How to become a Robotic Engineer


What is Robotic Engineering ?

Robotic Engineering is a multidisciplinary field that involves the design, development, construction, and operation of robotic systems.

It combines principles from various domains such as mechanical engineering, electrical engineering, computer science, control engineering, and artificial intelligence to create robots that can perform tasks autonomously or semi-autonomously.

Key aspects of robotic engineering includes the below

  • Mechanical Design
  • Electrical Engineering
  • Control Systems
  • Sensors and Perception
  • Artificial Intelligence
  • Human-Robot Interaction
  • Kinematics and Dynamics
  • Robot Ethics and Safety
  • Mechatronics

What are the Education and Courses for Robotics Engineering?

Bachelor’s Degrees

  1. Bachelor’s in Robotics Engineering
  2. Bachelor’s in Mechanical Engineering with Robotics Specialization
  3. Bachelor’s in Electrical Engineering with Robotics Emphasis
  4. Bachelor’s in Computer Science with Robotics Focus

Master’s Degrees

  1. Master’s in Robotics Engineering
  2. Master’s in Mechatronics
  3. Master’s in Automation and Control Engineering
  4. Master’s in Computer Science with Robotics Concentration

PhD Programs

  1. PhD in Robotics
  2. PhD in Electrical and Computer Engineering with Robotics Focus
  3. PhD in Computer Science with Robotics Emphasis

Things to consider when choosing a program or course

  1. Look for accredited institutions with a strong reputation in robotics or related fields.
  2. Check the curriculum to ensure it covers a wide range of topics, including mechanical design, electronics, control systems, and AI.
  3. Explore the availability of hands-on labs, projects, and internships.
  4. Consider the expertise of faculty members in robotics research.
  5. Check for alumni success and industry partnerships.

Top Institutions for Robotics Engineering ?

1. Indian Institute of Technology (IIT) Bombay

2. Indian Institute of Technology (IIT) Kanpur

3. Indian Institute of Technology (IIT) Delhi

4. Indian Institute of Technology (IIT) Madras

5. Indian Institute of Technology (IIT) Kharagpur

6. Birla Institute of Technology and Science (BITS) Pilani

7. National Institute of Technology (NIT) Trichy

8. Indian Institute of Technology (IIT) Roorkee

9. Vellore Institute of Technology (VIT)

10. Amrita School of Engineering, Amrita Vishwa Vidyapeetham

Jobs after Robotic Engineering ?

  • Robotics Engineer:
  • Automation Engineer:
  • Control Systems Engineer:
  • Mechatronics Engineer:
  • Artificial Intelligence Engineer:
  • Computer Vision Engineer:
  • Research Scientist in Robotics:
  • Human-Robot Interaction Specialist:
  • Field Service Engineer:
  • Quality Control Engineer:
  • Robotics Software Engineer:
  • Research and Development Engineer:

Top Recruiter Companies for Robotic Engineering ?

  • Boston Dynamics:
  • NASA Jet Propulsion Laboratory:
  • Tesla, Inc.:
  • Tata Consultancy Services (TCS):
  • Mahindra & Mahindra:
  • Robosoft Technologies:
  • Bosch India:
  • KUKA Robotics India:
  • Omron Automation:

Salary for Robotic Engineers in India ?

  • Freshers (0-2 years of experience): From ₹3.5 lakh to ₹6 lakh per annum
  • Experienced Robotic Engineers (2-5 years of experience): Range of ₹6 lakh to ₹12 lakh per annum
  • Senior Robotic Engineers (5+ years of experience): From ₹12 lakh to ₹20 lakh or more per annum

What are the Types of Robots ?

  1. Industrial Robots:
    • Used in manufacturing and production processes.
    • Perform tasks like welding, painting, assembly, and material handling.
    • Examples: SCARA robots, articulated robots, delta robots.
  2. Service Robots:
    • Designed to assist humans in various settings.
    • Include robots for healthcare, entertainment, education, and customer service.
    • Examples: Healthcare robots, social robots, educational robots.
  3. Agricultural Robots:
    • Used in agriculture for tasks like planting, harvesting, and monitoring crops.
    • Improve efficiency and reduce labor-intensive work.
    • Examples: Agricultural drones, robotic harvesters.
  4. Medical Robots:
    • Used in medical procedures, diagnostics, and patient care.
    • Can perform surgeries, deliver medication, and assist in rehabilitation.
    • Examples: Surgical robots, telemedicine robots.
  5. Autonomous Vehicles:
    • Self-driving vehicles that can navigate without human intervention.
    • Include autonomous cars, drones, and unmanned aerial vehicles (UAVs).
  6. Military and Defense Robots:
    • Used in military applications for surveillance, reconnaissance, and hazardous tasks.
    • Examples: Unmanned ground vehicles (UGVs), bomb disposal robots.
  7. Entertainment Robots:
    • Designed for entertainment purposes, including gaming and interactive experiences.
    • Examples: Robot pets, robotic toys.
  8. Exploration Robots:
    • Used for space exploration, deep-sea exploration, and other environments.
    • Examples: Planetary rovers, underwater exploration robots.
  9. Search and Rescue Robots:
    • Used in disaster response and search-and-rescue missions.
    • Can navigate through hazardous environments to locate and assist survivors.
    • Examples: Urban search and rescue (USAR) robots.
  10. Robotic Arms and Manipulators:
    • Used for precise manipulation and handling tasks in various industries.
    • Often seen in manufacturing and assembly processes.
    • Examples: Robotic arms, pick-and-place robots.
  11. Humanoid Robots:
    • Designed to resemble and mimic human movements.
    • Used for research, entertainment, and interaction with humans.
    • Examples: ASIMO, Pepper.
  12. Collaborative Robots (Cobots):
    • Designed to work alongside humans in a collaborative manner.
    • Assist with tasks that require human supervision or fine motor skills.
    • Examples: Universal Robots, Rethink Robotics’ Baxter.
  13. Domestic Robots:
    • Designed for household tasks and chores.
    • Include vacuuming robots, lawn mowers, and home security robots.
  14. Educational Robots:
    • Used for teaching robotics concepts and programming.
    • Encourage hands-on learning and creativity.
    • Examples: LEGO Mindstorms, educational robot kits.
  15. Exoskeletons:
    • Wearable robotic devices that augment human capabilities and provide assistance.
    • Used in healthcare and rehabilitation as well as for enhancing physical performance.

Skills Required for to become a Robotic Engineering?

  1. Programming Skills: Proficiency in programming languages like Python, C++, and MATLAB.
  2. Mathematical Skills
  3. Control Systems Knowledge
  4. Electrical and Electronics Knowledge
  5. Mechanical Engineering Skills
  6. Robotics Frameworks and Libraries
  7. Computer Vision and Image Processing
  8. Machine Learning and AI
  9. Sensor Integration and Data Analysis

Now, we think you have understood what is a Robotic Engineer. Leave your comment below. For information on other Technologies like Front-End Developer click here.


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