Room Treatment on the cheap-ish
Making a silk purse out of a sow’s ear? Maybe.
So, following up on the previous build.
Let’s test whether there are any measurable results, shall we?
Testing was done with playing an impulse through the monitors https://www.akaipro.com/rpm3 and recording with a condensor mic. https://www.audio-technica.com/en-gb/catalog/product/view/id/4010/s/at2035
The principle of emitting an impulse is that an even band of all the audio frequencies is emitted into the space and then the outcomes are recorded.
A perfect setup would look the same — good luck with that, by the way, and any sonic colouration due to reverberation across the reflective surfaces will be revealed. Resonances will result in peaks in frequencies and also a slow decay of that frequency. Anti-resonances will result in deadening of sounds and notches.
Here’s the input impulse and the recorded waveforms for before and after (at the bottom).
We can see the decay time is faster for after treatment, and the sonic difference to the human ear is pretty clear.
The spectra do not show a very convincing story: the bass and treble peaks are maybe smaller, but it’s hard to tell from that.
In contrast the sonogram very clearly shows the differences.
Conclusion
Even with the minor area coverage, those annoying reverberations are gone, and no doubt more would make more of a difference. This much is enough for now, but maybe later we’ll do more.
