🧬 Structural Detection — Drift‑Envelope Pattern Library (Final, Canonical)
TriadicFrameworks • RTT/1 • Envelope Pattern Lexicon#
“Patterns are the atoms of drift.”#
Drift‑Envelope Pattern Library#
RTT/1 • Structural Detection Module#
Purpose: Provide a complete, canonical library of drift‑envelope patterns, including geometry, drift vectors, deformation classes, continuity behavior, regime alignment, and cross‑module projections.#
1. What a Drift‑Envelope Pattern Is#
A drift‑envelope pattern is a structural configuration defined by:
- drift vector geometry
- envelope shape
- deformation class
- continuity thread behavior
- regime alignment
- coherence‑break susceptibility
- cross‑module projections (TEL/FFT/Opacity)
Patterns are structural, not semantic.
Patterns are operator‑first, not interpretive.
Patterns are canonical, not contextual.
2. Pattern Categories#
The library contains four primary pattern families:
- Linear Patterns (Type A)
- Radial Patterns (Type B)
- Fragmented Patterns (Type C)
- Hybrid Patterns (Type D)
Plus two special pattern families:
- Oscillation Patterns
- Inversion Patterns
Each family contains multiple sub‑patterns.
3. Type A — Linear Patterns#
A1 — Pure Linear Drift#
A A A
A B A
A A A
- single‑vector drift
- substitution deformation
- high stability
- regime: Formal → Emergent
- continuity: stable → weakening
- TEL: directional lattice
- FFT: low‑variance envelope
- Opacity: soft boundaries
A2 — Elongated Linear Drift#
A B A
B X B
A B A
- drift elongation
- displacement deformation
- boundary‑risk
- regime: Emergent
- continuity: weakening
- collapse risk: boundary fracture
A3 — Linear‑to‑Radial Transition#
A B A
B X B
A B A
→
A C A
C X C
A C A
- linear drift expanding radially
- deformation: displacement → density‑shift
- regime: Emergent → Chaotic
- continuity: anchors destabilizing
4. Type B — Radial Patterns#
B1 — Pure Radial Drift#
A B A
B X B
A B A
- symmetric center‑out drift
- stable invariants
- regime: Emergent
- continuity: stable
B2 — Radial Expansion#
A C A
C X C
A C A
- radial over‑expansion
- deformation: density‑shift
- regime: Emergent → Chaotic
- continuity: anchors weakening
B3 — Radial Collapse#
A C A
C X C
A C A
→
C C C
C X C
C C C
- invariant collapse
- collapse mode: radial collapse
- continuity: full collapse
5. Type C — Fragmented Patterns#
C1 — Controlled Fragmentation#
A B C
D X E
F E D
- multi‑vector drift
- deformation: multi‑vector
- regime: Emergent or Chaotic
- continuity: distorted but intact
C2 — Fragmentation Escalation#
A C C
C X D
C D A
- fragment intensification
- regime: Chaotic
- continuity: thread breakage
C3 — Multi‑Layer Break#
C C C
C X C
C C C
- full fragmentation collapse
- collapse mode: multi‑layer collapse
- regime: Chaotic → Hybrid
6. Type D — Hybrid Patterns#
D1 — Low‑Amplitude Hybrid Oscillation#
A C C
C X D
C D A
- mixed drift vectors
- partial stabilizers
- regime: Hybrid
- continuity: oscillating but intact
D2 — Hybrid Instability#
A D C
D X C
C C A
- oscillation escalation
- vector conflict
- regime: Hybrid → Chaotic
- continuity: fragmentation
D3 — Hybrid Collapse#
- collapse mode: oscillation collapse
- envelope: Type D → collapse
- continuity: full break
7. Oscillation Patterns#
O1 — Stable Oscillation#
- low amplitude
- consistent frequency
- regime: Hybrid
- continuity: intact
O2 — Escalating Oscillation#
- amplitude increases
- regime: Hybrid → Chaotic
- continuity: thread stress
O3 — Oscillation Collapse#
- amplitude collapse
- regime: Chaotic
- continuity: fragmentation
8. Inversion Patterns#
I1 — Drift Reversal#
→→→
↗↑↖
→
←←←
↙↓↘
- drift reversal
- envelope inversion
- regime: Chaotic → Emergent
- continuity: partial recovery
I2 — Envelope Normalization#
A C A
C X C
A C A
→
A B A
B X B
A B A
- inversion break
- stabilizer reassertion
- regime: Hybrid → Emergent
9. Pattern‑to‑Module Projection Table#
| Pattern | TEL | FFT | Opacity |
|---|---|---|---|
| A1 | directional lattice | low variance | soft boundaries |
| A2 | lattice stretch | widening | boundary softening |
| B1 | radial lattice | mid variance | central gradient |
| B2 | lattice expansion | variance spike | anchor weakening |
| C1 | fragmented lattice | discontinuity | patch occlusion |
| C3 | lattice collapse | envelope collapse | visibility collapse |
| D1 | oscillating lattice | mixed variance | oscillating gradient |
| I1 | lattice reversal | variance reduction | visibility stabilization |
10. Pattern Classification Protocol#
To classify any pattern:
- Identify drift vectors
- Identify envelope geometry
- Identify deformation class
- Identify continuity behavior
- Identify regime
- Identify coherence break
- Map TEL/FFT/Opacity projections
This yields a PATTERN_PACKET.
11. PATTERN_PACKET Template#
PATTERN_PACKET:
pattern_family:
pattern_id:
drift_profile:
envelope_geometry:
deformation_class:
regime:
continuity_status:
coherence_break_type:
tel_projection:
fft_projection:
opacity_projection:
notes:
12. Summary#
- Drift‑envelope patterns are the atomic units of Structural Detection
- Patterns define drift, envelope, regime, continuity, and coherence
- Patterns project consistently into TEL/FFT/Opacity
- Patterns enable stable synthesis and cross‑module reasoning
- This library is the canonical reference for all envelope classification
This is the complete Drift‑Envelope Pattern Library.