Biological Patterning and Architecture as Resonance-Conditioning Structures: An Insect-Scale Synthesis within the Sympathetic Harmonic Resonance Framework (SHRF)

Tuckwell, Neil Clive

doi:10.5281/zenodo.18379080

preprintZenodo (CERN European Organization for Nuclear Research)Jan 26, 2026GREEN OA

Biological Patterning and Architecture as Resonance-Conditioning Structures: An Insect-Scale Synthesis within the Sympathetic Harmonic Resonance Framework (SHRF)

NCNeil Clive Tuckwell

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Abstract

Abstract Insects exhibit a wide diversity of surface markings, body geometries, movement patterns, and collective architectures. Classical explanations typically treat these features as visual signals, camouflage, or byproducts of developmental chemistry. Here we propose a unifying interpretation within the Sympathetic Harmonic Resonance Framework (SHRF): that insect patterning and collective construction function primarily as resonance-conditioning boundary structures. Across solitary and eusocial taxa, these structures stabilize coupling between organisms, substrates, airflow, electromagnetic fields, and thermal gradients. Visual signaling and communication emerge as secondary exploitations of deeper…

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NC
Neil Clive TuckwellCorresponding

Topics & keywords

Topics

Keywords

Mechanosensation
Resonance (particle physics)
Harmonic
Eusociality
Function (biology)
Collective behavior
Second-harmonic generation
Folding (DSP implementation)

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