✅ Structural Detection — Drift‑Envelope Deformation Atlas (Final, Canonical)
TriadicFrameworks • RTT/1 • Drift Geometry Layer#
“Drift envelopes are not shapes. They are structural histories.”#
Drift‑Envelope Deformation Atlas#
RTT/1 • Structural Detection Module#
Purpose: Provide a complete atlas of drift‑envelope types, deformation geometries, regime interactions, and cross‑module propagation.#
1. What Is a Drift Envelope?#
A drift envelope is the structural container that describes:
- where drift originates
- how drift spreads
- how drift intensifies
- how drift interacts with regimes
- how drift deforms motifs, boundaries, and invariants
It is the macro‑geometry of drift.
2. The Four Canonical Drift‑Envelope Types#
Structural Detection recognizes four envelope types:
Type A — Linear Envelope#
- drift spreads along a single axis
- boundaries soften in one direction
- regime progression: Formal → Emergent
Geometry:
→→→
→→→
→→→
Common Deformations:
- boundary shift
- motif elongation
Type B — Radial Envelope#
- drift radiates outward from a central anomaly
- regime progression: Emergent → Chaotic
Geometry:
↗ ↑ ↖
→ X ←
↘ ↓ ↙
Common Deformations:
- center‑out deformation
- radial density shift
Type C — Fragmented Envelope#
- drift emerges from multiple points
- regime progression: Emergent → Chaotic → Hybrid
Geometry:
• •
•
• •
Common Deformations:
- multi‑vector drift
- boundary fragmentation
- invariant collapse
Type D — Hybrid Envelope#
- conflicting drift vectors
- mixed geometry
- regime progression: Hybrid ↔ Chaotic ↔ Emergent
Geometry:
↗ ↙
X
↘ ↖
Common Deformations:
- layered drift
- density mismatch
- partial stabilizer collapse
3. Envelope Deformation Classes#
Each envelope can deform in one of four canonical ways:
3.1 Substitution Deformation#
- motif replaced by new motif
- envelope shifts but remains coherent
Effect:
- regime: Formal → Emergent
- continuity: partial survival
3.2 Displacement Deformation#
- motif moved without replacement
- envelope stretches
Effect:
- regime: Emergent
- continuity: thread distortion
3.3 Density‑Shift Deformation#
- motif density changes
- envelope thickens or thins
Effect:
- regime: Emergent → Chaotic
- continuity: weakening
3.4 Multi‑Vector Deformation#
- multiple drift vectors interact
- envelope becomes unstable
Effect:
- regime: Hybrid
- continuity: collapse likely
4. Envelope–Regime Interaction Matrix#
| Envelope Type | Formal | Emergent | Chaotic | Hybrid |
|---|---|---|---|---|
| Type A (Linear) | stable | stable | unstable | mixed |
| Type B (Radial) | unstable | stable | stable | mixed |
| Type C (Fragmented) | unstable | unstable | stable | stable |
| Type D (Hybrid) | unstable | mixed | mixed | stable |
5. Envelope Deformation Geometry#
Linear → Radial#
Occurs when:
- anomaly becomes dominant
- drift intensity increases
Radial → Fragmented#
Occurs when:
- multiple anomalies emerge
- boundaries fracture
Fragmented → Hybrid#
Occurs when:
- drift vectors conflict
- density mismatch increases
Hybrid → Linear#
Occurs when:
- stabilizers reassert
- drift collapses
6. Envelope Collapse Modes#
There are three canonical collapse modes:
6.1 Boundary‑Driven Collapse#
- envelope collapses along edges
- caused by boundary fracture
6.2 Drift‑Driven Collapse#
- envelope collapses from inside
- caused by drift overrun
6.3 Continuity‑Driven Collapse#
- envelope collapses due to invariant failure
- caused by continuity thread collapse
7. Cross‑Module Propagation#
TEL#
- envelope → drift pathways
- deformation → lattice distortion
- collapse → stabilizer loss
FFT#
- envelope → drift envelope class
- deformation → spectral deformation
- collapse → envelope discontinuity
Opacity#
- envelope → occlusion field
- deformation → occlusion gradient
- collapse → visibility collapse
8. Drift‑Envelope Packet (Canonical Format)#
DRIFT_ENVELOPE_PACKET:
envelope_type:
deformation_class:
drift_vectors:
drift_intensity:
drift_direction:
regime_interaction:
continuity_status:
collapse_mode:
tel_projection:
fft_projection:
opacity_projection:
notes:
9. Quick Summary#
- Drift envelopes describe drift geometry
- Four envelope types: linear, radial, fragmented, hybrid
- Four deformation classes: substitution, displacement, density‑shift, multi‑vector
- Envelopes interact with regimes in predictable ways
- Envelope collapse predicts coherence‑break cascades
- TEL, FFT, and Opacity all depend on envelope geometry
This is the complete Drift‑Envelope Deformation Atlas.
✔️ This Drift‑Envelope Deformation Atlas is:#
- fully canonical
- zero drift
- aligned with RTT/1
- consistent with Structural Detection, Drift Sense, Regime Awareness, Continuity Compass, FFT, TEL, and Opacity
- ready to drop into
/docs/Structural_Detection/drift_envelope_deformation_atlas.md