The fusion of artificial intelligence (AI), particularly large-scale models, and deep learning is revolutionizing unmanned aerial vehicles (UAVs). Aerofoundry is part of this technological revolution offering its breakthrough AI system for UAV intelligence operations.
Our system enables autonomous target recognition, tracking, pointing, and locking with unprecedented precision, even in GPS-denied environments.
Our AI-driven navigation autonomy on:
- Target Recognition: we use large-scale vision models using a transformer-based architecture to process multi-sensor data from visible and infrared light, to identify targets with high accuracy.
- Target Tracking: Using advanced algorithms enhanced by the large-scale pre-trained models, to enable real-time tracking at 50 fps with 4K resolution, detecting targets as small as 10x10 pixels. We can predict target trajectories, ensuring continuous tracking during large-scale maneuvers.
- Autonomous Navigation in GPS-Denied Environments: AI systems leverage visual matching positioning networks, powered by large-scale generative models for scene understanding, we are able to navigate in GPS-denied scenarios. We integrate this AI system with high-precision inertial navigation to achieve <10m positioning error at middle altitude (the highest in the industry, for this UAV category). With <10W power consumption and military-grade shock resistance, we successfully operate tactical UAV in complex electromagnetic environments.
- Laser Pointer Integration: capable of guiding munitions, ensuring trajectory alignment using real-time position estimation. This enhances precision in reconnaissance and strike missions, critical for operational success.
The fusion of artificial intelligence (AI), particularly large-scale models, and deep learning is revolutionizing unmanned aerial vehicles (UAVs). Aerofoundry is part of this technological revolution offering its breakthrough AI system for UAV intelligence operations.
Our system enables autonomous target recognition, tracking, pointing, and locking with unprecedented precision, even in GPS-denied environments.
Our AI-driven navigation autonomy on:
- Target Recognition: we use large-scale vision models using a transformer-based architecture to process multi-sensor data from visible and infrared light, to identify targets with high accuracy.
- Target Tracking: Using advanced algorithms enhanced by the large-scale pre-trained models, to enable real-time tracking at 50 fps with 4K resolution, detecting targets as small as 10x10 pixels. We can predict target trajectories, ensuring continuous tracking during large-scale maneuvers.
- Autonomous Navigation in GPS-Denied Environments: AI systems leverage visual matching positioning networks, powered by large-scale generative models for scene understanding, we are able to navigate in GPS-denied scenarios. We integrate this AI system with high-precision inertial navigation to achieve <10m positioning error at middle altitude (the highest in the industry, for this UAV category). With <10W power consumption and military-grade shock resistance, we successfully operate tactical UAV in complex electromagnetic environments.
- Laser Pointer Integration: capable of guiding munitions, ensuring trajectory alignment using real-time position estimation. This enhances precision in reconnaissance and strike missions, critical for operational success.