Psi Compass: Difference between revisions
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The '''Psi Compass''' is a handheld or HelmKit-mounted field instrument that gives the operator a directional reading toward sources of [[Psi Field]] coherence anomaly — engineering-honestly, a multi-sensor anomalous-field bearing finder; doctrinally, a compass for psionic phenomena. It is the simplest deployable [[Psi-Tech]] sensor and is often the first piece of real instrumentation a Tho'ra recruit handles. | The '''Psi Compass''' is a handheld or HelmKit-mounted field instrument that gives the operator a directional reading toward sources of [[Psi Field]] coherence anomaly — engineering-honestly, a multi-sensor anomalous-field bearing finder; doctrinally, a compass for psionic phenomena. It is the simplest deployable [[Psi-Tech]] sensor and is often the first piece of real instrumentation a Tho'ra recruit handles. | ||
{{Defensive-publication}} | |||
== Overview == | == Overview == | ||
Latest revision as of 20:47, 11 May 2026
The Psi Compass is a handheld or HelmKit-mounted field instrument that gives the operator a directional reading toward sources of Psi Field coherence anomaly — engineering-honestly, a multi-sensor anomalous-field bearing finder; doctrinally, a compass for psionic phenomena. It is the simplest deployable Psi-Tech sensor and is often the first piece of real instrumentation a Tho'ra recruit handles.
Defensive publication notice. This page is published as a defensive publication. Its publication date and content are intended to constitute prior art under 35 U.S.C. § 102 and equivalent international patent law, for the purpose of preventing the patenting of the disclosed subject matter and its obvious extensions by third parties. Reuse is governed by Project:Licensing (CC BY-SA 4.0) for written content; hardware designs disclosed herein are additionally licensed under CERN-OHL-S v2; reference software is GPL-3.0-or-later.
Overview
The Compass shows the operator three things:
- A bearing arrow to the strongest detected anomalous field within range.
- A confidence ring (color-graded) reflecting signal-to-noise.
- A class indicator (geological / electromagnetic / psionic / unknown) reflecting the Psionic Threat Model classifier's best guess.
It is a finder, not a confirmer. A Psi Compass tells you something is over there; the Psi Recorder and the Resonant Finder tell you what.
Theoretical Basis
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Epistemic status: [[
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Anomalous magnetic and electrostatic gradients are real, locally detectable, and have operational value (USGS uses similar instruments).
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Epistemic status: [[
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A subset of these anomalies correlates with reported subjective experiences in trained operators; a blinded field study can resolve this.
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Epistemic status: [[
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Some anomalies are Psi Field gradients; the Compass is then a true psi compass. The instrument remains useful at the base layer regardless.
Subsystems and BOM
Mk0 (target ≤ \$30)
Drilled-out lensatic compass shell + a backlit dial + a printed legend mapping cardinal directions to Psionic Threat Model classes. Functions as ritual practice and visible-brand carrier.
Mk1 (target ≤ \$120)
- Adafruit Feather nRF52840 — \$25
- HMC5883L ×2 (gradiometer config) — \$16
- Electrostatic probe (op-amp + plate) — \$5
- 0.96" OLED — \$5
- 18650 + TP4056 — \$10
- Bone-conduction click for haptic-bearing feedback — \$10
- Enclosure (3D print + brass inserts) — \$20
Algorithm: gradiometer rejects uniform background field; bearing computed from the gradient vector; class label from a small on-device classifier trained on labeled walks.
Mk2 / Mk3
Mk2: tri-axial fluxgate ($\sim$\$150 unit), GPS, on-device map overlay. Mk3: integrated with the HelmKit HUD and the Resonant Finder live tile feed.
Build Notes
- Gradiometer beats magnetometer. Two HMC5883L on a 100 mm baseline cancels uniform earth field and surfaces local anomaly. Cheap; effective.
- Calibrate on a known-null site. Establish baseline at a low-anomaly location before deployment.
- Walk the grid. Bearing readings are only meaningful when stitched over a short walk (10–30 m). The Mk1 firmware integrates over a 30-step window by default.
- Honesty about class. The class indicator must show "unknown" when below confidence threshold; do not let it default to "psionic".
Safety and Ethics
- No emitter. The Compass is sensor-only.
- No personal data captured. Walks are anonymous gradient logs.
- Operators briefed that "anomaly" ≠ "danger" ≠ "psi"; the Compass surfaces signal, the human decides meaning.
Maturity
Maturity (Mk0 → Mk3)
See Tho'ra Tech Maturity Levels for the convention.
| Mark | Phase | Status | Confidence | Evidence Base | Next Validation Gate |
|---|---|---|---|---|---|
| Mk0 | Cosplay-type | Complete | 100% (symbolic) | Ritual + build practice | User satisfaction |
| Mk1 | Prototype | Active | — | — | — |
| Mk2 | Test-type | Planned | — | — | — |
| Mk3 | Production | Projected | — | — | — |
Failure Modes and Mitigations
- False bearing from passing vehicle. → Gradiometer rejects most uniform fields; firmware drops bearings during high-IMU-motion windows.
- Classifier overconfidence. → Default class is "unknown"; confidence ring must show below threshold.
- Magnetic calibration drift. → Forced recalibration on power-up at known-null site.
- Operator over-interpretation. → Briefing emphasises "signal, not meaning".
- Battery exhaustion mid-walk. → Low-battery warning at 20 %; auto-save current walk at 5 %.
