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Space Robotics

Distributed control of
satellites in formation

A multi-agent reinforcement learning system that maintains stable orbital formations under real perturbations — without centralised control. The dynamics of each unit are physically validated on a Lite6 manipulator.

99.1% Formation success
4 / 4 Coordinated agents
1.6 mm Sim-to-real error (Lite6)
PPO · SAC RL algorithms

01 · The system

Satellites that learn to coordinate with each other

A custom simulation environment where each satellite is a cooperative agent capable of maintaining a formation, reconfiguring it and recovering from perturbations — without relying on a central node to coordinate the rest.

Physical simulation Reinforcement learning Distributed control
Distributed satellite control system diagram

02 · Objectives

From orbital theory to physical validation

Modelling a realistic orbital environment, designing distributed control, applying multi-agent RL, validating the system on a physical platform and measuring its stability under perturbations.

MuJoCo Multi-Agent RL Experimental validation
Key objectives of the space robotics project

03 · Why it matters

Autonomy is the next step

Future missions will depend on autonomous constellations and swarms. This is the problem we address: endowing multi-agent systems with greater autonomy, efficiency and resilience in complex operations.

Constellations Autonomous systems Operational resilience
Satellite constellation networked above Earth

04 · Applications

One principle, multiple sectors

The results of this system are applicable to intelligent constellations, autonomous inspection, space surveillance, distributed scientific missions and ground-based technologies built on multi-agent control.

Aerospace Drones & logistics Industrial robotics
Multi-agent control applications across sectors

Development log

Project timeline and progress

This section represents the project timeline through a visual simulation: each cube symbolises a robot and a month of work, connected like satellites in formation to reflect the physical validation of the experiments.

NOV
NOV
DEC
DEC
JAN
JAN
FEB
FEB
MAR
MAR
APR
APR
APR
MAY
MAY
MAY
JUN
JUN
JUN

Does your operation depend on coordinating multiple autonomous units?

The distributed control developed in this project is transferable to constellations, drone fleets, mobile robotics and any multi-agent system. Let's talk about your case.

Talk about your project