An electronic wind instrument and a control method thereof are provided. The electronic wind instrument includes an acquisition unit which acquires an operation performed on a playing operator, a breathing detection unit which detects breathing, and a control unit which generates a musical sound signal on the basis of at least one of the breathing that has been detected and the operation acquired by the acquisition unit, in which the control unit switches a first mode for generating a musical sound signal with a detection of the breathing as a condition and a second mode for generating the musical sound signal on the basis of the operation regardless of whether or not the breathing has been detected, on the basis of a detection result of the breathing.

An electronic wind instrument and key operation detection method are provided. The electronic wind instrument includes an instrument body and a plurality of keys which have an operation surface operated by a player's finger and are provided on an external surface of the instrument body. Among the plurality of keys, at least two keys disposed to sandwich or surround a predetermined region comprise restriction parts formed on the operation surfaces. The restriction parts restrict escape of the player's finger from between the at least two keys having the restriction parts formed thereon.

An electronic musical instrument includes an instrument body and a plurality of keys, each of which has an operation surface operated by a player's finger is provided on an external surface of the instrument body. Among the plurality of keys, at least two keys are disposed to be adjacent to each other, and the operation surfaces of the at least two keys are configured to be inclined to descend toward between the at least two keys when viewed from a left-right direction of the electronic musical instrument.

An electronic wind instrument and a control method thereof are provided. The electronic wind instrument includes an acquisition unit which acquires an operation performed on a playing operator, a breathing detection unit which detects breathing, and a control unit which generates a musical sound signal on the basis of at least one of the breathing that has been detected and the operation acquired by the acquisition unit, in which the control unit switches a first mode for generating a musical sound signal with a detection of the breathing as a condition and a second mode for generating the musical sound signal on the basis of the operation regardless of whether or not the breathing has been detected, on the basis of a detection result of the breathing.

An electronic wind instrument and key operation detection method are provided. The electronic wind instrument includes an instrument body and a plurality of keys which have an operation surface operated by a player's finger and are provided on an external surface of the instrument body. Among the plurality of keys, at least two keys disposed to sandwich or surround a predetermined region comprise restriction parts formed on the operation surfaces. The restriction parts restrict escape of the player's finger from between the at least two keys having the restriction parts formed thereon.

A musical instrument includes a hollow body with an air inlet to blow air into the body, and an air outlet to allow the air to exit the body. A number of holes are provided which are suitable to be closed by a player. A sensor group includes proximity sensors located near the holes to detect if the holes are closed or open. One control unit is electrically connected to the sensor group, and power supply unit is connected to the sensor group and the control unit to power up the sensor group and the control unit.

A conversion-to-note apparatus includes: a key which is operated by a user; and a processor. The processor obtains, from a memory, first information and second information. The first information is information to associate a key operation on the key with an open/close state of a tone hole or virtual tone hole. The second information is information to associate the open/close state of the tone hole or virtual tone hole with a note. Further, the processor identifies, based on the first information, the open/close state of the tone hole or virtual tone hole for the key operation detected. Further, the processor determines, based on the second information, the note for the identified open/close state of the tone hole or virtual tone hole.

An electronic wind instrument according to one aspect of the present invention includes a plurality of performance keys for specifying pitches, a breath sensor which detects at least a breath input operation, and a controller (CPU), wherein the controller (CPU) selectively switches between a first mode of outputting first sound waveform data generated on the basis of the breath input operation and operation of at least one performance key from among the plurality of performance keys, and a second mode of, when the breath input operation is detected, outputting second sound waveform data based on musical piece data regardless of whether operation of the at least one performance key is detected or is not detected.

A conversion-to-note apparatus includes: a key which is operated by a user; and a processor. The processor obtains, from a memory, first information and second information. The first information is information to associate a key operation on the key with an open/close state of a tone hole or virtual tone hole. The second information is information to associate the open/close state of the tone hole or virtual tone hole with a note. Further, the processor identifies, based on the first information, the open/close state of the tone hole or virtual tone hole for the key operation detected. Further, the processor determines, based on the second information, the note for the identified open/close state of the tone hole or virtual tone hole.

An electronic musical instrument includes an instrument body and a plurality of keys, each of which has an operation surface operated by a player's finger is provided on an external surface of the instrument body. Among the plurality of keys, at least two keys are disposed to be adjacent to each other, and the operation surfaces of the at least two keys are configured to be inclined to descend toward between the at least two keys when viewed from a left-right direction of the electronic musical instrument.