What question did this study set out to answer?

The research aims to determine if deeper mapping improves resolution and resolves conservation degeneracy.

March 15, 2026Open Access

Fractal Depth Resolves the Conservation Degeneracy

Key Points

The research aims to determine if deeper mapping improves resolution and resolves conservation degeneracy.
Tests the impact of deeper fractal mapping on fidelity
Maps 10 systems at 64-position resolution
Compares fidelity at previous and new resolutions
Fidelity at positions 14 and 15 increased from 30% to 97.5%
Mapping at deeper resolution produced 80 sub-positions
The framework predicts its own resolution limits

Abstract

The universal sequence paper (van der Klein, 2025) reported 88.8% mapping fidelity across 20 dissipative processes at 16-position resolution, with the 11.2% mismatch concentrated at positions 14 (tend.form) and 15 (tend.encounter) in the conservation regime. The original paper attributed this to the oscillatory character of the surveillance-compensation feedback loop, which resists snapshot at single-step resolution. Within the Generative Geometry framework (van der Klein, 2026), this update tests whether going one fractal level deeper -- mapping positions 14 and 15 at 64-position resolution -- resolves the degeneracy. Ten systems were mapped at the deeper resolution, producing 80 sub-positions. Result: fidelity at positions 14 and 15 rises from 30% to 97.5%. The framework predicts its own resolution limit and the fractal method to overcome it.

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Cite This Study

Raimo van der Klein (Fri,) studied this question.

synapsesocial.com/papers/69b6069b83145bc643d1ca0a https://doi.org/https://doi.org/10.5281/zenodo.19007278

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