Biomimetic innovation leveraging nature's golden angle for revolutionary advances in satellite communications, neural interfaces, and cryptographic security
This mathematical constant appears throughout nature—from the spiral arrangement of sunflower seeds to the branching patterns of trees, from the scales of pinecones to the structure of galaxies. It represents the most efficient way to pack elements in space without gaps or overlaps. We've adapted this ancient pattern for modern technological challenges.
Sunflowers
Pineapples
Pinecones
Rose Petals
Galaxies
The phyllotactic method—based on the golden angle and 121-node geometry—provides a unified architectural spine across dramatically different technological applications.
Golden-Angle Phyllotactic Antenna Array (GAFAA)
Antenna arrays utilizing phyllotactic element positioning achieve superior performance characteristics compared to conventional grid-based designs. The golden-angle spacing pattern reduces mutual coupling between elements while maximizing spatial efficiency.
Phyllotactic Neural Mesh (PNM)
Neural interface electrode arrays based on phyllotactic positioning provide optimal cortical coverage with minimal electrode count. The golden-angle arrangement eliminates blind spots while maintaining biocompatibility and surgical feasibility.
Phyllotactic Key Derivation (PhiKey)
Cryptographic systems employing golden-angle transformations and phyllotactic indexing for key derivation and entropy generation. The structured nature of phyllotactic patterns provides reproducible yet complex keyspaces with enhanced security properties.
Integrated Biomimetic System (IBS)
Unified control architecture enabling cross-domain integration of Wave, Mesh, and Vault systems. Core provides the protocols, timing synchronization, and emergent-property detection frameworks that allow phyllotactic subsystems to operate as a cohesive whole.
A unified mathematical framework providing the architectural foundation for all Phyllux technologies
Elements positioned at 137.508° intervals around a central point, creating optimal distribution without gaps or clusters
Complete system architecture with up to 121 elements arranged in phyllotactic spiral patterns
Designated anchor point serving as phase reference (Wave), signal reference (Mesh), or key anchor (Vault)
Geometric relationships remain constant across physical scales, from micrometers to meters
Technology development guided by clear moral boundaries and humanitarian priorities
Phyllux technology will not be licensed for weapons systems, autonomous kill chains, or offensive military applications. Defensive systems, protective technologies, and non-lethal applications are within scope.
No licensing for mass surveillance, abusive monitoring, or technologies that enable oppression. Applications must respect individual privacy and human dignity.
All cryptographic systems are free from backdoors and hidden access mechanisms. Security through transparency and mathematical rigor, not through obscurity or covert access.
Flexible engagement tiers designed to align with partner mission, scale, and strategic objectives
Early-stage strategic partners and first movers. Equity participation with preferential royalty structures. Collaborative development opportunities and co-invention pathways.
Organizations pursuing humanitarian objectives, space exploration, or medical advancement. Preferential licensing terms (1-3% royalty) for mission-aligned applications.
Standard commercial licensing for industrial applications. Transparent royalty structure (3-5%) with volume-based considerations and clear territorial rights.
Free licensing for non-commercial research, educational institutions, and open science initiatives. No royalties, no patent enforcement for qualifying use cases.
Interested in licensing Phyllux technology for your applications? Exploring strategic partnership opportunities? Discussing mission-aligned collaboration in space, medical, or defense sectors?
📧 phibronotchi@gmail.comInventor & Founder
Edmonton, Alberta, Canada