Robotics Engineering

Robotics Engineering is the unit of engineering that deals with the designing, preparation, and manufacturing of robots involved across several disciplines such as Medical Surgeries, GIS, Satellites, Industries, etc. Robotic Engineers are trained in building spare parts as well as writing programmes for automated robots. It focuses on the design and development of autonomous systems, industrial automation, and robots for a variety of applications. 

The Robotics Engineering course combines fundamental electrical, mechanical, and computer science topics with a greater emphasis on generating automation solutions, AI-based applications, autonomous cars, and other technical solutions. It might sound complicated, but people who want to work with robots can learn all of these things and more, like how to design circuits and robot arms. It's like learning a new language, but once you get the hang of it, you can make robots do amazing things! The Robotics Engineering Course Fee is INR 4-10 lakhs.

Robotics Engineering course graduates are eligible for a variety of work opportunities in the domains of mechatronics, embedded systems, automation, mobile robotics, UAV, and so on. The Average Starting Robotics Engineering Salary is INR 5- 10 lakh. The course of Robotics Engineering is designed in such a way that the students can understand the concepts of fundamental engineering that are required for robotics applications. 

Quick Facts About Robotics Engineering

• Did you know that the word "robot" was first used in a play called Rassum's Universal Robots (RUR) in 1920? It was coined by a Czech novelist named Karel Capek and means "worker" or "servant" in Czech.
• A robot is a machine that can be programmed to do many different jobs, like moving things around, using tools, or doing specialized tasks. It's like a multi-talented assistant that can be trained to do lots of different things.
• To make robots work, people need to know a lot about things like how they move, how to control them, and how to use sensors to help them "see" what's going on. They also need to know how to program the robots using different computer languages like Python, C, and C++.

Given below are the Robotics Engineering course details: 

Robotics Engineering is a fascinating course that focuses on the design and development of automated robots for laboratory and industrial purposes. While the use of robots in everyday life is limited, there are vast opportunities for their application in fields such as medicine, surgery, production, and assembly. This field prepares professionals who can conduct research in the area of nanotechnology and build various prototypes.

Earning a degree in Robotics Engineering is now possible through online and virtual learning platforms. An Online Robotics Engineering Degree program provides candidates with the flexibility to learn and earn a degree without being physically present on campus. This is especially helpful for individuals who have work or family obligations that prevent them from attending traditional on-campus classes.

The curriculum of an online robotics engineering degree usually includes a combination of core engineering courses and specialized topics related to robotics. Core courses cover subjects like mathematics, physics, computer programming, and electrical engineering, while specialized courses focus on robotics-specific concepts such as control systems, artificial intelligence, mechatronics, and machine learning.

Online Robotics Engineering candidates have to take part in classes that are in the form of virtual laboratories, simulations, and projects that allow them to apply theoretical knowledge to practical scenarios. Some programs may also incorporate hands-on components, where students work with physical robots either through remote labs or by using robotics kits sent to them from the respective institute.

To be eligible for the course of Robotics Engineering, the candidate should have cleared their 10+2 with a minimum of 50% with physics, chemistry, and mathematics as their subjects.

Universities and colleges have their entrance exams that the aspirants have to clear to be eligible for admission in the course of Robotics Engineering. 

Robotics Engineering Skill Sets

Robotics Engineering graduates have to be well-versed in the fundamental operations of robots. 

For the graduates of Robotics Engineering, there are a lot of job opportunities in the government and private sectors. Skills needed by the students to be well prepared for their jobs in these sectors are: 

• Mechanical Designing 
• Knowledge of Engineering Science and Technology 
• Mathematical Skills
• Complex Problem-Solving Skills 
• Technical Skills 
• Qualitative Thinking 
• Design Skills and Knowledge 
• Knowledge of Computer Operating Systems, Hardware and Software 
• Communication Skills 
• Research Quotient 

Candidates can check the entrance exam schedule for Robotics Engineering from the table below.

Candidates who are looking for specializations that can be chosen while pursuing robotics engineering have been listed in the table below. 

The Robotics Engineering Syllabus consists of elective, core, and lab subjects. It focuses on applied mechanical engineering concepts and electronics for robotic applications. The Robotics Engineering syllabus includes core subjects such as applied thermodynamics, mechanics of solids, machine design, electrical measurement, signal processing, and more. The curriculum is divided into eight semesters that provide core, basic sciences, practical, and industrial-based training.

The admission process for Robotics Engineering has been listed in the pointers below.

1. Educational Qualifications - Candidates must have completed their higher secondary education (10+2) with a strong background in Physics, Chemistry, and Mathematics. Specific requirements may vary among universities.

2. Entrance Examinations - Many engineering institutes and universities in India require candidates to appear for national or state-level entrance exams. Common exams include JEE Main, BITSAT, or other state-level engineering entrance exams.

3. Application Process - Candidates need to fill out application forms for the universities or engineering colleges they are interested in. This often involves providing personal details, educational history, and exam scores.

4. Entrance Exam Scores - The admission process heavily considers scores obtained in the entrance examinations. Each university may have its cutoff scores, and candidates meeting these criteria are shortlisted for further rounds.

5. Counseling - Shortlisted candidates may be called for counseling sessions or interviews. This stage helps assess the candidate's aptitude, interest, and suitability for the robotics engineering program.

6. Merit List - Based on entrance exam scores, academic performance, and interview/counseling results, universities create a merit list. Admissions are offered to candidates following their ranking in the merit list.

7. Seat Allotment - Once admitted, candidates are usually given the option to choose their preferred specialization within the robotics engineering program. The seat allotment is finalized based on merit and the candidate's choice.

8. Document Verification - Shortlisted candidates are required to submit relevant documents for verification, including mark sheets, certificates, and identification proof.

9. Admission Confirmation - After document verification, candidates need to pay the required fees to confirm their admission.

The fees for Robotics Engineering in various private and government institutes have been listed in the table below.

Candidates who are looking for detailed information on the Direct Robotics Engineering Admission Process without appearing for an entrance exam can find it in the steps below. We have mentioned a common procedure. It may vary from institute to institute.

1. Educational Qualifications - Candidates are usually required to have completed their higher secondary education (10+2) with a science background continuing Physics, Chemistry, and Mathematics as the subject combination.
2. Minimum Aggregate Percentage - Some institutions may set a minimum aggregate percentage criterion for direct admission. Candidates who have achieved a certain percentage in their 10+2 exams may be eligible.
3. Application Process - Interested candidates need to fill out the application forms for the specific university or college offering direct admission. This involves providing personal details, educational history, and relevant documents.
4. Merit-Based Selection - Direct admission is often merit-based. A merit list is prepared based on the candidate's academic performance in higher secondary education.
5. Counseling - Some institutions may conduct a PI or counseling session as part of the direct admission process. This is to assess the candidate's aptitude, interest, and eligibility for the robotics engineering program.
6. Document Verification - Shortlisted candidates are required to submit relevant documents for verification, including mark sheets, certificates, and identification proof.
7. Admission Confirmation - After document verification, candidates need to pay the required fees to confirm their admission.

After completing a degree in Robotics Engineering, students receive job offers from the government and private sectors. There is great scope regarding employment for the graduates of this course as in the current industrial area, the demand for robotics and automation is very high. 

Robotics Engineering Industries

Given below are some popular industries that are looking for Robotics Engineering course graduates: 

• Shipping Industries 
• Automobile Industries 
• Power Plant 
• Embedded Systems
• Robotics 
• Defense 
• Electronic Devices Industries 
• Software Industries 

Robotics Engineering Government  Jobs

 Government jobs for Robotics Engineers in India are listed below -

• Indian Navy 
• Indian Armed Forces 
• Oil and Natural Gas Corporation
• Defense  Research and Development Organization 
• Indian Space Research Organization 
• Hindustan Aeronautics Limited 
• Gas Authority of India Limited 

Robotics Engineering Job Profiles

Given below are some job profiles for Robotics Engineering graduates: 

• Robotics Engineer 
• Hardware Architect 
• ROS Developer 
• Automation Engineer 
• Electrical Engineer 
• Project Engineer 
• Rig Testing and Operations Engineer 
• Research Manager 
• Motion Planning Specialist 
• Senior Robotics Engineer

Graduates in robotics engineering who wish to further their studies have several possibilities. Other nations have a lot more scope for robots than India, although the criteria are comparable. Graduates can pursue specialized training in ROS, mobile robots, embedded systems, and other areas. They can also pursue full-time or part-time master's degrees in technical or business subjects. Some courses to consider are:

• MBA 
• M.Tech Robotics Engineering 
• M.Sc Robotics 
• ME Robotics 
• ME Mechatronics 
• Certificate in Robotics and Industrial Automation 
• Ph.D. Robotics Engineering 

The Robotics Engineering projects are aimed at motivating students to improve their application skills in the process of research and development. To help the students grasp the nuances of workflow and problem identification, they are provided with excellent practical industrial training in the course of Robotics Engineering. 

Some of the popular Robotics Engineering projects are given below: 

• Unmanned Ground Vehicle 
• Automatic Bottle Closing System 
• SLAM-Based Pick and Place Robot 
• Prosthetic Arm 
• Unmanned Air Vehicle 
• Home Automation