Research Program 2

Advanced Satellite Systems, Sensors and Intelligence

Ultra-fine Attitude Control via Event-based Star Tracking and Piezoelectric Stabilisation

The Application of Artificial Intelligence for Satellite Enterprise Management

Measuring Control System Resilience to Cyber-Physical Threat in a Satellite Context

Autonomous navigation of satellites for space exploration

Compact Clock for Small Satellite Applications

LEO Constellation Resilience Technologies – Horizon Scan

Human-Autonomy Teaming for Intelligent Distributed Satellite Operations

Development of Taxonomy for Space System Resilience

Artificial Intelligence for Distributed Satellite Systems Autonomous Operations

Precision Timing for Space Based Applications – Utilisation Study

Trusted AI Frameworks for Change and Anomaly Detection in Observed ISR Patterns

Space Analytics Engine for On-Board Machine Learning and Multimodal Data Fusion

Autonomous vision-based space objects detection and tracking in orbit

Responsible AI in Space

Using Quantum Entanglement to Remotely Synchronise Clocks

Development of an Evil Digital Twin for LEO Small Satellite Constellations

A Machine Learning Based Solution for Space Situational Awareness and Space Sustainability

Small Satellite Thermal Management with 3D Printed Metal Heat Sinks Containing Phase Change Material Thermal Storage

Using Satellite Data to Locate and Phenotype Plants from Space

Satellite-based GNSS-Reflectometry for Maritime Surveillance, Observation and Detection – PHASE 1

A Decentralised Cognitive System for Radar Signal Recognition

Super resolution Mosaic Infrared Focal (SMIRF) Sensor

Distributed FlatSats Phase 1: Use Case Scoping and Infrastructure Feasibility Study

AI Architecture for Onboard Processing

Very Low Earth Orbit (VLEO) Spacecraft Operations