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Course Criteria
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0.00 Credits
This course is a laboratory co-requisite for EE 60546. It supplements the materials presented in the lecture setting and gives students the opportunity to reinforce their learning through hands-on experiments and through demonstrations in a laboratory environment.
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0.00 Credits
This course is a laboratory co-requisite for EE 60558. It supplements the materials presented in the lecture setting and gives students the opportunity to reinforce their learning through hands-on experiments and through demonstrations in a laboratory environment.
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0.00 Credits
A hands-on overview of the important role of photons alongside electrons in modern electrical engineering. Photonics technologies studied include lasers, optical fibers, integrated optics, optical signal processing, holography, optoelectronic devices, and optical modulators. A survey of the properties of light, its interactions with matter, and techniques for generating, guiding, modulating, and detecting coherent laser light.
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0.00 Credits
This course is a laboratory co-requisite for EE60606. TEM operational procedures, including alignment, astigmatism correction, bright-field, dark field, weak-beam and lattice imaging, photography and interpretation of images and diffractional patterns. TEM specimen preparation procudures, including jet electropolishing of metals, preparation of semiconductors and ceramics by dimple griding and ion milling as well as by wedge polishing.
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0.00 Credits
After reviewing the charactaristics of teh wireless channel, we discuss current cellular and local area wireless networks (GSM, IS-95, UMTS, 802.11, 802.15, HiperLAN, HomeRF, Bluetooth) to gain insight into their architectures and protocols. The second part of the course covers wireless ad hoc and sensor networks, addressing the challenges and proposed solutions, with an emphasis on modeling and cross-layer protocol design aspects. In the third part, we will discuss emerging wireless technologies such as ultra-wideband, software-defined radio, virtual antenna arrays, and cognitive radio techniques and their use in future wireless networks.
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1.00 Credits
The goal of this seminar is to give first-year graduate students interested in the "systems" aspects of electrical engineering insight into the research process. The first half of the course will include talks by Notre Dame faculty describing their ongoing and anticipated research projects; the second half of the course will give each student the opportunity to read research papers of current interest and summarize them for the rest of the class during in-class presentations. Required of all first year ECS students.
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1.00 Credits
This course consists of lectures by faculty, senior gradute students, and visiting lecturers covering a broad range of topics in electronic materials, devices and circuits. Students read papers in preparation for the weekly talks and are given a comprehensive examination.
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0.00 - 12.00 Credits
Individualized instruction in the areas of faculty and student interest. Course content and credit will be determined by faculty members offering the course.
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0.00 - 12.00 Credits
Individual or small-group study under the direction of a faculty member in a graduate subject not currently covered by any University course.
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3.00 Credits
This course covers advanced topics of digital filter design, finite wordlength effects, multirate digital signal procesing, and select topics of adaptive digital filters and spectrum analysis.
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