EE Program Student Advising

1. EE Program Student Advising Prof. Michael Green These slides can be found at: http://www.eng.uci.edu/faculty/green/public/courses/advising

2. EE Program Outcomes • An ability to apply knowledge of mathematics through probability; differential & integral calculus; differential equations; linear algebra; complex variables; and science and engineering in the context of electrical engineering problems.

3. EE Program Outcomes • An ability to design and conduct scientific and engineering experiments, as well as to analyze and interpret data.

4. EE Program Outcomes • An ability to design systems that meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.

5. EE Program Outcomes • An ability to function in multi-disciplinary teams.

6. EE Program Outcomes • An ability to identify, formulate, and solve current and emerging electrical engineering problems, including the development of preliminary estimates and final plans, specifications, and designs; and the implementation and operation of systems components and processes that meet performance, cost, time, safety, and quality requirements.

7. EE Program Outcomes • An understanding of professional and ethical responsibility.

8. EE Program Outcomes • An ability to effectively communicate technical material both orally and in writing.

9. EE Program Outcomes • The broad education and the knowledge of contemporary issues necessary to understanding of the impact of electrical engineering solutions in a global and societal context.

10. EE Program Outcomes • A recognition of the need for, and an ability to engage in, life-long learning.

11. EE Program Outcomes • A knowledge of contemporary issues.

12. EE Program Outcomes • An ability to use modern engineering techniques, skills, and computer-based tools for analysis and design.

13. BSEE Requirements • Math/Science courses • Engineering topics courses: • ENGR54 or ENGR80, EECS10, EECS31, EECS31L, EECS70A, EECS70B and EECS70LB, EECS140, EECS150A, EECS150B, EECS160A, EECS160LA, EECS170A, EECS170LA, EECS170B, EECS170LB, EECS170C, EECS170LC, EECS170D (or EECS115), EECS180, EECS189A-B • Technical electives…

14. Specializations • Electro-optics & Solid-State Devices • 11 units selected from EECS170D, EECS174, EECS175A-B, EECS187, EECS188, EECS198), EECS199 or EECSH199 • Power Electronics • 12 units selected from EECS160B, EECS161, EECS161L, EECS163, EECS163L, EECS166A, EECS166B, EECS199 or EECSH199 • Systems & Signal Processing • 12 units selected from EECS101, EECS141A, EECS141B, EECS152A, EECS152B, EECS160B, EECS163, EECS163L, EECS198, or EECS199 or EECSH199

15. Electro-Optics & Solid-State Devices Cross-section of optical fiber (Prof. Henry Lee) CMOS distributed amplifier schematic Prof. Michael Green

16. Power Electronics Switching power amplifier Prof. Keyue Smedley

17. Systems & Signal Processing Computer vision Prof. Glenn Healey

18. EE Senior Design (EECS189A/B) • 2-quarter culminating design project during Fall & Winter • Groups of 2 or 3 students work with a faculty mentor • Each group finishes by delivering an oral presentation, poster presentation, and written final report

19. EE Senior Design Sample Projects • General Coverage Superheterodyne Transistor Radio Receiver • Optical wireless Digital Radio • Wireless Sensor Systems • Electrical readout circuitry for nanotube electrochemistry • Design and implementation of a digital temperature controller • Digital Audio Synthesizer • Radio Frequency ID System • Power Converter for Stepping Up from a Low to High DC Voltage • QoS Performance of VoIP in WiFi networks • Remote Locating of Vehicle in Parking Lot