A method for assisting a user in tuning a drum comprising the steps of: considering a strike on the drum whereby the strike is detected in a sensor signal in at least one of following domains: a time domain, a frequency domain, a complex domain; recording a first sound fragment of the strike; converting the first sound fragment from the time domain to the frequency domain; analyzing the first sound fragment in order to detect a fundamental tone with fundamental tone frequency of the drum; calculating an overtone frequency or overtone frequency range of a first overtone of the drum by means of a predetermined algorithm related to the fundamental tone frequency; setting a filter with a pass frequency band covering the calculated overtone frequency or overtone frequency range; and indicating, via a user interface, at each further strike when the frequency of the first overtone detected in the pass frequency band is higher or lower than a target overtone frequency.

A digital tuner that determines a tuning target period; receives an audio signal from an instrument to be tuned; obtains a plurality of different segments of the audio signal starting at times that correspond to integer multiples of the target period; produces waveform samples from the segments; and displays of a succession of waveform segments at same display position using said segments so that the shape of the waveform appears to move on the display at a speed and direction directly dependent on a difference of a wave period of the audio signal to be tuned and the tuning target period.

A digital tuner that determines a tuning target period; receives an audio signal from an instrument to be tuned; obtains a plurality of different segments of the audio signal starting at times that correspond to integer multiples of the target period; produces waveform samples from the segments; and displays of a succession of waveform segments at same display position using said segments so that the shape of the waveform appears to move on the display at a speed and direction directly dependent on a difference of a wave period of the audio signal to be tuned and the tuning target period.

Methods and systems for performing modified reverb techniques for audio signals are described. The method may involve receiving an audio signal, a modal reverb effect to be applied to the audio signal, and an indication of a plurality of frequencies. Modes of vibration of a space simulated by the reverb effect may be separated into a set of frequencies included in the input, and a set frequencies not included in the input. The modal reverb effect may be modified by separately adjusting the separate sets of modes of vibration. The modified effect may then be applied to the audio signal.

Methods and systems for performing modified reverb techniques for audio signals are described. The method may involve receiving an audio signal, a modal reverb effect to be applied to the audio signal, and an indication of a plurality of frequencies. Modes of vibration of a space simulated by the reverb effect may be separated into a set of frequencies included in the input, and a set frequencies not included in the input. The modal reverb effect may be modified by separately adjusting the separate sets of modes of vibration. The modified effect may then be applied to the audio signal.

The invention provides a method, system and tuning devices for reed and flue pipes for automatically tuning or checking the tuning of a pipe organ. The invention enables the tuning of the reed pipes to the same pitch as flue pipes if the fluctuation of temperature and humidity has caused a change in the pitch of the flue pipes, and to restore the tuning of the reed pipes in case of random loss of tuning. The invention allows to reduce the tuning time and to tune the pipes that require more frequent tuning (i.e. the reed pipes) unobtrusively to the organist and listeners during the playing of the organ. It is possible to employ the method of the invention on all pipes of an organ or only on a selection of them.

According to the invention, a musical instrument having a device for tuning tuning bodies is disclosed, a) having at least (12) mechanical tuning elements or tuning element systems, b) wherein the (12) mechanical tuning elements or tuning element systems represent the (12) chromatic notes of an octave, c) wherein in each case a tuning element or tuning element system is mechanically operatively connected to at least one tuning body, d) wherein each tuning element or tuning element system has exclusively octave-related tuning bodies associated with it, e) wherein during tuning of the musical instrument the tuning elements or tuning element systems are actuatable or actuated independently of one another, wherein the tuning elements are embodied as tuning levers and/or the tuning element systems are embodied as tuning lever systems, wherein a tuning lever system has at least two tuning levers that have differently located pivots, wherein the tuning levers are slidingly connected to one another by means of adjacent pivots, and wherein the geometric arrangement of the operative connections of the octave-related tuning bodies and the associated tuning elements in relation to one another is configured in the manner of an intercept theorem.

According to the invention, a musical instrument having a device for tuning tuning bodies is disclosed, a) having at least (12) mechanical tuning elements or tuning element systems, b) wherein the (12) mechanical tuning elements or tuning element systems represent the (12) chromatic notes of an octave, c) wherein in each case a tuning element or tuning element system is mechanically operatively connected to at least one tuning body, d) wherein each tuning element or tuning element system has exclusively octave-related tuning bodies associated with it, e) wherein during tuning of the musical instrument the tuning elements or tuning element systems are actuatable or actuated independently of one another, wherein the tuning elements are embodied as tuning levers and/or the tuning element systems are embodied as tuning lever systems, wherein a tuning lever system has at least two tuning levers that have differently located pivots, wherein the tuning levers are slidingly connected to one another by means of adjacent pivots, and wherein the geometric arrangement of the operative connections of the octave-related tuning bodies and the associated tuning elements in relation to one another is configured in the manner of an intercept theorem.

A system for fractionally representing time signature for use with digital device includes a user interface that enables a user to enter a first number to represent the number of beats per bar; and to enter a second number to represent the number of divisions per beat. The system uses a processing device to run a set of transcription rules to the first and second numbers in response to user selected inputs. A graphical output is used to display a visual representation of the desired fractional output is displayed. The system also includes a method for fractionally representing time signatures with the steps of entering, via an electronic processing device, a first and a second number where the first number represents the number of beats per bar and the second number represents the number of divisions per beat and displays the result on an electronic display.

The musical instrument tuner includes: a sensor device that is attached to a musical instrument; and an operation device that is able to perform wireless communication mutually with the sensor device, in which the sensor device includes an acceleration sensor that has at least two detection axes, frequency detection means for detecting, as a detected frequency, a frequency of a vibration of musical sound generated through an operation of the musical instrument based on an output from the acceleration sensor, and sensor-side communication means for transmitting transmission information including information regarding the detected frequency to the operation device, and the operation device includes operation-side communication means for receiving the transmission information transmitted from the sensor device, display means, and control means for generating tuning information of the musical instrument and causing the display means to display the tuning information based on the transmission information received from the sensor device.