A system (50) for modifying an audio signal (Audo1) comprises a portable device (50) including at least one digital signal processor DSP.
The DSP comprises a first module (503) and a second module (504). The first module (503) is coupled to the interface (501) to provide a reference electric musical instrument (502) with a set of input test signals (Sig9) and obtain a set of test output signals (Resp9) via the interface (501). The second module (504) is configured to perform functions including:
Analysing the set of test output signals (Resp9) to obtain a set of parameters (Prm1);
parameterizing an acoustic transducer (505) and a modeler (30) to model characteristics of the reference electric musical instrument (502) based on the set of parameters (Prm1);
Receiving the audio signal (Audo1) from a played musical instrument (63 / 502) to modify it into a second audio signal (Audo2) using the modeler (30) and the acoustic transducer (505),
wherein the first module obtains the set of parameters (Prm1) at least by identifying frequency bins where overtones occur in the test output signals (Resp9). The set of parameters comprises two profiles (Profile A, Profile B), gain characteristics, breakup value, pre-/post-amplifiers characteristics, measured beforehand via the interface, stored and made available in the cloud.
Another embodiment provides a system (60) comprising a first host (61) and a second host (62). The first host measures a reference electric musical instrument (502) via a first and second modules (503, 504) and sends the obtained set of parameters (Prm1) of a corresponding physical model over the cloud; the second host (62) retrieves the set of parameters (Prm1) from the cloud and modifies via a third module (620) the audio (Sig10) input from an actual music instrument (63) in real time, to produce an output signal (Resp10) having a similar timbre as the reference electric music instrument (502).