On successful completion of the course, student should be able to:
- Apply knowledge of mathematics, science and engineering to design a system to meet the requirements specified through a high level project description that has multidisciplinary-interdisciplinary elements related to contemporary issues;
- Apply knowledge of mathematics, science and engineering to analyze a component or system by identifying, formulating and solving engineering problems;
- Design a complete solution to a real life engineering problem;
- Function effectively within multidisciplinary teams, through successful oral and written communication with the team members and supervisors;
- Apply/improve project and time management skills;
- Understand the ethics and legal issues of research and product design and development;
- Perform critical analysis of requirements with customer oriented thinking;
- Conduct literature review;
- Perform synthesis of a detailed system specification from a provided high level problem definition;
- Practice a modular parallelized approach to complete a system design with integration of theory from a wide range of engineering courses and development of different types of engineering modules;
- Conduct tests for verification-evaluation of system modules and full system design using various approaches including analytical models, high level emulators, and simulations in Computer Aided Design (CAD) environment; and carry out documentation of all engineering design activities.