Mechanical Engineering is at the heart of designing and manufacturing components which are indispensable in all spheres of human life. It is impossible to conceive anything tangible without a touch of Mechanical Engineering in it. Furthermore, the methods of designing and manufacturing have been revolutionized by advances in computer science and technology. Thus it is natural to think of a course curriculum where the key concepts of computer science are integrated with those of mechanical engineering. This is precisely the forte of the newly proposed field of undergraduate study.
Mechanical Engineering as it stands today has evolved continuously to become one of the most diverse and versatile of the engineering disciplines and also one of the oldest and broadest. In addition to physics and mathematics, it encompasses key elements of aerospace, electrical, civil, chemical and even materials science and bio-engineering. Mechanical engineering touches virtually every aspect of modern life, from mobile phones and biomedical devices, to aircraft and power plants. In today’s world, there also has been a heavy synergy between Mechanical Engineering and Computer Science. This has been made possible not only because of the vast strides made in Computer Science and Engineering, thanks to the advent of high-performance digital computing platforms, but also because of the propensity of original equipment manufacturers’(OEM) to rely on computer controlled manufacturing and controls for better functioning and thorough reliability of their equipment. It is because of this necessity that Mechanical Engineering is becoming more and more closely allied with Computer Science and it is expected that this trend will continue for many years to come. Thus it will not be an exaggeration to say that the modus operandi in engineering industries specializing in the manufacture of mechanical components has undergone a sea change ever since the reliance on computer-controlled technology became more and more intense. Some of the broad areas where the links between these two branches of Engineering have become indissoluble are Robotics and Automation, Computer Controlled Manufacturing (NC, CNC, DNC), artificial intelligence and nanotechnology. Moreover, in the theoretical domain, more and more accurate numerical simulations in many broad areas of Mechanical Engineering, namely, Solid Mechanics, Fluid Mechanics, Heat Transfer, Combustion have opened new vistas for fundamental research in many frontier areas because of the easy availability of high-speed computers at affordable prices. This has also considerably changed the research scenario in many branches of Mechanical Engineering by giving rise to new areas and domains where research can now be undertaken with relative ease and which were unheard of a few years ago. Besides, as is the case with other branches of engineering, huge amounts of data are generated in the course of intense numerical simulations of any physical problem and the researcher needs to interpret them meaningfully in order to be able to make strong and decisive conclusions out of them. This is yet another area where the power of Computer science can be harnessed effectively towards making the above-mentioned conclusions with a high fidelity. Thus good use of the established data mining techniques and algorithms can be made to achieve such goals. It is precisely against the backdrop of these new developments in Mechanical Engineering which are aided by Computer Science that it is not incongruous to think of a Bachelor’s course in Mechanical Engineering which couples along with it the key areas of Computer Science. As mentioned above, such a course would mainly revolve on the conventional courses offered in a four-year undergraduate program in Mechanical Engineering along with additional courses in Artificial Intelligence, Robotics, Neural Networks, Internet of Things, Data Mining as applied to Mechanical Engineering. This will perhaps go a long way in broadening the horizons of a budding and modern mechanical engineer and thus will help him to stand in good stead at a time when rapid advances in digital technology and computer science are making paradigm shifts in the way classical branches of engineering are being looked at. This will also help him to be relevant both academically and professionally in an ever-changing technical world.
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