Praesidium Autonomous Defence Systems
Autonomous defence systems powered by the Praesidium Sovereign Autonomy Platform, enabling ISR, sensing, mobility, and perimeter defence capabilities across multiple domains.
Built on the Praesidium Sovereign Autonomy Platform
Each Praesidium system is powered by a unified autonomy stack that delivers mission autonomy, sensor fusion, multi-vehicle coordination, and sovereign configuration and control. Whether airborne, ground-based, or fixed-location, all systems share a common autonomy architecture designed for rapid adaptation, resilience, and operation in degraded or contested environments.
An attritable ISR and autonomous coordination system designed for distributed operations in contested environments. WIDOWSWARM enables multi-vehicle mission execution with sovereign, intent-preserving autonomy and supervised coordination across air and sensor platforms.
An unmanned CASEVAC and ISR support system designed to assist mobility, extraction support, and situational awareness in complex operational environments. SENTINEL-M is intended to operate under human supervision, supporting medical evacuation and reconnaissance tasks where risk reduction and operational awareness are critical.
A software-driven optical sensing and analytics system designed to detect fibre-optic controlled drone links and support attribution of controlling operators. FIBERHOUND enables counter-UAS awareness and perimeter defence by identifying and analysing fibre-based control methods in real time.
Mission-grade battery and energy systems designed to deliver reliable, stable power for autonomous and remotely operated platforms. Engineered for endurance, resilience, and integration across air, ground, and fixed defence systems, supporting sustained operation under demanding conditions.
An autonomous gun-laying and fire-control upgrade for legacy defence platforms, designed to enhance tracking, aiming, and engagement support under human supervision. ARGUS-23 provides improved responsiveness, accuracy, and survivability while maintaining operator control and compliance with operational rules and constraints.