Robotics and mechatronics is a place where mechanical and electrical engineering comes together concerning computer control systems to make devices smarter and more efficient.
If you are looking to be the next robotics and mechatronics engineer after passing out from KCE, the Best B.E Mechanical Engineering Colleges in Coimbatore, you could create planetary exploration rovers or robots for precision manufacturing or assist the elderly. The sky is the limit and you could do anything to make things and tasks easier such as taking a household product and turning it into a truly clever device or design the programs that control those devices.
Let’s talk about some history, first coined in the late 1960s, “mechatronics” slowly turned into be a part of our everyday life. It allows you to use smart home devices such as Alexa or outs the control in cruise control or allow you to watch a live video.
The most basic definition says mechatronics is integrating mechanized systems with electronic, control, and computer systems. Since its origin, mechatronics has been linked tightly with robotics. Having multiple systems operating in conjunction and seamlessly communicating has enabled robots to go from a robotic arm used in diecasting to an artificial intelligence-based humanoid robot.
The first witnessed full-scale humanoid robot was WABOT-1 that came to a public appearance in 1971. It was capable of walking, grasping objects and even talking in the Japanese language. The WABOT-2 came in 1980 to put on a more “human-like intelligence and dexterity” by the ability to play a keyboard.
Robotics and mechatronics engineers are in high demand as per the markets’ needs since this horizon is expanding with new professionals stepping in every day. Once you complete your study from KCE, Top Engineering College, you might be needed for the advanced manufacturing and aerospace industries as well as by the manufacturers of robots and in data analysis.
Your future career options
After completing your study and courses, you will be ready with the desired knowledge and skills to design, develop, manufacture and operate the intelligent products and complex systems of today and tomorrow.
Opportunities exist in:
- robotics and automation
- aerospace systems and flight control
- artificial intelligence
- intelligent systems for motor vehicles
- manufacturing systems and processes
- medical systems
- software engineering
- mining systems and processes
Apart from this, opportunities are available in consulting, management and finance. You may also pursue a career in research and development, in academia, research institutions or advanced industry sectors.
Graduates after completing studies from reputed colleges such as KCE, Best Engineering College in Coimbatore have gone on to successful careers in top companies including Tesla, Mitsubishi Electric, Google, Deloitte, NASA, Apple, Rocket Lab, Department of Defence, Medtronic, Rio Tinto, Creature Technology Co., PwC and Dyson.
Key points you will cover in the degree
Talks about neural networks and deep learning, advanced engineering design, computer vision systems, and intelligent robotics
It allows you to develop an understanding of manufacturing operations, power systems, and changing technologies
The concepts of heat, work, energy, temperature and pressure and other related concepts that can be used in refrigeration, renewable energy, heating and electricity generation
A physical understanding of fluid statics and fluid flow and the interaction of fluid forces with solids, including hydrostatics, boundary layers, measurement techniques and applications
The design of advanced analogue building blocks, such as differential amplifier circuits, current mirrors, reference voltage circuits, regulators and operational amplifiers
Learn all about kinematics, dynamics and strength of materials, including velocity and motion, mechanical vibrations, stress and shear force and bending moments
Introduction to computers and CPU organization, assemblers and compilers, and algorithm design for engineering problems
Modern logic design techniques and hardware used, including decoders, programmable and steering logic, flip-flops, counters, simple analogue and digital I/O interfacing.