I tiakina i:
| Kaituhi matua: | |
|---|---|
| Hōputu: | Recurso digital |
| Reo: | Ingarihi |
| I whakaputaina: |
Zenodo
2025
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| Ngā marau: | |
| Urunga tuihono: | https://doi.org/10.5281/zenodo.18110231 |
| Ngā Tūtohu: |
Tāpirihia he Tūtohu
Kāore He Tūtohu, Me noho koe te mea tuatahi ki te tūtohu i tēnei pūkete!
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Rārangi ihirangi:
- <p><strong><span>Abstract </span></strong></p> <p><span>Biological systems maintain functional continuity through constrained alphabets, context-dependent sequencing, and layered integrity mechanisms such as proofreading, repair, and fail-closed termination. Independently of biology, the Kiwaniwa / Aewaum framework proposes a symbolic and computational architecture centered on triadic stability, invariant monitoring, phase discipline, and closure under rupture.</span></p> <p><span>This paper introduces the <strong>Sequence Integrity Lens (SIL)</strong>, a non-biological, domain-agnostic analytical framework for examining how meaning-bearing systems preserve coherence under transformation. Drawing on high-level structural properties observed in molecular biology—without invoking biological equivalence or reduction—the paper compares integrity pressures across biological, symbolic, linguistic, and computational systems.</span></p> <p><span>The aim is not to claim correspondence between genetic and symbolic sequences, but to demonstrate that <strong>sequence integrity constitutes a general constraint on any system that must preserve meaning, safety, or identity across time, replication, or evolution</strong>. The Sequence Integrity Lens provides a method for identifying minimal meaning units, context-locked reading frames, mutation types, repair boundaries, and rupture conditions in complex texts, specifications, and adaptive architectures.</span></p> <p><span>This work contributes a conceptual tool for governance, canon management, and safety-critical system design, while explicitly excluding biological, medical, therapeutic, or metaphysical claims.</span></p>