Sequential Time Theory (STT) defines time as a metrological quantity realized by operational procedures (record, count, resolution) rather than as a coordinate axis. Starting from the primitive definition Δτ (n) =n k ΔQᵤnit, STT internalizes time metrology (L2) and treats spacetime geometry (L1) as a representation of protocol constraints, rendering block-universe interpretations optional rather than required for derivations. Physics is reframed as STT-Core + Bridge axioms + Θₛys, where Θₛys is an explicit, auditable bundle of system-specific auxiliary assumptions. Within this scheme, SR/GR arise as representation theorems for defect-free/defect-bearing clock networks, QM interference is treated as measurable U (1) phase holonomy, Gaussian diffusion is derived from minimal sequential assumptions, and quantum-gravity routes are compared by Θ-auditing.
Teruhito Kojima (Tue,) studied this question.
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