Command. Navigate. Optimize. Your mission control for the stars.
Launch DashboardReal-time mission status panel showing trajectory, fuel, telemetry health, and system-wide signal diagnostics. Directs operational command decisions from a centralized view.
Real-time monitoring and control of active space missions
Currently in operation
Deep Space Network
Course deviation
Average across fleet
Secure uplink console for sending command sequences, reviewing system telemetry, and issuing emergency overrides in mission-critical moments.
Handle signal routing across the solar system. Integrates DSN scheduling, laser vs. radio communications analysis, and delay-tolerant networking strategies.
Autonomous signal routing and interplanetary communication management
Handles high-latency packet delivery across deep space nodes with resilient store-and-forward logic.
Real-time sync with DSN tracking stations for optimized signal relay windows and fallback links.
AI-assisted analyzer compares laser comms advantages with RF under current conditions and priorities.
Delay-Tolerant Networking Monitoring & Analysis
Simulating space history, discovery, and outreach in 4D
Replay iconic missions like Cassini & Voyager with dynamic orbital paths and waypoints.
Visual flyby previews based on real-time data—glimpse targets like Kepler-452b and TRAPPIST-1e.
Interactive visuals designed for students, featuring labeled celestial bodies and simplified physics.
Explore legendary space missions and their discoveries
Revolutionized our understanding of Saturn and its moons, including the discovery of liquid methane lakes on Titan.
The farthest human-made objects from Earth, now exploring interstellar space beyond our solar system.
Interactive resources for students and educators
Explore planets and spacecraft in immersive 3D
Primary source documents and images
Curriculum-aligned teaching materials
Autonomous intelligence driving trajectory optimization and fault prediction
ML algorithms optimize orbital maneuvers with minimal delta-v based on current anomalies and goals.
Predicts subsystem failures before they occur using telemetry and historical pattern analysis.
Detects solar disruptions and reroutes signals in real-time using adaptive neural comms logic.
AI-driven decision making for deep space operations
Executed 12.7m/s burn for optimal Mars approach
Reallocated 37% power to science instruments
Portside thruster exceeding normal operating range
Science buffer nearing capacity
87% probability of similar anomalies in next orbit
How all ORBISX systems interconnect to deliver seamless mission execution