NPRE 598

Spring 2019 All Classes

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Credit: 2 TO 4 hours.

Subject offerings of new and developing areas of knowledge in nuclear, plasma, and radiological engineering intended to augment the existing curriculum. See Class Schedule or departmental course information for topics and prerequisites.

May be repeated in the same or separate terms if topics vary.

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NPRE 598 class schedule data for spring 2019
	CRN	Type	Section	Time	Day	Location	Instructor	Section Details
	67573	Lecture-Discussion	PRA	10:00AM -11:50AM	MW	100H Talbot Laboratory	Mohaghegh, Z	Part of Term: 1 Date Range: 01/14/19-05/01/19 Credit: 4 hours Section Title: Advanced Risk Analysis Section Info: This course offers a comprehensive and in-depth review of advanced methods for Probabilistic Risk Analysis (PRA). Topics include: fundamental theories of risk modeling, risk scenario development, model uncertainty, parameter uncertainty, uncertainty propagation (e.g. Method of Moment, Monte Carlo), Bayesian updating, data analysis, hardware reliability, human error modeling, risk importance ranking, precursor analysis, expert elicitation and aggregation, and next generation PRA methods and tools. Risk analysis software will be used for homework and class projects. While the examples will primarily focus on the nuclear power domain, the course will also cover current advancements in risk analysis of other complex systems (e.g. space, aviation, oil and gas. Prerequisites: NPRE 461 Probablistic Risk Assessment or Instructor Approval. Restriction(s): Restricted to Graduate - Urbana-Champaign.
	67048	Lecture-Discussion	SD4	11:00AM -12:20PM	TR	104 Talbot Laboratory	Abbaszadeh, S	Part of Term: 1 Date Range: 01/14/19-05/01/19 Credit: 4 hours Section Title: Sensors/Imag Design/Innovation Section Info: This course is a project-based course that starts with photon detection technologies, advanced semiconductor and scintillator devices, as well as a discussion of general aspects of creativity and innovation in engineering and medicine. The lectures cover fundamental detection concepts in a variety of modern scientific and commercial instruments and devices and discuss technological progress that makes them more ubiquitous. We take a deep dive into characteristics of photodetectors and how to select them for specific applications. Examples of applications such as LIDAR and TOF-PET will be covered. Students will visit Carle Foundation Hospital and will be exposed to examples of unmet needs and are expected to identify and evaluate opportunities to address the need. We continue the lectures with discussion of data scavenging and how to utilize more information from the available data, and student project presentations and peer evaluation. Restriction(s): Restricted to Graduate - Urbana-Champaign.