CE Vision , Mission and Objectives

Department Vision

To become a national leader in providing high quality education in the area of computer engineering and computer network.

Department Mission

To excel in embracing knowledge and continuing education; to be recognized as a program that offers one of the best programs in computer engineering and computer network; to provide an environment in which students are given the essential resources to address and solve real-world problems; and to promote active learning, critical thinking, and engineering judgment. In addition, offering internship, co-op and continuing education programs that produce graduates for the highest paid jobs.

COE Program Goals:

  • G1 01: Demonstrate success in the professional practice of computer and network engineering by interacting with members of professional teams in industry, government, and other organizations.
  • G2 02: Keep students’ professional knowledge updated through continuously learning new concepts and identifying the new directions in areas of computer engineering and network engineering.
  • G3 03: Have good manners in their professional environment and develop skills to enhance the state of their practice in a dynamic professional environment.

Graduate Attributes

  1. Understands the role of engineers and their responsibility to society by demonstrating an understanding of the social, cultural and environmental responsibilities and the need for lifelong learning and professional development.
  2. Understands and applies project and business management, recognizing and using the appropriate project and business management principles and tools for complex engineering problems.
  3. Functions effectively in a team by working co-operatively with the capacity to become a leader or manager.
  4. Communicates effectively, comprehending and writing effective reports and design documentation, summarizing information, making effective oral presentations and giving and receiving clear oral instructions.
  5. Understands and applies the mathematical and engineering sciences to one or more of the broad, general engineering disciplines.
  6. Can synthesize and demonstrate the efficacy of solutions to part or all complex engineering problems.
  7. Formulates and solves models that predict the behavior of part or all complex engineering systems, using first principles of the fundamental engineering sciences and mathematics.
  8. Recognizes when further information is needed and can find it by identifying, evaluating and drawing conclusions from all pertinent sources of information, and by designing and carrying out experiments.
  9. Understands the accepted methods of dealing with uncertainty and the limitations of the applicability of methods of design and analysis and identifies, evaluates and manages the physical risks in complex engineering problems.
  10. Demonstrates competence in the practical art of engineering in their area of specialization by showing in design an understanding of the practical methods for the construction and maintenance of engineering products and using modern calculation and design tools competently for complex engineering problems.