| Call Number | 15652 |
|---|---|
| Day & Time Location |
M 7:00pm-9:30pm To be announced |
| Points | 3 |
| Grading Mode | Standard |
| Approvals Required | None |
| Instructor | Ioannis Kougioumtzoglou |
| Type | LECTURE |
| Method of Instruction | In-Person |
| Course Description | Review of random variables. Random process theory: stationary and ergodic processes, correlation functions and power spectra, non-stationary, non-white and non-Gaussian processes. Uncertainty quantification and simulation of environmental excitations and material/media properties, even when subject to limited/incomplete data: joint time-frequency analysis, sparse representations and compressive sampling concepts and tools. Stochastic dynamics and reliability assessment of diverse engineering systems: complex nonlinear/hysteretic behaviors and/or fractional derivative modeling. Emphasis on solution methodologies based on Monte Carlo simulation, statistical linearization, and Wiener path integral. Examples from civil, marine, mechanical and aerospace engineering. |
| Web Site | Vergil |
| Department | Civil Engineering and Engineering Mechanics |
| Enrollment | 0 students (20 max) as of 9:14PM Wednesday, November 20, 2024 |
| Subject | Engineering Mechanics |
| Number | E6220 |
| Section | 001 |
| Division | School of Engineering and Applied Science: Graduate |
| Open To | Engineering:Graduate, GSAS |
| Section key | 20251ENME6220E001 |