The hard problem of consciousness and the measurement problem in quantum mechanics have long remained disjoint anomalies in modern physics. In this paper, we propose the Consciousness Weaving Theory (CWT), a unified mathematical framework that defines subjective intention as a non-linear topological tensor operator capable of restructuring non-commutative spacetime metrics. By introducing the Intention Operator (λ), we demonstrate how consciousness actively minimizes the covariant weaving action, thereby collapsing chaotic superposition states into directed Bures information geodesics. To demonstrate the mathematical consistency of this framework, we developed an interactive numerical simulation (VER 4.0). Under extreme simulated parameters, the mathematical model yields profound phase transitions: simulated Quantum Fisher Information (QFI) surges to macroscopic limits, compressing mathematical variance to align with the Quantum Cramér-Rao Bound (QCRB). This paper provides a rigorous theoretical framework and an interactive computational visualizer.
Jack Liu (Tue,) studied this question.
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