GPS Interference Detection Across Domains
GPS Interference Detection Across Domains
Detect and map GPS jamming and spoofing activity using near–real-time GNSS signal measurements at scale. PNT-SA analyzes Global Navigation Satellite System (GNSS) signal behavior across thousands of satellite transmissions to detect, locate, and characterize radio-frequency interference (RFI) in both terrestrial and orbital environments.
Key Features
Real-Time GPS Interference Monitoring
Continuously analyzes near real-time GNSS signal measurements to detect spoofing and jamming incidents with high temporal and spatial resolution.
Signal Attribution & Characterization
Characterizes interference patterns and supports locating sources by frequency, origin, and impact area.
Historical Pattern Analysis
Review time-series interference patterns to support investigation, attribution analysis, and trend assessment.
Example Use Cases
U.S. Space Force & Allied Agencies
Monitor global hotspots for GNSS interference that may affect mission-critical systems.
Satellite Operators
Identify potential interference that may affect fleet communication or navigation.
Policy & Coordination Bodies
Access regional heatmaps of detected jamming and spoofing activity. Support regulatory analysis and risk-sharing initiatives.
Commercial Risk Firms
Use interference pattern data to inform insurance models for satellite navigation and timing payloads.
Seradata
The industry’s trusted source for satellite, launch, and space event intelligence. With a continuously updated catalog and deep historical archive, it’s the go-to reference for insurers, operators, and analysts worldwide.
Agatha AI
AI-driven insights engine for detecting, analyzing, and explaining anomalies in space object behavior. Leverages advanced analytics and machine learning to identify outliers, trends, and emerging risks early enough to support informed operational decisions.
Data Catalog
Central data hub connecting the Slingshot Global Sensor Network (SGSN) and Sovereign Space Object Tracking (SSOT). Provides continuous, high-precision orbital intelligence through near real-time sensor data, advanced processing, and on-demand tasking for mission-ready awareness.
Digital Space Twin
An interactive 3D environment for modeling and visualizing near real-time orbital data. Explore missions, maneuvers, and conjunctions in a dynamic spatial context built for operators, analysts, and educators alike.
Developer Docs
Centralized documentation hub for APIs and future MCP server integrations supporting Slingshot’s ecosystem. Built for engineers, integrators, and researchers building with Slingshot data.