Wheeled, Multi-Purpose Humanoid Robot
The Challenge & Vision
The goal of Genbot is to provide a highly adaptable, customizable, and rapid-deployment robotic platform. It is engineered to seamlessly integrate various tools and payloads, making it indispensable for logistics, security patrols, and industrial inspection across varied and challenging terrains.
Key R&D Breakthroughs:
- 1.Modular Payload System: Tool-less, hot-swappable system allowing field reconfiguration in minutes to change functionality.
- 2.Multi-Terrain Adaptive Suspension: Advanced active suspension and traction control for stability on asphalt, gravel, and uneven factory floors.
- 3.Integrated Lidar & GPS: High-speed autonomous navigation and immediate creation of high-fidelity 3D environmental maps.
Key Features
Degrees of Freedom
Single Arm Search
Payload Capacity
Torso Uplifting
Multi-Terrain Navigation
Track Speed
Battery Monitor System
Degrees of Freedom
Single Arm Search
Payload Capacity
Torso Uplifting
Multi-Terrain Navigation
Track Speed
Battery Monitor System
Applications and Versatility
Genbot’s configurable architecture allows it to serve multiple roles, from complex logistics handling to high-stakes perimeter security, significantly lowering operational overhead.
Industrial Logistics
- Automated material transport across large sites.
- Dynamic routing and inventory checks in warehouses.
Security & Inspection
- Perimeter patrol and autonomous threat detection.
- Pipeline and structural integrity inspections using NDT modules.
Technical Specifications
Drive Type
6x6 All-Wheel Drive
Battery Life
Up to 12 hours
(Standard Payload)Max Speed
20 km/h
(Off-road)Payload Capacity
75 kg
Communication
5G/Satellite Ready
Sensors
Lidar, Thermal Camera, Sonar
Development Roadmap
Genbot's phased development ensures that its multi-purpose platform is robust, reliable, and capable of integrating future technological advancements.
Phase 1
Mobility Core Development (Completed):
Finalization of the 6x6 chassis design, adaptive suspension, and ruggedized power train.
Phase 2
Modular Interface & Payload Integration (Current)
Testing of the hot-swappable interface and initial field validation with standardized industrial payloads.
Phase 3
Autonomous Navigation Refinement (Future)
Deep integration of AI for advanced path planning, object avoidance, and non-GPS based localization in indoor and harsh environments.
Phase 4
Ecosystem Integration & Commercialization (Future)
Establishing interoperability with industrial IoT and cloud management platforms for fleet operations.