SE 598

Spring 2018 All Classes

All Classes

Credit: 1 TO 4 hours.

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

1 to 4 graduate hours. No professional credit. May be repeated in the same or separate terms if topics vary to a maximum of 12 hours.

Section Status updates every 10 minutes.
SE 598 class schedule data for spring 2018
CRN Type Section Time Day Location Instructor Section Details
68320
Lecture-Discussion
GK
2:00PM -3:20PM
TR
1103 Siebel Center for Comp Sci
Krishnan, G
Part of Term:
1
Date Range:
01/16/18-05/02/18
Credit:
4 hours
Section Title:
Compliant Systems Design
Section Info:
Course prerequisites: Linear Algebra, Finite Element Analysis, Optimization. Classification into lumped and distributed compliance; Pseudo-Rigid Body Models (PRBM) for analysis with emphasis on design synthesis; Variational formulations and nonlinear programming techniques for optimum topology and shape-size problems; Building block methods including constraint based design for synthesis using first principles; Examples of compliance in nature and engineering.
Restriction(s):
Restricted to Graduate - Urbana-Champaign.
68323
Lecture-Discussion
PW
2:00PM -2:50PM
MWF
204 Transportation Building
Wang, P
Part of Term:
1
Date Range:
01/16/18-05/02/18
Credit:
4 hours
Section Title:
Prognostics & Health Mgmt
Section Info:
Prerequisites: Math 241 and IE 300. Prognostics and health management (PHM) techniques play an increasingly important role in the operation of complex engineered systems, by enabling a proactive approach to address system failures through detecting, diagnosing, and predicting the system-wide effects of adverse events, and providing valuable information for early awareness of system health condition changes and making proactive maintenance decisions to mitigate and recover system failures. This course introduces PHM techniques and advanced methods for degradation forecasting and remaining useful life (RUL) prediction of engineering systems, thus determining appropriate failure mitigation/recovery (M/R) plans such as optimal maintenance schedules. Physics-based, data-driven, and hybrid PHM techniques will be introduced, and practical engineering applications (e.g. PHM for wind turbines, jet engines, power transformers, turbine blades, etc.) will be studied as term projects of the course.
Restriction(s):
Restricted to Graduate - Urbana-Champaign.
68187
Lecture
YL
2:00PM -3:20PM
TR
204 Transportation Building
Li, Y
Part of Term:
1
Date Range:
01/16/18-05/02/18
Credit:
4 hours
Section Title:
Multiscale Simulation
Section Info:
In this course, students will learn important concepts and techniques in multiscale simulation and modeling for the successful design of complex mechanical systems. The topics under consideration in this course include: underlining and finite element method; the connections of cross-scale information; uncertainty quantification and propagation in multiscale simulation framework; engineering applications in lightweight structure materials and energy storage materials. This course will have 11 weeks of lectures followed by 4 weeks of hands-on projects.
Restriction(s):
Restricted to Graduate - Urbana-Champaign.
Restricted to students in the Industrial&Enterprise Sys Eng department.
COURSE EXPLORER
Email: Course Explorer Feedback

OFFICE OF THE REGISTRAR | 901 W. Illinois Street, Urbana, Illinois 61801

Site developed by: Technology Services at Illinois | UNIVERSITY OF ILLINOIS URBANA-CHAMPAIGN
1102 Digital Computer Laboratory | MC-256 | Urbana, IL 61801 | phone 217-244-7000