Mechatronics is a multidisciplinary field that combines mechanical engineering, computer science, control engineering, and electronics that continues to evolve rapidly driven by advancements in technology and the demand for sophisticated and integrated systems.
If you are looking for a unique degree program that can put you for a top career in the engineering, design, automation, robotics, and manufacturing industries then pursuing a degree program in Mechatronics engineering can be the best choice.
In this blog, we will see what Mechatronics engineering brings to the table with a complete understanding of the program, learning outcomes, and how it can advance your career.
What is B.E. Mechatronics Engineering?
Mechatronics engineers work in all aspects of the development of smart machines using artificial intelligence and machine learning approach. This can be in industries such as robotics, medical, assistive technology, advanced manufacturing, human-machine interaction, unmanned aerial and ground vehicles, and education.
Keeping this in mind, the program of B.E. Mechatronics Engineering is designed with an industry aligned curriculum considering robotics, mechatronics, and autonomous system technology providing ample opportunities for practical applications and project work.
The core focus areas of the program are mentioned below:
- Basics of Mechanical Engineering, Electronics Engineering, Engineering Systems, Computer Science, and Control Engineering for Industrial Automation.
- Introduction to Advanced Robotics and Artificial Intelligence along with Machine Vision.
- Study of Computer programming languages.
- Study of Fluid Power Technology – Hydraulics and Pneumatics and its technology developments.
- Study properties and applications of Materials Science and Advanced Manufacturing Technologies.
- Analog/Digital Electronics and Communications.
As a Mechatronics Engineer, students can learn the following:
- Students can learn to develop new solutions to industrial problems through automation and control using mechanical and electronic processes and computer technology.
- The program teaches students how to design and build new products by integrating various technologies. For example, developing robotic vehicles for mobile, aerial and underwater exploration.
- Students can learn through IIoT to cater for Industry 4.0 & 5.0 needs by introducing automation for improving existing processes.
- They can also learn how to apply mechatronics or automated solutions to the transfer of materials, components, and finished goods.
Why Pursue Mechatronics Engineering at Chitkara?
From creating robots to engineering autonomous vehicles, students who pursue B.E. Mechatronics can learn to create smart machines and innovative solutions. The benefits of pursuing a B.E. in Mechatronics at Chitkara are:
Multidisciplinary: When you earn a Mechatronics Engineering degree from Chitkara University, you can combine a wide range of skills in mechanical engineering, robotics, electrical engineering, computer science, and control systems.
The multidisciplinary skills and knowledge gained through this program give you a solid base that can help in solving many engineering problems. This program will also give you a big-picture perspective, adaptability, and flexibility which are all considered key components of achieving success in your career.
Hands-on Learning: The field of Mechatronics is extremely hands-on and so the degree program is designed to offer hands-on learning. Chitkara University ensures that students can put theory into practice in state-of-the-art labs with a detailed understanding of subjects.
Students are trained to work with the same components, technologies, and systems that the present-day professionals are working within the field. This means that you will be able to graduate with the confidence and experience you need with significantly less on-the-job training as compared to your peers.
Applicable Skills: In the Mechatronics degree program, you will not just be able to learn the theory of why things work in your favour but you will also be able to learn how to build the systems yourself.
The mechatronics students can learn how to build, repair, program, and maintain smart machines and controls applying the skills that most employers are looking for. The program also focuses on real-world scenarios in teaching which also enables the students to anticipate problems and create solutions that are immediately applicable.
Once you complete the Mechatronics Engineering, you will be able to explore career opportunities in the below-mentioned roles:
- Automation Engineer
- Robotics Engineer/Technician
- Control Engineer
- Electronics Design Engineer
- Troubleshooting Engineer
- Mechanical Design Engineer
- Instrumentation Engineer
- Data Scientist/Big Data Analyst
The Mechatronics Engineering program at Chitkara University prepares students to become successful Mechatronics Engineering Technologists who work with smart devices including Robots and Automated Systems. They can pursue diverse career paths in industries including advanced manufacturing, automotive, telecommunications, green energy, medical equipment design, and agriculture. Some of the major companies that students can get recruited in are mentioned below.
- Accenture
- Adani
- Autoliv
- Bosch
- Havells
- Hyundai Motors
- IBM
- Infosys
- KPIT
- Larsen & Toubro
- Panasonic
- Reliance
- Siemens
- Tata
- U-Shin
Skills You Can Learn After Completing B.E. Mechatronics Engineering:
The program of B.E. Mechatronics Engineering is an interdisciplinary field that combines principles of mechanical, electrical, electronics and computer engineering for creating intelligent systems. To become successful in the career of Mechatronics, an individual would inculcate the below-mentioned skills:
Technical Skills: Mechatronics engineers are trained in reliable technical skills with a solid foundation in engineering principles.
Analytical and Problem-Solving Skills: Mechatronics engineers are trained to analyze complex systems, identify problems, and develop solutions.
Creativity: B.E. in Mechatronics Engineering requires students to gain a high degree of creativity and innovation needed for developing innovative systems for performing complex tasks.
Communication Skills: The B.E. Mechatronics Engineering students should be able to communicate their ideas and solutions effectively. They are trained to work in collaboration with other engineers, designers, and stakeholders.
Attention to Detail: B.E. Mechatronics Engineering students are trained to pay attention to students to ensure that their designs and systems can become accurate and precise.
Project Management Skills: B.E. Mechatronics students are trained to manage projects effectively including budgeting, scheduling, and resource allocation.
Adaptability: B.E. Mechatronics students are trained to become adaptable and flexible to work in a dynamic and quickly changing field. They are able to learn new technologies and also adapt to new challenges.
Mechatronics is a dynamic and quickly growing field with far-reaching implications across various industries. The combination of Mechanical Engineering, Electronics, and Computer Science enables students to develop intelligent systems and support innovation in everything, from manufacturing and healthcare to transportation and space exploration.
Also, read this blog post: Future Prospects of Mechatronics Engineering
As the field of Mechatronics keeps progressing, it will become increasingly important to address the associated challenges while also harnessing the complete potential of this discipline for the improvement of society. If you want to build a successful career in the field then pursue a program such as B.E. in Mechatronics Engineering at an institution such as Chitkara, today.