ELECTRICAL ENGINEERING
& COMPUTER SCIENCE
Degree programs in:
 Computer Engineering
 Computer Science
 Electrical Engineering
 Systems & Control Engineering
Case Western Reserve University
Department Overview
• 29 faculty
• 48 major funded research projects
totaling $9,548,089
• www.eecs.cwru.edu for more
information
• Research-oriented department
Case Western Reserve University
DEGREE PROGRAMS
• Four undergraduate and graduate programs

3 ABET accredited engineering programs




Electrical Engineering
Systems & Control Engineering
Computer Engineering
CSAB accredited Computer Science program
• 400 Undergraduate students
• 175 graduate students
• Graduate 125 B.S., 45 M.S. and 15 Ph.D. degrees per
year
Case Western Reserve University
UG Timeline
• Common freshman year

Declare major in department in March of freshman year
• Sophomore year

“generic” sophomore year - programs differ by only three courses
• Junior year

Begin co-op program at end of sophomore year
• Senior year



Research - BS/MS program
Senior Project
TIME
Case Western Reserve University
Generic Sophomore Year
•
Students who have not decided upon a major can take the following courses in their
sophomore year and declare their majors at the end of the sophomore year. This
“generic” sophomore year will allow them to declare CE, CS or EE and still graduate
in 4 years without overloads, summer school, etc. Although this is not the
recommended (best) sophomore year for any one major, it provides the student with
more flexibility in delaying their choice of major until they have a better idea of what
they want to do. In addition, the courses that they take in the sophomore year will
give them technical exposure to each of the different majors.
FALL SEMESTER
SOPHOMORE YEAR
HM/SS Sequence I
PHYS 122 Physics II: Electricity & Magnetism
MATH 223 Calculus III
ENGR 210 Circuits and Instrumentation
EECS 281 Comp. Organization Logic Design
SPRING SEMESTER
3-0-3
4-0-4
3-0-3
3-2-4
3-2-4
16-4-18
SOPHOMORE YEAR
HM/SS Sequence II
MATH 224 Differential Equations
Elective of your choice
EECS 245 Electronics
EECS 233 Intro Data Structures
3-0-3
3-0-3
3-0-3
3-2-4
3-2-4
15-4-17
Case Western Reserve University
Special Programs
• Undergraduate specific programs




CO-OP (~30% of our students CO-OP)
Global CO-OP
Junior Year Abroad
Undesignated B.S.
• Integrated undergraduate/graduate programs


BS/MS program (60 students)
Masters in Engineering & Management
• MS CO-OP Program
Case Western Reserve University
EECS Organization
• Computer Science
• Electrical & Computer Engineering
Case’s EECS programs encompass a wide spectrum ranging
from biologically inspired robotics and bioinformatics to
quantum computing and nanometer scale devices culminating in
highly complex microsystems which constitute the forefront of
the field today and for the foreseeable future.
Case Western Reserve University
EECS Research Thrusts
• Computer Science



Bioinformatics
Pervasive networks and distributed systems
Data mining and visualization
• Electrical & Computer Engineering





Micro/nano systems
Microelectronics
Embedded systems
Robotics & intelligent systems
Systems biology
Case Western Reserve University
Nationally Recognized Research
Analysis of an Evolved Neural
Circuit for Object Discrimination
Automating “Peg-in-Maze” Robotic Assemblies
Class of assemblies, including clutch packs, gear meshing, etc.
•Uncertainty exceeds assembly clearance, sense of touch required
•Solution: Strategies (a switching between behaviors based upon
continuous states, detected “events”, progress of assembly itself)
Genomics Pathways Databases
Prototype MEMS RF Low-Noise Oscillator
MEMS Oscillator Demo
Board
Low Noise Output Spectrum
at Celluar Telephony Band
Case Western Reserve University
Where do our Graduates go?
• Top employers

Microsoft, Intel, General Electric
• Others

Rockwell, Keithley Instruments, IBM,
Agilent, Hewlett-Packard, Accenture,
Deloitte & Touche, Guidant, Medtronic,
Motorola, Price WaterHouse, EMC
Case Western Reserve University
Typical Starting Salary Data
Disciplines
Bachelor's Degree
• Computer Engineering
• Computer Science
• Electrical Engineering
• Systems & Control Engr
Average
High
Low
Avg
#
$54,600
$100,000
$70,000
$53,000
$69,400
$40,000
$28,800
$36,665
$46,000
$37,866
$48,772
$53,480
$49,013
$49,200
$50,116
17
11
25
11
Master's Degree
• Computer Engineering
• Computer Science
• Electrical Engineering
• Systems & Control Engr
Average
$64,000
$75,000
$63,000
*
$67,333
$50,000
$42,000
$50,000
*
$47,333
$56,580
$56,825
$56,100
*
$56,502
19
20
10
1
Source: Career Planning & Placement, 2000 Class
Case Western Reserve University
Typical Starting Salary Data
Disciplines
Bachelor's Degree
• Computer Engineering
• Computer Science
• Electrical Engineering
• Systems & Control Engr
High
Low
Avg
#
$58,000
$67,000
$115,000
$60,420
$36,156
$45,000
$50,700
$48,000
$51,776
$56,892
$64,750
$55,140
6
12
10
3
Source: Career Planning & Placement, 2001 Class
Case Western Reserve University
Employment Opportunities
Projected Job Growth (Including Replacement) 2000-2010
Source: Department of Labor, Bureau of Labor Statistics
Electrical Engineering
& Computer Science
Macromolecular
Engineering
Chemical Engineering
Mechanical &
Aerospace Engineering
Materials Science &
Engineering
Civ il Engineering
Biomedical Engineering
0
200
400
600
800
1000
1200
Jobs in thousands
Case Western Reserve University
Student testimonials
Case Western Reserve University
Student testimonials
Case Western Reserve University
Student testimonials
Case Western Reserve University
QuickTime™ and a
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are needed to see this picture.
Case Western Reserve University
FOR MORE INFORMATION
 Prof.
George Ernst,Computer Science,
gwe@case.edu
 Prof. Frank Merat, Associate Chair for
Electrical & Computer Engineering,
flm@case.edu
 Web page: eecs.cwru.edu
Case Western Reserve University
Detailed Degree Program Information
Case Western Reserve University
Overview of our degrees
BS Computer Science
BS Computer Engineering
COURSES
credit hours
Math & Science (include. Statistics)
33
Humanities and Social Sciences
24
Computer Science (incl. 304 discrete math)
43
Electives (4 open + 5 technical)
27
Total for degree
127
BA Computer Science
COURSES
Math & Science
Humanities and Social Sciences
Computing (incl. 304 & 2 tech electives)
Electives
Total for degree
COURSES
credit hours
Math & Science (include. Statistics)
36
Humanities and Social Sciences
24
Engineering core courses
11
Computer Engr (304 + 2 technical electives)
31
Electives (4 open + 5 technical)
27
Total for degree
129
BS Electrical Engineering
credit hours
14
27
37
42
120
COURSES
Math & Science (include. Statistics)
Humanities and Social Sciences
Engineering core courses
Electrical Engr courses
Electives (3 open & 6 technical)
Total for degree
credit hours
33
24
11
33
27
128
BS Systems & Control Engineering
COURSES
Math & Science (include. Statistics)
Humanities and Social Sciences
Engineering core courses
Systemsl Engr courses
Electives (2 open & 6 technical)
Total for degree
credit hours
33
24
11
35
24
127
Case Western Reserve University
BS CS PROGRAM
FALL SEMESTER
FRESHMAN YEAR
Open elective or HM/SS electivea
CHEM 111 Chemistry I
MATH 121 Calculus I
ENGR 131 Elementary Computer Programming
ENGL 150 Expository Writing
PHED 101 Physical Education
SOPHOMORE YEAR
HM/SS Sequence I
PHYS 122 Physics II: Electricity & Magnetism
MATH 223 Calculus III
Technical Electiveb
EECS 281 Comp. Organization Logic Design
JUNIOR YEAR
HM/SS Sequence III
EECS 340 Algorithms and Data Structures
EECS 337 Systems Programming
Statistics Electivec
Technical Elective
SENIOR YEAR
ENGL 398N Professional Communication
EECS 398 Software Engineering
Technical Electivec
Open Elective
Open Electived
3-0-3
4-0-4
4-0-4
3-0-3
3-0-3
0-3-0
16-5-17
3-0-3
4-0-4
3-0-3
3-0-3
3-2-4
16-2-17
3-0-3
3-0-3
3-2-4
3-0-3
3-0-3
15-2-16
3-0-3
3-0-3
3-0-3
3-0-3
3-0-3
15-0-15
SPRING SEMESTER
FRESHMAN YEAR
HM/SS elective or open electivea
ENGR 145 Chemistry of Materials
PHYS 121 Physics I: Mechanics
MATH 122 Calculus II
PHED 102 Physical Education
SOPHOMORE YEAR
HM/SS Sequence II
MATH 224 Differential Equations
Technical Elective
MATH 304 Discrete Mathematics
EECS 233 Intro Data Structures
JUNIOR YEAR
HM/SS Elective
EECS 345 Programming Language Concepts
EECS 343 Theoretical Computer Science
EECS 314 Computer Architecture
EECS 338 Intro to Operating Systems
SENIOR YEAR
HM/SS Elective
EECS 341 Intro. to Database Systems
EECS 391 Intro. to Artificial Intelligence
Technical Elective
Open Elective
3-0-3
4-0-4
4-0-4
4-0-4
0-3-0
15-3-15
3-0-3
3-0-3
3-0-3
3-0-3
3-2-4
15-2-16
3-0-3
3-0-3
3-0-3
3-0-3
3-2-4
15-2-16
3-0-3
3-0-3
3-0-3
3-0-3
3-0-3
15-0-15
Case Western Reserve University
CS Details
•
GRADUATION REQUIREMENT: 127 hours total
•
FOOTNOTES
a
b
c
One of these must be a humanities/social science course.
ENGR 210 is recommended because it provides flexibility in choice of major and advanced EECS courses.
Chosen from MATH 380 Introduction to Probability, STAT 312 Basic Statistics for Engineering and Science, STAT 313 Statistics for
Experimenters, STAT 332 Statistics for Signal Processing, STAT 333 Uncertainty in Engineering and Science.
Course other than mathematics or computer science.
Students must select from an approved list of technical electives, at least two of which must come from a list approved by the EECS
faculty.
d
e
Case Western Reserve University
CS Details
Technical Electives for the BS in Computer Science
At least two technical electives for the BS in Computer Science program must come from
the following list of courses:
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
EECS 251 Numerical Methods
EECS 301 Digital Logic Laboratory
EECS 315 Digital Systems Design
EECS 317 Computer Design Laboratory
EECS 318 VLSI/CAD
EECS 375 Autonomous Robotics
EECS 396M Special Topics: Computer Science
EECS 399M Computer Engineering Design Project
EECS 405 Data Structures and File Management
EECS 419 Computer System Architecture
EECS 423 Distributed Systems
EECS 425 Computer Communications Networks
EECS 428 Web Computing
EECS 430 Object Oriented Software Development
EECS 431 Software Engineering
EECS 433 Database Systems
EECS 435 Data Mining
EECS 436 Advances in Databases
EECS 440 Automata and Formal Languages
EECS 445 Formal Verification
EECS 458 BioInformatics
EECS 466 Computer Graphics
EECS 475 Autonomous Robotics
EECS 477 Dynamics of Adaptive Behavior
EECS 478 Computational Neuroscience
EECS 479 Seminar on Computational Neuroscience
EECS 484 Computational Intelligence I: Basic Principles
EECS 485 VLSI Systems
EECS 488 Embedded Systems Design
EECS 491 Intelligent Systems I
The remaining three technical electives for the BS in Computer Science program may come from
the following list of courses (or from the above list). But, a student also has the option of using
these three electives to form a concentration is some technical area outside CS, e. g.,
mechanical engineering or physics. Although there is some flexibility in the selection of courses
in a concentration area, normally they are courses required for majors in the area. If a student
begins a particular concentration and then decides not to complete it, the remainder of the
technical electives for their concentration must come from the following list of courses (or from
the above list):
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
EECS 245 Electronic Circuits
EECS 246 Signals and Systems
EECS 285 Engineering in Community Service
EECS 304 Control Engineering I with Laboratory
EECS 306 Control Engineering II with Laboratory
EECS 309 Electromagnetic Fields I
EECS 313 Signal Processing
EECS 324 Simulation Techniques in Engineering
EECS 342 Introduction to Global Issues
EECS 346 Engineering Optimization
EECS 350 Industrial and Production Systems Engineering
EECS 351 Communications and Signal Analysis
EECS 352 Engineering Economics and Decision Making
EECS 354 Digital Communications
EECS 360 Manufacturing Operations and Automated Systems
EECS 381 Hybrid Systems
EECS 382 Microprocessor-Based Design
EECS 409 Discrete Event Systems
EECS 489 Robotics I
EMAE 250 Computers in Mechanical Engineering
ENGR 210 Circuits & Instrumentation
MATH 201 Introduction to Linear Algebra
MATH 303 Elementary Number Theory
MATH 307 Introduction to Abstract Algebra I
MATH 308 Introduction to Abstract Algebra II
MATH 330 Scientific Computing: Fundamentals and Applications
MATH 406 Mathematical Logic and Model Theory
MATH 410 Automata and Formal Languages
MATH 408 Introduction to Cryptology
MATH 413 Graph Theory
MATH 431 Introduction to Numerical Analysis
MATH 470 Matrix Theory
PHIL 201 Introduction to Logic
PHIL 306 Mathematical Logic
PHYS 221 Introduction to Modern Physics
PHYS 250 Mathematics, Physics and Computing
STAT 345 Theoretical Statistics I
STAT 346 Theoretical Statistics II
STAT 413 Reliability and Calibration
STAT 414 Industrial Statistics
STAT 427 Statistical Computing
Case Western Reserve University
BS CE PROGRAM
FALL SEMESTER
FRESHMAN YEAR
Open elective or HM/SS electivea
CHEM 111 Chemistry I
MATH 121 Calculus I
ENGR 131 Elementary Computer Programming
ENGL 150 Expository Writing
PHED 101 Physical Education
SOPHOMORE YEAR
HM/SS Sequence I
PHYS 122 Physics II: Electricity & Magnetism
MATH 223 Calculus III
ENGR 200 Statics & Strength of Materials
EECS 233 Introduction to Data Structures
JUNIOR YEAR
HM/SS Sequence III
MATH 304 Discrete Mathematics
EECS 337 Systems Programming
ENGR 225 Thermodynamics, Fluids, Transport
Technical Electivec
SENIOR YEAR
HM/SS Elective
(EECS 318 VLSI/CADd
Or Technical Electived
Technical Electivec
Statistics Electivee
Open Elective
3-0-3
4-0-4
4-0-4
3-0-3
3-0-3
0-3-0
17-3-17
3-0-3
4-0-4
3-0-3
3-0-3
3-2-4
16-2-17
3-0-3
3-0-3
3-2-4
4-0-4
3-0-3
16-2-17
3-0-3
3-2-4
3-0-3)
3-0-3
3-0-3
3-0-3
15-2-16 or 15-2-15
SPRING SEMESTER
FRESHMAN YEAR
HM/SS elective or open electivea
ENGR 145 Chemistry of Materials
PHYS 121 Physics I: Mechanics
MATH 122 Calculus II
PHED 102 Physical Education
SOPHOMORE YEAR
HM/SS Sequence II
MATH 224 Differential Equations
ENGR 210 Circuits and Instrumentation
Approved Technical Elective
EECS 281 Comp. Organization Logic Design
JUNIOR YEAR
ENGL 398N Prof. Communications
EECS 301 Digital Laboratory
EECS 314 Computer Architecture
EECS 315 Digital Systems Design
(EECS 338 Intro to Operating Systems
Or Technical Electived
SENIOR YEAR
HM/SS Elective
EECS 399M Comp.Eng. Design Project
Technical Electivec
Open Elective
Open Elective
3-0-3
4-0-4
4-0-4
4-0-4
0-3-0
15-3-15
3-0-3
3-0-3
3-2-4
3-0-3
3-2-4
15-4-17
3-0-3
0-4-2
3-0-3
3-2-4
3-2-4
3-0-3)
12-8-16 or 12-6-15
3-0-3
0-6-3
3-0-3
3-0-3
3-0-3
12-6-15
Case Western Reserve University
CE Details
•
GRADUATION REQUIREMENT: 129 hours total
•
a
b
FOOTNOTES
One of these must be a humanities/social science course.
Technical electives are more generally defined as any course related to the principles and practice of computer engineering. This
includes all EECS and MATH courses at the 200 level and above and can include courses from other programs. All technical electives
which are not EECS or Math courses must be approved by the student's advisor.
The student must take either EECS 318 VLSI/CAD or EECS 338 Intro. to Operating Systems, AND a three credit hour technical elective.
Chosen from MATH 380 Introduction to Probability, STAT 312 Basic Statistics for Engineering and Science, STAT 313 Statistics for
Experimenters, STAT 332 Statistics for Signal Processing, STAT 333 Uncertainty in Engineering and Science.
c
d
Case Western Reserve University
BS EE PROGRAM
FALL SEMESTER
FRESHMAN YEAR
HM/SS Elective
CHEM 111 Chemistry I
MATH 121 Calculus I
ENGR 131 Elementary Computer Programming
ENGL 150 Expository Writing
PHED 101 Physical Education
SOPHOMORE YEAR
PHYS 122 Physics II: Electricity & Magnetism
MATH 223 Calculus III
ENGR 210 Circuits and Instrumentation
EECS 281 Computer Organization, Logic Design
JUNIOR YEAR
HM/SS Sequence II
ENGR 200 Statics &Strength of Materials
EECS 246 Signals & Systems
STAT 332 Statistics of Signal Processingc
Approved Tech. Electived
SENIOR YEAR
EECS 398L Senior Project Lab If,g
ENGL 398N Professional Communications
Open Elective
Approved Tech. Electived
Approved Tech. Electived
3-0-3
4-0-4
4-0-4
3-0-3
3-0-3
0-3-0
17-3-17
4-0-4
3-0-3
3-2-4
3-2-4
13-4-15
3-0-3
3-0-3
3-2-4
3-0-3
3-0-3
15-2-16
0-8-4
3-0-3
3-0-3
3-0-3
3-0-3
12-8-16
SPRING SEMESTER
FRESHMAN YEAR
Open electivea
ENGR 145 Chemistry of Materials
PHYS 121 Physics I: Mechanicsb
MATH 122 Calculus II
PHED 102 Physical Education
SOPHOMORE YEAR
HM/SS Sequence I
ENGR 225 Thermo, Fluids, Transport
MATH 224 Differential Equations
EECS 245 Electronic Circuits
EECS 309 Electromagnetic Fields I
JUNIOR YEAR
HM/SS Sequence III
EECS 321 Semiconductor Electronic Devices
Applied Statistics Req.e
Approved Technical Electived
Approved Technical Electived
SENIOR YEAR
HM/SS Elective
EECS 399L Senior Project Lab II
Open Elective
Approved Technical Electived
3-0-3
4-0-4
4-0-4
4-0-4
0-3-0
15-5-15
3-0-3
4-0-4
3-0-3
3-2-4
3-0-3
16-2-17
3-0-3
3-2-4
3-0-3
3-0-3
3-0-3
15-2-16
3-0-3
0-8-4
3-0-3
3-0-3
12-8-16
Case Western Reserve University
EE Details
•
GRADUATION REQUIREMENT: 128 hours total
•
a
b
c
d
FOOTNOTES
Although not required students may elect to take ENGR 101 Freshman Engineering Field Service Project as their open elective in the freshman year.
Selected students may be invited to take PHYS 123, 124 in place of PHYS 121 and PHYS 122.
Students may replace this class with STAT 333 Uncertainty in Engineering and Science if approved by their advisor.
Technical electives will be chosen to fulfill the depth requirement and otherwise increase the student's understanding of electrical engineering. Courses
used to satisfy the depth requirement must come from the department's list of depth areas and related courses. Technical electives not used to satisfy
the depth requirement are more generally defined as any course related to the principles and practice of electrical engineering. This includes all EECS
courses at the 200 level and above and can include courses from other programs. All non-EECS technical electives must be approved by the student's
advisor.
This course must utilize statistics in electrical engineering applications and is typically EECS 351 Communications & Signal Analysis, EECS 354 Digital
Communications or EECS 355 RF Communications. Other courses possible with approval of advisor.
CO-OP students may obtain design credit for one semester of Senior Project Lab if their CO-OP assignment included significant design responsibility;
however, the student is still responsible for such course obligations as reports, presentations and ethics assignments. Design credit and fulfillment of
remaining course responsibilities are arranged through the senior project instructor.
BS/MS students may also utilize EECS 651 M.S. Thesis to fulfill eight credits of senior project provided their thesis has adequate design content to meet
the requirements of EECS 398L/399L. BS/MS students should see their thesis advisor for details.
e
f
g
Case Western Reserve University
EE Details
Depth Requirement:
Area III: C ompu te r Software
Area VI: Circu its
Each student m ust show a depth of competence in one
technical area by taking at least three courses from one of
the following seven areas. Note that this depth
requirement may be met using a combination of the
above core courses and a selection of open and technical
electives. In consultation with a faculty advisor, the
student completes the program by selecting technical and
open elective courses that provide in-depth training in
one or more of a variety of specialtiessuch as digital and
microprocessor-based control, com munications and
electronics, solid state electronics and integrated circuit
design and fabrication. With the approval of their
advisors students may em phasize other specialties by
selecting elective courses from other programs or
departm ents.
EECS 233 Data Structures
EECS 337 Systems Programm ing
EECS 338 Operating Systems
EECS 245 Electronic Circuits
EBME 310 Biomedical Instrumentation
EECS 344 Electronic Circuit Design
EECS 382 Microprocessor Based Design
EBME 418 Biomedical Electronics
EECS 426 MOS Integrated Circuit Design
Area I: Electromagnetics
Area IV: Soli d State
Area VII: C om puter Hardware
EECS 309 Electromagnetic Fields I
EECS 310 Electromechanical Energy Conversion
EECS 311 Electromagnetic Fields II
EECS 321 Sem iconductor Electronic Devices
EMSE 314 Electrical, Optical and Magnetic Properties of
Matter
EECS 322 Integrated Circuits and Electronic Devices
EECS 281 Computer Organization
EECS 382 Microprocessor Based Design
EECS 301 Computer Design Lab
EECS 314 Computer Architecture
EECS 315 Digital Systems Design
Area II: S ignals & S ystems
Area V: C on trol
Statistics Requ iremen t:
EECS 246 Signals and Systems
EECS 313 Signal Processing
EECS 347 Network S ynthesis
EECS 351 Comm unications and Signal Analysis
EECS 354 Digital Comm unications
EECS 396 Hybrid Systems
EECS 304 Control Engineering I
EECS 310 Electromechanical Energy Conversion
EECS 383 Microprocessor Applications to Control
EECS 346 Engineering Optimization
EECS 396 Hybrid Systems
• STAT 332 Statistics of Signal Processing (STAT 333
may be substituted for STAT 332 with approval of
advisor)
• Applied Statistics Elective (Class which uses statistics
in some aspect of electrical engineering. Student m ay
choose from EECS 351, EECS 354 or other class
approved by advisor.)
Design Requ irement:
• EECS 398L Senior Project I
• EECS 399L Senior Project II
Case Western Reserve University
BS SY PROGRAM
FALL SEMESTER
FRESHMAN YEAR
HM/SS elective
CHEM 111 Chemistry I
MATH 121 Calculus I
ENGR 131 Elementary Computer Programming
ENGL 150 Expository Writing
PHED 101 Physical Education
3-0-3
4-0-4
4-0-4
2-2-3
3-0-3
0-3-0
16-5-17
SPRING SEMESTER
FRESHMAN YEAR
HM/SS elective or open electivea
ENGR 145 Chemistry of Materials
PHYS 121 Physics I: Mechanics
MATH 122 Calculus II
PHED 102 Physical Education
SOPHOMORE YEAR
PHYS 122 Physics II: Electricity & Magnetism
4-0-4
MATH 223 Calculus III
3-0-3
ENGR 210 Circuits and Instrumentation
3-2-4
EECS 281 Logic Design and Computer Organization 3-2-4
13-4-15
SOPHOMORE YEAR
HM/SS Sequence II
MATH 224 Differential Equations
ENGR 225 Fluid & Thermodynamics
STAT xxx Statistical methods Course
ENGR 200 Statics & Strength of Materials
JUNIOR YEAR
HM/SS Sequence II
EECS 246 Signals and Systems
EECS 342 Intro. To Global Systems
EECS 324 Simulation Methods
Approved Technical Elective
3-0-3
3-2-4
3-0-3
3-0-3
3-0-3
15-2-16
JUNIOR YEAR
HM/SS Elective
EECS 304 Control Engineering I
EECS 305 Control Engineering Lab I
EECS 346 Engineering Optimization
Approved Technical Electivea
Open Elective
3-0-3
0-8-4
3-0-3
3-0-3
3-0-3
12-8-16
SENIOR YEAR
HM/SS Elective
EECS 399N Senior Project Lab II
Approved Technical Electivea
Approved technical Electivea
Approved technical Electivea
SENIOR YEAR
HM/SS Elective
EECS398N Senior Project Lab Id
ENGL 398N Professional Communications
EECS 352 Engr Econ & Decision Analysis
Approved Technical Electivea
3-0-3
4-0-4
4-0-4
4-0-4
0-3-0
15-3-15
3-0-3
3-0-3
4-0-4
3-0-3
3-0-3
16-0-16
3-0-3
3-0-3
0-2-1
3-0-3
3-0-3
3-0-3
15-2-16
3-0-3
0-8-4
3-0-3
3-0-3
3-0-3
12-8-16
Case Western Reserve University
SY Details
NOTE: * indicates mandatory course
(undergraduate courses only)
Area 1 ĞDynamic Systems & Cont rol
* MATH 201 Linear Algebra
* EECS 306 Cont rol Engr II/EECS 411
EECS 310 EM Energy Conversion
EECS 382 Microprocessor Based Design
EECS 396L Hybrid Systems/EECS 409
EECS 408 Intro to Linear Systems
EECS 418 System Id. & Adap. Control
EECS 421 Opt imizat ion of Dynamic Sys
EECS 483 Data Acquisition and Cont rol
EECS 489 Robotics I
Area 2 ĞComplex Systems Analysis
* MATH 201 Linear Algebra
EECS 396L Hybrid Systems/EECS 409
EECS 408 Intro to Linear Systems
EECS 414 Complex Systems
EECS 416 Engineering Opt imizat ion
EECS 429 Risk and Decision Analysis
ECON 367 Economics of Energy
ECON 368 Environmental Economics
EECS 452 Random Signals
EECS 482 Comput ational Intelligence I
EECS 491 Intelligent Systems I
Area 3 ĞSignal Proc. & Communicat ions
* MATH 201 Linear Algebra
EECS 313 Signal Processing
EECS 351 Comm. and Signal Analysis
EECS 354 Digital Communicat ions
EECS 355 RF Wireless Communicat ions
EECS 401 Digital Signal Processing
EECS 452 Random Signals
EECS 435 Comp. P roc. of Images
Area 4 – Manufacturing, Industrial
Automat ion, and Operational Systems
* EECS 350/450 Prod. and Operat ional
Systems
* EECS 360/460 Manuf. And Integrat ed
Systems
EECS 416 Engineering Opt imizat ion
EECS 429 Risk and Decision Analysis
EECS 489 Robotics
OPMT 351 Logist ical Systems
or OPMT 353 - Qual. Cont. and Mgmt.
OPRE 426 Stoch. Proc. in Operat ions
Research
OPRE 424 Scheduling
Area 5 – Information Systems
* EECS 233 Int ro. Data Structures or
or MIDS 327 - Database Mgmt.
EECS 329 Design of Object-Oriented
Systems
or MIDS 329 - Design of O.O. Sys.
* EECS 337 Systems Programming
EECS 340 Algorithms and Data Structures
EECS 341 Intro. to Database Sy stems
MAT H 304Discrete Mathemat ics
MAT H 307Intro. to Abst ract Algebra I
EECS 425 Comp. Comm. Net.
Case Western Reserve University
SY Details
•
GRADUATION REQUIREMENT: 127 hours total
FOOTNOTES
a.
Although not required, students may elect to take ENGR 101, Freshman Engineering Service Project as their open elective during the freshman
year.
b.
Selected students may be invited to take PHYS 124 and 125 in place of PHYS 121 and 122.
c.
Choose from STAT 312, STAT 332, STAT 333.
d.
CO-OP students may obtain credit for the first semester of Senior Project Lab if their CO-OP assignment includes significant design
responsibility. This credit can be obtained by submitting a suitable written report and making an oral presentation on the CO-OP work, in
coordination with the Senior Project instructor.
e.
Signal Processing or Communication Systems technical elective. To be taken in any semester after EECS 246. Choose from EECS 313, EECS
351, or EECS 354.
f.
Three of the six technical electives must be taken from one of the technical elective areas listed previously. The remaining three should be
chosen from any of the remaining technical elective areas.
g.
Students declare technical electives in the Fall of their Junior year. Each technical elective area has a faculty advisor to guide the student. This
faculty advisor also acts as co-op advisor for the student.
Case Western Reserve University
Questions or Comments??
Case Western Reserve University