UNNS Cognitive Architecture
Hierarchical Validation with Quantum-Inspired Processing
Interactive Simulation
This static visualization shows a snapshot of UNNS processing. In the full implementation, nodes dynamically change states as validation cascades through the hierarchy.
Hierarchical Nest Architecture
UNNS Processing Algorithm
Bottom-Up Validation
Sensory inputs create quantum superposition states
Cross-nest validation checks parent level coherence
Successful validation creates quantum entanglement
Failed validation leads to quantum decoherence
Information propagates upward through hierarchy
Top-Down Orchestration
Meta-consciousness level influences lower nests
Validated states propagate downward
Executive control modulates processing
Recursive feedback maintains coherence
Global coherence emerges from local interactions
Key Innovation: This UNNS implementation achieves quantum-inspired validation where nodes in higher nests instantaneously affect validation states in lower nests through simulated quantum entanglement, creating O(log n) communication complexity instead of traditional O(n) sequential processing.
Future Enhancements
Real quantum circuit integration for authentic quantum processing
Microtubule-inspired biological constraints and timing parameters
Anesthetic simulation showing consciousness degradation
Learning algorithms with memory consolidation across nest levels
Multi-agent UNNS networks for distributed consciousness modeling
This prototype demonstrates key UNNS principles: hierarchical validation, quantum-inspired processing, and emergent consciousness through mathematical structures.