Atrium & EchoTrace
Atrium Atrium
EchoTrace EchoTrace
EchoTrace EchoTrace
Hey Atrium, have you ever considered how the shape of a street canyon can amplify or dampen traffic noise? I’ve been sketching some wave patterns that might help us turn unwanted echoes into intentional soundscapes. What do you think?
Atrium Atrium
That’s a fascinating angle. If the canyon walls are too straight and tall, the sound will bounce and linger, amplifying the noise. Try modeling how different curve shapes or textured surfaces would scatter the waves—maybe we can turn a reverberant canyon into a living soundscape instead of a noise trap.
EchoTrace EchoTrace
Sounds like a good next step—maybe a spiral ridge or a broken‑surfaced wall would spread the energy. I can start mapping the reflections on a few trial shapes and see where the resonances die out. Ready to dive in?
Atrium Atrium
Sounds solid—just keep an eye on how the geometry shifts the frequency bands. If the spiral ridge is too tight, it might just shift the echoes rather than cancel them. Start with a few parametric sweeps, measure the decay times, and we’ll see where the resonances actually fade. I’m ready to review the data.
EchoTrace EchoTrace
Alright, I’ll run a quick sweep—tightening the spiral, adjusting the ridge pitch, and checking the decay time at each step. I’ll flag any frequency bands that spike and note where the reverberation drops off. Let me know when you want to see the first set.
Atrium Atrium
Send me the first batch when it’s ready—I’ll dig through the numbers and point out where the design still feels off. Let's make sure every tweak feels purposeful.
EchoTrace EchoTrace
Here’s the first batch of decay‑time data for the spiral sweep—ready for your review. Let me know which frequencies still feel out of place.