calorie consumption at that time.
[0039]
FIG. 3 is a flowchart showing the operation of the electronic musical instrument. FIG. 2A is a flowchart showing the operation in the normal performance mode. When the performer operates the keyboard 15 and inputs performance information (s1), the CPU 10 controls the sound source 18 according to the performance information to control the sound generation and mute (s2). Then, the performance calorie consumption database is searched with this performance information (and previous performance information), and the corresponding calorie consumption is read out, that is, the corresponding function is read and this function is calculated with the given variable. Thus, the calorie consumption by the performance operation is calculated (s3). The calculated calorie consumption is integrated in the calorie consumption integration area set in the RAM 12 (s4). And the display of the calorie consumption of the display part 17 is updated (s5), and it returns to s1. Each time the performance information is input, the display unit 17 displays the calorie consumption amount by the performance operation, and also displays the integrated value that has been integrated in the calorie consumption integration area.
[0040]
FIG. 5B is a flowchart showing the operation when the reset switch is turned on. When the reset switch 16a is turned on (s6), the performance calorie consumption integration area is reset (s7), and the display of the integrated value on the display unit 17 is changed to 0 (s8).
[0041]
FIG. 2B is a diagram showing the configuration of the song data. This song data is used in the performance determination mode as described above. The song data consists of a sequence track and a phrase calorie track.
[0042]
The sequence track is a track in which so-called automatic performance data is written, and includes event data such as key-on and key-off, and timing data indicating the timing of each event data. The key-on data and key-off data include velocity information and pitch information. In addition to the key-on data and key-off data, tempo data that indicates the tempo and phrase mark data that indicates the breaks between phrases of the music are written as event data.
[0043]
The phrase calorie track stores standard calorie data for each phrase in phrase order. A phrase is a section delimited by the phrase mark data. The standard calorie data is data indicating a standard calorie consumption amount in each phrase, and indicates a calorie consumed by the performance of this section when a skilled player plays this song. Note that the standard calorie data of the phrase calorie track may be obtained by actually playing a skilled player and sampling the actual calorie consumption at that time.
[0044]
FIG. 4 is a flowchart showing the operation in the performance determination mode. FIG. 4A is a flowchart showing the switch operation. When the music selection switch is operated (s11), the music data corresponding to the music selection operation is read from the hard disk 13 or the MD 14a to the RAM 12 (s12). When the start switch is turned on (s13), the performance calorie consumption accumulation area is reset (s14), and reading is started from the beginning of the sequence track, and the tempo of the tempo is written based on the tempo data written therein. Counting is started (s15). The CPU 10 reads the sequence track based on the tempo data, but does not perform sound generation processing (input to the sound source 18). Then, a display indicating the timing is performed on the display unit 17 in accordance with the beat timing of the music, or a metronome sound is generated using the sound source 18 (s16).
[0045]
FIG. 5B is a flowchart showing the operation after the start switch is turned on. When performance information is generated by the performer operating the keyboard 15 (s21), the CPU 10 controls the sound source 18 in accordance with the performance information to control the sound generation and mute (s22). Then, event data corresponding to the performance information generated this time is searched from the sequence track, and it is determined which part of the song is currently played (s23). This search for the corresponding event data is performed by comparing the timing at which performance information is generated on the tempo clock with the timing data of the sequence track, and comparing the pitches not only for the current performance information but also for performance information generated so far. Make a comprehensive decision. When the corresponding event data is searched, the event data is compared with the performance information generated this time, and points are calculated by evaluating pitch coincidence / non-coincidence, velocity coincidence, timing deviation, etc. (S24). Then, this point is added to the point integration area (s25). The scoring by this performance is not limited to the above system, and any system may be used as long as it is based on the input performance information.
[0046]
Next, the performance calorie consumption database is searched with this performance information (and previous performance information), and the corresponding calorie consumption is read out, that is, the corresponding function is read and this function is calculated with the given variable. As a result, the calorie consumption by the performance operation is calculated (s26). The calculated calorie consumption is integrated in the phrase calorie consumption integration area set in the RAM 12 (s27). The operations from s21 to s27 are repeatedly executed until the phrase break or the end of the music (s28, s35).
[0047]
When it is determined that the phrase is separated by reading the input performance information or the sequence track in accordance with the tempo clock (s28), the calorie consumption of the phrase just completed is displayed on the display unit 17. (S22), the standard calorie data corresponding to the phrase is read from the phrase calorie track (s30), the accumulated calorie consumption is compared with the standard calorie data, and points are calculated based on the comparison result (s31). ). That is, a rule point is calculated that the higher the proficiency level, the closer the performer's calorie consumption is to the standard calorie data. That is, here, the calorie consumption is used for evaluation of a performance action comprehensively determined from the strength of keystrokes and the like. Then, the calculated points are integrated in the point integration area (s32). This point may be accumulated together with the points calculated based on the degree of coincidence between the performance information and the event data, or may be accumulated separately. Then, the calorie consumption of this phrase is changed to a calorie consumption integration area for integrating the calorie consumption of the entire song, and after the phrase calorie consumption integration area is cleared (s33), the process returns to s21.
[0048]
On the other hand, when the end of the song is determined by reading out the performance data or the sequence track that matches the tempo clock (s35), the phrase processing is first executed (s36). This phrase process is a process executed at the end of the phrase, and is the same process as s29 to s33. After that, the total calorie consumption accumulated in the calorie consumption accumulation area is displayed (s37), the points accumulated in the point accumulation area are displayed as a total score (s38), and the operation is terminated.
[0049]
In this way, if a song is played, it can be determined how well the song has been played, and it is possible to measure and display how much calories have been consumed by the performance. In addition, since the standard calorie consumption is stored for each phrase and the actual consumption is compared, it is possible to judge not only the skill but also the performance of the performance more accurately.
[0050]
In contrast to the performance scoring based on the calorie consumption, the calorie consumption can be calculated based on the performance scoring result. That is, the player thinks that the calorie is consumed according to the scoring result of the performance, and the calorie consumption can be calculated by the arithmetic expression “phrase calorie consumption = (phrase scoring result / full score) × phrase calorie”. .
[0051]
FIG. 5 is a view showing a performance calorie consumption display device according to another embodiment of the present invention. This performance calorie consumption display device is attached to an electronic musical instrument having a MIDI output and calculates a calorie consumption corresponding to a performance operation. For example, a small device placed on an acoustic piano (Piano Player (trademark)) having a MIDI message output function is a device connected to the MIDI terminal of the piano. This device corresponds to the performance calorie consumption measuring device of the present invention and has a function of displaying the measured calorie consumption.
[0052]
This apparatus has substantially the same electrical configuration as that of the electronic musical instrument of FIG. 1 except that the performance keyboard 15 and the sound source 18, the effector amplifier 19, and the speaker 20 are not provided. The following points are different from musical instruments. The ROM 31 or the hard disk 33 is provided with a plurality of types of performance calorie consumption databases. That is, since this apparatus does not have specific performance means and various performance means are connected via the MIDI interface 37, a performance calorie consumption database can be selected in accordance with the connected performance means. As described above, a device corresponding to each performance means is provided. Examples of performance means to be connected include an acoustic piano, a MIDI guitar, an electronic keyboard, a wind instrument type controller, and a gesture controller. The operation unit 35 includes a database selection switch 35d in addition to the reset switch 35a, the music selection switch 35b, and the start switch 35c. The database selection switch 35d is for the user to select a corresponding performance calorie consumption database in accordance with the performance means connected to the MIDI interface 37. When the selected performance calorie consumption database is stored in the ROM 31, the address is set in an address pointer indicating the database. When the selected performance calorie consumption database is stored in the hard disk 33, the database is read into a predetermined area of the RAM 32, and the address of the predetermined area is set in the address pointer.
[0053]
In addition, the performance calorie consumption display device performs processing operations as shown in the flowcharts of FIGS. 3 and 4 in the same manner as the electronic musical instrument.
[0054]
In the above embodiment, the integrated value of calorie consumption is only displayed as a numerical value. However, when the integrated value reaches a predetermined value, a character or the like is displayed to clearly indicate that the predetermined value has been reached. I can understand and encourage the performers. Moreover, you may make it display the instantaneous value and integrated value of calorie consumption instead of a numerical value as a graph. Further, the integrated value of the calorie consumption may be displayed graphically in correspondence with food having actually that many calories.
[0055]
The performance calorie consumption display device may not only display the measured calorie consumption, but also output it as data or record it on an electronic medium or paper medium.
[0056]
DETAILED DESCRIPTION OF THE INVENTION
As described above, according to the present invention, since the player can know how much calories are consumed by the performance operation, it is possible to know the degree of the practice of the instrument and the practice of the instrument and the diet. It is also possible to achieve both. Also, even if you feel fatigue due to practice, you can get a sense of satisfaction because you know the calorie consumption objectively.
[Brief description of the drawings]
FIG. 1 is a block diagram of an electronic musical instrument according to an embodiment of the present invention.
FIG. 2 is a diagram showing a configuration of a performance calorie consumption database and song data of the electronic musical instrument
FIG. 3 is a flowchart showing the operation of the electronic musical instrument.
FIG. 4 is a flowchart showing the operation of the electronic musical instrument.
FIG. 5 is a block diagram of a performance calorie consumption display device according to another embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... CPU, 11 ... ROM, 12 ... RAM, 13 ... Hard disk, 14 ... MDD, 14a ... MD, 15 ... Performance keyboard, 16 ... Operation part, 16a ... Reset switch, 16b ... Music selection switch, 16c ... Start switch, 17 ... Display unit, 18 ... Sound source, 19 ... Effector amplifier, 20 ... Speaker, 21 ... MIDI interface,
30 ... CPU, 31 ... ROM, 32 ... RAM, 33 ... hard disk, 34 ... MDD, 34a ... MD, 35 ... operation unit, 35a ... reset switch, 35b ... music selection switch, 35c ... start switch, 35d ... database selection switch, 36 ... Display unit, 37 ... MIDI interface

Claims (13)

A performance means for generating performance information according to the performance operation of the performer;
Sound generation means for generating musical sounds according to the performance information;
Calculation means for calculating calorie consumption by the performance operation based on performance information;
Electronic musical instrument with A reference database storing calorie consumption corresponding to performance information generated by the performance means;
2. The electronic musical instrument according to claim 1, wherein the calculation unit calculates a calorie consumption amount by searching the reference database with performance information generated by the performance unit. The electronic musical instrument according to claim 1 or 2, wherein the calculation means repeatedly calculates the calorie consumption and integrates the calculated calorie consumption. A storage means for storing phrase calorie data, which is a standard calorie consumption for each predetermined section of a specific song,
The said calculating means is a means which calculates the calorie consumption for every predetermined area of the said specific music based on the performance information which the said performance means generate | occur | produced, and outputs the comparison result with the said phrase calorie data. The electronic musical instrument according to claim 2 or claim 3. The storage means stores sequence data, which is pitch information to be generated in the order of progression of the specific song, in association with the phrase calorie data,
The performance means generates velocity information indicating the strength of the performance operation as performance information, pitch information indicating the pitch,
The arithmetic means compares the pitch information generated by the performance means with the sequence data to determine a performance location, and calculates calorie consumption per predetermined section of the specific song based on at least the velocity information The electronic musical instrument according to claim 4. The sequence data includes timing data indicating the generation timing of each pitch information,
The arithmetic means scores the performance operation based on a comparison result between the calorie consumption and phrase calorie data for each predetermined section and a comparison result between the pitch information generated by the performance means and the sequence data. The electronic musical instrument according to claim 5. Input means for outputting performance information according to the performance operation of the performer from the performance device;
Calculation means for calculating calorie consumption by the performance operation based on the input performance information;
Performance calorie consumption measuring device equipped with. A reference database storing calorie consumption corresponding to performance information generated by the performance means;
The performance calorie consumption measuring apparatus according to claim 7, wherein the calculation means calculates the calorie consumption by searching the reference database with performance information generated by the performance means. The performance calorie consumption measuring device according to claim 7 or 8, wherein the calculation means repeatedly calculates the calorie consumption and integrates the calculated calorie consumption. A storage means for storing phrase calorie data, which is a standard calorie consumption for each predetermined section of a specific song,
The said calculating means is a means which calculates the calorie consumption for every predetermined area of the said specific music based on the performance information which the said performance means generate | occur | produced, and outputs the comparison result with the said phrase calorie data. The performance calorie consumption measuring device according to claim 8 or 9. The storage means stores sequence data, which is pitch information to be generated in the order of progression of the specific music, in association with the phrase calorie data, and the performance means indicates a velocity indicating the strength of the performance operation as performance information. Information, pitch information that indicates the pitch,
The arithmetic means compares the pitch information generated by the performance means with the sequence data to determine a performance location, and calculates calorie consumption per predetermined section of the specific song based on at least the velocity information The performance calorie consumption measuring device according to claim 10. The sequence data includes timing data indicating the generation timing of each pitch information,
The arithmetic means scores the performance operation based on a comparison result between the calorie consumption and phrase calorie data for each predetermined section and a comparison result between the pitch information generated by the performance means and the sequence data. The performance calorie consumption measuring apparatus according to claim 11. A plurality of the reference databases corresponding to each of a plurality of types of performance devices,
The performance calorie consumption measuring apparatus according to any one of claims 8 to 12, wherein one of the plurality of reference databases is supplied to the computing means.

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