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Ryan Malloy 646c92324d 3D antenna radiation pattern visualization: analytical models + Three.js web UI 
Add analytical radiation pattern models for 5 antenna types (dipole, monopole,
EFHW, loop, patch) driven by S11 impedance measurements. Pure Python math with
closed-form far-field equations — no numpy or simulation dependencies.

New MCP tools:
- radiation_pattern: scan S11 → find resonance → compute 3D pattern
- radiation_pattern_from_data: compute from known impedance (no hardware)
- radiation_pattern_multi: patterns across a frequency band for animation

Web UI (opt-in via MCNANOVNA_WEB_PORT env var):
- Three.js gain-mapped sphere with OrbitControls
- Surface/wireframe/plane cut display modes with teal→amber color ramp
- Smith chart overlay, dBi reference rings, E/H plane cross-sections
- Real-time WebSocket push on new pattern computation
- FastAPI backend shares process with MCP server, zero new core deps

Frontend: Vite + TypeScript + Three.js, built assets committed to webui/static/.
Optional dependencies: fastapi + uvicorn via pip install mcnanovna[webui].
2026-01-31 15:27:19 -07:00
frontend
3D antenna radiation pattern visualization: analytical models + Three.js web UI
2026-01-31 15:27:19 -07:00
src/mcnanovna
3D antenna radiation pattern visualization: analytical models + Three.js web UI
2026-01-31 15:27:19 -07:00
pyproject.toml
3D antenna radiation pattern visualization: analytical models + Three.js web UI
2026-01-31 15:27:19 -07:00
uv.lock
3D antenna radiation pattern visualization: analytical models + Three.js web UI
2026-01-31 15:27:19 -07:00
Description
MCP server for NanoVNA-H vector network analyzers
668 KiB
Languages
Python 85.1%
TypeScript 12.1%
CSS 2.4%
HTML 0.4%