OAK Space extends the EW SUITE's first-principles orbital mechanics and SATCOM link-budget physics into the operational tools a real space picture needs — a multi-object catalog COP, conjunction screening, co-orbital RPO / proximity operations, manoeuvre and re-entry detection, and terrestrial up-link jammer geolocation. One workstation from the orbit to the operator.
OAK Space sits on the suite's own space_model — Keplerian propagation with J2, link budgets and jamming geometry — and adds the operational SDA functions a watch floor runs.
LEO imagers (incl. a close co-orbital pair), a GNSS-like MEO, a GEO comsat, a co-orbital inspector and a decaying fragment — sub-satellite ground tracks on a world map.
Pairwise close-approach across the catalog with coarse-then-fine time-of-closest-approach, miss distance, relative speed and a RED / AMBER / GREEN risk tier.
A chaser's range and RIC (radial / in-track / cross-track) components relative to a target — co-orbital proximity assessment in the target's own frame.
Residual growth of a measured arc against a propagated ephemeris flags a burn and estimates its epoch and Δv.
Secular semi-major-axis decay from atmospheric drag yields an orbital lifetime and a re-entry epoch estimate.
Angle-of-arrival cuts from ground sites fix a terrestrial SATCOM up-link jammer, with a CEP estimate — space-EW, tied to the ground.

OAK Space is first-principles physics on a notional object set — no operational catalog, no real TLEs and no exploit content. It reuses the EW SUITE's orbital and SATCOM libraries, carved into its own product tree.
Bring a scenario — or use the built-in catalog — and we'll stand up the SDA console with you.
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