The PHYRFLY Opus: A Unified Standard for Spectrally Isolated Coordination, Neural Hierarchies, and Distributed Proprioception

Abstract

This monograph establishes 259 prior art claims for a decentralized, connectionless timing and positioning architecture (TARDIS). It formalizes the PHYRFLY nomenclature to distinguish low-level, hardware-scheduled Physical-Layer synchronization primitives from higher-level application orchestration. The core novelty centers on a Spectral Isolation Model, which maps transport-agnostic architecture to biological firefly wavelength differentiation; this enables swarm-level isolation through physics (e.g., 802.11 vs. 802.15.4) rather than protocol-layer logic, ensuring that independent swarms occupying the same physical space are blind to one another at the RF front-end. Key technical advancements established as prior art include: The Neural Hierarchy (Neuron → Ganglion → Plexus → Cortex): A hierarchical orchestration model that separates flat, peer-to-peer timing infrastructure from application-layer data aggregation and command distribution. Regional Stability Digests (Ganglion Privacy): A method for masking individual node technosignatures by aggregating raw vitals into anonymous regional summaries, providing physical-layer privacy while maintaining global sensor utility. Council of Oracles: A multi-oracle time consensus mechanism where nodes with external time sources (GPS/NTP) peer-review each other to identify and demote deviant God nodes. Dormancy Lifecycle with Phantom Arbor Defense: A protocol for secure swarm re-entry after sleep, utilizing N-beacon verification and temporary authority penalties to prevent synchronization hijacking. Metabolic Stealth: A defensive behavior for sparse clusters that automatically reduces broadcast frequency to minimize RF footprint when solitary. This document provides physics foundations and reference implementations across heterogeneous silicon (ESP32-C6, MG24, nRF52840), establishing these methods as a Public Utility to preclude the patent enclosure of distributed beamforming, autonomous swarm coordination, and continental-scale geophysical sensing