Mechanical engineers create the modern society that we enjoy through mechanical research, design, manufacturing, and management and provide solutions to pressing challenges: environmental, energy consumption, transport, and medical technology to name a few.
A Product Development and Design area of emphasis is available which specifically orients toward production and sourcing. For this emphasis students take courses in computer aided design, global sourcing, product development, apparel manufacturing, and choose from several study tours available in China, Ghana, London, or New York City.
Having done four year course in computer science and engineering, I would like to fortify my skills with the help of a master’s degree, which will equip me with the up-to-date tools and knowledge that are the need of the hour.
Research activities are carried out in the department in various fields like theoretical computer science, data mining, distributed computing, networks, software engineering, image processing, and soft computing.
However, technology does not just develop on its own as an intelligent being, but it continues to be molded by those that work in the field of computer science, computer engineering, and computer programming....
''The point of engineering research is to improve our capacity to solve problems. As long as humanity has problems—and we currently have a great deal of them—engineers have the best job security and career outlook. My sub-field, computer engineering, is currently generating a fantastic amount of innovation. The smartphone in everyone’s pockets nowadays is just the tip of the iceberg.''
The curriculum is designed to build competence in multiple computer systems concepts: the human dimension of engineering activities; reality of the global market; analysis of technical problems; management of resources including science, math, and technology; machine-to-machine and machine-to-human interfaces; abstract problems; various operating systems; applied and theoretical technology; computer language and software; a systems approach to problem-solving; team orientation; and the design process. Students develop quantitative skills to measure, estimate, model, and simulate solutions to engineering problems. Problem-solving skills in telecommunication, software engineering, decision support, and real-time systems are also developed. Faculty-student experiences enable both to better serve society.
The Computer Systems Engineering major at the University of Georgia emphasizes the application of engineering concepts, techniques, and methods to the development of systems founded in hardware-software integration. Unlike the traditional focus of computer engineering, computer system engineers will have a greater understanding of computer software development and how to use computers to automate, monitor, and control various systems.
Increasingly, computer science is the driving force for advances and breakthroughs in multiple disciplines. The Computer Science laboratories and faculty at UGA maintain extensive collaborations with the faculty of Engineering, Bioinformatics, Life Sciences, Management and Business, and Artificial Intelligence and Cognitive Science departments on campus.
The B.S. in Computer Science at the University of Georgia provides a strong foundation in computer science theory and practice and is accredited by the Computing Accreditation Commission of the Accreditation Board for Engineering and Technology (ABET). The curriculum covers the design principles of key computing technologies such as hardware, operating systems, database systems, networks, graphics, and artificial intelligence. Mathematical reasoning is emphasized throughout the program. Students learn how to build a computer, make a computer do what is needed, verify these expectations, represent and report information, access data effectively, and solve computation problems systematically as quickly as possible.
Engineers with biological systems expertise are involved in the development, design, and manufacturing of products for the medical, chemical, and biochemical industries, as well as processes and products that prevent pollution formation or remediate polluted environments.
In fact, computer programmers in the USA are not currently licensedby the government, the way that other professionals(e.g., physicians, engineers, attorneys, accountants, etc.)who affect the public health and safety are licensed.