This paper extends the single-node bio-quantum LEO payload architecture into a decentralized, multi-agent cislunar swarm. We introduce a third-order quantum routing tensor within the Spyder protocol to enable coherence-preserving state transfer across deep-space distances. By generalizing the surface-flux conservation law to the network level and introducing an inter-node entropic transfer mechanism, the constellation functions as a self-regulating thermodynamic web. A fractal safety framework ensures resilience across molecular, payload, and swarm scales. The architecture provides a scalable foundation for autonomous, long-duration operations in the Genesis Mission 2026. It builds directly on prior work in bio-quantum payload design, quantum teleportation routing, and dissipative thermodynamic management.
Venerable et al. (Fri,) studied this question.
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