HSAG
CONSORTIUM
For Resonant Research
STELLAR AERIS
Atmospheric coherence and resonance-aware analysis for complex environments.
Overview
STELLAR AERIS is a computational analysis system focused on the resonance behavior of Earth’s atmosphere. It is designed to identify, map, and quantify coherence fields, suppression zones, and phase-disrupted layers that influence how signals propagate through the atmosphere.
Where traditional models emphasize thermodynamics and fluid dynamics, STELLAR AERIS adds a new dimension: resonance-aware diagnostics for oscillations and coherence.
What STELLAR AERIS Does
STELLAR Whitepaper
STELLAR AERIS combines spectral analysis, phase mapping, and resonance metrics to:
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Detect regions of high or low atmospheric coherence
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Identify resonance-driven suppression of signals
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Highlight layers that destabilize or distort wave propagation
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Track how coherence evolves during storms or other dynamic events
The goal is to understand not just where the atmosphere is active, but how it behaves as a resonant medium.
Core Capabilities
Key capabilities of STELLAR AERIS include:
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Phase-mapped atmospheric coherence modeling
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Resonance suppression and oscillation collapse detection
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Spectral interference and noise indexing
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Multi-layer coherence stratification
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Signal stability support for remote sensing and communications
Use Cases
Potential use cases span science, engineering, and applied operations:
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Satellite and deep-space communication stability assessment
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Interferometric observatory site evaluation and support
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Storm-driven coherence collapse analysis
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High-altitude aviation and aerospace research
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Early-stage resonance-based propulsion and field-interaction studies
Current Development Status
STELLAR AERIS is currently under active development and validation using:
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Synthetic resonance fields
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Public atmospheric and geophysical datasets
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Controlled spectral simulations
As the system evolves, results and methods are being documented through open scientific channels.
Relation to RCI
STELLAR AERIS incorporates the Resonance Capacity Index (RCI) as one of its core metrics. RCI provides a scalar measure of how strongly a given region suppresses oscillatory energy, allowing different atmospheric regimes to be compared on a common scale.
Collaboration
The HSAG Consortium for Resonant Research invites collaboration with:
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Atmospheric science groups
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Remote sensing and interferometry teams
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Signal processing and communications researchers
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Aerospace and systems engineering labs
For collaboration inquiries or technical discussions, please use the contact information on this site.
STELLAR AERIS Results Snapshot
14‑day mid‑latitude case. STELLAR resolved strong T↔RH diurnal coherence (MSC≈0.97) with humidity lagging temperature by ~8h; semi‑diurnal T↔ps coupling; and high‑frequency ps↔W10 recoupling at ~2–3h.
Exported metrics (PCI/BCS) enable regime classification and alerting.
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Coherent bands: 24h dominant; 8–12h secondary; ~2h mesoscale
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Deliverables: CSV/JSON bands, PDF technical note, LaTeX inserts
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Integrations: ERA5/WRF alignment for validation and tuning