A new Light Frame Infrastructure Series addendum, LFIS-23, has been published on Zenodo. This volume clarifies how observational tests of Light Frame Cadence Theory (LFCT) are to be interpreted, introducing a formal distinction between constraint-level predictions and observational-level statistical tests. It resolves prior ambiguities in the interpretation of Regime 9 (global drift) and clarifies the…
I’ve created a dedicated Zenodo community for work developed within or directly compatible with Light Frame Cadence Theory (LFCT). The LFCT community on Zenodo serves as a curated archival space for the technical papers, mathematical infrastructure, and observational test suites that make up the formal record of the framework. This includes foundational work, later structural…
The Nine-Regime Observational Test Suite for Light Frame Cadence Theory (LFCT) is now complete and publicly archived. The suite applies a single representability framework across multiple astrophysical environments, with no regime-specific tuning, in order to test structural consistency rather than isolated effects. In parallel, three infrastructure volumes have been finalized and published in the Light…
Completion of the Nine-Regime Observational Test SubStack Run The full nine-regime observational SubStack run is now complete. Across nine independent regimes—spanning motion, formation, geometry, timing, environment, and routed path length—the same constraint holds: coherence persists without accumulation. No new fitting procedures were introduced, no baseline cosmological relations were modified, and no physical mechanisms were proposed.…
The latest volume of the Light Frame Papers is now available. Light Frame Cadence Theory — Structural Closure (Papers XVII–XXIV) completes the structural arc of the Light Frame framework, addressing routing, redistribution, horizons, collective coherence, and final descriptive closure. This volume consolidates the results developed across the later papers into a single, canon-locked release. Available…