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EE 87022: Sensors, Instrumentation, and Measurements in Electronic Applications
3.00 Credits
University of Notre Dame
This course is designed to give broad introduction to sensors used in electronic applications: from infrared sensors in the bathrooms to single-electron counters in current standards; from touch-screen displays to oxygen sensors used in cars and glucose detectors based on carbon nanotubes. After introduction to the major principles of electronic measurement systems and standards used in measurements, various applications of modern sensors will be discussed. The assignments include presentations on the topic of novel sensors based upon research papers published in recent issues of scientific journals.
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EE 87022 - Sensors, Instrumentation, and Measurements in Electronic Applications
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EE 87023: Advanced Topics in Information Theory Information - Theoretic Security
2.00 Credits
University of Notre Dame
Graduate level class that focuses on secure communications from an information-theoretic perspective. Information-theoretic security is a very active area of research that encompasses many areas of coding theory and iinformation theory.
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EE 87023 - Advanced Topics in Information Theory Information - Theoretic Security
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EE 87024: Wide Bandgap Device Physics
3.00 Credits
University of Notre Dame
The class will cover the physics and device applications of wide-bandga semiconductors and their heterostructures (primarily III-V Nitrides, and SiC). The topics to be discussed are: Physics of bandstructure Origin of electronic polarization - spontaneous and piezoelectric Charge scattering and transport Optical properties of bulk and quantum heterostructures Implications of polarization on band diagrams, transport and optical properties Wide bandgap devices: Field Effect Transistors, Light Emitting Diodes, and LASERS Polarization-engineering in wide-bandgap electronic and optical devices
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EE 87024 - Wide Bandgap Device Physics
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EE 87025: Hybrid Dynamical Systems
3.00 Credits
University of Notre Dame
Many physical, biological, social and economic systems may be modeled as hybrid dynamical systems that include both time and event-driven dynamics. The course will introduce students to hybrid control systems including supervisory control of discrete event systems and switched control systems.
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EE 87025 - Hybrid Dynamical Systems
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EE 87026: Statistical Thermodynamics
3.00 Credits
University of Notre Dame
This course is intended for graduate students and will give an introduction to the concepts of statistical mechanics and statistical thermodynamics. The course will be geared toward areas needed for research in materials and solid state devices. Topics to be covered include: Thermodynamics Probability, Kinetic theory of gases, Classical statistical mechanics, and Quantum statistical mechanics
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EE 87026 - Statistical Thermodynamics
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EE 87027: Network Information Theory
3.00 Credits
University of Notre Dame
Network information theory deals with the fundamental limits of information transmission over networks and optimal coding techniques that achieve these limits. It extends Shannon's point-to-point information theory to networks with multiple sources and destinations. The course aims to present key results and techniques in the theory. Topics include point-to-point systems (Shannon's channel coding theorem and rate distortion theory), single-hop networks (multiple access channels, broadcast channels, interference channels, channels with state, Gaussian fading channels, distributed lossless source coding, multiple description coding, joint source-channel coding), and multi-hop networks (Ford-Fulkerson max-flow min-cut theorem, noiseless networks and network coding, relay channels, capacity of large Gaussian networks, source coding over noiseless networks). Students should have taken a graduate level class in probability theory/stochastic processes (e.g., EE 60563/EE 60573). Prior exposure to information theory is recommended although not necessary.
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EE 87027 - Network Information Theory
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EE 87061: Summer Research Education for Teachers
1.00 - 3.00 Credits
University of Notre Dame
This course is intended for high school teachers in order to give them research experience in the area of electrical engineering.
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EE 87061 - Summer Research Education for Teachers
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EE 87698: Special Studies
0.00 - 12.00 Credits
University of Notre Dame
This number is reserved for specialized and/or experimental graduate courses. Content, credit, and instructor will be announced by department. (Offered as necessary)
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EE 87698 - Special Studies
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EE 88600: Nonresident Thesis Research
1.00 Credits
University of Notre Dame
Required of nonresident master's students who are completing their theses in absentia and who wish to retain their degree status. (Fall and spring)
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EE 88600 - Nonresident Thesis Research
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EE 88699: Research and Dissertation
1.00 - 12.00 Credits
University of Notre Dame
Research and dissertation for resident doctoral students.
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EE 88699 - Research and Dissertation
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