

Satellite Design
AI/ML-driven mission and satellite design: build-to-model capability
TrueTwin High-Fidelity Simulations
Predictive Modeling with an AI/ML Training Ground
Satellite Command and Control
Automated tasking and scheduling, anomaly detection and response, and real-time threat defense.
ANTARIS
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Antaris provides the world’s first AI-driven, end-to-end platform for the design, simulation, manufacturing, and operation of satellite missions.
Los Altos, California (CA), United States
Aerospace
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Products & Services
Antaris Design Studio
Antaris
Antaris Design Studio is a software-first platform that lets users design, configure, test, and simulate satellite missions, all before building any hardware. You begin by defining your payloads and mission goals (e.g. communications, Earth observation, IoT), then customize your satellite from a marketplace of pre-integrated, tested components (size, mass, power, thermal, attitude, etc.). The tool also runs integration checks (e.g. will your power system support the payload under certain tasking orders?) and allows you to “fly” the mission virtually to see whether your design meets or falls short of requirements—helping you save time, cost, and uncertainty in satellite development.
Antaris Command Center
Antaris
Antaris Command Center is a cloud-based command & control system that automates the scheduling, prioritization, and orchestration of satellite and constellation operations. It ingests mission objectives and dependencies (e.g. power state, sensor activation, downlink windows) and then dynamically plans and sequences tasks (e.g. attitude changes, data collection, transmission) to meet those goals. By applying scenario modeling and AI/ML prioritization, it evaluates trade-offs, resolves conflicts, and adapts to changing conditions—all while integrating with Antaris’s digital twin environment (TrueTwin™) so you can test strategies virtually and push validated command sets into live operations.
Antaris SatOS
Antaris
SatOS is Antaris’s spacecraft software environment — essentially a modern, modular flight software stack that controls everything from task scheduling and attitude control to payload operation, communications, and edge computing. It’s built with open APIs and a distributed architecture so it can adapt across different hardware platforms, avoid vendor lock-in, and let users swap or upgrade components independently. SatOS enables autonomous onboard operations (even when out of contact with ground stations), securely supports payloads, distributes compute resources on orbit, and allows over-the-air upgrades of software modules, all while interoperating with Antaris’s cloud tools for mission planning and monitoring.
Antaris TrueTwin
Antaris
Most digital twins are just virtual replicas of something that already exists. Antaris TrueTwin™ goes further—allowing you to create a twin of something before it’s built. By integrating hardware, software, and associated drivers from a planned configuration, TrueTwin™ creates a fully functional virtual satellite that processes real operational commands and generates actual responses—so you can test and validate your mission before purchasing a single piece of hardware.
People
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About
Antaris provides the world’s first AI-driven, end-to-end platform for the design, simulation, manufacturing, and operation of satellite missions. The platform fully virtualizes all system hardware and software elements, including ground stations, and interoperates with any satellite OEM, component provider, payload provider, or ground station operator. Virtualizing all hardware and software elements is the foundation for our powerful AI/ML capabilities:
- AI/ML-driven mission and satellite design: build-to-model capability
- Simulation-driven predictive modeling leveraging TrueTwin™
- Autonomous command-and control-including constellation-level orchestration
- Edge AI/ML for autonomous on-orbit satellite capabilities
- AI/ML-driven mission and satellite design: build-to-model capability
- Simulation-driven predictive modeling leveraging TrueTwin™
- Autonomous command-and control-including constellation-level orchestration
- Edge AI/ML for autonomous on-orbit satellite capabilities
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