Defence AI Portfolio
Three platforms. One mission: autonomous capability where traditional systems fail.
From autonomous guidance and counter-UAS simulation to coordinated drone operations—RLK Defence delivers AI systems engineered for contested environments.
Core Capabilities
Engineered for Contested Environments
RLK Defence develops AI-driven autonomous platforms specifically designed to operate where traditional systems cannot—GPS-denied zones, electronic warfare environments, and complex operational theatres.
Vision-Based Navigation
Autonomous guidance using visual feedback alone, independent of GPS or external positioning systems.
GPS-Denied Operations
Designed for contested environments where satellite signals are unavailable, jammed, or unreliable.
AI-Driven Target Tracking
Real-time identification, classification, and adaptive pursuit of targets using advanced computer vision.
Multi-Domain Deployment
Platform-agnostic architecture supporting aerial, ground, and marine autonomous systems.
Defence Platforms
Autonomous AI Systems
Our defence platforms combine advanced AI with robust engineering to deliver autonomous capabilities across diverse operational requirements.
AI-AV
Vision-Based Autonomous Guidance
AI-AV enables autonomous platforms to navigate and engage targets using visual sensors as the sole input. Designed for GPS-denied environments, it provides reliable guidance where traditional navigation fails.
UAVSimNet
Counter-UAS Mission Analysis
Simulation environment for counter-UAS teams to validate kill chains before live testing. Run thousands of intercept attempts, compare interceptor options, and brief with quantified evidence.
Helais
Multi-Drone Coordination Platform
Patented AI-coordinated multi-drone system enabling synchronised autonomous operations. Integrates multiple UAV types with centralised AI control for complex mission execution.
Why RLK Defence
Technology Differentiators
GPS-Independent by Design
Our platforms are architected from the ground up for GPS-denied operation—not adapted as an afterthought. Vision-based guidance is the primary navigation method, not a fallback.
Edge-Optimised Processing
All critical processing happens onboard with minimal latency. No dependence on external data links or cloud connectivity during mission execution.
Platform-Agnostic Architecture
Deploy the same guidance technology across aerial, ground, and marine platforms. Reduce integration complexity and accelerate deployment timelines.
GPS-Independent
Domains Supported
Target Adaptation
Technology
Request a Defence Briefing
Discuss how our autonomous platforms can address your operational requirements. Our team will provide detailed technical specifications and integration pathways.