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Outcomes Matrix

 

Course Course Title

EE
Program
Criteria

Engineering Criteria
1 2 3 A B C D E F G H I J K
Required Courses
EEL 3000 Intro to Electrical & Computer Engr                 x x x x x  
EEE 3008 Physics of EE       x                    
EEL 3111C Circuits 1 x x   x x     x           x
EEL 3112 Circuits 2     x                     x
EEL 3135 Discrete-Time Signals & Systems   x   x       x           x
EEL 3701C Digital Logic & Computer Sys   x x   x x   x   x       x
EEL 3744C Microprocessor Applications   x   x   x   x   x       x
EEL 3923C Electrical Engineering Design 1   x       x   x x x     x x
EEL 4924C Electrical Engineering Design 2   x     x x x x x x x x x  
 
Elective Courses
EEL 3211C Basic Electric Energy Engineering   x   x                   x
EEE 3308C Electronic Circuits 1 x x   x x x   x   x   x   x
EEE 3396C Solid-State Electronic Devices x x   x   x   x           x
EEL 3402 Remote Sensing in Engr       x   x   x   x   x   x
EEL 3472C Electromagnetic Fields & Apps 1   x   x                   x
EEL 3834 Programming for EE   x   x       x           x
EEL 4242C Power Electronic Circuits   x   x x     x           x
EEE 4306 Electronic Circuits 2   x   x x x   x           x
EEE 4310 Digital Integrated Circuits   x   x   x   x       x   x
EEE 4329 Future of Microelectronic Tech   x   x   x   x       x   x
EEE 4331 Solid-State Tech   x   x       x           x
EEL 4351 Electronic Device Fundamentals   x   x       x           x
EEE 4373 Radio-Frequency Electronics   x   x       x           x
EEL 4412 Applied Magnetism & Magnetic Mtls   x x x                    
EEE 4420 Intro Quant Mech for Nanodevices   x           x       x   x
EEL 4440 Optic Communication Systems   x   x       x           x
EEL 4445 Optics for Engineers   x   x       x           x
EEL 4446 Laser Theory and Design   x x x   x   x       x    
EEL 4458 Fundamentals of Photonics   x x x x x   x       x    
EEL 4461 Antenna Systems   x   x       x           x
EEL 4473 Electromagnetic Fields & Apps 2   x x x       x           x
EEL 4495 Lightning   x   x       x           x
EEL 4511C Real Time DSP Applications   x   x x x x x x x x x x x
EEL 4514C Communication Systems & Comp x x x x x x   x     x x x x
EEL 4516 Noise in Dev & Communica Sys x x x x x x   x     x x x x
EEL 4598 Computer Networks   x   x       x           x
EEL 4599 Ad Hoc Wireless Networks   x   x       x           x
EEL 4610 State Variables and Controls   x x x   x   x           x
EEL 4657C Linear Controls & Systems   x x x   x   x           x
EEL 4665C Intelligent Machine Design Lab   x   x x x   x       x x x
EEL 4712C Digital Design   x   x   x   x           x
EEL 4713C Digital Computer Architecture   x   x   x   x           x
EEL 4720 Reconfigurable Computing   x   x   x   x           x
EEL 4736 Principles of Computer System Design       x x     x            
EEL 4750C Intro to Digital Signal Processing   x   x       x           x
EEL 4912 Integrated Prod & Process Des 1   x   x x x x x x x x x x x
EEL 4913 Integrated Prod & Process Des 2   x   x x x x x x x x x x x

An x (black or red) indicates the outcome that is addressed by that course.  Courses with a Bold Red X indicate where direct assessment occurs through course committee review.

EE Program Criteria
1 - knowledge of probability and statistics, including applications
2 - knowledge of mathematics, basic and engineering sciences necessary to analyze and design complex systems
3 - knowledge of advanced mathematics including linear algebra, complex variables and discrete mathematics

Engineering Criteria
a - an ability to apply knowledge of mathematics, science, and engineering
b - an ability to design and conduct experiments, as well as to analyze and interpret data
c - an ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability
d - an ability to function on multi-disciplinary teams
e - an ability to identify, formulate, and solve engineering problems
f - an understanding of professional and ethical responsibility
g - an ability to communicate effectively
h - the broad education necessary to understand the impact of engineering solutions in global, economic, environmental, and societal context
i - a recognition of the need for, and an ability to engage in life-long learning
j - a knowledge of contemporary issues
k - an ability to use the techniques, skills, and modern engineering tools necessary for engineering practice