🎯 Structural Detection — Collapse‑Origin Locator (RTT/2)
TriadicFrameworks • RTT/2 • Forensic Collapse Detection, Origin Triangulation & Structural Fault Mapping#
“Collapse is not everywhere. Collapse begins somewhere.”#
Collapse‑Origin Locator (RTT/2)#
Structural Detection Module#
RTT/2 • Forensic Collapse Detection & Origin Triangulation Engine#
1. Purpose of the Collapse‑Origin Locator#
The Collapse‑Origin Locator (COL) identifies the exact structural origin of collapse by:
- triangulating collapse precursors
- mapping deformation gradients
- tracing break‑geometry back to its source
- analyzing drift/envelope discontinuities
- detecting continuity‑layer failure points
- isolating cross‑module projection divergence
It is the forensic backbone of collapse analysis.
2. Collapse‑Origin Categories (Canonical)#
Collapse originates from one of five structural categories:
- Drift‑Origin Collapse
- Envelope‑Origin Collapse
- Continuity‑Origin Collapse
- Break‑Origin Collapse
- Module‑Origin Collapse (TEL/FFT/Opacity)
Each category has unique geometric signatures.
3. Category 1 — Drift‑Origin Collapse#
Indicators:#
- drift amplitude spike
- drift curvature overload
- drift reversal onset
- oscillation instability
Geometry:#
- linear, oscillatory, or inversion collapse
Typical Collapse Modes:#
- Type A
- Type D
- Type I
4. Category 2 — Envelope‑Origin Collapse#
Indicators:#
- envelope deformation onset
- density gradient rupture
- symmetry break
- torsion overload
Geometry:#
- radial, spiral, or fragmentation collapse
Typical Collapse Modes:#
- Type B
- Type E
- Type C
5. Category 3 — Continuity‑Origin Collapse#
Indicators:#
- anchor collapse
- thread fracture
- invariant break
- multi‑layer collapse
Geometry:#
- fragmentation or topological collapse
Typical Collapse Modes:#
- Type C
- Type G
6. Category 4 — Break‑Origin Collapse#
Indicators:#
- break‑geometry activation
- break‑chain propagation
- boundary rupture
- layer shattering
Geometry:#
- break‑driven collapse
Typical Collapse Modes:#
- Type 1–5, E/F/G depending on break type
7. Category 5 — Module‑Origin Collapse (TEL/FFT/Opacity)#
TEL Indicators:#
- lattice tear
- stabilizer collapse
FFT Indicators:#
- variance spike
- spectral discontinuity
Opacity Indicators:#
- boundary warp
- visibility field rupture
Geometry:#
- cross‑module collapse
Typical Collapse Modes:#
- Type B
- Type C
- Type G
8. Collapse‑Origin Triangulation Algorithm (COTA)#
The COL uses a three‑point triangulation method:
-
Gradient Vector Analysis
- drift gradient
- envelope gradient
- continuity stress gradient
-
Propagation Back‑Tracing
- reverse collapse propagation path
- identify earliest deformation
-
Cross‑Module Projection Intersection
- TEL/FFT/Opacity divergence intersection
- locate the structural intersection point
The intersection of these three vectors is the collapse origin.
9. Collapse‑Origin Locator Output Types#
The COL produces one of four outputs:
9.1 Point‑Origin#
- collapse began at a single structural point
- typical of drift or break origins
9.2 Line‑Origin#
- collapse began along a structural line
- typical of envelope deformation
9.3 Layer‑Origin#
- collapse began in a continuity layer
- typical of fragmentation collapse
9.4 Module‑Origin#
- collapse began in TEL/FFT/Opacity
- typical of cross‑module collapse
10. Collapse‑Origin Packet Template#
COLLAPSE_ORIGIN_PACKET:
origin_category:
origin_geometry:
drift_signature:
envelope_signature:
continuity_signature:
break_signature:
module_projection_signature:
triangulation_vectors:
origin_location:
collapse_mode_prediction:
notes:
11. Summary#
The Collapse‑Origin Locator ensures:
- collapse origins are precisely identified
- collapse propagation can be reversed
- intervention teams know where to act
- recovery sequencing becomes accurate
- cross‑module collapse becomes traceable
- the canon remains structurally accountable
This locator is the forensic compass of RTT/2 collapse analysis.