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- B. Tech. Mechanical Engineering
- B. Tech. Computer Engineering
- B.Tech Computer Engineering - Artificial Intelligence
- B.Tech Computer Engineering - Human Computer Interaction
- B.Tech Computer Engineering - Biocomputation
- B.Tech Computer Engineering - Information Systems
- B.Tech Computer Engineering - Computer Engineering
- B.Tech Computer Engineering - Internet of Things (IOT)
- B. Tech. Biomedical Engineering
- B. Tech. Mechatronics Engineering
- B. Tech. Biotechnology
- M. Tech. Computer Engineering
- M. Tech. Bioengineering
- M. Tech. Automotive Product Engineering
- M. Tech. Digital Manufacturing
M. Tech. Bioengineering
With specialisation in Biomedical Engineering Biotechnology
Duration : 2 Years
Eligibility : BE or B. Tech. in relevant discipline
Biological Engineering is an interdisciplinary discipline focusing on the application of engineering principles to analyze biological systems and to solve problems related to living beings-- plant, animal or microbial-- using human-designed machines and systems, structures, processes and instrumentation. The discipline of bioengineering, though a recent development in the science and technology, is a rapidly maturing area of knowledge influencing human life never before. The program takes an integrated approach to advance the knowledge of its graduates towards developing an understanding of fundamental issues applying the interface of engineering, mathematics, biology, chemistry, and computer technology.
The knowledge of Bioengineering has vast and unending applications as it has a potential to deliver solutions to problems involving almost all living beings. In modern times, bioengineering principles have been successfully used to engineer novel species of plants and animals to cope up with the energy need and demands of increasing population of the world. This is the very discipline which helped improve agricultural and livestock production in India and all over the world saving the world from the food scarcity.
In addition to its applications in the field of agriculture, bioengineering is widely used to improve human health in all developed nations of the world. The early detection of diseases, detection of pathogens in human bodies using advanced tools and devices, carrying out complicated and risky transplants and surgeries, computer-based blood analysis, laser systems used during corrective eye surgeries, detecting the development of fetus and genetic abnormalities, artificially developed limbs like hips, knees and joints and other prosthetic parts, ultrasound, MRI and other medical imaging techniques, pacemakers, dialysis machines and other diagnostic equipments have been a reality only due to the knowledge of bioengineering. This has also heavily helped the medical professional community to effectively diagnose and treat ailments and carry out definitive analysis before treating their patients successfully.
The future of bioengineering is dynamic and challenging. In the upcoming century, it will witness an explosion of its applications in many different fields. With increasing awareness of quality of life, an intense use of this discipline is predicted. Genetic research and manipulations can open plethora of possibilities to improve human wellness especially for people affected by diseases, deformities and mishaps. Bioengineering promises many wonderful applications in future which include carrying out complicated prosthetic surgeries, growing customized organs in laboratory for humans and animals, bringing wonder treatments for many dreaded conditions like cancer, paralysis, arthritis, diabetes, Alzheimer disease, heart-failure, kidney failure, liver-failure and many more.
- The Program
ADYPU School of Engineering offers you a unique program in M. Tech. Computer Engineering designed to make you an engineer of globally recognized standards. The program offers time-tested, standards-based curriculum, based on international framework.
The students learn advanced computer system technologies with the application of mathematical skills coupled with algorithmic principles. In addition, they also get an opportunity to understand and work computer science theory. Programming, Analysis, Design and Modeling are emphasized throughout the curriculum. This is the key differentiator of ADYPU Computer Engineering program. Design is consistently integrated with all other components at each step, which makes the program stand out. The project work imbibes in the student professional aspects of engineering including teamwork, proficiency in oral and written communications.
The school environment is open, relaxed and interactive so as to enable exchange of new ideas and gain a wealth of knowledge. The school is a perfect place for connections, knowledge and tools that you would need to transform yourself into an engineer of a global caliber and successfully embark on a solid career path.
M. Tech. students acquire high-end technical skills required for immediate entry into industry. M. Tech. Computer engineers are in great demand in multiple sectors. They can get jobs like Project managers, Software developers and architects, System Administrators, Software Testing Engineers. Computer engineers are employed in almost all different sectors in industry in addition to IT companies. Sectors like Technical Education, Agricultural Technology, Manufacturing, Automobile Engineering, Aerospace, Energy, Aviation, Banking and Finance, Hospitals, and Pharmaceutical Manufacturing have a great demand for computer engineers and programmers.