Novel Synthesis Method IV · 2026

Morphogenetic
Field Synthesis

Coupled Voronoi cells exert pressure on their neighbours through elastic stress fields. Their collective mechanical oscillation — including mitosis events that send shockwaves through the tessellation — becomes the audio signal.

24
Cell Count
0.00
Mean Pressure
0.00
Kinetic Energy
0
Mitosis Events
Tissue
State
Morphogenetic Field · click to inject pressure · right-click to kill cell
— system initialising —
Field Parameters
Cell Mechanics
Mitosis / Apoptosis
Audio Output
Out
Sound Shaping
LFO → Field Parameter Modulation
Reverb
Delay
Voronoi Stress Field · Coupled Spring-Mass System
F_i = −k·(A_i − A_rest) · n̂_i − γ·v_i + Σⱼ T·(r_j − r_i)/|r_j − r_i|
Mitosis: if A_i > thresh · A_mean → split cell, inject shockwave ΔP = α·A_i
Audio: x_i(t) displacement of scan-row cells, summed → 1D waveform at each frame

Each cell i has position r_i, velocity v_i, Voronoi area A_i. Pressure restoring force drives cells toward A_rest. Tension couples neighbours. Mitosis events above area threshold create discontinuous topology changes heard as percussive transients. Lloyd relaxation every N steps keeps the tessellation stable.