🎼 HSP Stability Metrics
Six RTT‑Native Measures of Harmonic Stability#
The Harmonic Stability Profile (HSP) evaluates stability using
six canonical RTT-native metrics.
Each metric measures a different dimension of harmonic behavior:
- recurrence
- positional consistency
- substrate anchoring
- operator role stability
- temporal coherence
- mutation rate
Together, they form the analytic backbone of the HSP suite.
🔷 1. Harmonic Recurrence#
How often a concept returns to its harmonic baseline#
Definition:
Measures the frequency with which a concept returns to its canonical harmonic form across contexts.
High recurrence: stable, well‑anchored concepts
Low recurrence: oscillating or chaotic concepts
Signals:
- repeated harmonic patterns
- consistent interval signatures
- predictable resonance behavior
🔷 2. Harmonic Position Consistency#
How stable a concept’s interval position is within RTT‑12#
Definition:
Tracks whether a concept remains in the same interval band (I1–I12) or drifts between them.
Stable: fixed interval position
Unstable: interval wobble or collapse
Used to detect:
- D1 structural drift
- D2 dimensional drift
- interval misalignment
🔷 3. Substrate Anchoring#
How firmly a concept is rooted in its substrate(s)#
Definition:
Measures the stability of a concept’s substrate alignment:
- physical
- cognitive
- symbolic
- harmonic
- social
- atlas
Strong anchoring: stable concepts
Weak anchoring: oscillators or chaotic nodes
Used to detect:
substrate migration, projection drift (D4)
🔷 4. Operator Role Stability#
How consistently a concept performs its operator role#
Definition:
Evaluates whether a concept’s operator role remains stable across contexts.
Stable: consistent operator behavior
Unstable: role inversion, multi‑role conflict
Used to detect:
- D1 structural drift
- D3 regime drift
- overloaded concepts
🔷 5. Temporal Stability#
How stable a concept remains across time#
Definition:
Measures whether a concept’s meaning, structure, or harmonic signature changes across revisions or epochs.
High temporal stability: canonical concepts
Low temporal stability: evolving or unstable concepts
Used to detect:
- meaning shifts
- early destabilization
- long‑term drift patterns
🔷 6. Harmonic Mutation Rate#
How quickly a concept’s harmonic structure changes#
Definition:
Tracks the rate at which a concept mutates across:
- interval positions
- operator roles
- substrate alignments
- harmonic signatures
Low mutation rate: stable
High mutation rate: oscillating or chaotic
Used to detect:
- D2 dimensional drift
- D3 regime drift
- D4 projection drift
🔷 7. Metric Interaction Matrix (Overview)#
| Metric | Drift Sensitivity | Recursion Signal | Substrate Impact |
|---|---|---|---|
| Recurrence | D1 | Ladder | Symbolic/Harmonic |
| Position Consistency | D1–D2 | Cycle | Harmonic |
| Substrate Anchoring | D2–D4 | Map | All substrates |
| Role Stability | D1–D3 | Ladder/Map | Symbolic/Social |
| Temporal Stability | D1–D4 | All modes | All substrates |
| Mutation Rate | D2–D4 | Map/Atlas | Harmonic/Atlas |
🔷 8. Usage Notes#
Use this file when:
- evaluating a concept’s stability
- diagnosing drift
- preparing stability reports
- analyzing recursion behavior
- mapping substrate migration
- interpreting echo signatures
This module is referenced by:
01_Harmonic_Stability_Profile.md01a_HSP_Classes.md01d_HSP_Stability_Tiers.md- drift and echo modules downstream
🔷 Footer#
HSP Module 01b — Loaded
Version: v1.0
Status: Canon-Stable