: Transmit data from the fallen satellite while defending it from waves of attacking alien enemies.
In the silent vacuum of space, a new kind of arms race is unfolding. While headlines focus on hypersonic missiles and drone swarms, military analysts know that the true high ground is in Low Earth Orbit (LEO). Here, thousands of satellites zip overhead at 17,500 miles per hour. Among these, a specific class of spacecraft—WARSATs (Warfare Satellites)—poses the greatest threat to modern military operations.
Players frequently use third-party trackers to find these events in locations like The Mothyards The Future of Satellite Tracking WARSAT Satellite Tracker
The backbone of satellite tracking is the TLE (Two-Line Element) set—a data format that encodes a satellite's orbital elements at a specific epoch. For public satellites, this data is freely available from NORAD (North American Aerospace Defense Command).
If you successfully employ a WARSAT tracker, what exactly are you observing? The output depends on the sophistication of your setup. : Transmit data from the fallen satellite while
Intelligence reports a Chinese Shijian-21 (a service satellite with grappling capabilities) is drifting toward a vital GPS satellite. To the public eye, it is "station keeping." To the WARSAT tracker's IR sensor, it is performing a proximity operation. The tracker sends an alert to Space Force HQ. Because the operator saw the anomaly in the WARSAT's thermal plume and orbital vector, they have 90 minutes to order the GPS satellite to perform an evasive "collision avoidance" maneuver. The WARSAT tracker saved the asset.
: These tools leverage Two-Line Element (TLE) data and SPG4 orbit prediction models to provide accurate coordinates. Here, thousands of satellites zip overhead at 17,500
WARSAT uses an that ingests time‑difference‑of‑arrival (TDOA) from three distributed sensor nodes. The state vector includes position, velocity, ballistic coefficient, and solar radiation pressure factor.
