๐ŸŒ SSMEQ — Symbolic Electrical Quantities Without Units — Zero-Centric, Auditable Electrical Truth

Deterministic Electricity. Unitless. Vendor-Neutral.

From
“Is this 230 V or 0.23 kV?”
to
“Is this electrical state structurally consistent and safe?”

Modern electrical systems measure everything —
but understand very little across vendors, voltages, and grids.

SSMEQ asks a deeper question:

Can electrical truth travel cleanly, without units, assumptions, or hidden context?

SSMEQ says yes.

๐Ÿง  What SSMEQ Really Does

SSMEQ (Shunyaya Symbolic Mathematical Electrical Quantities) does not change physics.

It does not modify Ohm’s law, Kirchhoff’s laws, protection curves, or metering hardware.

Instead, SSMEQ adds a symbolic layer that rides beside existing telemetry and converts raw electrical quantities into:

  • zero-centric contrasts

  • bounded health dials

  • explicit consistency residuals

Once symbolized, all electrical data speaks the same language
across devices, sites, voltages, and vendors.

๐Ÿ”„ The Core Idea — Zero-Centric Representation

Each electrical quantity Q is expressed in three lanes:

  • m_Q — the original measured value (unchanged)

  • e_Q — a zero-centric, unitless contrast

  • a_Q — an optional bounded health or proximity dial

Typical symbolic contrasts:

  • Voltage: e_V := ln( V_rms / V_ref )

  • Current: e_I := ln( I_rms / I_ref )

  • Frequency: e_f := ln( f / f_ref )

  • Power (signed): e_P := asinh( P / P_scale )

At nominal values → e_Q = 0
Above nominal → positive
Below nominal → negative

Units disappear.
Structure remains.

๐Ÿงช Built-In Electrical Self-Consistency

Electrical quantities are related — but traditional telemetry treats them as independent columns.

SSMEQ makes the relationship explicit.

Example power consistency residual:

r_P := e_P_meas - ( e_V + e_I + ln( pf / pf_ref ) )

  • Small |r_P| → voltage, current, power, and pf agree

  • Large or drifting r_P → CT/PT errors, sign flips, bad pf estimation, wiring issues

Errors surface immediately.
Nothing is hidden. Nothing is auto-corrected.

๐ŸŽ›️ Bounded Health Dials (Safe by Design)

Some electrical qualities are naturally bounded and should behave safely near limits.

SSMEQ encodes these as bounded dials in (-1, +1):

  • Power factor: a_pf := clamp( pf, -1 + eps, +1 - eps )

  • Harmonics: a_THD := tanh( c_THD * ln( 1 + THD / THD_ref ) )

  • Proximity to limits: a_upper := tanh( k * ( e_Q - e_Q_limit ) )

Why bounded?

  • Easy to average, pool, alarm

  • Resistant to outliers

  • Stable across batch and streaming systems

๐Ÿ“œ Manifest-First, Not Vendor-First

Every SSMEQ deployment declares its rules once, in a manifest:

  • Nominal anchors (V_ref, I_ref, f_ref)

  • Lens formulas (log, linear, hybrid, asinh)

  • Power sign conventions

  • Clamp limits and thresholds

  • Residual definitions

  • Band logic (GREEN / AMBER / RED)

Each SSMEQ record carries a manifest_id.

Anyone can recompute and verify the symbolic fields independently.

No black boxes. No hidden semantics.

๐Ÿญ Where SSMEQ Fits

SSMEQ sits between raw telemetry and everything else:

  • SCADA

  • Historians

  • Protection logic

  • Dashboards

  • Analytics

  • Machine learning

Human interfaces may still show volts and amps.

Downstream logic operates on symbolic representations.

๐ŸŒ Where SSMEQ Is Useful

  • Multi-vendor electrical fleets

  • Substations and DER plants

  • AC / DC mixed systems

  • Power quality monitoring

  • Electrical audits and forensics

  • AI and analytics pipelines

  • Any system where unit confusion causes risk

SSMEQ is especially powerful when data must travel, combine, and be trusted.

๐Ÿงฉ How SSMEQ Fits the Shunyaya Stack

  • SSMEQ — are electrical quantities structurally aligned?

  • SSMT — how does thermal stress interact with electrical stress?

  • SSM-Clock / Stamp — can records be trusted over time?

  • SSM-DE — can electrical truth travel intact?

These are orthogonal layers, not competing standards.

๐Ÿšซ What SSMEQ Is — and Is Not

✔ preserves original measurements
✔ unitless and portable
✔ deterministic and reproducible
✔ explicit about assumptions
✔ safe for pooling and AI

✖ does not replace meters
✖ does not redefine physics
✖ does not predict failures
✖ does not optimize control

SSMEQ is representation, not regulation.

๐Ÿ“œ License

Open Standard License

Optional Attribution:
Shunyaya Symbolic Mathematical Electrical Quantities (SSMEQ)

You may use, study, modify, fork, and redistribute this standard for commercial or non-commercial purposes.
No registration. No fees. No restrictions.

Provided “as is”, without warranty of any kind.

๐Ÿ”— Official Repository and Links

SSMEQ — Shunyaya Symbolic Mathematical Electrical Quantities (Open Standard)
Full Specification, Executive Briefs, Reference Documents, and Examples
https://github.com/OMPSHUNYAYA/Symbolic-Mathematical-Electrical-Quantities

Shunyaya Symbolic Mathematics — Project Index
Complete index of all Shunyaya symbolic frameworks and standards
https://github.com/OMPSHUNYAYA/Shunyaya-Symbolic-Mathematics-Master-Docs

๐ŸŒฑ Closing Thought

Electrical systems already obey physics.

SSMEQ simply asks:

Can our measurements obey structure too?

No enforcement.
No prediction.
No authority.

Just zero-centric electrical truth — made portable.

OMP

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