Robotics.
Move metal. Move code.
Design and program mobile robots, robotic arms and automation cells. From kinematics to firmware to a working demo.
ArduinoSTM32ROS 2SolidWorksFusion 360PythonC++
Key outcomes
What you'll walk away with.
- Design 2-DOF & 4-DOF manipulators
- Write embedded firmware in C/C++
- Implement PID motion control
- Fuse IMU + encoder + ultrasonic data
- Deploy a working robot at demo day
Projects you'll ship
Real builds, not slides.
- Project 01Line-follower with obstacle avoidance
- Project 02Pick-and-place robotic arm
- Project 03Autonomous mobile robot (AMR) with SLAM
Pick your duration
45 days, 3 months, or 6 months.
Same lab, same mentors — different depth. Match your university mandate or your ambition.
Duration
45 days
15–20 hrs / week
Fast sprint. One shippable prototype.
- Week 1–2: Actuators, sensors, embedded C
- Week 3–4: Kinematics + control loops
- Week 5–6: Ship a working line-follower / arm
Most picked
Duration
3 months
18–22 hrs / week
Deep dive. Two projects + capstone.
- Month 1: Firmware fundamentals & motion control
- Month 2: Robotic arm build + kinematics
- Month 3: Capstone AMR with sensor fusion
Duration
6 months
20–25 hrs / week
Immersion. Portfolio-grade capstone with client demo.
- Month 1–2: Embedded + control + CAD
- Month 3–4: Robotic arm with vision
- Month 5–6: Full AMR / industrial cell with client review
Where this leads
Roles our alumni step into.
Robotics EngineerAutomation EngineerEmbedded Systems Engineer
