56 CEET 2120. Power and Control Circuits (4) F Introduction to AC and DC motors, relays, transformers, power measurements, National Electrical Code, ladder logic, wiring, and programmable logic controllers (PLCs). Lecture and lab combination. Laboratory activities to include the design, construction, and analysis of basic power circuits and machinery configurations. Prerequisite: CEET 1140. CEET 2130. PC Board Design (4) S Introduction to the design of printed circuit boards and packaging with emphasis on the design, simulation, analysis and packaging of circuits. Lecture and lab combination. Laboratory activities include the design, construction, and testing of prototype circuit boards. CAD programs will be used for the design and layout of circuit boards. Prerequisite: CEET 2110. CEET 2140. Communications Circuits (4) S Introduction to digital and wireless communication circuits. Topics to include radio frequency circuits, modulation, detection, transmitters, receivers, transmission lines, antennas, and measurement instruments. Digital communications topics to include parallel and serial data transmission. Lecture and lab combination. Laboratory activities to include the design, construction, computer simulation, and analysis of communication circuits. Prerequisites: CEET 2110. CEET 2850. Telecommunications Circuits (2) S Telecommunications technology course for Telecommunications majors. Introduction to telecommunications technology. The course introduces the fundamentals of DC theory, AC theory, power, electronic components, semiconductor devices, digital fundamentals, integrated circuits, computer circuits, frequency, fiber optics, and wireless communications. Two one-hour lectures per week. CEET 2899. Associate Degree Assessment (0) This course is to serve as an assessment tool whereby all AAS degree seeking students in the College of Applied Science and Technology demonstrate their learned knowledge in at least three areas of Applied Technology study. At present, this knowledge will be demonstrated through the use of the Work Keys exams administered through the Campus Testing Center. CEET SI3010. Advanced Circuit Analysis I (4) F, S Advanced topics related to electronic circuit analysis, Laplace transforms, differential equations, Fourier series, Fourier transforms, and applications. Lecture and lab combination. Laboratory activities to include circuit design, construction, computer simulation, and analysis. Prerequisites: CEET 2010 and Math SI1210. CEET 3020. Advanced Circuit Analysis II (4) F, S Continuation of Advanced Circuit Analysis I, CEET SI3010. Active and passive filters, Z-transforms, Pole-zero analysis, stability, Bode diagrams, frequency response, and applications. Lecture and lab combination. Laboratory activities to include circuit design, construction, computer simulation, and analysis. Prerequisite: CEET SI3010. CEET 3030. FPGA and ASIC Design (4) F Introduction to field programmable gate arrays (FPGA) and application specific integrated circuit (ASIC) design. Lecture and lab combination. Laboratory activities to include the use of computer design tools to design, model, simulate, and program gate arrays and application specific integrated circuits. CEET 3040. Instrumentation and Measurements (4) S Introduction to electronic data acquisition, data analysis, error analysis, signal measurement, and automatic testing techniques. Lecture and lab combination. Laboratory activities to include the design, construction, and analysis of measurement circuits, data acquisition circuits, instrumentation devices, and automatic testing. Prerequisite: CEET 2010. CEET 3050. Assembly Language & Device Drivers (4) S Small computer architecture, computer I/O, graphics, assembly language fundamentals, BIOS, device drivers, advanced assembly language techniques. Lecture and lab combination. Laboratory activities to include design, simulation, computer programming, analysis, and troubleshooting. Prerequisite: CEET 1150. CEET 3070. Engineering Technology Research (4) F Introduction to engineering technology research principles. Engineering problem solving using the internet, human networking, and professional publications. Lecture and lab combination. Laboratory activities to include research, analysis, presentation, and documentation for specific engineering problems. CEET 4000. Engineering Seminar (1) An introduction to science, engineering and technology career fields. Industrial leaders, as guest speakers, will share their engineering experiences and provide insight into career choices. The student will research related topics and make a presentation. Prerequisite: CEET 2000. CEET 4010. Project Management (3) F, S Introduction to project management. Selection of a team and a senior project. Project management and problem solving techniques to include the design, construction, test, analysis, and documentation of the senior project. Lecture and lab combination. Laboratory activities to include goal preparation, research, reporting, team meetings, design reviews, and demonstrations. Prerequisite: Department approval. CEET 4020. Senior Project (3) F, S Continuation of Project Management, CEET 4010. Completion of the senior project. Lecture and lab combination. Laboratory activities to include design, construction, documentation, analysis and demonstration of the senior project. Presentations and demonstrations are required to confirm the completion of the senior project. Presentation, team building, and writing skills are emphasized. Prerequisite: CEET 4010. CEET 4030. Controls & Systems (4) F Introduction to automatic control theory, analysis, and testing, pole, zero, Bode plots, and frequency response. The design and application of programmable controllers using ladder logic, sequential functions charts, PID, and data highway. Lecture and lab combination. Laboratory activities to include computer simulation, servo-system construction, and analysis. Prerequisite: CEET 3020. CEET 4040. Digital Signal Processing (4) S An introduction to digital signal processing, digital filters, discrete and fast Fourier transforms, quantization, introduction to adaptive filters, industrial applications, and DSP hardware. Lecture and lab combination. Laboratory activities include the design, construction, computer simulation, and analysis of digital signal processing circuits. Prerequisite: CEET 3020. CEET 4050. Engineering Fundamentals Exam (F.E.) Prep (2) S A review of materials that are typically found on the Engineering Fundamentals Exam (F.E.). Topics are taught by faculty members according to their area of expertise. Topics included are mathematics, DC electricity, AC electricity, logic, engineering economics, statics, dynamics, strength of materials, fluid mechanics, chemistry, and thermodynamics. Two one-hour lectures per week. Prerequisite: Departmental approval required. CEET 4060. Advanced Communications (4) 5m Introduction to satellite communications, spread spectrum techniques, digital satellite communications, antennas, small signal amplifiers, Smith charts, and "S" parameter analysis. Lecture and lab combination. Laboratory activities to include the design, construction, computer simulation and analysis of wireless communications circuits and systems. Prerequisites: CEET 3020. CEET 4800. Individual Studies (1-4) F, S The student will receive credit for approved studies in an area not covered in the CEET program. A maximum of four credits can be counted as electives for CEET majors. CEET 4890. Cooperative Work Experience (1-4) F, S The student will receive credit for approved electronics industrial experience. Learning objectives will be written and supervisor evaluations will be conducted. A maximum of three credits can be counted for CEET majors. Ten hours of work each week is equivalent to one credit hour. CEET 4900. Special Topics (1-4) F, S A one-time special study course designed to introduce a new relevant topic that is not covered in the CEET program. Lecture and lab combination. Laboratory activities to support the selected course topic. A maximum of four credits can be counted for CEET majors. DEPARTMENT Computer Science Chair: Mr. David Hart Location: Technical Education Building, Room 110 Telephone: Mary Ellen Jones 801-626-7929 Academic Advisor: Dona Bilyeu-Dittman 801-626-7937 Salt Lake Program Coordinator: Richard Fry 801-957-4769 Technical Support Specialist: Steve Painter 801-626-7182 Professors: Robert L. Capener, R. Kenneth Walter; Associate Professors: David G. Hart, Kirby McMaster, Ronald D. Peterson; Assistant Professors: Delroy Brinkerhoff, David L. Ferro, William E. Hoggan; Instructors: Greg Anderson, Robert Hilton, Eric G. Swedin, Kent D. Weaver, Stephen K. Weaver I he Department of Computer Science offers Associate of Science and Associate of Applied Science Degrees in Computer Science and a Bachelor's Degree in Computer Science with emphases in Systems Integration/Networking; Software Engineering; or a Customized Option, which requires a minor. The Department also offers a minor, a teaching minor, and a BIS concentration. The program in Computer Science blends scientific and engineering principles. It contains actual, practical, applications- oriented experience as well as the intellectual study of computing. It is designed to provide a sound fundamental understanding of digital/processor logic and of digital computer organization as well as the interaction between hardware, software and the interconnection of system components. Also emphasized is software engineering which includes understanding of operating systems and other software systems design with implementation of the theory of computing, analysis of algorithms, simulation, compiler design, and knowledge-based systems. 57 The Computer Science Associate of Science and Bachelor curricula have a required common core of courses at the Freshman/ Sophomore level. The bachelor degree upper division work is divided into three selected areas. System Integration and Networking Emphasis is a system integration and hardware approach emphasizing system networking, drivers and internals. Software Engineering Emphasis is a technical, scientific approach requiring a solid foundation in mathematics. Customized Option provides a flexible approach for students pursuing a minor in another academic area, working toward a concurrent baccalaureate degree in a second department, or who already have a first bachelor's degree. Computer Science Major » Program Prerequisite: Completion or equivalent of a Weber State A.S. degree in Computer Science and acceptance into the baccalaureate degree program (application required). » Minor: Required for the Customized Option; not required for the other two emphasis areas. » Grade Requirements: A grade of "C" or better in all required CS and support courses. A grade of "C-" is not acceptable. In addition, an overall GPA of 2.70 or higher must be attained for these courses. Also refer to the general grade requirements for graduation on page 36. » Credit Hour Requirements: A total of 120 credit hours is required for graduation. The number of Computer Science credit hours required by the major varies depending upon the option or emphasis chosen. Advisement It is strongly suggested that Computer Science students see an advisor on a regular basis. Call the department secretary at 801-626- 7929 for an appointment with the advisor. Admission Requirements into the Bachelor Program 1. Complete an A.S. degree in Computer Science or equivalent. 2. Complete each of the following courses (or their equivalent) with an average grade of 2.7 ("B-") or higher: CS SI1220, CS SI2650 or CEET 1041, CS SI2750 and Engl 1010. 3. Formally apply for and be accepted to baccalaureate status through the Department of Computer Science. 4. Specific requirements and details may be obtained from a department advisor. General Education Refer to pages 36-41 for either Bachelor of Science or Bachelor of Arts degree equirements. If a Computer Science major does not have the prerequisite skills at entrance, TBE TE1700 is recommended to fill a portion of the WSU Computer Literacy core general education requirement. The Math QL1080 or 1210 course required for the Computer Science major also satisfies the WSU core general education Quantitative Literacy requirement. Computer Science majors must complete Comm HU1050 as part of the Humanities general education requirement. It is recommended that Computer Science majors take Phsx 2010/2010L for the Systems Integration Emphasis or Phsx PS/S12210/2210L for the Software Engineering Emphasis and Customized Option as part of the Physical Sciences general education requirement. Students who pass the Computer Science Advanced Placement A exam with a score of 3 or higher receive 8 hours of credit and specific credit for CS SI1023 (4). Students who pass the A/B exam with a score of 3 or higher receive 8 hours of credit and specific credit for CS SI1022 (4) and CS SI1023 (4). Contact the Computer Science department for more information. General PROFILE ENROLLMENT STUDENT AFFAIRS ACADEMIC INFO DEGREE REQ GEN ED mterdliclpmarf FYE HNRS BIS LIBSCI INTRD MINORS Applied Sciences Technology CEET CS- MFET/MET CMT CDGT ENGR AUTOSV/AUTOTC IDT SST TBE ties COMM ENGL FORLNG DANCE MUSIC THEATR ART MBA MPACC/ACCTNG BUSADM FIN LOM MGMT MKTG ECON/QUANT IS&T EducatHHi MEDUC CHFAM ATHL/AT HEALTH/NUTRI PE/REC EDUC Health Praft^fiitm^ CLS DENSCI PARAMD HTHSCI HAS/HIM NURSNG RADTEC DMS NUCMED RADTHR RESTHY Science BOTANY CHEM GEOSCI MATH/MATHED MICRO PHSX ZOOL Social & Behavioral MCJ/CJ ECON GEOGR HIST POLSC PHILO PSYCH SOCLWK GERONT SOCLGY ANTHRO AEROSP MILSCI NAVSCI W E B E R State Univ 2002-2003 CATALOG taring Ed s Campus E R S I T Y Weber State University 2002-2003 CATALOG