MARK-3 - Advanced Educational Robotics Platform
MARK 3 is an advanced educational robotics platform designed for students, innovators, and robotics enthusiasts who are ready to explore autonomous navigation, intelligent sensing, computer vision, and robotic automation through hands-on learning.
Built with powerful computing capabilities and advanced sensors, MARK 3 enables learners to understand how modern robots perceive their environment, make decisions, navigate independently, and perform real-world tasks. The platform helps students develop problem-solving, engineering, and programming skills while gaining practical exposure to cutting-edge robotics technologies.
What Students Learn
Advanced Robotics Concepts
Autonomous Navigation
Sensor Integration & Fusion
Computer Vision Fundamentals
Robot Localization & Mapping
Motion Control Systems
Embedded Systems & Computing
Robotic Arm Programming
Real-World Engineering Problem Solving
Exciting Experiments & Projects
Students can build and explore advanced robotics applications, including:
Autonomous Navigation Robot
Obstacle Detection & Avoidance
Mapping & Localization Projects
Object Detection & Tracking
Pick-and-Place Automation
Computer Vision Applications
Smart Delivery Robot Concepts
Warehouse Robotics Simulations
AI & Intelligent Robotics Projects
These engaging projects help students understand real-world robotics concepts through practical experimentation and hands-on learning.
Kit Components & Specifications
MARK 3 Hardware
Mecanum Wheels
Encoder Motors
LIDAR Sensor
IMU (Inertial Measurement Unit)
Ultrasonic Sensor
Custom PCB Controller Board
Raspberry Pi 5 Computing Unit
Camera Sensor
Robotic Arm for Pick-and-Place Operations
Why Choose MARK 3?
Advanced Hands-On Robotics Learning
Real-World Automation Applications
Intelligent Navigation & Sensing
Computer Vision Integration
Industry-Relevant Technologies
Ideal for Schools, Engineering Colleges & Robotics Labs
Learn • Sense • Navigate • Innovate
MARK 3 provides an advanced learning platform for students to explore modern robotics, autonomous systems, and intelligent automation through practical and engaging hands-on experiences.

