Material Identity – Spectral (MI-S) v0.1
1. Purpose
MI-S (Material Identity – Spectral) defines a deterministic protocol for verifying material identity based on measured reflectance spectra (380–730 nm). Material identity is defined as energetic structure, not appearance.
2. Normative Basis
- Reflectance range: 380–730 nm
- Primary metric: λ*V2 (energetic equilibrium)
- Root-finding: Brent method (deterministic, derivative-free)
- Atlas-only constraint: All references must exist in the official Atlas
3. Core Definitions
3.1 λ*V2
Defined as the unique root of:
g(λ) = ∫₃₈₀^λ (1 − R(λ')) dλ' − ∫_λ^₇₃₀ R(λ') dλ'
λ*V2 satisfies: g(λ*) = 0
3.2 λ*EE
Energy centroid of reflected light.
3.3 Δλ*
Δλ* = λ*V2 − λ*EE
Indicates spectral asymmetry and metameric risk.
4. Spectral Windows
- calm – stable local structure
- pull – moderate directional bias
- tip – high sensitivity region
- break – structural discontinuity
5. Deterministic Atlas Mapping
All external inputs must be snapped to exactly one Atlas reference using ΔE₀₀ (D50 / 2°). No interpolation, no generation.
6. Workflow
- Spectral acquisition
- Preprocessing & validation
- λ*V2 computation (Brent)
- λ*EE computation
- Δλ* analysis
- Window classification
- Atlas validation
- Structured reporting (Hybrid Compact Schema)
7. Validation Layers
- Schema conformity
- Atlas existence check
- Physical plausibility
- Prompt logic compliance
8. Exclusions
- Not a color space
- Not a generator
- Not an optimization system
- No perceptual tuning
Canonical Principle:
Without spectral measurement, there is no verification.
Without atlas reference, there is no identity.
Without spectral measurement, there is no verification.
Without atlas reference, there is no identity.