2014 University of South Florida College of Engineering Undergraduate Brochure by USF Engineering

University of South Florida College of Engineering

Undergraduate Programs

Welcome to USF’s College of Engineering Message from the Dean I am confident that you will find the College of Engineering at the University of South Florida full of excitement, discovery, and tremendous opportunity. It’s the perfect place to bring your interests and curiosity. Robert H. Bishop Dean

The engineering community is characterized by a diversity of people, ideas, experiences, and opportunities that will broaden your knowledge and understanding. Among these opportunities are excellent offerings in these engineering academic areas: chemical, civil, computer science, computer engineering, electrical, industrial, information technology and mechanical. I hope you’ll take time to explore all the programs the college has to offer in this brochure. The college is also home to many outstanding faculty, such as Mechanical Engineering Professor Autar Kaw, 2012 U.S. Professor of the Year; Electrical Engineering Professor Richard Gitlin, a National Academy of Engineering member; and Civil Engineering Professor, Rajan Sen, a Jefferson Science Fellow, just to name a few.

Rafael Perez Associate Dean for Academic Affairs

Here is a small sample of experiences within the College of Engineering

José Zayas-Castro, FIIE Associate Dean of Research

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BEST@USF is a college-wide program for enhancing experiential learning in our students.

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Education Abroad programs that provide real-world work and cultural experiences Research Experiences for Undergraduates program where you perform actual research Tau Beta Pi Engineering Honor Society, the oldest honor society on campus More than 30 student organizations that will enhance your engineering experience

• Chemical Engineering Civil Engineering Computer Engineering

Information Technology

Mechanical Engineering Biomedical Engineering Minor Computer Science Minor Information Technology Minor Information Technical Minor

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We look forward to helping you achieve all the successes that lie ahead of you. 11

Industrial Engineering

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Computer Science

Electrical Engineering

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College of Engineering Facts How the College of Engineering at the University of South Florida ranks among other engineering programs in the United States (source: ASEE Profiles 2013): •

#14 Bachelor’s Degrees Awarded to Black or African Americans

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#15 Hispanic Tenured / Tenure Track Faculty by School

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#16 in Computer Engineering BS Degrees Awarded by School

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#18 Bachelor’s Degrees Awarded to Hispanics by School

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#18 Bachelor’s Degrees Awarded to Hispanics by School

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#20 Percentage of Master’s Degrees Awarded to Women by School

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#25 Electrical Engineering BS Degrees Awarded by School

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#27 in Computer Science BS Degrees Awarded by School

This brochure is provided as a guide, the USF Undergraduate Catalog in the only definitive source of program requirements.

Real World Opportunities

Co-ops and Internships – These programs offer students numerous opportunities to engage with the broader engineering, technology and science community and gain valuable on the job experience.

Engineering EXPO – This engineering student-run event exposes school children to science and engineering principles in a two-day, on campus event.

Research Experiences for Undergraduates The program gives undergraduate students an opportunity to participate in research projects. Students work as research assistants with professors and graduate students on a variety of exciting and interdisciplinary research projects.

BEST@USF – The Bulls Engineering Success Training (BEST) program provides selected undergraduate students in the College of Engineering an interdisciplinary industry-based capstone design experience. The bachelor of science degree programs in Chemical Engineering, Civil Engineering, Computer Engineering, Electrical Engineering, Industrial Engineering, and Mechanical Engineering are accredited by the Engineering Accreditation Commission of ABET. The bachelor of science degree program in Computer Science is accredited by the Computing Accreditation Commission of ABET.

www.abet.org Student Societies and Organizations (not a complete list) • • • • • • • • • • • • • • • • • •

Tau Beta Pi Chi Epsilon Eta Kappa Nu Omega Chi Epsilon Theta Tau Upsilon Pi Epsilon American Institute of Chemical Engineers American Society of Civil Engineers Biomedical Engineering Society Engineers Without Borders Florida Engineering Society IEEE Computer Society IEEE Electrical Engineering Society Institute of Industrial Engineers Institute of Transportation Engineers National Society of Black Engineers Society of Hispanic Professional Engineers Society of Women Engineers

Admission Requirements for First Time in College Students for All Engineering Majors and for the Computer Science Major (Excludes Admission Requirements for the Information Technology Major – see below) First time in college students and lower division students with 30 credits or less, who meet the criteria below, are granted direct entry into the College of Engineering: 1. Admitted to the University of South Florida as a degree seeking student; 2. Test Scores: -SATM-a minimum quantitative score of 550 or -ACTM-a minimum score of 24 or -Completed College Algebra with a grade of C or better (not C-) or -Take College Algebra at USF before the first fall semester and get a grade of C or better (not C-). Those students who do not meet the above criteria can be admitted to the college after satisfactorily completing Calculus I and II and Physics I with lab, all with a minimum grade of C or better (not C-) in no more than two (2) attempts per course while at USF. Two attempts includes withdrawal from a course. Additional requirements must be met prior to admission to specific degree programs.

Admission Requirements for Transfer Students for All Engineering Majors and for the Computer Science major (Excludes Admission Requirements for the Information Technology Major – see below) 1. Admitted to the University of South Florida as a degree-seeking student with more than 30 earned credits. 2. Transfer students must complete all of the following courses with a grade of C or better (not C-) in each course (maximum two {2} attempts allowed to earn required grade and a withdrawal is considered an attempt: Calculus I (MAC X281 or MAC X311 or equivalent) Calculus II (MAC X282 or MAC X312 or equivalent), and Calculus-based Physics I plus lab (PHY X048L or PHY X045L) If a student does not meet these admissions requirements, the student can attempt to meet these transfer admission requirements in no more than two (2) attempts per course while at USF. If a grade of C is not attained in each of these courses in two or less attempts, the student will be redirected to another major. For the specific state mandated common prerequisite courses for each major within the College of Engineering, please see the section titled, “State Mandated Common Prerequisites” located in each department’s section of the catalog. 3. Florida College System transfer students who have met the minimum criteria above and have completed the prerequisites required for their major with the minimum grades and GPA required by the academic department are accepted directly into the College of Engineering and into the specific program/major.

Admission Requirements for First Time in College Students applying to the Information Technology Major 1. Admitted to the University of South Florida as a degree-seeking student. Please note: These admission requirements do not apply to any other College of Engineering undergraduate major.

Transfer Admission Requirements for the Information Technology Major For the specific state mandated common prerequisite courses for the Information Technology major, please see the section titled, “State Mandated Common Course Prerequisites” located in the Information Technology major.

Chemical Engineering

Bachelor of Science in Chemical Engineering (BSCH)

Nature of the Work Students pursuing the Chemical Engineering Program take course work in advanced chemistry, thermodynamics, fluids, heat and mass transfer, separation processes, and reaction systems. The Chemical Engineering department research resources include well equipped laboratories for polymer synthesis and characterization, supercritical fluid technology, biomedical engineering, instrumentation and sensor developments, as well as laboratories utilized in both teaching and research. Strong collaboration with the College of Medicine, as well as, Chemistry, Biology, Computer Science, Industrial, Civil, Mechanical, and Electrical engineering programs, permits true interdisciplinary research with outstanding facilities. Since many of our students begin work upon graduation in industry or with governmental organizations, the curriculum is designed to prepare them for these roles by requiring a number of courses in the various fields of chemical engineering

and by providing limited specialization in one given area. The curriculum is designed to encourage lifelong learning and to prepare students for undertaking advanced studies in engineering or in other professional areas.

USF Department of Chemical & Biomedical Engineering Expertise • • • •

2014 average starting salary - $66,000 (NACE April 2014)

Biomedicine & Biotechnology Energy Environment & Sustainability Functional Materials & Nanotechnology Neuroengineering

For more information, http://chbme.eng.usf.edu www.eng.usf.edu

BACHELOR OF SCIENCE IN CHEMICAL ENGINEERING ........................................................ 131 credits Entrance requirements for the Chemical Engineering program. Completion of the following courses with a minimum grade of C in each course and an overall USF GPA of 2.00 or better. - Calculus I or Engineering Calculus I (MAC2311 or MAC 2281) - General Chemistry I (CHM2045 & 2045L) - Calculus II or Engineering Calculus II (MAC2312 or MAC2282)

- Physics I (PHY2048 & 2048L) - Calculus III or Engineering Calculus III (MAC2313 or MAC2283) - Physics II (PHY2049 & 2049L)

FA L L S E M E S T E R - Y E A R 1

SUMMER SEMESTER

ENC 1101 Composition I.......................................................... 3 MAC 2281 Engineering Calculus I......................................... 4 CHM 2045 General Chemistry I............................................. 3 CHM 2045L General Chemistry I Lab................................... 1 EGN 3000 Foundations of Engineering.................................... R EGN 3000 Lab Foundations of Engineering............................. 1 FKL Human/Diversity & Global Elective................................... 3

CHM 2210 Organic Chemistry I .............................................. 3 CHM 2210L Organic Chemistry I Laboratory .......................... 2 FKL Social & Behavioral Science Elective ............................... 3 ENC 3246 (WI) Communications for Engineers....................... 3

Total ..............................................................................15 SPRING SEMESTER - YEAR 1 ENC 1102 Composition II ........................................................ 3 MAC 2282 Engineering Calculus II ....................................... 4 CHM 2046 General Chemistry II ........................................... 3 CHM 2046L General Chemistry II Lab ................................. 1 PHY 2048 General Physics I ................................................. 3 PHY 2048L General Physics I Lab ........................................ 1 PHZ 2102† Problems Physics I ............................................. 1

Total ..............................................................................16 FA L L S E M E S T E R - Y E A R 2 MAC 2283 Engineering Calculus III ...................................... 4 PHY 2049 General Physics II................................................ 3 PHY 2049L General Physics II Lab ....................................... 1 EGN 3443 Probability & Statistics for Engineers ..................... 3 FKL Humanities Elective.......................................................... 3 FKL Social & Behavioral Science Elective................................ 3

Total...............................................................................17 SPRING SEMESTER - YEAR 2 EGN 3433 Modeling & Analysis of Engineering Systems or MAP 2302 Differential Equations ......................... 3 EGN 3343 Thermodynamics ................................................... 3 ECH 3023C Material and Energy Balances ............................. 4 FKL Humanities Elective.......................................................... 3 FKL Fine Arts Elective.............................................................. 3

Total ..............................................................................16 Note: Courses in bold must be completed with an overall grade point average of 2.00. † – Optional, but highly encouraged R – Required course

Total ..............................................................................11 FA L L S E M E S T E R – Y E A R 3 ECH 4123 Thermodynamics ................................................... 3 ECH 4264 Transport Phenomena ............................................ 4 ECH 4846 Numerical Methods in Chemical Eng ..................... 4 Department Upper Level Elective ............................................ 3

Total ..............................................................................14 SPRING SEMESTER - YEAR 3 ECH 3702 Instrument Systems ............................................... 3 ECH 4265C Mass Transfer Operations ................................... 4 CHM 2211 Organic Chemistry II ............................................. 3 CHM 2211L Organic Chemisty II Lab ...................................... 2 BME4406 Engineering of Biological Systems ......................... 3

Total ..............................................................................15 FA L L S E M E S T E R - Y E A R 4 ECH 4415C Reaction Engineering .......................................... 4 ECH 3240L Chemical Engineering Lab I ................................. 3 EMA 4003 Intro to Materials Science ...................................... 3 ECH 4605 Product & Process Systems .................................. 3 Department Upper Level Elective ............................................ 3

Total ..............................................................................16 SPRING SEMESTER - YEAR 4 ECH 4241L Chemical Engineering Lab II ................................ 3 ECH 4323C Process Dynamics and Control ........................... 3 ECH 4615 Product and Process Design (CD) ......................... 3 Department Upper Level Elective ............................................ 3

Total ..............................................................................12

Continuation Requirements: C- is the minimum acceptable grade in an engineering course that is a prerequisite for a subsequent course. C- is the minimum acceptable grade in FKL courses. In other engineering courses, any passing grade may be applied but a minimum 2.0 GPA in the following categories must be maintained at all times: Overall, USF, Math/Science, Engineering and Specialization. All math, science and engineering courses must be successfully completed in no more than three registered attempts. Grades of W, I, IF, U, R, and M are considered attempts. Registration that is canceled for nonpayment is also considered an attempt. Gordon Rule (6A) is fully met through the mathematics courses above, ENC1101, ENC1102, ENC 3246 and by selecting one technical or general education elective that is an approved 6A communication course. Gordon Rule communication requirement is met for any student entering USF with 60 or more hours. Exit requirements must be taken at USF. The Capstone Design Requirement (CD) and Writing Intensive (WI) exit requirements are met through ENC3246 and ECH 4615. Course sequence: Courses in bold are high priority courses. These courses should be taken in the recommended sequence as early as possible in preparation for your major. Foundation of Knowledge & Learning (FKL) courses may be taken in any order.

Civil Engineering

Bachelor of Science in Civil Engineering (BSCE)

Mission of the Department The undergraduate program of the Department of Civil and Environmental Engineering at the University of South Florida seeks to provide undergraduate students with a strong, broad -based, engineering education which gives them the basic intellectual and organization skills that allow them to work with complex systems comprised of technological, social and environmental components. Since many of the Department ‘s graduates begin work upon graduation in industry or with governmental organizations, the curriculum is designed to prepare students for these roles by requiring a number of courses in the various fields of civil engineering and by providing limited specialization in one given area. The curriculum is also designed to encourage lifelong learning and to prepare students for undertaking advanced studies in engineering or in other professional areas.

Nature of the Work Civil engineers design and supervise the construction of roads, buildings, airports, tunnels, dams, bridges, and water supply and sewage systems. They must consider many factors in the design process from the construction costs and expected lifetime of a project to government regulations and potential environmental hazards such as earthquakes and hurricanes. Civil engineering, considered one of the oldest engineering disciplines, encompasses many specialties. The major ones are structures, water resources, environmental engineering, transportation, and geotechnical engineering. Many civil engineers hold supervisory or administrative positions, from supervisor of a construction site or city engineer to Chief Executive Officer of a construction or consulting company. Others may work in design, construction, research, and teaching.

Program Educational Objectives: The Civil Engineering Program and curriculum of the Department of Civil and Environment al Engineering are designed to meet the needs of all students within the context of the Program’s Mission Statement. The Program Educational Objectives associated with the Program ‘s Mission Statement are: 1. Graduates, within 3 to 6 years after graduation, can obtain positions in both public and private organizations. 2. Graduates, within 3 to 6 years after graduation, are continuing their professional development by extending their professional knowledge through independent learning, continuing education courses, conferences, workshops, short courses, graduate study and involvement in professional societies. 3. Graduates, within 3 to 6 years after graduation, who are working in public or private organizations which encourage professional registration, will have made appropriate progress toward achieving that registration. 6

USF Department of Civil & Environmental Engineering Expertise • • • • • • • •

Structures Water Resources Engineering Mechanics Transportation Materials Geotechnics Environmental Engineering Sustainability

2014 average starting salary - $62,100 (NACE April 2014) For more information, http://cee.eng.usf.edu www.eng.usf.edu

BACHELOR OF SCIENCE IN CIVIL ENGINEERING.....................................................................131 credits Entrance requirements for the Civil Engineering program. Completion of the following courses with a minimum grade of C and an overall grade point average of 2.3 (based on best attempt) for the following courses: - Calculus I or Engineering Calculus I (MAC2311 or MAC2281) - General Chemistry I (CHM 2045/L or CHS 2440/L) - Calculus II or Engineering Calculus II (MAC2312 or MAC2282)

- Physics I (PHY2048, 2048L) - Calculus III or Engineering Calculus III (MAC2313 or MAC 2283) - Physics II (PHY2049 & 2049L)

FA L L S E M E S T E R - Y E A R 1

SUMMER SEMESTER

ENC 1101 Composition I........................................................ 3 MAC 2281 Engineering Calculus I....................................... 4 CHS 2440 Chemistry for Engineers.................................... 3 CHS 2440L Chemistry for Engineers Lab........................... 1 EGN 3000 Foundations of Engineering.................................. R EGN 3000 LAB Foundations of Engineering.......................... 1 FKL Social & Behavioral Science Elective.............................. 3

EGN 3615 Engineering Economics........................................ 3 FKL Human/Diversity & Global Perspective........................... 3 ENC 3246 Communications for Engineers (6A WI)................ 3

Total ...........................................................................15 SPRING SEMESTER - YEAR 1 ENC 1102 Composition II....................................................... 3 MAC 2282 Engineering Calculus II...................................... 4 GLY 3850 Geology for Engineers........................................... 3 PHY 2048 General Physics I................................................ 3 PHY 2048L General Physics I Lab....................................... 1 EGN 1113 Introduction to Design Graphics........................... 3

Total ...........................................................................17 FA L L S E M E S T E R - Y E A R 2 MAC 2283 Engineering Calculus III..................................... 4 PHY 2049 General Physics II............................................... 3 PHY 2049L General Physics II Lab...................................... 1 *EGN 3311 Statics.................................................................. 3 FKL Humanities Elective........................................................ 3 EGN 3365 Materials I............................................................. 3

Total............................................................................17 SPRING SEMESTER - YEAR 2 MAP 2302 Differential Equations or EGN 3433 Modeling and Analysis of Engineering Systems.................... 3 EGN 3321 Dynamics.............................................................. 3 EGN 3353 Basic Fluid Mechanics.......................................... 3 EGN 3331 Mechanics of Materials......................................... 3 EGN 3331L Mechanics of Materials Lab................................ 1 EGN 4453 Numerical & Computer Tools I.............................. 3

Total ...........................................................................16

Total .............................................................................9 FA L L S E M E S T E R – Y E A R 3 ENV 4001 Environmental Systems Engineering..................... 3 TTE 4004 Transportation Engineering I.................................. 3 EGN 3343 Thermodynamics.................................................. 3 EGN 3443 Probability & Statistics for Engineers.................... 3 EGN 4454 Numerical & Computer Tools II............................. 3

Total ...........................................................................15 SPRING SEMESTER - YEAR 3 CES 3102 Structures I............................................................ 3 CWR 4202 Hydraulics............................................................ 3 ENV 4004L Environmental/Hydraulics Lab............................ 1 EGN 3373 Introduction to Electrical Systems I...................... 3 CE Concentration Elective..................................................... 3 FKL Humanities Elective........................................................ 3

Total ...........................................................................16 FA L L S E M E S T E R - Y E A R 4 CEG 4011 Geotechnical Engineering I................................... 3 CEG 4011L Geotechnical/Transportation Lab....................... 1 CE Concentration Elective..................................................... 3 CE Concentration Elective..................................................... 3 FKL Fine Arts Elective............................................................ 3

Total ...........................................................................13 SPRING SEMESTER - YEAR 4 CE Concentration Elective..................................................... 3 CE Concentration Elective..................................................... 3 CE Capstone Design Requirement (CD)................................ 3 CGN4122 Professional/Ethical Issues in Engineering............ 1 FKL Social & Behavioral Science Elective.............................. 3

Total ...........................................................................13

Note: Courses in bold must be completed with an overall grade point average of 2.3. * - High priority course that begins a five semester sequence † – Optional, but highly encouraged

R – Required course

Continuation Requirements: Requires a minimum grade of “C-” as well as a 2.50 GPA (based on best attempt) averaged over the following courses: EGN 3311 Statics, EGN 3331 Mechanics of Materials, EGN 3353 Basic Fluid Mechanics, EGN 3365 Materials Engineering I. “C-“ is the minimum acceptable grade in each engineering course. A minimum GPA of 2.00 in the following categories must be maintained at all times: Overall, USF, Math/Science, Engineering Courses and Specialization Courses. All math, science and engineering courses must be successfully completed in no more than three registered attempts. Grades of W, I, IF, U, R, and M are considered attempts. Registration that is canceled for non-payment is also considered an attempt.Gordon Rule (6A) is fully met through the mathematics courses above, ENC1101, ENC1102, ENC 3246 and by selecting one technical or general education elective that is an approved 6A communication course. Gordon Rule communication requirement is met for any student entering USF with 60 or more hours. Exit requirements must be taken at USF. The Capstone Design Requirement (CD) and Writing Intensive (WI) exit requirements are met through ENC3246 and Capstone Design Course. Course sequence: Courses in bold are high priority courses. These courses should be taken in the recommended sequence as early as possible in preparation for your major. Foundation of Knowledge & Learning (FKL) courses may be taken in any order.

Civil Engineering Concentration and Capstone Design Requirements Civil Engineering students take one of the 3 tracks listed: S T R U C T U R E S / M AT E R I A L S / G E O T E C H N I C A L T R A C K

CES 4702 Concepts of Concrete Design (R).................................................................................................................................... 3 CES 4605 Concepts of Steel Design (R)........................................................................................................................................... 3 CGN 4851 Concrete Construction Materials (R)............................................................................................................................... 3 CEG 4012 Geotechnical Engineering II or TTE 4005 Transportation Engineering II............................................................................................................................................ 3 Technical Elective ............................................................................................................................................................................. 3 CES 4750 Capstone Structures/Materials/ Geotechnical Design..................................................................................................... 3 CGN 4122 Professional / Ethical Issues in Engineering.................................................................................................................... 1 E N V I R O N M E N TA L / W AT E R R E S O U R C E S T R A C K

ENV 4417 Water Quality and Treatment (R).............................................................................................................................3 CWR 4540 Water Resources Engineering (R).........................................................................................................................3 CEG 4012 Geotechnical Engineering II or

TTE 4005 Transportation Engineering II............................................................................................................................................ 3

Technical Elective....................................................................................................................................................................3 Technical Elective....................................................................................................................................................................3 CWR 4812 Capstone Water Resources/Environmental Design .............................................................................................3 CGN 4122 Professional / Ethical Issues in Engineering..........................................................................................................1 G E O T E C H N I C A L / T R A N S P O R TAT I O N T R A C K

CGN 4851 Concrete Construction Materials (R).....................................................................................................................3 CEG 4012 Geotechnical Engineering II (R)..............................................................................................................................3 TTE 4005 Transportation Engineering (R)................................................................................................................................3 Technical Elective ...................................................................................................................................................................3 Technical Elective ...................................................................................................................................................................3 CEG 4850 Capstone Geotechnical/Transportation Design.....................................................................................................3 CGN 4122 Professional / Ethical Issues in Engineering..........................................................................................................1 The Program supports the following technical elective courses: CCE 4031 Construction Management ...................................................................................................................................3 CEG 4012 Geotechnical Engineering II ..................................................................................................................................3 CES 4605 Concepts of Steel Design .....................................................................................................................................3 CES 4702 Concepts of Concrete Design .............................................................................................................................. 3 CGN 4851 Concrete Construction Materials......................................................................................................................... 3 CGN 4933 Special Topics in Civil & Environmental Engr ** ....................................................................................................3 CWR 4540 Water Resources Engineering I.............................................................................................................................3 CWR 4541 Water Resources Engineering II........................................................................................................................... 3 ENV 4417 Water Quality and Treatment .................................................................................................................................3 SUR 2101C Engineering Land Surveying ...............................................................................................................................3 TTE 4003 Transportation and Society ................................................................................................................................... 3 TTE 4005 Transportation Engineering II ................................................................................................................................ 3 **Please see academic advisor for selected special topics courses. (R) = Required for Concentration

Computer Engineering

Bachelor of Science in Computer Engineering (BSCP)

Nature of the Work The Computer Engineering program emphasizes the application of engineering principles to the design of computer hardware and software, and devotes additional time to issues of computer architecture and advanced topics in hardware design, including extensive laboratory work. Students in this program also acquire a broad background in engineering topics through related coursework in the college.

USF Department of Computer Science & Engineering Expertise •

Artificial intelligence

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Computational biology

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Computer-aided design

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Computer networks

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Computer vision and pattern recognition

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Database systems

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Distributed systems

Graduates from the department follow rewarding careers in software and hardware development in industry and in government agencies. In addition to providing the credentials necessary for a professional career, the undergraduate curriculum prepares students for graduate education toward an M.S. or Ph.D. within the department or at other universities. The department faculty members are very committed to including undergraduate students in research through the Research Experience for Undergraduates (REU) program.

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High-level circuit synthesis

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Image and video analysis

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Intelligent systems

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Low-power circuit/system design

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Medical imaging

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Robotics

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Software and network security

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VLSI system design

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Wireless and ad hoc sensor networks

2014 average starting salary - $66,600 (NACE April 2014)

Send us an email: ugadvisor@cse.usf.edu or call us: (813) 974-3652 or write us: Department of Computer Science and Engineering University of South Florida 4202 East Fowler Avenue, ENB 118 Tampa, FL 33620-5399

or visit us: Engineering Building II on the third floor in ENB 342A

For more information, www.cse.usf.edu www.eng.usf.edu

BACHELOR OF SCIENCE IN COMPUTER ENGINEERING (ECP) (CIP = 14.0901) ................ 128 credits Entrance requirements for the Computer Engineering program. All students must complete the equivalent of USF Composition I & II, Engineering Calculus I & II and Calculus-based General Physics I & II (with labs) with minimum grades of “C” in each course (grades of “C-” are insufficient). The minimum overall average GPA in these six courses required for admission to the Department is between 3.0 and 3.5 for any given year. The minimum acceptable average GPA will be posted on the Department’s website (http://www.cse.usf.edu) one year prior to the Fall Semester that the revised GPA is applicable. The computed GPA is based on the best attempts in these courses. Continuation in the major requires successful completion of CDA 3103 and COP 3514 with the required grade as stated in the Computer Science and Engineering prerequisite statement in the College of Engineering general section.

FA L L S E M E S T E R - Y E A R 1

FA L L S E M E S T E R – Y E A R 3

ENC 1101 Composition I............................................................... 3 Mac 2281 Engineering Calculus I................................................. 4 CHS 2440 Chemistry for Engineers................................................ 3 CHS 2440L Chemistry for Engineers Lab....................................... 1 EGN 3000 Foundations of Engineering...........................................R EGN 3000 LAB Foundations of Engineering................................... 1 FKL Social & Behavioral Science Elective....................................... 3

CDA 4205 Computer Architecture................................................... 3 EEE 3394 Electronic Materials........................................................ 3 EGN 3373 Introduction to Electrical Systems I............................... 3 COT 4400 Analysis of Algorithms................................................... 3 CSE Upper-Level Elective............................................................... 3

Total ................................................................................... 15 SPRING SEMESTER - YEAR 1 ENC 1102 Composition II.............................................................. 3 MAC 2282 Engineering Calculus II............................................... 4 PHY 2048 General Physics I......................................................... 3 PHY 2048L General Physics I Laboratory................................... 1 *COP 2510 Programming Concepts............................................... 3

Total ................................................................................... 14 FA L L S E M E S T E R - Y E A R 2 MAC 2283 Engineering Calculus III...............................................4 PHY 2049 General Physics II.........................................................3 PHY 2049L General Physics II Laboratory...................................1 *COP 3514 Program Design.............................................................3 FKL Social and Behavioral Sciences Elective..................................3

Total ................................................................................... 14 SPRING SEMESTER - YEAR 2 MAP 2302 Differential Equations (or EGN 3433 Modeling and Analysis of Engineering Systems) ...................................................3 *CDA 3103 Computer Organization ................................................3 COT 3100 Introduction to Discrete Structures ................................3 COP 3331 Object-Oriented Design .................................................3 FKL Humanities Elective..................................................................3

Total ................................................................................... 15 SUMMER TERM - YEAR 2 CDA 3201 Computer Logic and Design...........................................3 CDA 3201L Computer Logic and Design Lab..................................1 COP 4530 Data Structures...............................................................3 EGN 4450 Introduction to Linear Systems.......................................2

Total ..................................................................................... 9 Continuation in the Major

Total ...................................................................................15 SPRING SEMESTER - YEAR 3 CDA 4203 Computer System Design...............................................3 CDA 4203L Computer System Design Lab..................................... 1 COP 4600 Operating Systems.........................................................3 EGN 3615 Engineering Economics..................................................3 CSE Hardware Upper-Level Elective................................................3 Natural Sciences Elective.................................................................3

Total .................................................................................. 16 SUMMER TERM - YEAR 3 Recommended Internship or Co-Op

FA L L S E M E S T E R - Y E A R 4 CDA 4213 CMOS-VLSI Design....................................................... 3 CDA 4213L CMOS-VLSI Design Lab.............................................. 1 EGN 3443 Probability and Statistics for Engineers................................................................................... 3 ENC 3246 Communication for Engineers (6A WI)........................... 3 CSE Upper-Level Elective............................................................... 3 FKL Fine Arts Elective..................................................................... 3

Total .................................................................................. 16 SPRING SEMESTER - YEAR 4 CIS 4910 Senior Project...................................................................2 CIS 4250 Ethical Issues & Professional Conduct (CD).....................3 FKL Human/Diversity & Global Elective...........................................3 FKL Humanities Elective..................................................................3 CSE Hardware Upper-Level Elective................................................3

Total .................................................................................. 14 Note: Courses in bold must be completed with a competitive GPA. * Requires a minimum grade of a “B” R = Required course

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Requires completion of CDA 3103 and COP 3514 with a minimum grade of “B” (a “B-“ is insufficient) in each course based on best attempts with a maximum of two attempts.

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With the exception of the courses referred to in the admissions statement above, C- is the minimum acceptable grade in each math, science and engineering course. A minimum GPA of 2.00 in the following categories must be maintained at all times: Overall, USF, Math/Science, Engineering Courses and Specialization Courses.

•

All math, science and engineering courses must be successfully completed in no more than three registered attempts. Grades of W, I, IF, U, R, and M are considered attempts. Registration that is canceled for non-payment is also considered an attempt.

Gordon Rule (6A) is fully met through the mathematics courses above, ENC 1101, ENC 1102, ENC 3246 and CIS4250. Gordon Rule communication requirement is met for any student entering USF with 60 or more hours. Exit requirements must be taken at USF. Exit requirements must be taken at USF. The Capstone Design (CD) and Writing Intensive (WI) exit requirements are met through ENC 3246 and CIS 4250.

10 10

Course sequence: Courses in bold should be taken in sequence as early as possible in preparation for your major. Foundation of Knowledge & Learning (FKL) courses may be taken in any order.

Computer Science

Bachelor of Science in Computer Science (BSCS)

Nature of the Work The Computer Science program focuses on the design, development, and application of software systems and on the theory of computation. Additional course work in algorithms, discrete structures, object oriented design, data structures, operating systems, digital logic design, computer architecture, and a wide range of advanced electives extend and supplement the core. Graduates from the department follow rewarding careers in software and hardware development in industry and in government agencies. In addition to providing the credentials necessary for a professional career, the undergraduate curriculum prepares students for graduate education towards an M.S. or Ph.D. within the department or at other universities. The department faculty members are very committed to including undergraduate students in research through the Research Experience for Undergraduates (REU) program.

2014 average starting salary - $67,300 (NACE April 2014)

USF Department of Computer Science & Engineering Expertise •

Artificial intelligence

•

Computational biology

•

Computer-aided design

•

Computer networks

•

Computer vision and pattern recognition

•

Database systems

•

Distributed systems

•

High-level circuit synthesis

•

Image and video analysis

•

Intelligent systems

•

Low-power circuit/system design

•

Medical imaging

•

Robotics

•

Software and network security

•

VLSI system design

•

Wireless and ad hoc sensor networks

or visit us: Engineering Building II on the third floor in ENB 342A

For more information, www.cse.usf.edu www.eng.usf.edu

BACHELOR OF SCIENCE IN COMPUTER SCIENCE (BCS) (CIP = 11.0101)........................120 credits Entrance requirements for the Computer Science program. All students must complete the equivalent of USF Composition I & II, Engineering Calculus I & II and Calculus-based General Physics I & II (with labs) with minimum grades of “C” in each course (grades of “C-” are insufficient). The minimum overall average GPA in these six courses required for admission to the Department is between 3.0 and 3.5 for any given year. The minimum acceptable average GPA will be posted on the Department’s website (http://www.cse.usf.edu) one year prior to the Fall Semester that the revised GPA is applicable. The computed GPA is based on the best attempts in these courses. Continuation in the major requires successful completion of CDA 3103 and COP 3514 with the required grade as stated in the Computer Science and Engineering prerequisite statement in the College of Engineering general section.

FA L L S E M E S T E R - Y E A R 1

FA L L S E M E S T E R – Y E A R 3

ENC 1101 Composition I...........................................................3 MAC 2281 Engineering Calculus I............................................4 EGN 3000 Foundations of Engineering...................................... R EGN 3000 LAB Foundations of Engineering...............................1 Natural Science Elective..............................................................3 FKL Social and Behavioral Science Elective.............................. 3

CDA 4205 Computer Architecture...............................................3 COT 4400 Analysis of Algorithms...............................................3 EGN 3443 Probability & Statistics for Engineers.........................3 CSE Software Upper-Level Elective............................................3 Natural Sciences Elective............................................................3

Total .............................................................................. 14 SPRING SEMESTER - YEAR 1 ENC 1102 Composition II..........................................................3 MAC 2282 Engineering Calculus II...........................................4 PHY 2048 General Physics I.....................................................3 PHY 2048L General Physics I Laboratory...............................1 *COP 2510 Programming Concepts...........................................3

Total .............................................................................. 14 FA L L S E M E S T E R - Y E A R 2 MAC 2283 Engineering Calculus III.............................................4 PHY 2049 General Physics II....................................................3 PHY 2049L General Physics II Laboratory..............................1 *COP 3514 Program Design........................................................3 FKL Social and Behavioral Sciences Elective.............................3

Total............................................................................... 14 SPRING SEMESTER - YEAR 2 *CDA 3103 Computer Organization............................................3 COP 3331 Object-Oriented Software Design.............................3 COT 3100 Introduction to Discrete Structures............................3 FKL Humanities Elective.............................................................3

Total............................................................................... 12 SUMMER TERM - YEAR 2

Total .............................................................................. 15 SPRING SEMESTER - YEAR 3 ENC 3246 Communication for Engineers (WI)........................... 3 COP 4600 Operating Systems....................................................3 CSE Theory Upper-Level Elective...............................................3 CSE Software Upper-Level Elective............................................3 CSE Upper-Level Elective...........................................................3

Total .............................................................................. 15 SUMMER SEMESTER - YEAR 3 Recommended Internship or Co-op

FA L L S E M E S T E R - Y E A R 4 FKL Fine Arts Elective................................................................ 3 FKL Human Cultural Diversity and Global Context Elective...... 3 FKL Humanities Elective............................................................ 3 CSE Upper-Level Elective.......................................................... 3 CSE Upper-Level Elective.......................................................... 3

Total .............................................................................. 15 SPRING SEMESTER - YEAR 4 CIS 4250 Ethical Issues and Professional Conduct................... 3 CSE Elective................................................................................3 CSE Elective................................................................................3 Upper Level FKL Humanities, Social Science or FKL Fine Arts Elective.............................................................3

CDA 3201 Computer Logic and Design......................................3 CDA 3201L Computer Logic and Design Lab.............................1 COP 4530 Data Structures..........................................................3 EGN 4450 Introduction to Linear Systems..................................2

Total .............................................................................. 12

Total................................................................................. 9

R= Required course

Notes: Courses in bold must be completed with a competitive GPA. * Requires a minimum grade of a “B”

Continuation in the Major •

Requires completion of CDA 3103 and COP 3514 with a minimum grade of “B” (a “B-“ is insufficient) in each course based on best attempts with a maximum of two attempts.

•

Gordon Rule (6A) is fully met through the mathematics courses above, ENC 1101, ENC 1102, ENC 3246 and CIS 4250. Gordon Rule communication requirement is met for any student entering USF with 60 or more hours. Exit Requirements: Exit requirements must be taken at USF. The Capstone Design (CD) and Writing Intensive (WI) exit requirements are met through ENC 3246 and CIS 4250.

12 12

Course sequence: Courses in bold should be taken in sequence as early as possible in preparation for your major. Foundation of Knowledge & Learning (FKL) courses may be taken in any order.

Information Technology

Bachelor of Science in Information Technology (BSIT)

Nature of the Work The Information Technology program fills the gap between Computer Science and Management

USF Department of Computer Science & Engineering Expertise •

Artificial intelligence

•

Computational biology

•

Computer-aided design

•

Computer networks

specialization in key information technology topics or get

•

Computer vision and pattern recognition

familiar with a broad range of computing technologies.

•

Database systems

Currently all IT courses are online; this might change in

•

Distributed systems

the future.

•

High-level circuit synthesis

•

Image and video analysis

Graduates from the department follow rewarding

•

Intelligent systems

careers in a broad range of computing-related capacities

•

Low-power circuit/system design

•

Medical imaging

•

Robotics

•

Software and network security

•

VLSI system design

•

Wireless and ad hoc sensor networks

Information Systems. This program focuses on identifying suitable technologies and applying fundamental computing knowledge to solve business problems. Students in this program can acquire a

in industry and in government agencies. In addition to providing the credentials necessary for a professional career, the undergraduate curriculum in Information Technology prepares students for graduate education towards an M.S. in Information Technology. Information Technology students are highly encouraged to participate in industry internships. Internship opportunities are regularly made available to the students.

2014 average starting salary - $58,400 (NACE does not have a specific information technology category. Information sciences is used here.)

or visit us: Engineering Building II on the third floor in ENB 342A

BACHELOR OF SCIENCE IN INFORMATION TECHNOLOGY (ITC) (CIP = 11.0103).........................................................120 credits

Entrance requirements for the Information Technology program. All students must complete the equivalent of PSY 2012, STA 2023, ECO 2013, CGS 2935, COP 2930, MAC 1147, PHY 2020, MAD 2104, and COP 2931 with minimum grades of “C” in each course (grades of “C-“ are insufficient) and an overall GPA for these courses of 2.00 to guarantee admission to the program. Admission may be made based on academic performance in the five key courses as highlighted above. The remaining courses may then be taken as an IT major. The computed GPA is based on the best attempts in these courses.

Information Technology (ITC), BSIT, 120 The schedule that follows indicates the required courses for this degree program and the recommended sequence of registration for full time engineering students. Students who adhere to the recommended sequence of courses, and complete each course with the required grade, will be fully prepared for each subsequent semester. Registration assistance will be provided by academic advisors in the College of Engineering.

FA L L S E M E S T E R - Y E A R 1

FA L L S E M E S T E R - Y E A R 3

EGN 3000 Foundations of Engineering.......................................... 0 ENC 1101 Composition I................................................................ 3 CGS 2935 Intro to Databases...................................................... 3 General Elective............................................................................. 3 FKL Human Cult Div & Global Content ......................................... 3

COP 3515 IT Program Design........................................................ 3 CEN 3722 Human Computer Interfaces for IT............................... 3 INR 3033 International Issues (or equivalent) ................................ 3 ENC 3246 Communications for Engineers (WI)............................. 3

Total .................................................................................. 12

SPRING SEMESTER - YEAR 1

SPRING SEMESTER - YEAR 3

EGN 3000L Foundations of Engineering........................................1 ENC 1102 Composition II ..............................................................3 COP 2930 IT Programming Concepts............................................3 MAC 1147 PreCalculus Algebra/Trigonometry...............................4 PSY 2012 Intro to Psych Science (FKL Soc/Beh)..........................3

Total .................................................................................. 14 FA L L S E M E S T E R - Y E A R 2 COP 2931 IT Object Oriented Programming..............................3 STA 2023 Intro to Statistics............................................................3 Natural Life Science.......................................................................3 ECO 2013 Economic Principles (Macroeconomics) (FKL Soc/Beh)...............................................................................3 General Elective............................................................................3

Total................................................................................... 15 SPRING SEMESTER - YEAR 2 MAD 2104 Discrete Math...............................................................3 PHY 2020 Conceptual Physics....................................................3 FKL Fine Arts Elective....................................................................3 FKL Humanities Elective (and HHCP)............................................3 ___________________________________________________________ Total ............................................................................................12

SUMMER SEMESTER - YEAR 2 CGS 3303 IT Concepts..................................................................3 General Elective.............................................................................3 FKL Humanities Elective................................................................3 ___________________________________________________________ Total ..............................................................................................9

CDA 3101 IT Computer Organization for Engineers...................... 3 EEL 4854 Data Structures and Algorithms for IT........................... 3 EEL 4782 Computer Information Networks for IT.......................... 3 EEL 4782L Comp Info Networks for IT Lab................................... 1 ETG 4931 Adv Written & Oral Comm Skills for IT.......................... 3 IT Approved Elective...................................................................... 3

Total ................................................................................. 16 SUMMER SEMESTER - YEAR 3 Recommended Internship or Co-op

FA L L S E M E S T E R - Y E A R 4 COP 4610 Operating Systems for IT..............................................3 CEN 4031 Software Engineering for IT..........................................3 COP 4703 Database Systems for IT ..............................................3 IT Approved Elective......................................................................3 IT Approved Elective......................................................................3

Total .................................................................................. 15 SPRING SEMESTER - YEAR 4 CIS 4253 IT Ethics (6A)...................................................................3 COP 4930 IT Seminar ....................................................................3 CIS 4935 IT Senior Project.............................................................5 IT Approved Elective......................................................................3 IT Approved Elective......................................................................3 ___________________________________________________________ Total ............................................................................................15

Gordon Rule (6A) is fully met through the mathematics courses above, ENC 1101, ENC 1102, ENC 3246, and CIS 4253 or by completing an A.A. degree at a Florida College System institution. The writing intensive and capstone design exit requirements are fully met through ENC 3246 and CIS 4253. Foundations of Learning and Knowledge Core Curriculum: The math and science courses required for this major fully meet the math and science requirements of the FKL core curriculum. Students in the College of Engineering may substitute a second “Physical Science” course for the required “Life Science” course.

Electrical Engineering

Bachelor of Science in Electrical Engineering (BSEE)

Nature of the Work The Electrical Engineering Department at USF offers study in all areas fundamental to electrical engineering and the electrical sciences: circuit analysis and design, electronics, communications, electromagnetics, controls, solid state, system analysis, microelectromechanical systems (MEMS), bioelectrical devices and systems, and power engineering. Basic concepts are augmented with well-equipped laboratories in circuits, electronics, digital systems, microwave techniques, wireless circuits and systems, and controls and communications. In addition, a general-purpose computer facility, a microprocessor and digital signal processing laboratory, and a microelectronics fabrication, design/test and metrology laboratory are available to undergraduate and graduate students.

USF Department of Electrical Engineering Expertise •

Energy/Power Systems

•

Biomedical Systems/Bioengineering

•

Communications/Networking

•

RF/Microwave/Electromagnetics

•

Signal Processing/Imaging

•

NanoElectronics

•

Circuits/Systems/Controls

•

Materials

For more information, http://ee.eng.usf.edu www.eng.usf.edu

2014 average starting salary - $62,300 (NACE April 2014)

BACHELOR OF SCIENCE IN ELECTRICAL ENGINEERING .....................................................128 credits Entrance requirements for the Electrical Engineering program. Completion of the following courses with a minimum grade of C in each course and an overall grade point average of 3.00 (based on best attempt) for the following courses: - Calculus I or Engineering Calculus I (MAC2311 or MAC2281) - General Chemistry I (CHM 2045/L or CHS 2440/L) - Calculus II or Engineering Calculus II (MAC2312 or MAC2282)

- Physics I (PHY2048, 2048L) - Calculus III or Engineering Calculus III (MAC2313 or MAC 2283) - Physics II (PHY2049 & 2049L)

FA L L S E M E S T E R - Y E A R 1

FA L L S E M E S T E R – Y E A R 3

MAC 2281 Engineering Calculus I or MAC 2311 Calculus I (CAMA).........................................................................4 CHS 2440 Chemistry for Engineers or CHM 2045 General Chemistry I....................................................3 CHS 2440L Chemistry for Engineers Lab or CHM 2045L General Chemistry I Lab....................................... 1 CASB FKL Social & Behavioral Sciences...................................... 3 EGN 3000 Foundations of Engineering.........................................R EGN 3000L Foundations of Engineering Lab................................ 1 ENC 1101 Composition I............................................................... 3

EEE 4351C Semiconductor Devices.............................................. 3 EEL 3100 Network Analysis and Design........................................ 3 EEL 3115L Laboratory I.................................................................. 1 EEL 4471 Electromagnetics........................................................... 3 FKL Humanities Elective................................................................ 3

Total ..................................................................................15

EEE 3302 Electronics I................................................................... 3 EEL 4102 Linear Systems Analysis................................................ 3 EEL 4423L Wireless Circuits & Systems Design Laboratory........................................................... 2 EGN 3443 Probability and Stats for Engineers..............................3 EEL 4743L Microprocessor Lab..................................................... 1 EEL 4744 Microprocessor Principles and Applications............................................................................. 3 EGN 3375 Electromechanical Systems.......................................... 3

SPRING SEMESTER - YEAR 1 MAC 2282 Engineering Calculus II or MAC 2312 Calculus II (CAMA)...................................................4 EEL 4705 Logic Design..................................................................3 ENC 1102 Composition II...............................................................3 PHY 2048 General Physics I - Calculus Based (CANP).................3 PHY 2048L General Physics I Laboratory......................................1

Total ..................................................................................14 FA L L S E M E S T E R - Y E A R 2 MAC 2283 Engineering Calculus III or MAC 2313 Calculus III................................................................4 EEL 2161 EE Computing Methods.................................................3 EEE 3394 Electronic Materials.......................................................3 EGN 3615 Engineering Economics with Social and Global Implications (CASB)........................................................................3 PHY 2049 General Physics II - Calculus Based.............................3 PHY 2049L General Physics II Laboratory.....................................1

Total...................................................................................17 SPRING SEMESTER - YEAR 2 MAP 2302 Differential Equations or EGN 3433 Modeling & Analysis of Eng. Systems......................3 EEL 4705L Logic Design Lab.........................................................1 EGN 3373 Introduction to Electrical Systems................................3 EGN 3420 Engineering Analysis.....................................................3 FKL Fine Arts Elective....................................................................3 Total ............................................................................................16

SUMMER SEMESTER CAHU FKL Humanities...................................................................3 EGN 3374 Introduction to Electrical Systems II.............................3 ENC 3246 Communication for Engineers (WRIN)..........................3 Total ..............................................................................................9

Total .................................................................................. 13 SPRING SEMESTER - YEAR 3

Total .................................................................................. 18 SUMMER SEMESTER Internship/Co-op Participation

FA L L S E M E S T E R - Y E A R 4 Upper-Level Department Elective..................................................3 EEL 3116L Laboratory II.................................................................1 EEL 4512C Introduction to Communication Systems....................3 EEL 4657 Linear Control Systems..................................................3 EEL 4657L Linear Controls Laboratory..........................................1 EEL 4906 Professional Issues and Engineering Design.................3

Total .................................................................................. 14 SPRING SEMESTER - YEAR 4 CAGC FKL Human Cultural Diversity & Global Context................3 Upper-Level Department Elective..................................................3 Upper-Level Department Elective..................................................3 Upper-Level Department Elective..................................................3 EEL 4914 Senior Project Design (CPST.........................................3 Total ............................................................................................15 Note: Courses in bold must be completed with an overall 3.00. * Requires a minimum grade of a “B” † Optional, but highly encouraged R - Required course

Continuation in the Major •

Completion of EGN 3373, EGN 3374, and Differential Equations with grades of B or higher (best attempt).

•

“C“ is the minimum acceptable grade in each engineering course (except for EGN 3373, EGN 3374 & MAP 2302). A minimum GPA of 2.0 in the following categories must be maintained at all times: Overall, USF, Math/Science, Engineering Courses and Specialization Courses.

•

Gordon Rule: (6A) is fully met through the mathematics courses above, ENC 1101, ENC 1102, ENC 3246 and by selecting one technical or general education elective that is an approved 6A communication course. Gordon Rule communication requirement is met for any student entering USF with 60 or more hours. Exit Requirements: Exit requirements must be taken at USF. The Capstone Design (CD) and Writing Intensive (WI) exit requirements are met through ENC 3246 and EEL 4906.

Course sequence: Courses in bold should be taken in sequence as early as possible in preparation for your major. Foundation of Knowledge & Learning (FKL) courses may be taken in any order.

REQUIREMENTS FOR THE ELECTRICAL ENGINEERING HONORS PROGRAM: I. Admissions Criteria A. Junior status – An invitation to apply will be sent to eligible students at the start of their junior year by the Department of Electrical Engineering and application can be made at that time with decisions made at the end of the first semester, junior year. B. Completion of the core courses required for the Electrical Engineering major with a GPA of at least 3.5 through the completion of the first semester, junior year. C. An overall GPA of at least 3.5 through the completion of the first semester, junior year. D. Recommendation of a committee consisting of Electrical Engineering faculty members and engineering leaders from industry, based upon an application, letters of recommendation, statement of interest, and an interview. II. Requirements for Completion of Departmental Honors A. Completion of requirements for a major in Electrical Engineering with a GPA of at least 3.5 for core courses and an overall GPA of at least 3.5. B. Selection of two (2) Technical Electives in conjunction with a program advisor. One of the courses should be a 4000 level Sustainable Engineering/Green Engineering course and the other should be a course at the 5000/6000 level. C. Nine (9) additional credits (the EE Honors courses) beyond the degree requirements, which include a 4000 level Leadership Forum, 4000 level Internship/Study Abroad/Enrichment Experience, and 5000 level Honors Thesis. These courses are described in the sequel. Continuation Requirements A. Electrical Engineering Leadership Honors Program students failing to complete the EE Honors courses with a grade of “B” or better will not be eligible to continue in the program and will be notified by the Department of Electrical Engineering of their dismissal from the program. B. Electrical Engineering Leadership Honors Program students must complete and defend their Honors thesis in the second semester of their senior year. Students who do not complete this requirement may, upon the recommendation of their Honors thesis supervisor and the Department of Electrical Engineering, be allowed to continue in the program until the final semester prior to their graduation. Under no circumstances shall the extension be for more than one academic year.

Industrial Engineering

Bachelor of Science in Industrial Engineering (BSIE)

Nature of the Work Our undergraduate program, with its wide array of courses, attracts students with various backgrounds and broad academic interests and career goals. Many students find the flexibility of career choices of industrial engineering very appealing. Solid grounding in mathematical and statistical modeling, together with a broad business view of engineering decisions, place industrial engineers in high demand for all sectors of the economy in a variety of engineering and business arenas. The IMSE faculty and staff are dedicated to creating an environment for student success through innovative teaching, comprehensive mentoring and career development, and cutting edge research and innovation.

USF Industrial and Management Systems Engineering graduates find jobs in: Manufacturing Engineering Quality Engineering Product Engineering Lean Six Sigma Big Data Analytics Management Consulting Medical Decision Making Healthcare Consulting Information Technology Business Software Systems Logistics Engineering Marketing Analytics

Process Engineering Reliability Engineering Business Development Business Planning Commercial Banking Investment Banking Health Systems Engineering Risk Management Data Management Systems Engineering Sales Project Engineering/ Management

2014 average starting salary - $61,400 (NACE April 2014)

For more information http://imse.eng.usf.edu www.eng.usf.edu

BACHELOR OF SCIENCE IN INDUSTRIAL ENGINEERING ..................................................128 credits Entrance requirements for the Industrial Engineering program. Completion of the following courses with a minimum grade of C in each course and an overall grade point average of 2.4 (based on best attempt) for the following courses: - Calculus I or Engineering Calculus I (MAC2311 or MAC2281) - General Chemistry I (CHM 2045/L or CHS 2440/L) - Calculus II or Engineering Calculus II (MAC2312 or MAC2282)

- Physics I (PHY2048, 2048L) - Calculus III or Engineering Calculus III (MAC2313 or MAC 2283) - Physics II (PHY2049 & 2049L)

FA L L S E M E S T E R - Y E A R 1

SUMMER SEMESTER

ENC 1101 Composition I........................................................ 3 MAC 2281 Engineering Calculus I ...................................... 4 CHS 2440 Chemistry for Engineers ................................... 3 CHS 2440L Chemistry for Engineers Lab .......................... 1 EGN 3000 Foundations of Engineering .................................R EGN 3000 LAB Foundations of Engineering ......................... 1 FKL Social & Behavioral Science Elective ............................. 3

EGN 3343 Thermodynamics ................................................. 3 EGN 3615 Engineering Economics (FKL SB)......................... 3 FKL Human/Diversity & Global Elective................................. 3

Total............................................................................ 15

ESI 2009F Intro Engineering Programming............................. 3 ENC 3246 Communication for Engineers (6A WI).................. 3 EIN 4312CF Work Analysis..................................................... 3 EIN 4621F Manufacturing Processes...................................... 3 ESI 4312F Deterministic Operations Research....................... 3

SPRING SEMESTER - YEAR 1 ENC 1102 Composition II ...................................................... 3 MAC 2282 Engineering Calculus II ..................................... 4 PHY 2048 General Physics I ............................................... 3 PHY 2048L General Physics I Lab ...................................... 1 PHZ 2102† Problems Physics I.............................................. 1 FKL Humanities Elective........................................................ 3 FKL Fine Arts Elective............................................................ 3

Total............................................................................ 18 FA L L S E M E S T E R - Y E A R 2 MAC 2283 Engineering Calculus III...................................... 4 PHY 2049 General Physics II................................................ 3 PHY 2049L General Physics II Lab....................................... 1 EGN 4450 Linear Systems...................................................... 2 EGN 3443 Probability & Statistics for Engr............................. 3 FKL Humanities Elective......................................................... 3

Total............................................................................ 16 SPRING SEMESTER - YEAR 2 EGN 3311 Statics ................................................................... 3 EGN 3373 Intro to Electrical Systems I................................... 3 EGS 1113 Design Graphics..................................................... 3 EGN 3433 Modeling & Analysis of Engineering Systems or MAP 2302 Differential Equations ........................ 3 EGN 3365 Materials Engineering I.......................................... 3

Total............................................................................ 15

Total.............................................................................. 9 FA L L S E M E S T E R – Y E A R 3

Total............................................................................ 15 SPRING SEMESTER - YEAR 3 ESI 4620S Design of Industrial Info Systems.......................... 3 EIN 4333S Production Control ............................................... 3 ESI 4221S Industrial Statistics/Quality Control ...................... 3 ESI 4313S Probabilistic OR .................................................... 3 Tech Elective Industrial Engineering....................................... 3

Total............................................................................ 15 FA L L S E M E S T E R - Y E A R 4 EIN 4634F Facilities Design & Cost Analysis.......................... 3 ESI 4606F Engineering Analytics I ......................................... 3 ESI 4244F Design of Experiments .......................................... 3 ESI 4523F Systems Simulation............................................... 3 Tech Elective Industrial Engineering....................................... 2

Total............................................................................ 14 SPRING SEMESTER - YEAR 4 EIN 4243CS Human Factors (6A) ........................................... 3 EIN 4891S Capstone Design (CD) .......................................... 3 EIN 4601CS Automation and Robotics .................................. 3 ESI 4607S Engineering Analytics II......................................... 3

Total............................................................................ 12

Notes: Courses in bold must be completed with an overall GPA of 2.00. † - Optional, but highly encouraged R - Required course F – Courses offered only in the fall semester (EIN and ESI courses are taught once a year) S – Courses offered only in the spring semester (EIN and ESI courses are taught once a year) Continuation Requirements: •

Requires a minimum grade of a “C” in each math, science and engineering course.

•

A minimum GPA of 2.0 in the following categories must be maintained at all times: Overall, USF, Math/Science, Engineering Courses and Specialization Courses.

•

Gordon Rule: (6A) is fully met through the mathematics courses above, ENC 1101, ENC 1102, ENC 3246 and EIN 4243C. Gordon Rule communication requirement is met for any student entering USF with 60 or more hours. Exit Requirements: Exit requirements must be taken at USF. The Capstone Design (CD) and Writing Intensive (WI) exit requirements are met through ENC 3246 and EIN 4891. Course sequence: Courses in bold should be taken in sequence as early as possible in preparation for your major. Foundation of Knowledge & Learning (FKL) courses may be taken in any order.

15 19

Mechanical Engineering

Bachelor of Science in Mechanical Engineering (BSME)

Nature of the Work Mechanical engineering is a discipline of engineering that applies the principles of physics and materials science for analysis, design, manufacturing, and maintenance of mechanical systems. It is the branch of engineering that involves the production and usage of heat and mechanical power for the design, production, and operation of machines and tools. It is one of the oldest and broadest engineering disciplines. The engineering field requires an understanding of core concepts including mechanics, kinematics, thermodynamics, materials science, and structural analysis. Mechanical engineers use these core principles along with tools like computer-aided engineering and product lifecycle management to design and analyze manufacturing plants, industrial equipment and machinery, heating and cooling systems, transport systems, aircraft, watercraft, robotics, medical devices and more. 2014 average starting salary - $63,100 (NACE April 2014)

USF Department of Mechanical Engineering Expertise • • • • • • • • • • • • •

Biomedical and Tissue Engineering MEMS Biosensors and Biofluids Nano Materials and Manufacturing Clean Energy Technologies Rehabilitation Engineering Compliant Mechanisms Robotics and Controls Composite Materials Sustainable Design and Manufacturing Engineering Education System Dynamics and Vibrations Heat Transfer and Thermo-fluids

Visit us on the web http://me.eng.usf.edu www.eng.usf.edu Mailing Address: Department of Mechanical Engineering University of South Florida 4202 East Fowler Avenue, ENB 118 Tampa, FL 33620

Visit us: Engineering Building III, ENC 2300

Call us: 813-974-2280

Key Office Contacts: Dr. Rajiv Dubey, Chair: 813-974-5619 Dr. Daniel Hess, Undergraduate Coordinator: 813-974-5643 Yaricet Ruiz, Academic Services Administrator: 813-974-5624

BACHELOR OF SCIENCE IN MECHANICAL ENGINEERING ....................................................128 credits Entrance requirements for the Mechanical Engineering program. The minimum admission requirements for students entering are (1) a 2.0 overall GPA, and (2) a 3.0 GPA in Calculus I, Calculus II, and General Physics I based on best attempts. The minimum continuation requirements beyond the first semester in the Department of Mechanical Engineering are (1) 2.0 overall GPA, 2.0 EGN engineering GPA and 2.0 EML specialization GPA, (2) C in both EML 3500 Mechanics of Solids and EGN 3343 Thermodynamics 1, (3) C- in all other EGN and EML prerequisite courses, and (4) D- in all terminal courses.

FA L L S E M E S T E R - Y E A R 1

SUMMER SEMESTER

ENC 1101 Composition I......................................................3 MAC 2281 Engineering Calculus I........................................4 CHS 2440 Chemistry for Engineers.....................................3 CHS 2440L Chemistry for Engineers Lab.........................1 EGN 3000 Foundations of Engineering............................... R EGN 3000 LAB Foundations of Engineering Lab.................1 FKL Humanities Elective......................................................3

EGN 3365 Materials Engineering.........................................3 EGN 3443 Probability & Statistics for Engineers..................3 FKL Human/Diversity & Global Elective...............................3 EML 3035 Programming Concepts......................................1

Total.......................................................................... 15 SPRING SEMESTER - YEAR 1 ENC 1102 Composition II.....................................................3 MAC 2282 Engineering Calculus II....................................4 PHY 2048 General Physics I..............................................3 PHY 2048L General Physics I Lab.....................................1 PHZ 2102† Problems Physics I............................................1 FKL Fine Arts Elective..........................................................3

Total.......................................................................... 15 FA L L S E M E S T E R - Y E A R 2 MAC 2283 Engineering Calculus III......................................4 PHY 2049 General Physics II...............................................3 PHY 2049L General Physics II Lab......................................1 *EGN 3311 Statics................................................................3 FKL Social and Behavioral Science Elective........................3

Total.......................................................................... 14 SPRING SEMESTER - YEAR 2 EGN 3321 Dynamics............................................................3 EGN 3343 Thermodynamics I..............................................3 EML 3500 Mechanics of Solids............................................3 MAP 2302 Differential Equations..........................................3 EGN 3615 Engineering Economics with Social and Global Applications .........................................................................3

Total.......................................................................... 15

Note: Courses in bold must be completed with an overall grade point average of 3.00. * - High priority course that begins a 5 semester sequence. R – Required course. † - Optional, but highly encouraged

Total.......................................................................... 10 FA L L S E M E S T E R – Y E A R 3 EML 3701 Fluid Systems......................................................3 EML 3262 Kinematics and Dynamics of Machinery.............3 EML 4325 Mechanical Manufacturing Processes................3 EML 3041 Computational Methods.....................................3 ENC 3246 Communication for Engineers (6A WI)................3

Total.......................................................................... 15 SPRING SEMESTER - YEAR 3 EML 4501 Machine Design..................................................3 EML 3303 Mechanical Engineering Lab I.............................3 EGN 3373 Electrical Systems I.............................................3 EML 4106C Thermal Systems..............................................3 EML 3022 Computer Aided Design and Engineering...........3

Total.......................................................................... 15 FA L L S E M E S T E R - Y E A R 4 Approved Technical/Design/Science Elective......................3 EML 4302 Mechanical Engineering Lab II............................3 EML 4220 Vibrations............................................................3 Approved Technical/Design/Science Elective......................3 EML 4123 Heat Transfer.......................................................3

Total.......................................................................... 15 SPRING SEMESTER - YEAR 4 EML 4312 Mechanical Controls...........................................3 EML 4551 Capstone Design (CD)........................................3 Approved Technical/Design/Science Elective......................3 Approved Technical/Design/Science Elective......................3 FKL Humanities Elective......................................................3

Total.......................................................................... 15

Biomedical Engineering

Minor in Biomedical Engineering

MINOR IN BIOMEDICAL ENGINEERING ......................................................................................15 credits This Biomedical Engineering minor is a 15 credit hour program that is open to all engineering majors and other students that meet the prerequisites listed below. For engineering majors, at least 9 hours beyond the B.S. in any engineering discipline must be completed for the biomedical engineering minor. Student must register with the Department of Chemical & Biomedical Engineering undergraduate advisor prior to starting this minor program. Departments within the College of Engineering are currently developing additional courses that will be added to the list of courses that can be applied to this minor, so consultation with the advisor will ensure that students are informed of all offered courses. PREREQUISITE COURSES: CREDITS

1. Biology I: BSC 2010..........................................................................................................................3-4 2. Calculus II: MAC 2282, MAC 2242, or MAC 2312............................................................................ 3-4 3. Physics II: PHY 2049 or PHY 2054................................................................................................... 3-4 4. General Chemistry II: CHM 2046...................................................................................................... 3-4 REQUIRED COURSES (6 CREDITS)

BME 4100 Biomedical Engineering..........................................................................................................3 BME 4406 Engineering of Biological Systems......................................................................................... 3 Elective Courses - 9 Hours

The remaining 9 credit hours can be taken from the following list: *

ECH 4931 Special Topics: Bioseparations

ECH 4931 Special Topics: Nanomedicine

* * * * * * * * * * * * * * * * *

ECH 4931 Special Topics: Chemical/Bio Sensors & Microfabrication ECH 4931 Special Topics: Modern Biomedical Technologies ECH 4931 Special Topics: Engineering Physiology

ECH 4931 Special Topics: Research Design Methods & Interpretations ECH 4931 Special Topics: Human Sensory Processes

ECH 4931 Special Topics: Biomedical Image Processing EEL 4936 Special Topics: Bioelectricity

PHZ 4702 Applications of Physics to Biology & Medicine I

PHZ 4703 Applications of Physics to Biology & Medicine II BCH 3023 Introductory Biochemistry EIN 4313C Human Factors

BME 5320 Theory and Design of Bioprocesses BME 5040 Pharmaceutical Engineering BME 4332 Cell and Tissue Engineering

BME 4440 Introduction to Bioastronautics

ECH 5748 Selected Topics in Biomedical Engineering*

BME 5748 Selected Topics in Biomedical Engineering*

*Please see academic advisor for required special topics courses.

**Please see academic advisor for selected special topics courses. 22 20

Computer Science Minor

Minor in Computer Science

MINOR IN COMPUTER SCIENCE ................................................................................................... 18 credits This Computer Science minor is an 18 credit hour program that is open to all students, except for Computer Science & Engineering Department majors, that meet the prerequisites listed below. The Computer Science minor is very attractive to students in other engineering departments, and to students in Mathematics and the Sciences (including Physics, Chemistry, and Biology). Students must register with the Department of Computer Science and Engineering undergraduate advisor prior to starting this minor program. Consultation with the department undergraduate advisor will ensure that students are informed of all offered courses. All catalog prerequisites and registration requirements must be met for enrollment in any of the courses required for the minor. All students desiring to pursue the minor must meet the same entry and continuation requirements as a departmental major. PREREQUISITE COURSES:

1. ENC 1101 and ENC 1102 2. (MAC 2311 or MAC 2281) and (MAC 2312 or MAC 2282) 3. PHY 2048 and PHY 2048L 4. PHY 2049 and PHY 2049L 5. Completion of COP 2510 with a minimum grade of B (grade of B- is insufficient) or another introductory program course covering a modern programming language, with an emphasis on programming concepts and design methodology with a minimum grade of B (grade of B- is insufficient) 6. COT 3100 Introduction to Discrete Structures is required REQUIRED COURSES (12 CREDITS)

COP 3514 Program Design...................................................................................................................... 3 CDA 3103 Computer Organization........................................................................................................... 3 COP 3331 Object Oriented Design.......................................................................................................... 3 COP 4530 Data Structures....................................................................................................................... 3 The remaining six credit hours can be taken from electives offered by the department. Specialty tracks in hardware, software, theory, and many other areas can be defined in consultation with the Department undergraduate advisor. A specific pre-graduate school track (requiring a total of 21 hours) intended for students planning to seek admission into the Department graduate program has been defined as follows:

COT 4400 Analysis of Algorithms............................................................................................................ 3 COP 4600 Operating Systems................................................................................................................. 3 CDA 4205 Computer Architecture............................................................................................................ 3 Successful completion of the minor requires a minimum 2.0 GPA in the above listed courses. 23 19

Information Technology General Minor

General Minor in Information Technology

GENERAL MINOR IN INFORMATION TECHNOLOGY ................................................................. 15 credits The IT General Minor is aimed at providing a good understanding of the concepts underlying information technology while allowing students to choose four elective topics in which to specialize. These electives encompass a wide spectrum of topics such as programming, networking and web design, human computer interface and security management. The outcome of this program is to build a solid culture of IT technologies and disciplines from scratch. PREQUISITE COURSES

There are no prequisites to enter the IT General Minor REQUIRED COURSES

CGS 3303 IT Concepts.............................................................................................................................3 Select four courses from the following list CDA 3101 Computer Organization for IT..................................................................................................3 CEN 3722 Human-Computer Interfaces for IT3.......................................................................................3 CIS 4361 IT Security Management3CIS 4412 IT Resource Management................................................3 COP 3515 Program Design for IT.............................................................................................................3 EEL 4782 Computer Information Networks for IT....................................................................................3 EEL 4854 Data Structures and Algorithms for IT......................................................................................3 ETG 4931 Special Topics in Technology 1............................................................................................1-5 ETG 4932 Special Topics in Technology II............................................................................................1-5

Information Technology Technical Minor

Technical Minor in Information Technology

TECHNICAL MINOR IN INFORMATION TECHNOLOGY ............................................................ 24 credits The IT Technical Minor enforces basic scientific prerequisites and requires students to attend three core IT courses meant to give them the conceptual and technical basis necessary to successfully dwell in more advanced topics. The elective part of the technical minor is composed of two electives to be chosen from a larger set of courses, including database systems and operating systems. Successful students are expected to develop a conceptual understanding of the IT field while developing programming skills to strengthen their major. PREREQUISITE COURSES

COP 2930 IT Programming Concepts......................................................................................................3 COT 3100 Introduction to Discrete Structures.........................................................................................3 PHY XXXX Physics....................................................................................................................................3 REQUIRED COURSES

CGS 3303 IT Concepts.............................................................................................................................3 COP 3515 Program Design for IT.............................................................................................................3 EEL 4854 Data Structures and Algorithms for IT......................................................................................3 Select four courses from the following list

CDA 3101 Computer Organization for IT..................................................................................................3 CEN 3722 Human-Computer Interfaces for IT......................................................................................... 3 CEN 4031 Software Engineering Concepts for IT....................................................................................3 CIS 4361 IT Security Management ......................................................................................................... 3 CIS 4412 IT Resource Management........................................................................................................3 COP 4610 Operating Systems for IT........................................................................................................3 COP 4703 Database Systems for IT.........................................................................................................3 EEL 4782 Computer Information Networks for IT....................................................................................3 ETG 4931 Special Topics in Technology...............................................................................................1-5 ETG 4932 Special Topics in Technology II............................................................................................1-5

Introducing the Design for X Laboratory The Design for X Laboratory (DFX) is a collaborative â&#x20AC;&#x2DC;makerspaceâ&#x20AC;&#x2122; for undergraduate students at the University of South Florida to pursue engineering projects that expand their creative design and project management skills. The main objective of DFX is to encourage students to engage in hands-on engineering projects and to enable the teaching of project-based engineering courses. DFX features a number of digital manufacturing tools and work/electronics benches that are available to all students who pursue engineering projects. Collaborations with non-engineering students are encouraged. Faculty are encouraged to participate in a collaborative or advising role with students pursuing projects.Â

The Design for X lab is home to new equipment that students can access to complete important engineering projects. Lab euipment includes a list of the following: • 3-D Printers • Laser Cutter • Large Format Inkjet Printers

M For more information or to

schedule the lab, please contact Ken Christensen: christen@csee.usf.edu

4202 East Fowler Avenue ENB 118 | Tampa, FL 33620 | 813.974.3780 | http://www.eng.usf.edu