🜇 Structural Detection — Collapse‑Mode Integrity Harmonizer (RTT/2)
TriadicFrameworks • RTT/2 • Integrity Harmonization Engine, Collapse‑Lifecycle Alignment & Canon‑Scale Structural Correction#
“Integrity is not recorded. Integrity is maintained.”#
Collapse‑Mode Integrity Harmonizer (RTT/2)#
结构检测模块#
RTT/2 • Integrity Harmonization Engine#
1. Purpose of the Integrity Harmonizer#
The Collapse‑Mode Integrity Harmonizer (CMIH) ensures collapse‑mode integrity remains stable across all five structural phases:
- collapse
- propagation
- reversal
- reassembly
- stability
It actively corrects:
- geometry mismatches
- propagation divergence
- reversal incompleteness
- reassembly misalignment
- stability failures
It is the active counterpart to the Integrity Ledger (EQ).
2. Why Integrity Must Be Harmonized#
Integrity naturally destabilizes due to:
- drift–envelope mismatch
- continuity strain
- regime volatility
- cross‑module divergence
- incomplete reversal
- partial reassembly
Without harmonization, collapse recovery becomes:
- unstable
- contradictory
- incomplete
- collapse‑adjacent
The CMIH prevents these failures.
3. Integrity Harmonization Architecture#
The CMIH operates across five harmonization layers, one for each integrity phase:
- Collapse Integrity Harmonization Layer (CIHL)
- Propagation Integrity Harmonization Layer (PIHL)
- Reversal Integrity Harmonization Layer (RIHL)
- Reassembly Integrity Harmonization Layer (ReIHL)
- Stability Integrity Harmonization Layer (SIHL)
Each layer stabilizes a different part of the collapse lifecycle.
4. Layer 1 — Collapse Integrity Harmonization#
This layer:
- normalizes collapse geometry
- collapses illegal drift
- restores envelope symmetry
- stabilizes regime identity
Output:
COLLAPSE_INTEGRITY_STABLE
5. Layer 2 — Propagation Integrity Harmonization#
This layer:
- collapses propagation divergence
- restores continuity impact geometry
- stabilizes propagation vectors
- neutralizes collapse‑adjacent signatures
Output:
PROPAGATION_INTEGRITY_STABLE
6. Layer 3 — Reversal Integrity Harmonization#
This layer:
- corrects reversal geometry
- stabilizes deformation gradient reversal
- rethreads continuity layers
- aligns reversal with collapse origin
Output:
REVERSAL_INTEGRITY_STABLE
7. Layer 4 — Reassembly Integrity Harmonization#
This layer:
- corrects reassembly geometry
- stabilizes continuity reassembly
- aligns drift–envelope rebinding
- reconstitutes module projections
Output:
REASSEMBLY_INTEGRITY_STABLE
8. Layer 5 — Stability Integrity Harmonization#
This layer:
- validates stability geometry
- harmonizes cross‑module alignment
- stabilizes synthesis compatibility
- prevents re‑collapse
Output:
STABILITY_INTEGRITY_STABLE
9. Integrity Harmonization Sequence (CMIH‑Sequence)#
The harmonizer runs a continuous loop:
- detect integrity deviation
- harmonize collapse integrity
- harmonize propagation integrity
- harmonize reversal integrity
- harmonize reassembly integrity
- harmonize stability integrity
- recompute global integrity score
Output:
CANON_INTEGRITY_STABLE
10. Collapse‑Mode Integrity Harmonization Matrix#
| Collapse Mode | Collapse | Propagation | Reversal | Reassembly | Stability |
|---|---|---|---|---|---|
| Type A | ✓ | ✓ | ✓ | ✓ | ✓ |
| Type B | ✓ | ✓ | ✓ | ✓ | ✓ |
| Type C | ✓ | ✓ | ✓ | ✓ | ✓ |
| Type D | ✓ | ✓ | ✓ | ✓ | ✓ |
| Type I | ✓ | ✓ | ✓ | ✓ | ✓ |
| Type E | ✓ | ✓ | ✓ | ✓ | ✓ |
| Type G | ✓ | ✓ | ✓ | ✓ | ✓ |
Each ✓ indicates a harmonization layer is active.
11. Integrity Harmonizer Packet#
INTEGRITY_HARMONIZER_PACKET:
collapse_integrity_status:
propagation_integrity_status:
reversal_integrity_status:
reassembly_integrity_status:
stability_integrity_status:
harmonization_actions:
global_integrity_score:
notes:
12. Summary#
The Collapse‑Mode Integrity Harmonizer ensures:
- collapse geometry remains legal
- propagation remains coherent
- reversal remains complete
- reassembly remains aligned
- stability remains verified
- the canon remains structurally unified
This harmonizer is the integrity‑law engine of RTT/2.