Zeitpunkt Nutzer Delta Tröts TNR Titel Version maxTL Mo 29.07.2024 00:00:12 61.965 -1 3.587.302 57,9 Fosstodon 4.2.10 500 So 28.07.2024 00:00:15 61.966 +3 3.586.611 57,9 Fosstodon 4.2.10 500 Sa 27.07.2024 00:00:14 61.963 +5 3.583.830 57,8 Fosstodon 4.2.10 500 Fr 26.07.2024 00:01:07 61.958 +1 3.580.868 57,8 Fosstodon 4.2.10 500 Do 25.07.2024 00:00:10 61.957 +1 3.577.506 57,7 Fosstodon 4.2.10 500 Mi 24.07.2024 00:01:07 61.956 0 3.574.077 57,7 Fosstodon 4.2.10 500 Di 23.07.2024 00:00:03 61.956 -3 3.570.705 57,6 Fosstodon 4.2.10 500 Mo 22.07.2024 00:01:10 61.959 +1 3.567.825 57,6 Fosstodon 4.2.10 500 So 21.07.2024 00:01:07 61.958 +1 3.564.861 57,5 Fosstodon 4.2.10 500 Sa 20.07.2024 00:01:10 61.957 0 3.561.604 57,5 Fosstodon 4.2.10 500
coolbutuseless (@coolbutuseless) · 02/2023 · Tröts: 4.603 · Folger: 720
Mo 29.07.2024 12:10
{audiogenic} audio synthesis package update:
I think I've "cracked" the structures I need for audio generation.
Besides a Wavetable, it is essential to have low-frequency oscillators & other modulators
Must be able to combine + configure modulators in order to sculpt a reference waveform into a unique sounds
Modulators now respect standard Ops (+-*/ etc). Easy to write custom functions for bespoke binary/unary ops.
R code showing the 'audiogenic' package being used to create a low-frequency oscillator and an attack-decay-sustain-release profile. These two modulators are then combined in various ways and plotted.
Raw modulators and their algorithmic combination using 'audiogenic' package. top left: infiite sine wave (low frequency osciallator) top right: ADSR volumen envelope middle left: convolution of the LFO and ADSR middle right: square root of the ADSR profile bottom left: inverse of the ADSR profile bottom right: absolute value of the LFO
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