BIT's technology platform combines proven robotics hardware with advanced AI software, fleet management, and integration engineering — delivering reliable autonomy across all operational environments.
Fixed-wing and multi-rotor UAVs for aerial reconnaissance, delivery, and monitoring.
Wheeled and tracked ground robots for cleaning, security, inspection, and emergency response.
Autonomous surface and underwater vehicles for maritime inspection and monitoring.
Micro-scale robotic systems for precision inspection, medical, and specialised applications.
BIT's aerial platforms cover fixed-wing long-endurance UAVs, multi-rotor inspection drones, and hybrid VTOL systems. All platforms are AI-equipped for autonomous navigation, obstacle avoidance, and real-time payload operation — from thermal imaging to LiDAR mapping.
Ground platforms include wheeled cleaning robots, tracked inspection systems, and legged platforms for unstructured terrain. All units integrate with BIT's central fleet management platform and support autonomous scheduling, route optimisation, and remote override.
BIT's maritime domain covers autonomous surface vessels (USVs) for port security and perimeter patrol, and unmanned underwater vehicles (UUVs) for hull inspection, pipeline monitoring, and subsea infrastructure assessment. All systems are designed for harsh marine conditions.
Nano-class platforms operate at sub-10 cm scale, enabling access to confined spaces, precision agricultural inspection, and medical-adjacent applications. BIT's nano systems are designed for swarm deployment and can be coordinated from the same central platform as full-scale units.
SLAM-based mapping and localisation, obstacle avoidance, and dynamic path planning enable our robots to navigate complex, changing environments without human intervention.
Deep learning models for object detection, classification, and tracking — trained on domain-specific datasets and optimised for edge deployment on robot hardware.
Fleet management software enabling multiple robots to coordinate tasks, share maps, and avoid conflicts — maximising coverage and operational efficiency.
Secure, low-latency remote operation interfaces allowing human operators to monitor, control, and intervene in robot operations from anywhere in the world.
BIT integrates diverse sensor payloads — thermal cameras, gas detectors, acoustic sensors, and more — into unified data streams for comprehensive situational awareness.
Hybrid cloud-edge architecture ensures robots operate autonomously even without connectivity, while synchronising data and updates when connected.