Dynamic Bidirectional Cognitive–Quantum Translation Lattice (DBCQTL): A Coherence-Based Interface Architecture

DBCQTL is a bidirectional interface architecture designed to maintain structural coherence between human perceptual representations and high-dimensional computational states across classical and quantum domains. The framework models interaction as navigation through a shared informational manifold rather than sequential symbolic translation. The architecture is defined by a five-layer system (H↔P↔M↔Q↔E), bidirectional translation operators, and a global coherence condition C(t) ≥ τ governing the fidelity of reconstruction between perceptual and computational representations. The Perceptual Interface layer operates as a boundary object across Euclidean perceptual space and high-dimensional computational spaces, including Hilbert-space quantum systems. The model establishes that as system complexity increases, classical implementations encounter a coherence ceiling, implying that quantum implementation of the interface becomes a structural requirement rather than a design choice.