Nov 27, 2024  
OHIO University Undergraduate Catalog 2007-08 
    
OHIO University Undergraduate Catalog 2007-08 [Archived Catalog]

Electrical Engineering Major (B.S.E.E.)


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Major code BS7253 EE Track
Major code BS7254 CpE Track

The electrical engineering program is administered by the School of Electrical Engineering and Computer Science (EECS). The school is the beneficiary of a major endowment from the late Dr. C. Paul Stocker, an electrical engineering alumnus. This endowment provides support for facilities and a level of excellence surpassed by few other electrical engineering and computer science departments in the nation.

The School of Electrical Engineering and Computer Science is located in Stocker Center, a modern facility housing undergraduate, graduate, and research activities. The program offers a Bachelor of Science in Electrical Engineering (B.S.E.E.) degree that is accredited by the Engineering Accreditation Commission of the Accreditation Board of Engineering and Technology, 111 Market Place, Suite 1050, Baltimore MD 21202-4012–telephone: (410) 347.7700.

Electrical engineering addresses the wide application of electrical and electronic phenomena to real-world needs, from consumer goods to space exploration. It encompasses such diverse areas as research, development, design, sales, and operation of electrical and electronic systems. Areas of specialization include such varied fields as circuit design, communications, computers and automata, control systems, electromagnetics, energy sources and systems, power electronics, power system planning, electronics, and instrumentation. Students interested in digital computers may choose from courses in the school on programming, digital circuits, computer design, and software engineering.

Electrical engineering graduates hold challenging positions in such nonelectrical industries as chemical, nuclear, automotive, medical, textile, petroleum, and transportation, as well as in electronics, communications, power, control, and other electrical industries. The jobs performed by electrical engineering graduates include such diverse activities as research, development, design, production and manufacturing, and consulting.

The electrical engineering program has three major objectives for its undergraduate students:

  • Depth and Breadth: Produce graduates that will have the theoretical, practical, and professional knowledge necessary to be productive upon entering the workforce or successful in advanced study;
  • Staying Current: Produce graduates that will maintain and develop the knowledge and the skills needed to identify, formulate, and solve problems throughout their career; and
  • Professionalism: Produce graduates that exhibit an understanding of the necessity for personal integrity, ethical behavior, and cultural awareness. Program Educational objectives are statements that describe the expected accomplishments of graduates during the first few years after graduation.

The program offers two curriculum tracks leading to a B.S.E.E. degree. The electrical engineering (EE) track is intended for students who want to work in one of the many areas of electrical engineering. A computer engineering (CpE) track is available for students who intend to work in the area of computers. Students who are undecided as to which area they want to pursue should follow the electrical engineering track until they decide.

All electrical engineering students must fulfill the University’s general education requirements. Students will select elective courses in conjunction with their advisors. To develop the general knowledge and skills necessary to support the study and practice of engineering, students will take 12 courses in mathematics and the basic sciences. The purpose of the five general engineering courses is to give students an understanding of engineering fundamentals outside of electrical engineering.

The electrical engineering portion of the curriculum consists of seven blocks of courses. The introductory block is intended to promote the students interested in electrical engineering while introducing physical and logical concepts necessary for future studies. The goal of the foundations block is to develop the fundamental knowledge and analytical skills necessary for the study and practice of electrical engineering. The intermediate breadth block prepares the student to study the various areas of electrical engineering and computer engineering at the advanced level. EECS electives allow students to develop specialized knowledge and skills in one of the areas of electrical and computer engineering or explore other topics at the advanced level.

Because the ability to solve problems is critical for engineers, students will develop engineering design skills as they progress through the curriculum. While engineering design is addressed in most EE courses, it is given special emphasis in EE 103, EE 212, and EE 334. In the intermediate design block, students will develop experience in experimental design and analysis. The design experience culminates in the senior year with the EE 495A, B, and C sequence of courses where students complete a design project that simulates work found in professional practice.

EE faculty take their student advising duties very seriously. Each new student is assigned a faculty member as an academic advisor: students meet with their advisor on a quarterly basis to discuss course scheduling. During each quarter, EE faculty set office hours aside to meet with students and assist them with class assignments.

Ohio University is unique in offering internships in avionics engineering. The Ohio University Avionics Engineering Center, a research and engineering organization that is a unit within EECS, is extraordinary in providing undergraduate electrical engineering majors direct field and laboratory experience on real-world avionics projects sponsored by federal agencies and industry. Internship course credit can be granted for laboratory work performed, and a number of part-time jobs are supported for qualified students. Interns work with the professional faculty and staff on projects involving instrument landing systems, navigation processors, test flight evaluation, and low frequency navigation sensor systems.

Students can also participate in the college’s co-op program through which they can obtain practical experience and extra income by working for a corporation or a government organization while pursuing their degree. Participating in the co-op program will typically add extra time to the completion of all degree requirements. Sophomore and Junior courses are scheduled to accommodate all students participating in the co-op program. Due to the capstone design sequence of courses (EE 495 A, B, and C), students will not be able to co-op during their last year.

General Studies


  • Freshman Composition Credit Hours: 5
  • Tier III Credit Hours: 4
  • Junior English Composition Credit Hours: 4

Math and Basic Science


General Engineering


Electrical Engineering


Select either the EE Track or the CpE Track courses:


Electives


Students, in conjunction with their advisor, will create a plan of study for additional elective courses. (Minimum of 18 courses and 72 hours.) The plan must contain a significant number of non-technical courses including some breadth (courses in different areas) and some depth (courses in the same area) (See footnote 8 below). The plan must include:

2  Tier II electives - (See footnote 1 below)
3  Math - (See footnote 2 below)/Basic Science - (See footnote 3 below)electives
2  Engineering electives - (See footnote 4 below)
2  Programming electives - (See footnote 5 below)
3  EECS electives - (See footnote 6 below)
2  Non-Technical Electives (Breadth/Depth) - (See footnote 8 below)
2  Technical Electives - (See footnote 9 below)
2  Free Electives (Tech or Non-Tech) - (See footnote 10 below)
Remedial courses - (See footnote 7 below) may not be included in the plan of study.

Computer Engineering Track students should take CS 240A and 240B for their programming electives, CS 240C and CS 361 for their engineering electives, CS 300 for one of their Math/Basic science electives, EE 224 and a CpE elective for their technical electives, and EE 461A as one of the EECS electives.

  1. Courses must be selected so that students take at least 4 hours in two of the three Tier II categories 2S, 2C, and 2H.
  2. Courses with automatic approval include CS 300, MATH 411, 410, 412, 413A, 441, 444, 446, 460A, 470, and 480A.
  3. Courses with automatic approval include BIOS 170, 171, 172, CHEM 152, 123, 153, 301, GEOL 211, GEOL 231, 270, 283, BIOS 221, PHIL 320, PHYS 253, and PHYS 254.
  4. Courses with automatic approval include CE 222, 340, CS 240C, 361, ME 224, 321, 412, 491, CHE 231.
  5. Course pairs with automatic approval include CS 210 and 240A, and ET 181 and CS 240A.
  6. Courses must be at the 300 or 400 level with at least two at the 400 level.
  7. A remedial course is a course that is at a lower level than a required course. Examples would include MATH <263, PHYS 201, 202, 203, CS 120, 220, 230, ENG 150.
  8. This combined with the two Tier II electives will normally satisfy the minimum breadth and depth (2+2) or (3+1) model. Exceptions to these have to be approved by the advisor.
  9. Courses with automatic approval include any EE 3xx or EE 4xx courses (excluding required courses, EE 313, EE 314, and EE 315), CS 320-361, 404, 410, 442, 444, 456, 462, 480, MATH 410, 412, 444, 446, 460A, 460B, 470, ME 321, 410, 491, 492, CE 340, ISE 330, PHYS 253, 254.
  10. Courses with automatic approval include all Tier II courses, and the approved Technical Electives list found in 9 above. Other approved courses must be > CS210, > PHYS 251, > MATH 263A, and > CHEM 151. Other free electives need the approval of the advisor.
  11. EE 495C is a Tier III equivalent course.
  12. EE 415, 416, 462, 467, 468, CS 425, 442, 444, 456, 458, 475. Other electives need the approval of the advisor.

First-Year Program


The following sequence of classes is suggested for your freshman year. Your advisor will help you plan additional coursework to meet all graduation requirements in a timely manner.

Select one course from the following:


Winter


Select one course from the following:


Notes


EE 101 and EE 102 can be taken concurrently if needed. EE 101, EE 102, and one programming course must be passed prior to EE 103 enrollment.

CpE track students take CS240A as a programming elective in the winter and CS240B in the spring instead of the math/science elective.

Juniors and Seniors


Juniors are encouraged to attend the Senior Electives Fair organized by the Assistant Chair during the spring quarter of the junior year. The purpose of the fair is to assist students with choosing their senior electives.

Seniors are required to arrange a graduation check with the Assistant Chair no later than the end of the fall quarter of their senior year.

Seniors are expected to complete an exit survey during the spring quarter of their senior year.

For more information visit the School’s web site:

http://www.ohio.edu/eecs/

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