You have to watch this several times. It’s the best explanation of why we need to tune unisons as perfectly as possible- how it affects the tone. The second example in the video has a sound that would make me think the string wasn’t seated properly or the hammer needs to be filed. But that’s not it - it’s the response of the partials behaving from the result of a less than perfect unison. The kind of unison you would get when tuning by ear.
This is outstanding work. The most comprehensive objectively measured description of what is happening with pitch following the note strike that has ever been published/reported I believe.
Hi Steven, saw your pianoworld post. Very interesting comparison. There is a technique called the "phase vocoder" that builds on the STFT which can produce the kind of frequency and amplitude analysis you're talking about here. I first encountered it many ears ago in the book "Digital Audio Signal Processing: An Anthology" by John Strawn, but I'm sure there are other explainers online now.
I am familiar with the phase vocoder. I use a different approach to get ultra fine grain frequency estimate between FFT bins that is better in this application. Thanks for the reference.
You have to watch this several times. It’s the best explanation of why we need to tune unisons as perfectly as possible- how it affects the tone. The second example in the video has a sound that would make me think the string wasn’t seated properly or the hammer needs to be filed. But that’s not it - it’s the response of the partials behaving from the result of a less than perfect unison. The kind of unison you would get when tuning by ear.
This is outstanding work. The most comprehensive objectively measured description of what is happening with pitch following the note strike that has ever been published/reported I believe.
Hi Steven, saw your pianoworld post. Very interesting comparison. There is a technique called the "phase vocoder" that builds on the STFT which can produce the kind of frequency and amplitude analysis you're talking about here. I first encountered it many ears ago in the book "Digital Audio Signal Processing: An Anthology" by John Strawn, but I'm sure there are other explainers online now.
I am familiar with the phase vocoder. I use a different approach to get ultra fine grain frequency estimate between FFT bins that is better in this application. Thanks for the reference.
Interesting