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Course Criteria
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3.00 Credits
New or special courses are presented under this listing from time to time. Credit Hours: 3
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3.00 Credits
Active participation in a semester-long project, under the supervision of a faculty adviser. A Professional Project often serves as a culminating experience for a Professional Master's program but, with departmental or school approval, can be used to fulfill other program requirements. With approval, students may register for more than one Professional Project. Professional Projects must result in documentation established by each department or school, but are not submitted to the Graduate School and are not archived in the library. Grades of A, B, C, or F are assigned by the faculty adviser at the end of the semester. If not completed on time, a formal Incomplete grade may be assigned by the faculty adviser, listing the work remaining to be completed and the time limit for completing this work.
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3.00 - 9.00 Credits
Active participation in a master's-level project under the supervision of a faculty adviser, leading to a master's project report. Grades of IP are assigned until the master's project has been approved by the faculty adviser. If recommended by the adviser, the master's project may be accepted by the Office of Graduate Education to be archived in the Library. Grades will then be listed as Credit Hours: 3 to 9
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6.00 - 9.00 Credits
Active participation in research, under the supervision of a faculty adviser, leading to a master's thesis. Grades of IP are assigned until the thesis has been approved by the faculty adviser and accepted by the Office of Graduate Education to be archived in a standard format in the library. Grades will then be listed as S. Credit Hours: 6 to 9
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3.00 Credits
Review of the state of the art in optical fibers, light sources, and photodetectors. Topics include: propagation, coupling, dispersion, loss and cut-off characteristics of guided wave models in optical fibers, structural and operating parameters of various types of hetrostructure lasers and light-emitting diodes and quantum efficiency, response time and noise characteristics of silicon PAD and PIN diodes. Also includes applications of optical fibers in optical communications, in data processing, and in control systems. When Offered: Offered biannually. Credit Hours: 3
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3.00 Credits
Computer control and estimation algorithms including deterministic and stochastic models. Markov sequence and Bayes decision rules, linear Kalman filtering, predicting and smoothing. Parameter identification, combined state and parameter estimation. Adaptive filters and on-line rapid estimation schemes, extended and nonlinear filters. Optimal digital control of deterministic and stochastic systems. Separation theorems. Prerequisites/Corequisites: Prerequisite: ECSE 6400. When Offered: Offered biannually. Credit Hours: 3
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3.00 Credits
Hardware and software characteristics of real-time systems for analysis and control. Real-time programming techniques, standard interfaces and busses, sensors, data smoothing, digital filtering, and digital control. Prerequisites/Corequisites: Prerequisites: CISH 4030 and CSCI 4210. When Offered: Offered on sufficient demand. Offered biannually. Credit Hours: 3
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1.00 Credits
An introduction to the issues related to working in team settings. Topics explored include: communications in teams, public speaking and self awareness, stages of group development, building a team, group decision making, and conflict resolution. The course format will include small and large group discussions, case studies, experiential exercises, and regular participation from industry guests. When Offered: Fall and spring terms annually. Credit Hours: 1
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4.00 Credits
An integrated development of linear algebra and statics emphasizing engineering applications and also incorporating computer exercises involving matrix techniques and calculations using available software packages. When Offered: Fall, spring, and summer terms annually. Credit Hours: 4
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1.00 Credits
An introduction to the techniques for creating solid models of engineering designs. Topics include three-dimensional modeling of parts and assemblies, visualization, orthographic and isometric free-hand sketching, and computer-generated design documentation. When Offered: Fall, spring, and summer terms annually. Credit Hours: 1 Contact, Lecture or Lab Hours: 3 contact hours
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