Platform Introducation
The Gladiator Series is a modular robotics platform designed to support hands-on engineering education and robotics competition. Built from real robotics competition experience, the system provides a structured platform where students can learn, experiment, and progressively develop their engineering skills.
From classroom exploration to competitive robotics, Gladiator provides a stable foundation for learning and performance.
The system is engineered for durability, repeatable performance, and ease of deployment across school robotics programs. By providing a standardized hardware platform, Gladiator 2.0 allows teams to focus on engineering strategy, structural design, and competitive driving.
Platform Features
Modular Engineering System
Components designed for easy assembly, modification, and upgrades.
Competition-Ready Platform
Built on real robotics competition experience and designed for performance.
Classroom to Competition
A single platform supporting learning, testing, and competitive robotics.
Student-Friendly Design
Easy to build, easy to modify, and ideal for progressive skill development.
Technical Specifications
Engineering architecture of the Gladiator Series platform.
Platform Architecture
Drive System
Structural Design
- Modular structural chassis system
- Two-wheel differential drive system
- Integrated wireless control unit
- Rechargeable battery power system
- Dual motor configuration
- Reinforced motor mounting system
- High-traction competition wheels
- Modular attachment interface
- Protected controller housing
- Serviceable component architecture
Designed for Robotics Competition
Gladiator 2.0 serves as the official platform for URC Sumo robotics competition events and supports robotics competitions focused on mechanical engineering design and driver-controlled performance.
The platform provides a fair and standardized competition environment while allowing teams to explore structural design improvements and competitive strategies.
Learn About the Competition →HERE