Graduate Student Outcomes

Electrical and Computer Engineering Masters of Engineering (M.Eng.)

  • Students will have a basic understanding of the advanced electrical and computer engineering topics related with biomedical engineering, human-computer interaction, wireless communication, integrated circuit design, cybersecurity, control system and robotics, sensor design, wearable electronics, image processing, Internet-of-Things, computer architecture, and medical instrumentation.
  • Students will be trained to solve practical problems and produce a technical report.
  • Students will be well prepared for a professional career in industry.

Electrical and Computer Engineering Masters of Science (M.S.)

  • Students will master the theoretical concepts or/and practical implementation in advanced aspects of biomedical engineering, human-computer interaction, wireless communication, integrated circuit design, cybersecurity, control system and robotics, sensor design, wearable electronics, image processing, Internet-of-Things, computer architecture, and medical instrumentation.
  • Students will be proficient in collecting and analyzing data using contemporary laboratory equipment.
  • Students will develop and demonstrate proficiency in the use of library searches, along with interpreting and presenting technical information found in those searches.
  • Students will have the professional skills such as working collaboratively, scholarly writing, and technical publications.
  • Students will be well trained to pursue a career both in industry and academia.

Electrical and Computer Engineering: Biomedical Engineering Masters of Science (M.S.)

  • Students will master the theoretical concepts or/and practical implementation in advanced aspects of biomedical engineering, human-computer interaction, wireless communication, integrated circuit design, cybersecurity, control system and robotics, sensor design, wearable electronics, image processing, Internet-of-Things, computer architecture, and medical instrumentation.
  • Students will be proficient in collecting and analyzing data using contemporary laboratory equipment.
  • As a result of our two-semester ECE900 courses, students will develop and demonstrate proficiency in the use of library searches along with interpreting and presenting technical information found in those searches.
  • Students will have the professional skills such as working collaboratively, scholarly writing, and technical publications.
  • Students will be well trained to pursue a career both in industry and academia.

Electrical and Computer Engineering Doctor of Philosophy (Ph.D.)

  • Students will master the theoretical concepts or/and practical implementation in advanced aspects of biomedical engineering, human-computer interaction, wireless communication, integrated circuit design, cybersecurity, control system and robotics, sensor design, wearable electronics, image processing, Internet-of-Things, computer architecture, and medical instrumentation.
  • Students will have an advanced understanding of the mathematical methods, both analytical and computational, required to solve complex problems in the general field of electrical and computer engineering.
  • Students will be proficient in collecting and analyzing data using contemporary laboratory equipment.
  • Students will develop and demonstrate proficiency in the use of library searches, along with interpreting and presenting technical information found in those searches.
  • Students will have a specialized knowledge of their chosen field of advanced research relating to electrical and computer engineering.
  • Students will be able to present advanced scientific ideas effectively in both written and oral form.
  • Students will be well prepared for postgraduate study in electrical and computer engineering and related disciplines, as well as advanced careers in a multitude of fields ranging from scientific and technical to financial.