Designed with Precision
for Industrial-grade Standards
The improved design of Honey Badger 5.0 makes it even more durable than the previous prototype. It's durable IP66-rated construction makes the robot suitable for the most advanced tasks in any environment.
The robot keeps stability and overcomes obstacles no matter how challanging the terrain is. Integrated safety and self-recovery algorithms ensure maximum reliability during operation.
Designed as a universal carrying platform for sensors and tools, it fits perfectly across a wide range of scenarios. Its modular architecture allows for quick and easy customizing the payload.
TECHNOLOGY AWARDS
Specification
Physical dimensions
50 x 30 x 13-50 cm
Weight
17 kg
Payload
up to 5 kg
Battery runtime
up to 2 hours
Communication
5G Wi-Fi or Optic Fibre
Ingress Protection
IP66
Operating temperature
0-45°C
Control device
PC/Remote controller
Autonomy Integration Readiness
We engineer versatile robotic systems designed to operate in the most challenging environments. Our flagship Honey Badger 5.0 robot features an open architecture that enables easy development and integration of autonomous functionalities. Equipped with two onboard computers, as well as dedicated communication and power interfaces, the platform allows seamless integration of virtually any sensor available on the market, along with additional autonomy or payload modules.
WHY A LEGGED ROBOT?
Legged robots have unparalleled versatility in navigating unknown and unstructured terrains, enabling the robot to overcome obstacles and adapt to its environment while keeping the balance and stability. As for MAB Robotics robots, they tap into superior mobility and sturdy design, which makes them a durable and reliable solutions. The combination of cutting-edge engineering and bioinspiration yields great dynamics and agility.
Honey Badger is a uniquely engineered solution for demanding tasks, developed in-house by MAB Robotics team with real-world needs in mind. The small size of the robot, its waterproof design and solidness contribute to being able to operate in environments where other types of mobile robots are insufficient, such as underground tunnels, narrow passages or waterlogged terrains.