Career in Robotics Engineering: Why One Must Learn Robotics and Automation Practical Skills for Applications in Industries?

Abstract:

Robots are becoming more and more important for making sure that production is accurate and runs smoothly. They are used in everything from automatic assembly lines to complex cutting operations. This trend not only makes goods better, but it also speeds up production, setting new standards in the manufacturing industry.

The Industrial Revolution 4.0 is disrupting the world around us. With robotics, artificial intelligence (AI), the Internet of Things (IoT), and automation technologies taking over, the global manufacturing industry is experiencing reduced human dependency.

 Keywords

Robotics, Robotics Engineering, Robot, Automation

Learning Outcomes

After undergoing this article you will be able to understand the following 

1. What is Robotics Engineering?

2. Why Robotics Engineering is gaining importance?

3. How to Become a Robotics Engineer?

4. What Skills are necessary for a Robotics Engineer?

5. What's essential subjects taught in Robotics Engineering?

6. What Does a Robotics Engineer do in industry every day?

7. What kind of Career opportunities are emerging for Robotics Engineers?

8. Conclusions

9. FAQs

References

1. What is Robotics Engineering?

Robotics engineering is a field of engineering which centers on building machines that replicate human actions. A robotics engineer creates these applications or autonomous machines (aka robots) for industries such as mining, manufacturing, automotive, services and more.

2. Why Robotics Engineering is gaining importance?

Robotics engineers, like all other engineering professions, will need to be strong in math and science. Most people believe that engineers are born with natural abilities in math and science, but this is rarely the case. Most engineers, at least those who complete their degrees, aren’t the people who are naturally good at math; they’re the ones who stuck it out and put in the effort. “Aspiring candidates can find a wide variety of job opportunities in this field.”

After completing a degree/diploma or vocational course in this field, you can work in manufacturing, maintenance, nuclear power plant research, and a variety of other fields. Because of technological advancements, robotics technology is now used in space exploration, power plant maintenance, the automobile industry, and petroleum exploration locations, among other things.

3. How to Become a Robotics Engineer?

To become a robotics engineer, you'll need a bachelor's degree. If you intend to work in a robotics software role, you'll need a background in computer science. If you want to design robotic components, you'll focus your studies on mechanical or electrical engineering.

Undergraduate: Most common path: 

BTech in Robotics Engineering (after 12th with Physics, Chemistry, and Math with good marks) 

Alternative paths: 

BTech in related fields like Mechatronics, Mechanical Engineering, or Computer Science (with a focus on robotics)

4. What Skills are necessary for a Robotics Engineer?

The most essential technical skills that robotics engineers must have:

Micro-robotics

AI and Machine Learning (ML) 

Automation

Signal processing

Computer-aided manufacturing

Computer integrated manufacturing systems

Robot manipulators

Computational geometry

5. What's essential subjects taught in Robotics Engineering?

Robotics Engineering Course focuses on the design, development, and application of robotic systems. This educational curriculum encompasses a broad range of topics, including Mechanical and Electronic Engineering, Computer Science, Artificial Intelligence, Control Systems, and Automation.

The important subjects of Robotics Engineering are the following 

Control theory

Robotics

Artificial intelligence

Programming

Robot manipulators

Motion

Automation

Computer-aided design

Robotics Engineering

Biocybernetics

Engineering mathematics

Management

Design

Fluid Engineering

Intelligence

Kinematics

Microcontrollers

Sensors

Signal processing

Electrical engineering materials

Electric drives

Basic concepts of robot technology

Digital Electronics and microprocessors

Machine design

6. What Does a Robotics Engineer do in industry every day?

Robotics Engineers design and build robots and robotic systems. They develop robots and systems that increase the efficiency, output and safety of a variety of tasks, often in a manufacturing or production setting.

Tasks and duties

Designing, building and testing robotics prototypes including mechanical parts, electronic circuitry and software programming.

Reviewing mechanical processes and identifying opportunities for automation.

Configuring, testing and troubleshooting robotics programming systems.

Planning and building robotics systems in line with cost, safety and efficiency targets.

Developing proposals and reports to present to clients and stakeholders.

7. What kind of Career opportunities are emerging for Robotics Engineers?

Robot engineers who work for robot manufacturers may also be referred to as robotics test engineers or automation system engineers.

Popular Job Titles in Robotics Field

Robotics Programmers

Robotics Technicians

Robot Design Engineer

Robotics Test Engineers

Senior Robotics Specialist

Automated Product Design Engineer

Agricultural Instrumentation Engineer

Robotics System Engineer

Robotics Testers

Maintenance Engineers

Future Aspects

A robotics course prepares students for careers in artificial intelligence, computer-aided manufacturing, computer-integrated manufacturing systems, computational geometry, robot motion planning, digital electronics, and microprocessing. Many modern manufacturing industries rely heavily on robotics. As industries grow, so does the potential for robotics. Robots are primarily used to transport materials, including heavy parts, to and from inconvenient locations, as well as to handle hazardous materials such as nuclear waste.

Engineers with a passion for robots have a bright future. Robots will become a part of our daily lives around 2040. Robots will be used in the same way that we use smartphones and laptop computers today. As robots become an increasingly important part of everyday life, research into them will become increasingly popular.

8. Conclusions

To Become a Robotics Engineer follow these steps 

Step 1: Academic Qualification

Getting a Bachelor’s degree in Robotics is the first and the most crucial step when the question of how to become a robotics engineer arises. However, you also pursue a Bachelor’s or Master’s degree in Computer Science or IT.

Step 2: Acquire Necessary Skills

The next step is acquiring the necessary technical and interpersonal skills for robotics engineers. These skills have been discussed in detail below.

Step 3: Gain Practical Experience

Along with technical skills, you also need practical experience to get a job as a robotics engineer. You can gain practical experien

ce by working on research projects and volunteering with robotics societies or tech organizations.

Step 4: Apply for Jobs

9. FAQs

References 

Once you gain the requisite skills and experience, you can apply for robotics engineering jobs on LinkedIn, Indeed, Glassdoor, and other reliable job sites. You can also send cold emails to technology startups.

9. FAQs

References