Competition

Train for applied robotics challenges with real systems.

Competition teams turn project skills into field-ready robots through rescue tasks, mapping, perception, autonomy, integration, testing, and disciplined team operation.

Rescue robotics UAV mapping Team integration

Competition Tracks

Focused pathways for students who want to represent the club.

Members can enter through a technical module, then grow into subsystem ownership, test leadership, or competition-day operation.

Competition certificates and trophy displayed on a table RoboCup Rescue Platform

Rescue Robotics Platform

Develop ground robot capabilities for disaster response, rubble traversal, victim detection, mapping, and GPS-denied operation.

  • Navigation
  • Mapping
  • Integration
Members discussing robotics platforms for competition preparation Robot Dog Challenge Modules

Robot Dog Competition Modules

Prepare quadruped locomotion, stair traversal, obstacle handling, sensing, remote operation, and rescue-style inspection tasks.

  • Quadruped
  • Control
  • Sensors
Students working on hands-on robotics training UAV Reconnaissance & Mapping

UAV Reconnaissance & Mapping

Explore indoor flight, 3D mapping, aerial inspection, and coordination with ground robots in GPS-denied spaces.

  • UAV
  • 3D Mapping
  • Perception
Robot hardware and electronics prepared for testing AI Challenge Integration

AI Challenge & System Integration

Build perception, simulation, autonomy logic, evaluation scripts, documentation, and repeatable demos for applied AI robotics contests.

  • AI
  • Simulation
  • Testing

Preparation Flow

From training bench to competition-ready run.

The competition workflow emphasizes evidence: working modules, logs, videos, checklists, and field tests before public representation.

01

Skill Onboarding

Choose a module and complete foundation tasks in hardware, software, perception, or operations.

02

Subsystem Build

Own a measurable deliverable such as navigation, sensing, firmware, mechanical packaging, or testing.

03

Integrated Test

Run repeatable demos, record failures, improve reliability, and practice competition-day procedures.

04

Team Selection

Represent the club through contribution quality, documentation, attendance, and faculty-approved readiness.

Roles

Competition teams need more than one kind of builder.

Students can contribute through mechanical design, electronics, perception, autonomy software, testing, documentation, logistics, or live operation.

Engineering Roles

Mechanical packaging, wiring, embedded systems, robot control, perception, SLAM, autonomy, and integration.

Operation Roles

Testing plans, competition rules, field setup, media records, documentation, risk checks, and team coordination.

Join Competition Preparation

Start with a project task, then build toward the team.

Competition readiness grows from steady technical contribution and reliable teamwork.