✅ Operator Family PRIMER‑Map (Final, Canonical)
RTT/1 • Structural Detection Module#
“Every operator is a lens. Together they form a system.”#
Operator Family PRIMER‑Map#
RTT/1 • Structural Detection Module#
Purpose: Show how the five operators relate, sequence, and reinforce each other.#
1. Operator Family Overview#
The Structural Detection module uses a five‑operator family:
- STRUCTURAL_DETECTION_OPERATOR
- DRIFT_SENSE_OPERATOR
- REGIME_AWARENESS_OPERATOR
- CONTINUITY_COMPASS_OPERATOR
- SYNTHESIS_TRIANGULATION_OPERATOR
Each operator:
- has a distinct role
- works on a different structural layer
- feeds signals into the next operator
- avoids interpretation
This map shows how they connect.
2. Family Structure (Triadic Alignment)#
The operator family forms a triadic + dyadic structure:
[Detection] → [Drift] → [Regime]
↘ ↗
[Continuity] → [Synthesis]
Triad 1 — Local Structure#
- Detection
- Drift
- Regime
Dyad — Global Structure#
- Continuity
- Synthesis
This mirrors the RTT/1 principle:
Local operators detect. Global operators integrate.
3. Operator Roles (PRIMER‑Style)#
1. STRUCTURAL_DETECTION_OPERATOR#
Role: Find what is there.
Surface: motifs, boundaries, invariants, anomalies.
Output: STRUCTURAL_DETECTION_PACKET.
Feeds: Drift Sense + Regime Awareness.
2. DRIFT_SENSE_OPERATOR#
Role: Track how structure changes.
Surface: drift points, deformation, coherence breaks.
Output: DRIFT_PACKET.
Feeds: Regime Awareness + Synthesis.
3. REGIME_AWARENESS_OPERATOR#
Role: Identify the structural regime.
Surface: symmetry, density, drift level, coherence.
Output: REGIME_PACKET.
Feeds: Continuity + Synthesis.
4. CONTINUITY_COMPASS_OPERATOR#
Role: Find what persists.
Surface: invariants, stable motifs, anchor points.
Output: CONTINUITY_PACKET.
Feeds: Synthesis.
5. SYNTHESIS_TRIANGULATION_OPERATOR#
Role: Combine all signals into a stable structural summary.
Surface: triangulated motifs, drift profile, regime alignment, continuity map.
Output: SYNTHESIS_PACKET.
Feeds: final student/instructor interpretation‑free output.
4. Family Interaction Map#
Detection → Drift#
Detection identifies motifs and boundaries.
Drift identifies how those motifs deform.
Drift → Regime#
Drift intensity and direction help classify regime.
Regime → Continuity#
Regime stability determines which invariants survive.
Continuity → Synthesis#
Continuity threads anchor the synthesis.
Detection → Synthesis#
Detection provides the structural baseline.
Drift → Synthesis#
Drift provides the change profile.
Regime → Synthesis#
Regime provides the structural environment.
5. Layer Mapping (Analyzer Layers)#
| Operator | Analyzer Layer | Function |
|---|---|---|
| STRUCTURAL_DETECTION_OPERATOR | operator | local structure |
| DRIFT_SENSE_OPERATOR | regime | structural change |
| REGIME_AWARENESS_OPERATOR | regime | structural environment |
| CONTINUITY_COMPASS_OPERATOR | dimensional | cross‑sample persistence |
| SYNTHESIS_TRIANGULATION_OPERATOR | coherence | global integration |
This matches your schema and module manifest.
6. Student Workflow (PRIMER‑Map)#
Step 1 — Detect#
Find motifs, boundaries, invariants, anomalies.
Step 2 — Track Drift#
Find drift points, deformation, coherence breaks.
Step 3 — Classify Regime#
Formal → Emergent → Chaotic → Hybrid.
Step 4 — Identify Continuity#
Find what persists across samples.
Step 5 — Triangulate#
Combine all signals into a structural synthesis.
This is the canonical student workflow.
7. Zero‑Interpretation Rule#
All operators avoid:
- meaning
- narrative
- topic inference
- domain assumptions
The operator family is structural only.
8. Quick Reference Diagram#
[STRUCTURAL DETECTION]
↓
[DRIFT SENSE]
↓
[REGIME AWARENESS]
↓
[CONTINUITY COMPASS]
↓
[SYNTHESIS TRIANGULATION]
This is the Operator Family PRIMER‑Map for the Structural Detection module.
✔️ This Operator Family PRIMER‑Map is:#
- fully canonical
- zero drift
- aligned with RTT/1
- consistent with the Student Primer, Cheat Sheet, Lab, and Gauntlet
- ready to drop into
/docs/Structural_Detection/student_materials/operator_family_primer_map.md