B.Tech in Robotics Engineering is an interdisciplinary field that combines mechanical, electrical, and computer engineering principles to design, develop, and operate robotic systems. This cutting-edge program provides students with the knowledge and skills necessary to create intelligent machines capable of doing tasks autonomously, remotely, or in partnership with people. With the rising integration of robots in numerous industries ranging from manufacturing to healthcare and beyond, a B.Tech in robots Engineering provides a dynamic and exciting career path that fosters innovation while tackling real-world difficulties.
Students who have successfully completed their 10+2 education with a minimum of 50% marks are typically eligible for admission to a B.Tech in Robotics Engineering program in India. Universities and colleges often utilize a combination of entrance tests and merit-based direct admissions to select candidates. As part of the application process, prospective students can usually submit their forms online through the college’s official website or in person at the university office. Additionally, it’s not uncommon for some institutions to conduct interviews to evaluate applicants’ knowledge and communication skills. The selection process typically takes into account both the results of entrance exams and undergraduate merit, providing a streamlined pathway for eligible students to pursue their B.Tech in Robotics Engineering in India.
Why Choose B.Tech In B.Tech in Robotics Engineering?
Choosing a Bachelor of Technology (B.Tech) in Robotics Engineering is impacted by a combination of academic, career, and personal factors. Here are some convincing reasons to pursue a Bachelor of Technology in Robotics Engineering:
- Technological Advancement and Innovation: Robotics is at the forefront of technological innovation. Pursuing a career in this profession allows you to interact with cutting-edge technology and contribute to the development of novel solutions to real-world problems.
- Interdisciplinary: Robotics engineering is interdisciplinary in nature, combining aspects from several disciplines like as mechanical engineering, electrical engineering, computer science, and artificial intelligence. This provides a broad and diverse educational foundation.
- Problem-Solving Ability: Robotics engineers are born problem solvers. They design, build, and program robots to do specified tasks, needing creative solutions to complex problems.
- Versatility: Robotics has a wide range of applications and is not limited to a particular industry. Graduates can find jobs in industries such as manufacturing, healthcare, agriculture, space exploration, autonomous cars, and more, making it a versatile and adaptable area.
- Research Possibilities: The discipline of robotics has numerous research opportunities. You can help advance fields such as autonomous navigation, human-robot interaction, and swarm robotics.
- Global Importance: Robotics has a global impact, with applications that cross borders. Graduates may have the opportunity to work on international initiatives and contribute to global issues.
Highlights
Aspect | Details |
Program Title | B.Tech in Robotics Engineering |
Duration | 4 years |
Entrance Exam | JEE MAINS, JEE ADVANCED, BITSAT, WBJEE, VITEEE, KEAM, SRMJEE |
Core Subjects | Machine Design, Applied Thermodynamics, Fluid Engineering, Power Electronics , Computer-Aided, Manufacturing , Electric Drives, Microcontrollers Hydraulics and Pneumatics, Robotics engineering |
Eligibility | 10+2 (or equivalent) with a science background |
Admission Process | Entrance Exam and/or Merit-Based Admission |
Course Fees | Rs.50,000/- to Rs.4,50,000/- Per Annum |
Average Salary | Rs. 2,00,000/- to Rs.4,50,000/- Per Annum |
Employment | Robotics Engineer, Design Engineer, Software Development Engineer, Project Engineer, Mechanical Engineer, Automation Developer, etc |
Top Institutes | IITs, NITs, and Leading Engineering Colleges |
Syllabus
First Year
Semester I | Semester II |
Engineering Mathematics-I | Engineering Chemistry |
Professional Communication Skills | Material Science |
Basic Electrical and Electronics | Chemistry Laboratory |
Engineering Physics | Environmental Science |
Programming with C | Python for Problem-solving |
Basic Electrical & Electronics Laboratory | Engineering Mechanics |
Engineering Physics Laboratory | Engineering Maths – II |
Engineering Graphics Laboratory | Computer Laboratory – I |
Second Year
Semester III | Semester IV |
Applied Thermodynamics | Fluid Engineering |
Electronics and Instrumentation | Statistics and Numerical Methods |
Electronic Devices and Circuits | Electrical Machines |
Strength of Materials | Machine Design |
Mathematics -III | Automatic Control Systems |
Thermodynamics Lab | Electrical Machines Lab |
Electronics and Instrumentation Lab | Machine Design Lab |
Electronic Devices and Circuits Lab | Fluid Engineering Lab |
Third Year
Semester V | Semester VI |
Principles of Robotics | Elements of Mechatronics |
Microcontrollers | Machine Vision Systems |
Mechanical Engineering Design | Elective-II |
Digital Image Processing and Machine Vision | Power Electronics and Drives |
Robotics Laboratory | Pneumatics and Hydraulics |
Elective -1 | Pneumatics and Hydraulics Systems Laboratory |
Microcontrollers Lab | Power Electronics and Drives Lab |
Fourth Year
Semester VII | Semester VIII |
Artificial Intelligence and Expert System | Flexible Manufacture and System |
Computer-Aided Manufacturing | Professional Elective – IV |
Field and Service Robotics | Viva Voce |
Professional Elective – II | Project |
Professional Elective – III | – |
Computer-Aided Manufacturing Lab | – |
Modeling and Simulation Lab | – |
Subjects
Core Subjects | Lab Subjects | Elective Subjects |
Machine Design | Hydraulics and Pneumatics Lab | Autonomous Vehicles |
Applied Thermodynamics | Electrical Measurement Lab | Robotics Operating System |
Fluid Engineering | Electrical Machines Lab | Mobile Robotics |
Power Electronics | Thermodynamics Laboratory | Medical Robotics |
Computer-Aided Manufacturing | Power Electronics Lab | VLSI Design |
Electric Drives | Engineering Graphics | Virtual Instrumentation |
Microcontrollers | Electives Lab | Neural Networks and Fuzzy Systems |
Hydraulics and Pneumatics | Modeling and Simulation Lab | |
Robotics Engineering |
Average Fees
Courses | Average Fees |
B.Tech in Production Engineering | Rs.50,000/- to Rs.4,50,000/- Per Annum |
Eligibility Criteria
Eligibility Criterion | Description |
Educational Qualification | Must have completed 10+2 or equivalent examination. Should have studied Physics, Chemistry, and Mathematics as core subjects. |
Minimum Percentage | Generally, candidates are required to have a minimum aggregate percentage (e.g., 50-75%) in their 10+2 examinations, depending on the university or counseling body. |
Entrance Exam Score | Qualification in relevant engineering entrance exams such as JEE Main, BITSAT, or state-specific exams is often mandatory. The rank or score in the entrance exam plays a crucial role in the counseling process. |
State Domicile (for State Quotas) | For state government engineering colleges, some seats are reserved for candidates with domicile in that state. |
Age Limit | Many institutes have an age limit for candidates, typically 17-25 years. |
Nationality | Indian citizenship or eligibility as per the institute’s guidelines is generally required. |
Special Category Eligibility | Reserved category candidates (SC, ST, OBC), Persons with Disabilities (PwD), and economically weaker sections (EWS) may have specific eligibility criteria and reservations. |
Non-Objection Certificate (NOC) | For candidates who have studied or are studying in foreign institutions, an NOC from the concerned authorities may be required. |
Entrance Exams
Entrance Exams | Link |
JEE Main Exam | (Click here) |
JEE Advanced Exam | (Click here) |
Aligarh Muslim University Engineering Entrance Examination (AMUEEE) | Click here |
Amity Joint Entrance Examination (AJEE) | Click here |
Assam Common Entrance Examination (ACEE) | Click here |
Birla Institute of Technology and Science Admission Test (BITSAT) | Click here |
Chhattisgarh Pre-Engineering Test | Click here |
Cochin University of Science and Technology Common Admission Test (CUSAT CAT) | Click here |
Goa Common Entrance Test (GCET) | Click here |
Graduate Aptitude Test in Engineering | Click here |
Himachal Pradesh Combined Entrance Test (HPCET) | Click here |
ITSAT ( CFAI Tech School Admission Test) | Click here |
Jammu & Kashmir Common Entrance Test | Click here |
JEE Advanced | Click here |
Kerala Engineering Architecture Medical (KEAM) | Click here |
KIITEE | Click here |
Manipal_Entrance_Test_(MET) | Click here |
MHT CET | Click here |
Joint Entrance Examination (Main) or JEE Main | Click here |
SRM Joint Engineering Entrance Exam | Click here |
Jharkhand Combined Entrance Competitive Examination (JCECE) | Click here |
Vellore Institute of Technology Engineering Entrance Examination (VITEEE) | Click here |
Vignan’s Scholastic Aptitude Test (VSAT) | Click here |
West Bengal Joint Entrance Exam (WBJEE) | Click here |
Career Opportunities for B.Tech in Robotic engineering Graduates
Career Opportunity | Description | Salary Range (INR) |
Robotics Engineer | Design, develop, and maintain robots and automated systems for various industries. | 3,50,000 – 10,00,000 |
Automation Engineer | Implement automated solutions, such as industrial robots, for manufacturing and production processes. | 4,00,000 – 12,00,000 |
Control Systems Engineer | Design control systems for automated machines and processes, including robotics. | 3,50,000 – 9,00,000 |
Embedded Systems Engineer | Create and program embedded systems for robots and devices, ensuring functionality and efficiency. | 3,80,000 – 10,00,000 |
Machine Learning Engineer | Develop algorithms and models to enhance the autonomous capabilities of robots and robotic systems. | 4,00,000 – 11,00,000 |
Research Scientist | Engage in research and development of advanced robotics technologies, often in academic or research institutions. | 4,50,000 – 12,00,000 |
Artificial Intelligence Engineer | Apply AI and machine learning techniques to robotics for improving decision-making and perception. | 4,00,000 – 11,00,000 |
Robotic Process Automation (RPA) Developer | Create and implement automation solutions for business processes using robots and software. | 4,00,000 – 12,00,000 |
Mechatronics Engineer | Combine principles of mechanical engineering, electronics, and robotics to design and build integrated systems. | 3,50,000 – 10,00,000 |
Industrial Automation Specialist | Focus on automating industrial machinery and processes, increasing productivity and efficiency. | 3,50,000 – 9,50,000 |
Drone Operator/Engineer | Operate and maintain unmanned aerial vehicles (drones) for various applications, including aerial surveys and data collection. | 3,50,000 – 9,50,000 |
Robotic Software Developer | Develop software and control systems for robotic applications, ensuring seamless functionality. | 3,80,000 – 10,00,000 |
Career Opportunities at Robotics Engineering
Rank | University/Institution | Location | 1st Year Fees (INR) | Highest Package (INR) |
#1 | IIT Delhi – Indian Institute of Technology [IITD] | New Delhi, Delhi NCR | Rs.55,300/- | 20,00, 000 |
#2 | IIT Guwahati – Indian Institute of Technology – [IITG] | Guwahati, Assam | 63,850 | 24,00,000 |
#3 | Jadavpur University – [JU] | Kolkata, West Bengal | 4,800 | 18,00,000 |
#4 | IIT Mandi- Indian Institute of Technology – [IITM] | Mandi, Himachal Pradesh | 57,250 | 60,00,000 |
#5 | SRM Engineering College | Kanchipuram, Tamil Nadu | 1,70,000 | 41,60,000 |
#6 | Aligarh Muslim University – [AMU] | Aligarh, Uttar Pradesh | 4,30,970 | 6,50,000 |
#7 | Manipal Institute of Technology – [MIT] | Manipal, Karnataka | 4,10,000 | 54,75,000 |
#8 | P.S.G College of Technology – [PSGCT] | Coimbatore, Tamil Nadu | 55,000 | — |
#9 | Sathyabama Institute of Science and Technology | Chennai, Tamil Nadu | 2,40,000 | 53,00,000 |
#10 | IIT Jodhpur – Indian Institute of Technology – [IITJ] | Jodhpur, Rajasthan | 77,800 | 53,00,000 |
Frequency Asked Questions
1. What is Robotics Engineering, and what does it entail?
Robotics engineering is a branch of engineering that focuses on designing, building, and programming robots and autonomous systems. It involves various aspects, from mechanical and electrical design to artificial intelligence and control systems.
2. What are the core subjects in a B.Tech in Robotics Engineering program?
Core subjects often include robotics systems, control theory, artificial intelligence, computer vision, sensors and actuators, and mechatronics.
. What are the career prospects for Robotics Engineering graduates?
Graduates can work in diverse fields such as manufacturing, healthcare, space exploration, autonomous vehicles, and research. They can become robotics engineers, automation specialists, or pursue advanced studies and research.
4. What skills are important for success in Robotics Engineering?
Essential skills include problem-solving, programming, mechanical and electrical design, knowledge of control systems, and a strong understanding of mathematics and physics.
5. How does Robotics Engineering relate to other engineering disciplines?
Robotics Engineering is an interdisciplinary field that draws from mechanical engineering, electrical engineering, computer science, and artificial intelligence. It shares commonalities with mechatronics and automation engineering.
6. Is a B.Tech in Robotics Engineering focused solely on industrial robots?
No, it covers a wide range of robotics applications, from industrial robots to service robots, medical robots, and autonomous vehicles.
7. Are there research opportunities in Robotics Engineering programs?
A. many B.Tech programs offer research opportunities for students to work on innovative projects and contribute to the field’s advancements.
8. What are some emerging trends in Robotics Engineering?
Emerging trends include human-robot collaboration, swarm robotics, bio-inspired robots, and the integration of AI and machine learning in robotics.
9. Can Robotics Engineering graduates work in software development roles?
- Yes, graduates with strong programming skills can work as robotics software developers, focusing on developing control and navigation algorithms.
10. How does Robotics Engineering impact society and industries?
Robotics engineering has a profound impact on various industries, improving efficiency, safety, and productivity. It also plays a crucial role in healthcare, disaster relief, and exploration.