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Course Criteria
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3.00 Credits
Prerequisites: a grade of C or greater in STAT 3352; knowledge of a scientific programming language. Analysis of variance, factorial experiments, unequal subclasses, multiple regression and correlation, analysis of covariance, uses of chisquare tests, tests of independence, goodness of fit. Three hours lecture. Three credit hours.
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3.00 Credits
Prerequisite: a grade of C or greater in STAT 3352 or its equivalent. Comparison of classical and distribution-free tests of hypotheses, test assumptions, efficiency and related characteristics, Fisher's method of randomization, ranking tests, tests based on the binomial distribution. Three hours lecture. Three credit hours.
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3.00 Credits
Prerequisite: STAT 3351. Factorial experiments, randomized block designs, Latin squares, Graeco-Latin squares, analysis of covariance, incomplete block designs, distribution-free methods. Three hours lecture. Three credit hours.
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3.00 Credits
Prerequisite: SYEN 1301 or consent of instructor. Introduction to programming and problem solving with science and engineering applications. Program design methodology. Elements of C: variables, control structures, input/output, functions, storage classes. Arrays: one-dimensional, two-dimensional arrays,array pointers, dynamic storage for arrays. Declaration and definition of structure variables. Object oriented design and programming. Abstract data types. Elements of C++: classes, data members and member functions, access specifiers, access methods. Constructors and destructors. Arrays: One-dimensional and twodimensional arrays, dynamic storage for arrays. Operator overloading. Inheritance: base class and derived class. Polymorphism: abstract class and virtual functions. Function template and template classes. Three hours lecture. Three credit hours.
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3.00 Credits
Prerequisite: consent of instructor. Transmission fundamentals, communication networks, protocols and the TCP/IP suite, antennas and propagation, signal encoding techniques, spread spectrum, coding and error control, satellite communications, cellular wireless networks, cordless systems and wireless local loop, mobile IP and WAP, wireless LAN technology, IEEE 802.11 wireless LAN standard, and bluetooth technology. Required for systems engineering students in the telecommunication systems option, but open to all students on a spaceavailable basis. Two hours lecture. Two hours lab. Three credit hours.
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3.00 Credits
Prerequisite: consent of instructor. Direct current fundamentals; alternating current and components; electrical and electronic component functions; digital logic devices; computer architecture; computer components; semiconductors; the load line; CMOS logic and memory; other semiconductor devices and circuits; fabrication of ICs and MEMS; power generation, transmission, and distribution; wireless communication systems; digital signal processing; electronics terminology. Required for systems engineering students in the computer systems in the students in the electrical systems option, but open to all students on a space-available basis. Two hours lecture. Two hours lab. Three credit hours.
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3.00 Credits
Prerequisite: consent of instructor. The mechanical engineering profession; problem-solving skills; machine components and tools; forces in structures and fluids; materials and stresses; thermal and energy systems; motion of machinery; mechanical design. Required for systems engineering students in the mechanical systems option, but open to all students on a space-available basis. Two hours lecture. Two hours lab. Three credit hours.
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3.00 Credits
Prerequisite: MATH 1302 or 1315 or consent of instructor. Introduction to engineering as a profession, engineering problem solving, engineering design process, engineering ethics, engineering communication, history of engineering developments, and case studies involving leading inventions in the engineering field from a variety of disciplines. Students work in teams to build small engineering projects. Course includes industry visits and talks by industry specialists. Two hours lecture. Two hours lab. Three credit hours.
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3.00 Credits
Prerequisite or corequisite: SYEN 2315. Structured exercises to illustrate class topics. Both SPICE simulation and bread-boarding/measurement exercises. Use of spectrum analyzer to determine frequency response and system identification. Two hours lab. One credit hour.
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3.00 Credits
Prerequisite: MATH 1452. Introduction to dynamic modeling, converting real world problems into mathematical models, discrete dynamical system models with examples from natural sciences, social sciences, and engineering, systems with inputs, probabilistic modeling with discrete systems. Three hours lecture. Three credit hours.
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