Robotics Engineer

a guide to: Career

What is a Robotics Engineer?

A Robotics Engineer is a multidisciplinary professional who designs, builds, and maintains robots and automated systems. They integrate mechanical engineering, electronics, and computer science to create machines capable of performing tasks autonomously or assisting humans in complex or hazardous environments.

Why is a Robotics Engineer important?

Robotics Engineers are critical because they drive the next wave of industrial and social automation. They create solutions that increase production speed, enhance precision in healthcare, and allow for the exploration of environments unreachable by humans.

Precision & Safety:
Performs high-risk tasks and intricate surgeries with zero fatigue and high accuracy.
Economic Efficiency:
Lowers long-term operational costs by automating repetitive manufacturing and logistics processes.
Scientific Discovery:
Enables space, deep-sea, and hazardous zone exploration through specialized autonomous rovers.
Quality of Life:
Develops assistive technologies like prosthetics and service robots for the elderly or disabled.

In summary, Robotics Engineers are the pioneers of the future workforce. Their work ensures global industries remain competitive, sustainable, and capable of solving complex human challenges through innovative, intelligent machinery.

Education Pathways

Option 01

  • 10th Class

    after

  • 10+2

    in the Science Stream

  • Pursue a B.Tech Bachelor’s Degree

    in Robotics and Automation, Mechatronics, Mechanical, Electrical, or Computer Science Engineering.

  • Pursue a M.Des Master's Degree

    in Robotics, Mechatronics, Artificial Intelligence, Automation

  • Practical Learning

    Projects, internships, robotics competitions, and labs

Stream
Important Subjects
# Subject
1 Robotics Fundamentals – Basic robot types, components, kinematics, and applications.
2 Mechatronics – Integration of mechanical, electrical, and control systems.
3 Control Systems – Modeling and effective control of dynamic robotic systems.
4 Kinematics & Dynamics – Motion analysis and force calculations for robot mechanisms.
5 Embedded Systems – Microcontrollers, sensors, actuators, and real-time systems.
6 Programming – Coding for robot control, automation, and system integration.
7 Artificial Intelligence – Perception, learning, and decision-making capabilities in robots.
8 Machine Vision – Image processing techniques for object detection and robot guidance.
9 Sensors & Actuators – Environmental sensing and controlled mechanical actuation.
10 Industrial Automation – PLCs, SCADA, and robotic manufacturing systems.
11 Human-Robot Interaction – Designing safe, intuitive collaboration between humans and robots.
12 Safety & Ethics – Ensuring safe deployment and responsible use of robotic systems.
Where to study?
KL Deemed to be University GITAM Deemed to be University Ramaiah University of Applied Sciences KLE Technological University Green City University Jain Deemed to be University Amrita Vishwa Vidyapeetham
Career Progression for a Robotics Engineer

Qualification Levels:

  • B.Tech/B.E. for entry roles;
  • M.Tech/M.E. and certifications added advantage.

Role Levels & Growth:

  • Entry Level: Junior Robotics Engineer - Robotics Engineer
  • Mid-Level: Robotics Engineer - Senior Robotics Engineer
  • Senior Level: Senior Robotics Engineer - Lead / Principal Engineer
  • Executive Level: Robotics Manager - Engineering Manager

Further Opportunities:

  • CTO / VP Engineering: Global strategy, budgeting, and leading company-wide automation.
Sectors Offering
  • Manufacturing & Industrial Automation: Robotics-driven production lines, assembly systems, quality inspection, and smart factories.
  • Automotive & Electric Vehicles: Robotics for vehicle manufacturing, autonomous systems, battery assembly, and testing.
  • Healthcare & Medical Robotics: Surgical robots, rehabilitation systems, diagnostics automation, and assistive healthcare technologies.
  • Defense & Aerospace: Autonomous systems, unmanned vehicles, robotics for surveillance, and mission-critical applications.
  • Warehousing & Logistics Automation: Automated storage, retrieval systems, robotic picking, sorting, and supply chain optimization.
  • Agriculture & Field Robotics: Autonomous tractors, drones, crop monitoring, and precision farming technologies.
  • Service & Domestic Robotics: Household robots, service assistants, hospitality automation, and personal robotics solutions.
  • Research & Academia: Advanced robotics research, innovation labs, prototyping, and academic development.
Expected Salary

Entry Level

  • ₹5.5 - ₹10.0 LPA

Mid-Level

  • ₹15.0 - ₹28.0 LPA

Senior Level

  • ₹35.0 - ₹65.0 LPA

International

Entry Level

  • $85,000 - $110,000 per annum

Mid/Senior Level

  • $115,000 - $210,000 per annum

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