Thanks daniel; i'm aware of this technique. Im specifically looking for a smoothing method that allows variable amounts of smoothing, and also implements a way to have increasing values be smoothed differently than decreasing values.
Any thoughts on that?
-ali
On Wed, Jan 18, 2017 at 3:45 PM, Daniel Iglesia daniel.iglesia@gmail.com wrote:
Grabbing the previous incoming value, and one [expr] should do it, to implement a first order filter
y[i] := y[i-1] + α * (x[i] - y[i-1])
as
[expr if($f1>$f2, $f3+.1*($f1-$f3), $f3+.2*($f1-$f3))]
where $f1 is the incoming number, $f2 is the previous incoming number, the output of this expr is routed into the second inlet as $f3. .1 is the smoothing coeff for increasing, .2 is the smoothing coeff for decreasing.
So:
[(floatatom)( | [t f f b] | \ / | / | /
| /
| [float] | | | | | | [expr if($f1>$f2, $f3+.1*($f1-$f3), $f3+.2*($f1-$f3)) ] | | [(floatatom)( | <route connection into 3rd outlet of expr>On Wed, Jan 18, 2017 at 11:18 AM, Ali Momeni batchku@gmail.com wrote:
Hello all,
Can someone point me to an existing abstraction/external that behaves somewhat like Max's "slide" object? Specifically, i'm looking for a way to smooth (low-pass) floats (control rate) but with the ability to smooth out increasing and decreasing values differently.
Thank you!
-ali
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