BIT LAB

BIT Autonomous
Robotics & AI Lab

Research, development and advanced autonomous systems — across Air, Land, Sea, and Nano domains.

Contact BIT Lab →
HUMANOID ROBOTICSROBOT DOGSINDUSTRIAL ROBOTSAI AUTONOMYSWARM SYSTEMSNANO TECHAERIAL DRONESUNDERWATER ROVsHUMANOID ROBOTICSROBOT DOGSINDUSTRIAL ROBOTSAI AUTONOMYSWARM SYSTEMSNANO TECHAERIAL DRONESUNDERWATER ROVs
ROBOTICS SYSTEMS

Advanced Robotics Systems

From autonomous ground platforms to aerial drones and nano-scale systems — BIT sources, integrates and deploys advanced autonomous robotics technology.

Humanoid robot in industrial environment
BIT-LAND

Humanoid Robots

Bipedal autonomous systems for industrial, logistics and research environments. Partners include Unitree Robotics and Realman Robotics.

Titan quadruped robot dog on rocky terrain
BIT-LAND

Quadruped / Robot Dogs

Four-legged autonomous platforms for inspection, surveillance and terrain navigation in challenging environments.

Industrial autonomous cleaning robot in warehouse
AVAILABLE NOW

Industrial & Cleaning Robots

Commercial-grade autonomous systems for cleaning, polishing, inspection and facility management. Available for immediate order.

Autonomous surveillance drone flying at night
BIT-AIR

Aerial Drones & UAV Systems

Multi-rotor and fixed-wing UAVs for firefighting, surveillance, inspection and heavy-lift cargo operations.

AI neural network visualization dark blue
CORE TECHNOLOGY

AI Autonomy Systems

RT-2 vision-language-action models, NVIDIA Jetson Orin NX, swarm intelligence and GPS-denied navigation — the intelligence layer behind every BIT system.

CORE TECHNOLOGY

AI-First Architecture

AI neural network chip dark blue

AI Control Stack

RT-2 vision-language-action models and OpenVLA for real-time scene understanding. NVIDIA Jetson Orin NX (100 TOPS) as the onboard compute platform for autonomous decision-making.

Advanced materials graphene lattice

Advanced Materials

Carbon fibre reinforced polymer (CFRP) T800/T1100 grade for structural frames. Titanium alloys for load-bearing joints. Radar-absorbing material (RAM) coatings for stealth-capable platforms.

Drone swarm formation night sky

Swarm Intelligence

Mesh networking protocols enabling coordinated multi-agent operations. Bio-inspired algorithms for decentralised task allocation and fault-tolerant swarm behaviour.

LiDAR SLAM point cloud mapping

GPS-Denied Navigation

LiDAR-inertial SLAM (Simultaneous Localisation and Mapping) for indoor and underground environments. Visual-inertial odometry for high-speed aerial platforms without GPS dependency.

R&D ROADMAP

Development Roadmap

PHASE 1 · 2025–2026
BIT-AIR
Aerial drones, inspection UAVs, firefighting platforms
ACTIVE
PHASE 2 · 2026
BIT-LAND
Humanoid robots, quadrupeds, industrial platforms
IN DEVELOPMENT
PHASE 3 · 2027
BIT-SEA
Underwater ROVs, surface USVs, maritime autonomy
PLANNED
PHASE 4 · 2028
BIT-NANO
Nano-fabrication, medical robotics, micro-scale systems
RESEARCH
GLOBAL ECOSYSTEM

World Robotics Manufacturers

BIT monitors and evaluates the global robotics manufacturing landscape. Click any manufacturer to visit their official website.

LIVE UPDATES

BIT’s partnership network is continuously expanding.

As we formalise agreements with manufacturers, technology providers and system integrators worldwide, confirmed partners will be listed here. If your organisation is interested in a strategic partnership with BIT, please reach out via our contact page.

0
Global autonomous robotics market size
0
Projected annual market growth through 2030
0
Operational domains: Air, Land, Sea, Nano
0
Integration and technical support coverage
* Market size based on publicly available industry research. Source: MarketsandMarkets, 2024.
GET INVOLVED

Interested in BIT Lab Systems?

Whether you are looking to deploy autonomous robotics, explore partnership opportunities, or discuss investment in BIT's technology — our team is ready to engage.