Spectravox and DFAM | Advanced Physical Modeling скачать в хорошем качестве

Spectravox and DFAM | Advanced Physical Modeling

In this video we explore the principles of physical modeling synthesis using DFAM and Spectravox. We begin with a summary of physical modeling synthesis. Physical modeling models an excitation signal (the isolated sound of a finger hitting a drum head, a pick plucking a guitar sting, a bow bowing a cello string) and a resonating body (a drum, a wooden block, a string coupled with a wooden body, etc.). Excitation signals are usually very short sounds full of harmonics and noise – we use DFAM to sculpt a broadband signal with lots of internal dynamics using DFAM’s three envelopes. Spectravox’s ten resonant filters with individual level control are then used to model a resonating body. DFAM’s velocity sequencer further allows us to create a sequence with harder or softer drum hits, while its pitch sequencer can move Spectravox’s filters via the SHIFT input for fascinating tonal changes. Learn more about Spectravox: https://www.moogmusic.com/synthesizer... Learn more about DFAM: https://www.moogmusic.com/synthesizer... Keep up with all things Moog: https://www.moogmusic.com    / @moogsynthesizers     / moogsynthesizers     / moogmusicinc     / moogsynthesizers   https://x.com/moogmusicinc #Moog #MoogMusic #Moogsynthesizer #synthesizers #modular #synth