The Catholic University of America

SCHOOL OF ENGINEERING

Officers of Instruction

Faculty


Charles C. Nguyen, D.Sc.
Dean and Professor of Electrical Engineering and Computer Science
Farid Ahmed, Ph.D.
Associate Professor of Electrical Engineering and Computer Science
Frank A. Andrews, Ph.D.
Professor Emeritus of Mechanical Engineering
Mohammad Arozullah, Ph.D.
Professor of Electrical Engineering and Computer Science
H. Bulent Atabek, Ph.D.
Professor Emeritus of Mechanical Engineering
J. Steven Brown, Ph.D., P.E.
Associate Professor of Mechanical Engineering
Mario J. Casarella, Ph.D.
Professor Emeritus of Mechanical Engineering
Lin-Ching Chang, Ph.D.
Assistant Professor of Electrical Engineering and Computer Science
Paul K. Chang, Dr.Ing., D.Sc.
Professor Emeritus of Mechanical Engineering
Andrew G. Favret, D.Engr.
Professor Emeritus of Electrical Engineering and Computer Science
Arturo Fernandez, Ph.D.
Assistant Professor of Mechanical Engineering
Joseph M. Hidler, Ph.D.
Associate Professor of Biomedical Engineering
Edward D. Jordan, Ph.D., P.E.
Professor Emeritus of Mechanical Engineering
John A. Judge, Ph.D.
Assistant Professor of Mechanical Engineering
Timothy W. Kao, Ph.D., P.E.
Professor Emeritus of Civil Engineering
William J. Kelnhofer, D.Engr.
Professor Emeritus of Mechanical Engineering
Ozlem Kilic, D.Sc.
Assistant Professor of Electrical Engineering and Computer Science
Poul V. Lade, Ph.D.
Professor of Civil Engineering
Sung Ching Ling, Ph.D.
Professor Emeritus of Biomedical Engineering
Gunnar Lucko, Ph.D.
Assistant Professor of Civil Engineering
Peter Lum, Ph.D.
Associate Professor of Biomedical Engineering
Scott Mathews, Ph.D.
Assistant Professor of Electrical Engineering and Computer Science
George Mavroeidis, Ph.D.
Assistant Professor of Civil Engineering
John J. McCoy, Sc.D.
Professor Emeritus of Civil Engineering
George E. McDuffie, Ph.D., P.E.
Professor Emeritus of Electrical Engineering and Computer Science
Robert Meister, Ph.D.
Professor Emeritus of Electrical Engineering and Computer Science
Mark S. Mirotznik, Ph.D.
Associate Professor of Electrical Engineering and Computer Science
Nader M. Namazi, Ph.D.
Professor of Electrical Engineering and Computer Science
Sen Nieh, Ph.D.
Professor of Mechanical Engineering
Hsien Ping Pao, Ph.D.
Professor of Civil Engineering
Jessica Ramella-Roman, Ph.D.
Assistant Professor of Biomedical Engineering
Phillip A. Regalia, Ph.D.
Professor of Electrical Engineering and Computer Science
Michael C. Soteriades. D.Sc., P.E.
Professor Emeritus of Civil Engineering
Lu Sun, Ph.D.
Associate Professor of Civil Engineering
Binh Q. Tran, Ph.D.
Associate Professor of Biomedical Engineering
Panogiotis Tsopelas, Ph.D.
Associate Professor of Civil Engineering
Joseph Vignola, Ph.D.
Assistant Professor of Mechanical Engineering
Baohong Yuan, Ph.D.
Assistant Professor of Biomedical Engineering
Zhaoyang Wang, Ph.D.
Assistant Professor of Mechanical Engineering
Yun Chow Whang, Ph.D.
Professor Emeritus of Mechanical Engineering
Otto C. Wilson, Ph.D.
Assistant Professor of Biomedical Engineering
Baohang Yuan, Ph.D.
Assistant Professor of Biomedical Engineering

Associates of the Faculty

Abdella Battou, Ph.D.
Adjunct Assistant Professor of Electrical Engineering and Computer Science
John Bonita, Ph.D., P.E.
Lecturer in Civil Engineering
David Brennan, M.S.B.E.
Lecturer in Biomedical Engineering
Charles E. Campbell Jr., Ph.D.
Lecturer in Electrical Engineering and Computer Science
Isaac Chang, Ph.D.
Adjunct Assistant Professor of Biomedical Engineering
Jim Christ, Ph.D.
Lecturer in Electrical Engineering and Computer Science
Jeffrey R. Didion, M.S.M.E.
Lecturer in Mechanical Engineering
Joseph Findaro, J.D.
Lecturer in Civil Engineering
Saryn Goldberg, Ph.D.
Adjunct Assistant Professor in Biomedical Engineering
Jeffrey A. Gorman, Ph.D.
Lecturer in Mechanical Engineering
James W. Hudson, B.S.
Lecturer in Civil Engineering
Philip Clark Jones, J.D.
Lecturer in Civil Engineering
Gideon Kantor, Ph.D.
Adjunct Associate Professor of Biomedical Engineering
Susan Lane, M.S.C.E.
Lecturer in Civil Engineering
William LaPlante, Ph.D.
Lecturer in Mechanical Engineering
S. Samuel Lin, Ph.D.
Lecturer in Civil Engineering
Francis Linehan, M.E.E.
Lecturer in Electrical Engineering and Computer Science
Charles C. Liu, Ph.D., P.E.
Adjunct Associate Professor of Civil Engineering
George Mattingly, Ph.D.
Adjunct Professor of Mechanical Engineering
John McTyre, M.S.
Lecturer in Civil Engineering
William Murpay, M.S.C.E.
Lecturer in Civil Engineering
Tuan Nguyen, Ph.D.
Lecturer in Mechanical Engineering
Uyen Nguyen, Ph.D.
Lecturer in Biomedical Engineering
Ken O'Connell, Ph.D., P.E.
Lecturer in Civil Engineering
Neil Palumbo, Ph.D.
Lecturer in Electrical Engineering and Computer Science
Mario Parcan, M.S.E., M.Arch.
Lecturer in Civil Engineering
Mark Pettinato, M.S.
Lecturer in Biomedical Engineering
Long Phan, Ph.D.
Lecturer in Civil Engineering
Dwayne Piepenburg, Ph.D., P.E.
Lecturer in Civil Engineering
Fred Ricci, Ph.D.
Lecturer in Biomedical Engineering
Michael Rosen, Ph.D.
Adjunct Associate Professor of Biomedical Engineering
Lawrence Schuette, Ph.D.
Lecturer in Electrical Engineering and Computer Science
Wilfred Shields, Ph.D.
Lecturer in Mechanical Engineering
Steven Stanhope, Ph.D.
Adjunct Associate Professor of Biomedical Engineering
Sivakumar Tadikonda, Ph.D.
Adjunct Assistant Professor of Mechanical Engineering
David Yashar, Ph.D.
Lecturer in Mechanical Engineering

Biomedical Engineering Advisory Council

Edward B. Healton, M.D., M.P.H.
Medical Director, National Rehabilitation Hospital, Washington, D.C.
Gideon Kantor, Ph.D., P.E.
Independent Consultant, Garrett Park, Md.
Corinna Lathan, Ph.D.
President, Anthrotronix Inc., Silver Spring, Md.
Michael J. Rosen, Ph.D.
Research Associate Professor, University of Vermont, Burlington, Vt.
Artin Shoukas, Ph.D.
Professor, Johns Hopkins University, Baltimore, Md.
Steve Stanhope, Ph.D.
Director and Chief, Biomechanics Laboratory, Clinical Center, National Institutes of Health, Bethesda, Md.
Aydin Tozeren, Ph.D.
Professor, Drexel University, Philadelphia, Pa.

Civil Engineering Advisory Council

John Eicher, Ph.D.
Independent Consultant (Transportation), Rehoboth Beach, Del.
Joseph T. Findaro Jr., J.D.
Of Council, Katz, Kutter, Haigler, Alderman, Bryant, and Yon, Washington, D.C.
Albert Grant, B.C.E.
Consulting Engineer, Potomac, Md.
Melissa L. Prelewicz, M.S.C.E.
Manager, Professional and Technical Activities, American Society of Civil Engineers, Reston, Va.
William J. Murphy, P.E.
Principal, Schnabel Engineering North, Leesburg, Va.
Dennis McCahill, Ph.D.
Construction Consultant, Annapolis, Md.
Eddie Neal, Ph.D.
President and CEO, Scientex Corporation, Arlington, Va.
Robert S. O'Neil, M.C.E.
President Emeritus, Parsons, Inc. Transportation Group, Washington, D.C.
Richard Van Sickle, M.S.C.E.
President and CEO, Van Sickle, Allen & Associates, Inc., Minneapolis, Minn.
Tony Warner, M.S.C.E.
President, Warner Construction Consultants, Inc., Rockville, Md.
Gregory Welter, M.S.C.E.
Senior Project Engineer, O'Brien & Gere Engineers Inc., Landover, Md.
James A. Wilding, B.C.E.
President Emeritus, Metropolitan Washington Airports Authority, Washington, D.C.

Electrical Engineering and Computer Science Advisory Council

Neil Birch, Ph.D.
President, Birch Associates, Potomac, Md.
Thomas E. Bordley, Sc.D.
Chief Scientist, General Dynamics Advanced Technology Systems, Washington, D.C.
Fahmida Chowdhury
Program Director, Division of Graduate Education, National Science Foundation, Arlington, Va.
Henry Dardy, Ph.D.
Chief Scientist, Center for Computational Science, Naval Research Lab, Washington, D.C.
Per Kullstam, Ph.D.
Paircom, Inc., Springfield, Va.
Seong Mun, Ph.D.
Director, Imaging Science and Info Systems Center, Washington, D.C.
Ronald Waynant, Ph.D.
Senior Optical Engineering, Center for Devices and Radiological Health, FDA, Rockville, Md.
Michael J. Smith
Director, Edgewood Chemical Biological Defense Operations, ITT Industries, Advanced Engineering and Science Division, Abingdon, Md.
Ananthram Swami, Ph.D.
Army Research Laboratory, Adelphi, Md.

Mechanical Engineering Advisory Council

Richard Dame, Ph.D.
President, Mega Engineering, Silver Spring, Md.
Charles "Skip" Derick
GSA Services Schedules, General Dynamics Information Technology, Fairfax, Va.
David Didion, Ph.D
Retired NIST Fellow, National Institute of Standards and Technology, Port Republic, Md.
Stan Halperson
Executive Committee Member,ASME, Washington, D.C.
Don Marlowe
Standards Administrator (Retired), Science and Health Communication, U.S. Food and Drug Administration, Rockville, Md.
Jaclyn A. Schade
Registered Patent Agent, Pillsbury Winthrop Shaw Pittman LLP, McLean, Va.
Karlena Schwing
Law Clerk, Chambers of Chief Judge Gierke, U.S. Courts,Washington, D.C.
Vincent Sica
Vice President of Special Programs, Lockheed Martin Technical Operations, Fairfax, Va.
Owen G. Thorp III, Ph.D.
Captain, USNR, Permanent Military Professor, Weapons and Systems Engineering, U.S. Naval Academy, Annapolis, Md.

History

The engineering program was established in 1896, soon after the founding of The Catholic University of America. The School of Engineering was formally established as a separate school in 1930 and was shortly thereafter renamed as the School of Engineering and Architecture. In 1992 the School of Engineering and Architecture separated into the School of Engineering and the School of Architecture and Planning. Prior to 1950, the primary focus of the school was on undergraduate professional programs, although there always have been graduate programs in the school.

However, research activity and graduate professional offerings have increased at a steady rate since 1950. Today the school offers bachelor's, master's and doctoral degrees in five academic programs as well as a master's degree in engineering management. The school prides itself on being a small Catholic engineering school providing quality education with a personal touch.

Students can expect close interaction with faculty, small class sizes, a small student-to-teacher ratio and a faculty dedicated to teaching and research. All members of the full-time faculty hold doctoral degrees and are very active in funded research and scholarly publication.

The school's strong ties with local research institutions such as NASA, NIH and NRL etc., foster research collaborations and enable our faculty to bring research experience into the classroom. Students can benefit from ample research assistantships from funded research projects.

Goals

As stated in its strategic plan developed in 2002, The Catholic University of America's School of Engineering provides a personalized learning and research environment in which faculty, staff and students achieve excellence in research, education and service. It emphasizes research and scholarship of the highest possible caliber and provides personalized instruction at both the graduate and undergraduate levels.

Graduate programs in the school emphasize both theory and application of advanced engineering principles. The goal of the school is to produce professional engineers, scientists and researchers who can contribute significantly to society through their chosen profession and scientific and research activities.

Degree Programs

Through its four departments and the Engineering Management Program, the school offers graduate programs leading to the following degrees:

  • Master of Biomedical Engineering, M.B.E.

  • Master of Civil Engineering, M.C.E.

  • Master of Electrical Engineering, M.E.E.

  • Master of Science in Computer Science, M.S.C.S.

  • Master of Mechanical Engineering, M.M.E.

  • Master of Science in Engineering, M.S.E.

  • Doctor of Philosophy, Ph.D.

The curricula of the master's degree programs aimed at a particular discipline provide in-depth coverage of topics related to the discipline. The curricula of the M.S.E. degrees are more general. The M.S.E. degree program is offered in the Engineering Management Program and in the other engineering programs to also accommodate students from non-engineering backgrounds.

Special Regulations


Admission

Admission to the School of Engineering follows the general university regulations (see Admission to Graduate Study in this Announcements). We present here general admission regulations pertaining only to the graduate degree programs of the School of Engineering. Additional specific requirements for admission to particular programs, if any, are given in the departmental sections. Admission to all graduate degree programs is made by the dean of the School of Engineering upon the recommendation of the chair/director of the appropriate graduate program.

International Students

International students from countries where English is not the primary language must take the Test of English as a Foreign Language, TOEFL. Students achieving a score of 580 or higher on the paper-based test, 237 or higher on the computer-based test, or 93 on the Internet-based test will be given regular admission provided their academic background is satisfactory. Prior to registration for courses, the students will be evaluated for English language skills by CUA's Intensive English Program. Depending on the evaluation, students may be required to take intensive classes in English to strengthen their skills. Subject to the approval of a student's academic adviser, students can take intensive English classes concurrently with a reduced number of School of Engineering graduate engineering courses.

Doctoral Degree Programs

The minimum grade point average, GPA, required for admission to the doctoral degree programs is 3.4 for masters-level courses and/or 3.0 for bachelor-level courses. In special circumstances, program chairs and faculty may petition for students to be admitted who do not meet the GPA guideline. There is no provisional admission for the doctoral programs.

Master Degree Programs

The minimum requirement for admission to the M.S.E. degree program is a baccalaureate degree from an accredited university. The minimum requirement for admission to the master's degree program of a particular engineering program is an undergraduate degree from an accredited engineering program. Additional requirements may apply based on undergraduate performance. The minimum GPA required for regular admission to master's degree programs is 3.0 for bachelors-level courses. Provisional admission may be granted to students with a bachelor's-level GPA less than 3.0. Provisional admission will be converted to regular admission after the student passes a set of approved graduate level courses with a minimum GPA of 3.0.

Degree Requirements

The degree requirements for graduate studies in the School of Engineering generally follow the university requirements (see General Requirements of Graduate Studies). We present here general degree requirements pertaining only to the graduate degree programs of the School of Engineering. Additional specific degree requirements for particular programs, if any, are provided in the departmental sections.

Grade Point Average for Graduation

A minimum cumulative GPA of 3.0 in coursework taken in the School of Engineering is required for graduation in all graduate programs.

Master's Degree

The university's general requirements for graduate study for the master's and licentiate degrees apply to all master's degree programs offered in the School of Engineering. There are, however, two exceptions: competency in a foreign language is not required and a comprehensive examination is not required. The minimum requirements for the master's degree are the successful completion of an approved program of study consisting of at least 30 semester credit hours. Individual programs may require more than 30 semester credit hours. Two options are available to complete the requirements.

Nonthesis Option

A student may complete the required semester credit hours through graduate coursework with a cumulative GPA of at least 3.0.

Thesis Option

A student may write a master's thesis whose topic is approved by the appropriate graduate program. If this option is selected, the student registers for a total of six semester credit hours of master's thesis guidance. Upon approval of the written thesis, six semester credit hours, which count toward the minimum 30, will be posted to the student's academic record. The remaining number of semester credit hours of graduate coursework must be completed with a minimum cumulative GPA of 3.0.

Core Masters-Level Course

All students pursuing a master's degree in the programs of biomedical, civil, electrical and mechanical engineering are required to pass with a grade of C or better in two of the four courses: Graduate Level Applied Mathematics, Numerical Methods in Engineering, Engineering Economics and Engineering Systems Analysis. Each program may impose further restrictions regarding which courses their students must take.

Joint Master' Degree Programs

Some graduate programs in the School of Engineering participate in joint degree programs that allows students to earn two engineering master's degrees. The student must satisfy all requirements for both degrees but may be allowed to designate up to four approved graduate engineering courses to partially satisfy the requirements for both degrees. Typically, this would reduce the total number of graduate engineering courses required to earn both master's degrees from 20 courses to 16 courses. Contact the dean's office of the School of Engineering for more information.

Doctoral Degree

The university's general requirements for graduate study for the doctoral degree apply to all doctoral programs of the School of Engineering, with one exception: the foreign language competency exam is not required. The requirements for a doctoral degree (Ph.D.) of the school include:

1. a minimum of 53 semester hours of graduate work in a program of study prepared and approved in consultation with an adviser;

2. the successful passing of a comprehensive examination upon completion of the graduate coursework;

3. the approval of a dissertation proposal submitted and presented by the candidate; and

4. the approval and successful defense of the dissertation in an oral examination conducted as specified by university procedures.

Transfer of Credit

Up to six semester credit hours of graduate work earned at another accredited institution with a grade of B or higher may be applied toward course requirements for master's degrees upon recommendation of the appropriate graduate program and with the approval of the dean of the school. Up to 24 semester credit hours of graduate work earned at another accredited institution with a grade of B or higher may be applied toward course requirements for the doctoral degrees upon recommendation of the appropriate graduate program and with the approval of the dean of the school. For students who earned their master's degrees at CUA, up to 30 semester credit hours of coursework with a grade of B or above may be applied toward the course requirements for the doctoral degrees.

Department of Biomedical Engineering

Professor Emeritus Sung Ching Ling
Associate Professors Joseph Hidler; Peter Lum; Binh Tran, Chair
Adjunct Associate Professors Gideon Kantor; Michael Rosen; Steven Stanhope
Assistant Professors Peter Lum; Jessica Ramella-Roman; Otto Wilson Jr.; Baohung Yuan
Adjunct Assistant Professors Saryn Goldberg
Lecturers David Brennan; Uyen Nguyen; Mark Pettinato; Fred Ricci

The Department of Biomedical Engineering offers graduate programs leading to the degrees of Master of Biomedical Engineering, M.B.E., Master of Science in Biomedical Engineering, M.S.E., and Doctor of Philosophy, Ph.D. The focus of graduate education is to provide biomedical engineers with the principles and tools of modern engineering, applied to solving problems in medicine or biology.

Courses are offered in the following areas of concentration:

  • Biomaterials and Biotechnology

  • Biomechanics & Rehabilitation Engineering

  • Biomedical Instrumentation & Medical Imaging

  • Home Care Technologies & Telemedicine

  • Rehabilitation Engineering

The Biomedical Engineering Program has strong interaction with the Department of Mechanical Engineering and the Department of Electrical Engineering and Computer Science in terms of course offerings and research activities. Graduate students may follow one of two tracks-thesis or coursework designed for two distinct groups of students. The first track offers both master's and doctoral programs and is directed at those students pursuing research activities that will culminate in a thesis or dissertation. The coursework requirements are intended to prepare the student for research.

The second track offers only a master's degree program intended for recent graduates, practicing engineers and/or medical professionals interested in specialized areas pertinent to career objectives. These professional degree programs enable the engineer or scientist to become familiar with new developments and advances in technologies. These programs allow flexibility in course selection, including those outside the department.

Qualified CUA undergraduate students are encouraged to pursue graduate studies via the accelerated BS-MS program.

Admission

In addition the school's admissions guidelines (under Special Regulations) for regular admission status to the masters and doctoral degree programs in biomedical engineering, students will be admitted based upon enrollment availability and their ability to meet the following recommended entrance requirements:

  • Students must have received a bachelor's degree in engineering, science or mathematics from an accredited institution and, in addition must satisfy:

  • All minimum university requirements

  • A cumulative undergraduate GPA of at least a 3.0 out of 4.0 (master's) or 3.5 out of 4.0 (doctoral)

  • A cumulative GRE score (verbal plus quantitative) of at least 1250 (master's) or 1300 (doctoral)

Students not meeting the above minimum requirements may receive provisional admission (master's only) as recommended by the graduate committee and/or department chair. Performance of provisional students will be reviewed after one semester of graduate study for transfer to regular admission status.

Students from nonengineering disciplines may be required to take prerequisite courses (e.g., statics, dynamics, electrical circuits, differential equations, fluid mechanics, etc.), as appropriate.

Master's Degree

Graduate students plan their program in consultation with an adviser and may elect to pursue a broad master's degree program without specific concentration or to major in one of the areas identified above. Maximum flexibility in scope of studies is afforded by utilization of courses offered in other departments of the university or other local universities through the Consortium of Universities of the Washington Metropolitan Area.

Requirements for the master's degree programs follow those established for the school. Please refer to Degree Requirements.

Doctoral Degree

Requirements for the doctoral degree program follow those established for the school. Please refer to Degree Requirements.

Courses Offered

Please consult the registrar's Web site at https://cardinalstation.cua.edu for descriptions of courses offered in the current semester.

 

BE Course Title
501 Biomaterials
502 Advanced Biomechanics
513 Biomedical Instrumentation
515 Biomedical Signal Processing
516 Biological Systems and Control
521 Neural Control of Movement
522 Human Locomotion
523 Biomedical Assessment of Locomotion Disorders
524 Principles of Prosthetics and Orthotics
525 Biomedical Heat and Mass Transfer
526 Biomedical Transfer Processes
527 Cell and Tissue Engineering
528 Rehabilitation Engineering
530 Human-Computer Interfaces
531 Neural Stimulation in Rehabilitation
532 Sensory Motor Integration
535 Optimization of Human Performance
536 Mechanics of Dance and Sports
540 Home Care Technologies Seminar
541 Home Care Tech 1: Foundations
542 Home Care Tech 2: Product Evaluation
543 Home Care Tech 3: Product Design &Manufacturing
544 Telemedicine & E-Health
581 Medical Imaging
596 BMED Graduate Internship Projects
617 Soft Computing in Biomonitoring
621 Advanced Topics in Neural Control
651 Computations in Genetic Engineering
671 Cardio-Pulmonary Biomechanics
721 Adv Neuro-Mechanical Modeling and Control
728 Adv Topics in Rehabilitation Engineering
729 Advanced Topics in Biomaterials
733 Mathematical Modeling in Biology
734 Molecular Dynamics, Graphics and Simulation
991, 992 Directed Research
993, 994 Directed Research
995, 996 Master's Thesis Guidance
997, 998 Doctoral Dissertation Guidance
ENGR Course Title
501 Introduction to Mechatronics
503 Control Systems
516 Computational Methods for Graduate Students
520 Mathematical Analysis for Graduate Students
522 Introduction to Imaging Technologies
540 Reliability Engineering
ME Course Title
503 Structural Mechanics
504 Finite Element Methods
507 Mechanical Systems and Controls
571 Adv Design of Mechanical Systems
572 Computer Control-Mech Systems
645, 646 Foundations of Fluid Mechanics I, II
CE Course Title
502 Introduction to Continuum Mechanics
543 Environmental Microbiol/Biol Processes
EE Course Title
503 Telecommunication Technologies
527 Neural Networks
535 Digital Image Processing-Biomed Applications
561 Random Signal Theory I
586 Intel Control/ Fuzzy Logic Apps
652 Wireless Communications
NURS Course Title
561 Aging: Holistic Perspectives on Health
698 Pathophysiology
BIOL Course Title
518 Physiology
569 Immunology
750 Chemical Diagnosis of Disease
PSY Course Title
536 Human-Computer Interaction
570 Psychology of Computer Design and Virtual Reality
759 Cognitive Neuroscience
CSC Course Title
533 Optimization


Department of Civil Engineering


Professors Poul V. Lade, Chair; Hsien-Ping Pao
Professors Emeriti John J. Baltrukonis; Timothy Kao; Dennis McCahill; John J. McCoy; Michael C. Soteriades
Associate Professors Lu Sun; Panogiotis Tsopelas
Adjunct Associate Professor Charles C. Liu
Assistant Professors Gunnar Lucko
Lecturers John Bonita; Joseph Findaro; James W. Hudson; John McTyre; Kenneth O'Connell; Philip Clark Jones; S. Samuel Lin; Mario Parcan; Long Phan; Dwayne Piepenburg; Susan Lane

The goal of the educational programs in civil engineering is to produce graduates who are schooled in engineering fundamentals and capable of doing advanced engineering work. To this end, programs offered in the Department of Civil Engineering are professional in nature and lead to the Master of Civil Engineering, M.C.E., and the Doctor of Philosophy, Ph.D. Major areas include fluid and solid mechanics, structures and structural mechanics, geotechnical engineering, environmental engineering and management, systems engineering, transportation engineering, and construction engineering and management. The available courses include laboratory studies, applied mathematics, engineering analysis, engineering design and a variety of introductory and advanced level courses in various areas of engineering and applied science and construction management. The department also participates in an interdisciplinary graduate program in engineering management leading to the Master of Science in Engineering, M.S.E.

Mission

Please refer to Admission under Special Regulations for the school.

Master's Degree

Graduate students plan their program in consultation with an adviser and may elect to pursue a broad M.C.E. degree program without specific concentration or to major in one of the areas identified above. The minimum requirements for the master's programs in civil engineering are the successful completion of 30 semester credit hours. Maximum flexibility scope of studies is afforded by utilization of courses offered in departments of the university or other area universities through the Consortium of Universities of the Washington Metropolitan Area.

Master of Science in Engineering Degree Program

The M.S.E. degree is offered to students whose undergraduate degree is in subjects other than engineering and who are in the environmental engineering and management program and the construction engineering and management program. The minimum requirements for the M.S.E. degree program are the same as the M.C.E. degree program. Other requirements for the master's degree programs follow those established for the school. Please refer to Degree Requirements.

Doctoral Degree Programs

Candidates for the Ph.D. degree in civil engineering plan their program in consultation with an adviser. The program of studies is tailored individually to meet the needs of the student and the academic and professional standards of the department. Maximum flexibility in scope studies is afforded by utilization of courses offered in other departments of the university or other area universities through the Consortium of Universities of the Washington Metropolitan Area.

Other requirements for the doctoral degree program follow those established for the school. Please refer to Degree Requirements.

Courses Offered

Please consult the registrar's Web site at https://cardinalstation.cua.edu for descriptions of courses offered in the current semester.

 

CE Course Title
501 Advanced Mechanics of Solids
502 Introductions to Continuum Mechanics
503 Introductions to Elasticity
504 Street-Strain Behavior of Soils
511 Applied Plastic Design and Limit Analysis
514 Advanced Vibrations and Structural Dynamics
516 Prestressed Concrete
520 Design of Structural Systems
524 Matrix and Computer Methods in Structural Analysis
525 Nondestructive Evaluation and Condition Assessment of Structures
534 Disaster Mitigating Design and Practice for the Developing World I
535 Disaster Mitigating Design and Practice for the Developing World II
541 Environmental Engineering Chemistry
542 Environmental Chemistry Laboratory
543 Environmental Microbiology and Biological Processes
555 Environmental Law and Policy
556 Sustainable Development Principles and Practice
560 Case Studies in Geotechnical and Geo-environmental Engineering
562 Seapage and Slope Stability
570 Innovative Infrastructure Management
571 Pavement Theory and Design
572 Intelligent Transportation Systems
573 Traffic Engineering and Flow Theory
575 Introduction to Systems Analysis
576 Systems Design
579 Harbors and Coastal Engineering
581 Practical Construction Law
582 Value Engineering
587 Estimating and Bidding
588 Construction Operational Management
589 Construction Scheduling Techniques
591 Engineering Hdrogeology and Groundwater Flow
592 Groundwater Contamination: Simulation and Regulations
593 Applied Hydrology
595 Water Supply Engineering
596 Waste Treatment Engineering
598 Hazardous Waste Treatment
603 Inelastic Stress Analysis
604 Constitutive Modeling of Frictional Materials
611 Management Information Systems and GIS in Civil Engineering
614 Earthquake Engineering and Seismic Design
615 Soil Dynamics and Geotechnical Earthquake Engineering
622 Variational Methods in Engineering
670 Risk and Reliability in CE Systems
675 Advanced Operations Research
714 Passive and Active Control of Large Structural Systems
732 Theoretical Hydrodynamics
767 Advanced Geotechnical and Structural Systems
797 Special Topics
798 Special Topics
995 Thesis-Masters
996 Thesis-Masters
997 Dissertation-Doctoral
998 Dissertation-Doctoral

Certificate of Engineering Management

Four Professional Certificates are available:

Engineering Management Professional Certificate Designed to provide specialized graduate-level education and to further professional continuing education for those persons who will assume major administrative positions in industry or government organizations.

Program Management Professional Certificate Designed to provide specialized graduate-level education and to further professional continuing education or certification (beyond or prior to Project Management Institute certification) for those who will act as program or product managers in industry and government.

Systems Engineering Professional Certificate Designed to provide specialized graduate-level education and to further professional continuing education or certification (beyond or prior to International Council on Systems Engineering (INCOSE) certification) for those persons who will act as the technical/systems engineering lead in major programs, organizations or functions in industry or government.

Management of Information Technology Professional Certificate Designed to provide specialized graduate-level education and to further professional continuing education or certification for those persons who will be responsible for management of information technology resources in industry and government.

These certificate programs provide an understanding of the core engineering management theory and tools that underpin technical management practices.

The Engineering Management Professional Certificate is awarded upon successful completion of 15 semester credit hours (five courses) of key program courses. To meet student needs one course could be substituted by an appropriate elective course from the CUA School of Engineering or an approved transferred course. A transferred course must be a B grade or better. The certificate is awarded after completion with a grade of C or better in all CUA courses counted toward the certificate requirements.

Master of Science in Engineering (Engineering Management)

The Master of Science in Engineering curriculum enhances management performance and develops managerial skills. It is designed to provide the student with knowledge of the theory and practice of management as it specifically pertains to engineering and technology-oriented organizations and activities. The program is oriented to the management of engineering processes within the boarder context of a company or agency enterprise. Three tracks are offered to allow the student to focus on their career preference:

Engineering Management and Organization Developed to provide a graduate-level foundation for the practice of managing engineering organizations. It is appropriate for those who will assume leadership positions in technically oriented organizations.

Project and Systems Engineering Management Developed to provide a graduate level foundation for the practice of managing projects associated with development and life cycle management of a product. It is appropriate for project managers and system engineers in management roles or those who will be in those positions.

Technology Management Developed to provide a graduate-level foundation for the practice of managing technology development, implementation or sustainment activities. It is appropriate for those that will assume leadership positions in technology development or sustainment organizations. Each track has seven core courses that give the foundation for engineering management and electives that allow students to focus their degree to their personal career plan. Nine semester hours (three courses) are used to tailor the degree program to the student's specific needs.

The Master of Science in Engineering (Engineering Management) degree program requires completion of 30 semester credit hours. The School of Engineering offers a wide range of specialties relating to mechanical engineering, civil engineering, electrical engineering, computer science and biomedical engineering. Elective courses up to six credits may be transferred from accredited educational institutions into the program. Our partnership with Defense Acquisition University, DAU, allows up to nine credits of their ACE accredited graduate-level courses to be transferred into the program.

Our partnership with the Nuclear Power Directorate allows transfer of 12 credits for completion of the U.S. Navy Officer Nuclear Power School Program. The engineering management master's degree program results in an engineering/scientific degree rather than a business degree, therefore, the program candidate should have an engineering, physical science or mathematics degree with appropriate technical or engineering experience. (Depending on experience, candidates without a mathematics-based degree may be accepted for the program. Prerequisites may be required.)

A minimum of 30 semester credit hours is required, but a thesis is not required. All M.S.E. candidates for graduation must have earned at least a 3.0 cumulative grade point average in courses leading to the degree. For more information go to http://engineering.cua.edu/engrmgmt.

Courses Offered

Please consult the registrar's Web site at https://cardinalstation.cua.edu for descriptions of courses offered in the current semester.

 

CMGT Course Title
505 Decision Analysis
508 Technology Management
510 Information Systems for Managers
515 Software Engineering
547 Managerial Engineering Economics
561 Engineering Ergonomics
562 Engineering Risk Management
563 Independent Project
570 Project Management
572 Organizational Theory and Behavior
573 Planning and Control of Organizations
574 Strategic Management
575 Introduction to Systems Analysis
580 Introduction to Systems Engineering Management

Department of Electrical Engineering and Computer Science

Professors Mohammed Arozullah; Nader Namazi, Chair; Charles C. Nguyen; Philip A. Regalia
Professors Emeriti Andrew G. Favret; George E. McDuffie; Robert Meister
Associate Professors Mark Mirotznik; Farid Ahmed
Assistant Professors Sameh Elsharkawy; Ozlem Kilic; Scott Mathews; Jason Xuan
Lecturers Charles Campbell Jr.; James Christ; Francis Linehan; Saiid Gangalizadeh; Neil Palumbo; Lawrence Schuette; Dale Smith; Edward Moses; Sandor Der; Sam Butz

The Department of Electrical Engineering and Computer Science offers graduate programs leading to the degrees of Master of Electrical Engineering, M.E.E., Master of Science in Computer Science, M.S.C.S., Doctor of Philosophy, Ph.D., and Doctor of Engineering, D.Engr. Programs offered are Computer Graphics, Communication Systems and Networks, Microwave, Optics and Materials, and Signal and Image Processing.

Faculty is actively engaged in several research areas including computer graphic display of medical images, Web-based communication, ATM-based high-speed networks, computer and satellite communications, interaction of electromagnetic radiation with biological systems, image microoptical devices, image motion detection and estimation, communication intelligence, information visualization, biomedical imaging, computational intelligence and image understanding. A majority of the research projects is funded by industries and government agencies such as NASA, the Navy, the Army and NIH.

Admission

Students pursuing degree programs should apply for regular admission. The minimum requirement for regular admission to the M.E.E. program is a bachelor's degree in engineering, science or mathematics from an accredited institution. Students lacking certain requirements for regular admission to the M.E.E. program can apply for a provisional admission.

Performance of provisional students will be reviewed after two semesters of graduate study for possible transfer to regular admission. The minimum requirements for regular admission to the M.S.C.S. program is a bachelor's degree with undergraduate background in computer science that includes the equivalent of the following topics: data structures, computer organization and assembly language, programming languages, theoretical computer science, and discrete structures. A student will be provisionally admitted to the M.S.C.S. program if he or she has one or more deficiencies. The deficiency courses must be successfully completed before the provisional status is converted to regular status. Admission to the doctoral degree programs is based upon academic performance at the bachelor and master's levels. For other admission requirements, please refer to Admission under Special Regulations.

M.E.E. Program

Two options are available in the M.E.E. program. The nonthesis option requires 30 semester credit hours of approved coursework. The thesis option requires a minimum of 24 semester credit hours of approved coursework plus a thesis comprising six semester credit hours of master's thesis guidance. The approved coursework must include at least 18 semester credit hours of approved electrical engineering courses. The remaining courses must be in engineering and science disciplines and approved by the graduate coordinator of the department.

M.S.C.S. Program

The M.S.C.S. degree program has two options, the thesis option and the nonthesis option. For both options, each student must submit a program of study to the department for approval upon entering the program. The program of study must contain a minimum of 30 semester credit hours of approved graduate-level courses comprising at least 18 semester credit hours of core courses and 12 semester credit hours of elective courses.

The core courses must be selected from courses in four areas of concentration: computer science foundations, computer systems, software systems, and computing methodologies, such that at least three semester credit hours are chosen from each of the above areas of concentration.

Doctoral Degree Program

The program of studies is individually tailored to meet the needs of the student and to fit with the department research areas and facilities. Students must pass a comprehensive examination in three major areas after completing all required coursework.

Both the Ph.D. and the D.Engr. degrees require a minimum of 54 semester hours of formal graduate coursework beyond the bachelor's degree. The major includes at least nine semester credit hours at the 600-700 levels in three areas. Additional areas that must meet minimum requirements are chosen in consultation with the adviser. For additional degree requirements, see Degree Requirements.

Courses Offered

Please consult the registrar's Web site at https://cardinalstation.cua.edu for descriptions of courses offered in the current semester.


BE Course Title
561 Random Signal Theory

EE Course Title
501 Communication and Computer Network Simulation
502 Optical Systems and Devices
512 Microprocessors, Architecture, and Control
515 Digital Signal Processing
519 Digital System Design
522 Linear System Analysis
531 Computer and Data Communications Networks
540 Microwave Antenna and Design
541 Applied Electromagnetics
542 Optoelectronics and Fiber Optics
548 Optical Signal and Image Processing
617 Adaptive Signal Processing
618 Optimum Signal Processing
621 Fundamentals of Kalman Filtering
625 System Optimization
627 Neural Networks and Bioinformatics
628 Computational and Molecular Imaging
631 Broadband Integrated Services Digital Networks
634 Digital Image Processing
642 Electro-Optics and Photonics
643 Photonic Communication Network Devises
644 Optical Communications
645 Optical Communication Networks
646 Optical Internet
647 Intelligent Broadband Multimedia Networks
652 Wireless Communications
656 Digital Communications
657 Spread Spectrum Communications
659 Satellite Communications
671 Statistical Signal Processing
672 Error Control Coding
710 Wavelet Theory and Applications
712 Communication Theory
725 Information Theory and Source Coding
731 Computer Communication Networks
740 Numerical Methods in Electromagnetics
746 Electromagnetic Radiation and Scattering
771 Detection and Estimation Theory
791,792 Electrical Engineering Research
995,996 Master's Thesis Guidance
997,998 Doctoral Dissertation Guidance

CSC Course Title
504 Compiler Construction
507 Unix System Programming
508 X Window Programming
511 Computational Complexity
520 Topics in Computer Science
523 Introduction to Computer Networks
532 System Simulation
533 Optimization
564 Software Engineering
581 Data Encryption
582 Game Programming
592 Directed Study
611 Logic for Computing Scientists
612 Analysis of Algorithms
613 Combinatorial Algorithms and Intractability
621 Computer Networks
622 Advanced Operating Systems
623 Real-Time Systems
624 Computer and Network Security
633 Software Requirements and Specifications
635 Software Verification, Validation, and Testing
636 Distributed Computing
641 Data Base Management
642 Artificial Intelligence
643 Computer Graphics
650 Intelligent Multimedia
651 Multimedia Processing and Information Retrieval
675 Visual Intelligence and Computer Vision
728 Information Visualization
775 Human-Computer Interface
991 Graduate Design
995,996 Master's Thesis Guidance

Department of Mechanical Engineering

Professor Sen Nieh
Professors Emeriti Frank A. Andrews; H. Bulent Atabek; Mario J. Casarella; Paul K. Chang; Edward D. Jordan; William J. Kelnhofer; Yun Chow Whang
Adjunct Professors George Mattingly
Associate Professor J. Steven Brown, Chair
Assistant Professors Arturo Fernandez; John A. Judge; Joseph Vignola; Zhaoyang Wang
Adjunct Assistant Professor Sivakumar Tadikonda
Lecturers Jeffrey Didion; William LaPlante; Tuan Nguyen; Wilfred Shields

The Department of Mechanical Engineering offers graduate programs leading to the degrees of Master of Mechanical Engineering, M.M.E., Master of Science in Engineering, M.S.E., Doctor of Engineering, D.Engr., and Doctor of Philosophy, Ph.D. The programs are:

Professional Master's Program

For recent graduates and practicing engineers interested in specialized areas to enhance their careers, the program emphasizes advances in existing and emerging technologies. Master's thesis is optional.

Master's Program (predoctoral)

For students interested in pursuing Ph.D. or D.Engr. degrees. Master's thesis is required.

Doctoral Program

For students pursuing Ph.D. or D.Engr. degrees, this program emphasizes strong foundations in mechanical engineering as well as advanced courses in a specialized area of concentration.

Research Areas

  • Active Control and Smart Materials/Systems

  • Advanced and Non-Linear Dynamics

  • Air Pollution Control and Indoor Air Quality

  • Clean Energy Production and Use

  • Combustion and Multiphase Systems

  • Computational Methods (FEM and CFD)

  • Electronic Packaging

  • Flow Induced Vibration and Noise Reduction

  • Heat/Mass Transfer and Thermodynamics

  • HVAC and Refrigeration

  • MEMS

  • Nano-Mechanics

  • Solar Wind and Magnetohydrodynamics

  • Structural Acoustics

  • Vibration of Mechanical Systems

  • Vibration of Mechanical Systems

  • Human Thermal Comfort

Admission

Please refer to Admission under Special Regulations.

Master's Degree Program

Candidates for graduate studies plan their program in consultation with an adviser. Maximum flexibility in scope of studies is afforded by utilization of courses offered in other departments of the university or other area universities through the Consortium of Universities of the Washington Metropolitan Area. Requirements for the master's degree programs follow those established for the school, with the specification of Graduate Level Applied Mathematics and Numerical Methods in Engineering as the required core courses. Please refer to Degree Requirements.

Doctoral Degree Program

Requirements for the doctoral degree program follow those established for the school. Please refer to Degree Requirements. Note the comprehensive examination is directed at assessing a student's preparation in advanced courses for doctoral research, and understanding of the research literature and his or her ability to define the frontiers of the proposed areas of investigation.

Courses Offered

Please consult the registrar's Web site at https://cardinalstation.cua.edu for descriptions of courses offered in the current semester.

 

ENGR Course Title
501 Introduction to Mechatronics
503 Control Systems
516 Computational Methods for Grad Students
518 Experimental Techniques for Grad Students
520 Mathematical Analysis for Grad Students
538 Introduction to Environmental Engineering
565 Nonlinear Dynamics and Chaos
ME Course Title
503 Structural Mechanics
510 Modern Control Systems
512 Digital Control
521 CFD and Numerical Heat Transfer
530 Applied Energy Systems
532 Design of Power and Propulsion Systems
533 Energy Conservation and HVAC
534 Design of HVAC and Refrigeration
536 Thermal Environmental Engineering
537 Pollution Control for Energy Systems
539 Combustion and Incineration
543 Heat Exchanger: Design and Analysis
544 Introduction to Multiphase Systems
548 Intermediate Heat Transfer
549 Intermediate Fluid Mechanics
557 Advanced Dynamics
566 Advanced Vibrations and Structural Dynamics I
580 Introduction to MEMS and Microfabrications
582 Intro to Mechanical Fundamentals of Electrical Sys
584 Introduction to Nanotechnology
622 Turbulence
640 Advanced Thermodynamics
642 Advanced Heat Transfer
645 Advanced Fluid Dynamics
647 Multiphase Flows
648 Heat Exchangers-Theory and Applications
654 Computational Structural Mechanics
656 Optimal Control
657 Advanced Dynamics
664 Modal Analysis
666 Advanced Vibrations and Structural Dynamics II
668 Active and Passive Vibration Control
701 Finite Element Method: Theory and Applications
703 Advanced Problems in Vibration and Acoustics
721 Advanced Computational Fluid Dynamics (CFD)
726 Advanced Combustion and Multiphase Systems
728 Advanced Problems in Pollution Control
733 Turbulent Flows
741 Advanced Problems in Thermal Sciences
751 Advanced Topics in Vibration Control
752 Advanced Topics in Mechanics
754 Advanced Computational Structural Analysis
756 Advanced Problems in Controls
797, 798 Special Topics
991, 992 Directed Research
993, 994 Directed Research
995, 996 Master's Thesis Guidance
997, 998 Doctoral Dissertation Guidance