ME 498

Spring 2019 All Classes

All Classes

Credit: 0 TO 4 hours.

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

0 to 4 undergraduate hours. 0 to 4 graduate hours. May be repeated in the same or separate terms if topics vary to a maximum of 9 hours.

ME 498 class schedule data for spring 2019
CRN Type Section Time Day Location Instructor Section Details
69499
Laboratory
ABA
3:00PM -4:50PM
M
3073 Electrical & Computer Eng Bldg
Pei, Y
Part of Term:
1
Date Range:
01/14/19-05/01/19
Section Title:
Signal Processing
69501
Laboratory
ABC
10:00AM -11:50AM
T
3073 Electrical & Computer Eng Bldg
Li, Y
Part of Term:
1
Date Range:
01/14/19-05/01/19
Section Title:
Signal Processing
69502
Laboratory
ABD
3:00PM -4:50PM
T
3073 Electrical & Computer Eng Bldg
Pei, Y
Part of Term:
1
Date Range:
01/14/19-05/01/19
Section Title:
Signal Processing
69503
Laboratory
ABE
8:00AM -9:50AM
W
3073 Electrical & Computer Eng Bldg
Wan, W
Part of Term:
1
Date Range:
01/14/19-05/01/19
Section Title:
Signal Processing
69505
Laboratory
ABG
10:00AM -11:50AM
R
3073 Electrical & Computer Eng Bldg
Gorugantu, R
Part of Term:
1
Date Range:
01/14/19-05/01/19
Section Title:
Signal Processing
69506
Laboratory
ABH
1:00PM -2:50PM
R
3073 Electrical & Computer Eng Bldg
Pei, Y
Part of Term:
1
Date Range:
01/14/19-05/01/19
Section Title:
Signal Processing
69507
Laboratory
ABI
4:00PM -5:50PM
R
3073 Electrical & Computer Eng Bldg
Pei, Y
Part of Term:
1
Date Range:
01/14/19-05/01/19
Section Title:
Signal Processing
69508
Laboratory
ABJ
8:00AM -9:50AM
F
3073 Electrical & Computer Eng Bldg
Wan, W
Part of Term:
1
Date Range:
01/14/19-05/01/19
Section Title:
Signal Processing
69489
Lecture
AL3
2:00PM -2:50PM
MWF
1131 Siebel Center for Comp Sci
Bentsman, J
Part of Term:
1
Date Range:
01/14/19-05/01/19
Credit:
4 hours
Section Title:
Signal Processing
Section Info:
This course is for graduate students interested in reinforcing their modeling, signal analysis, instrumentation, and control techniques through solving a challenging industrial problem. Namely, an electrohydraulic-actuator/flexible-beam assembly exhibiting resonance will be introduced, and the sequence of course topics will be integrated into a tool set capable of suppressing this resonance. A high fidelity MATLAB model of an assembly will be used as a virtual lab to carry out the project tasks and help develop problem solution, the likes of which are currently employed in industry. This course is taught jointly with ME360 Honor's section, but graduate students will have additional graduate level tasks added to their projects and will be required to go through additional material in the course textbook.
Restriction(s):
Restricted to Engineering. Restricted to Graduate - Urbana-Champaign.
65802
Lecture
AW3
3:00PM -3:50PM
MWF
3117 Everitt Laboratory
Alleyne, M
Bolmin, O
Wissa, A
Part of Term:
1
Date Range:
01/14/19-05/01/19
Credit:
3 hours
Section Title:
Bio-Inspired Design
Section Info:
ME 498 meets with IB496. These courses offer a unique interdisciplinary advanced design experience in the field of bioinspiration. During the course we will cover four focus areas: locomotion, sensing, materials, and complex systems. For each topic, we will discuss the state of the art on engineering side and the solutions in nature that can augment the current engineering systems. By the end of the course you should be able to work in interdisciplinary teams, use analogical design concepts, and produce a prototype based on a biological function to solve an engineering challenge in one of the four focus areas.
Restriction(s):
Restricted to Grainger Engineering. Restricted to Undergrad - Urbana-Champaign.
65841
Lecture
AW4
3:00PM -3:50PM
MWF
3117 Everitt Laboratory
Alleyne, M
Bolmin, O
Wissa, A
Part of Term:
1
Date Range:
01/14/19-05/01/19
Credit:
4 hours
Section Title:
Bio-Inspired Design
Section Info:
ME 498 meets with IB496. These courses offer a unique interdisciplinary advanced design experience in the field of bioinspiration. During the course we will cover four focus areas: locomotion, sensing, materials, and complex systems. For each topic, we will discuss the state of the art on engineering side and the solutions in nature that can augment the current engineering systems. By the end of the course you should be able to work in interdisciplinary teams, use analogical design concepts, and produce a prototype based on a biological function to solve an engineering challenge in one of the four focus areas.
Restriction(s):
Restricted to students in the Physics, Computational Science & Engr, Civil & Environmental Eng, Bioengineering, Industrial&Enterprise Sys Eng, Siebel School Comp & Data Sci, Engineering Courses, Aerospace Engineering, Engineering Honors, Technology Entrepreneur Ctr, Mechanical Sci & Engineering, Materials Science & Engineerng, Electrical & Computer Eng, or Nuclear, Plasma, & Rad Engr department.
Restricted to Graduate - Urbana-Champaign.
69482
Lecture
MG
2:00PM -3:50PM
TR
3117 Everitt Laboratory
Gazzola, M
Part of Term:
1
Date Range:
01/14/19-05/01/19
Credit:
4 hours
Section Title:
Comp modeling & optimization
Section Info:
Computational Optimization for Biological and Engineering Systems. This course provides a hands-on introduction to modern computational modeling and simulations techniques applied to the understanding of biophysical and engineering problems. From moving bodies in fluids and bio-hybrid robots, to unconventional ‘birds-nest’ materials and propulsion on sandy dunes, you will learn to model biophysical phenomena and implement software able to capture their essential behavior. Moreover, you will learn to employ evolutionary optimization algorithms in combination with the developed models, to inverse design more performant solutions. This course requires some basic Matlab or Python or C/C++ coding skills.
52400
Discussion/
Recitation
TEX
ARRANGED
n.a.
Location Pending
Saif, M
Smith, K
Part of Term:
1
Date Range:
01/14/19-05/01/19
Special Approval:
Departmental Approval Required
Credit:
4 hours
Section Info:
Corporate Internship - required for Tsinghua 3+2 program. Registration is restricted to students in the Tsinghua 3+2 program. Students are required to obtain a registration override from the MechSE Undergraduate Office, Rm 154 Mechanical Engineering Bldg.
52399
Discussion/
Recitation
TSE
ARRANGED
n.a.
Location Pending
Saif, M
Smith, K
Part of Term:
1
Date Range:
01/14/19-05/01/19
Special Approval:
Departmental Approval Required
Credit:
4 hours
Section Info:
Corporate Internship - required for Tsinghua 3+2 program. Registration is restricted to students in the Tsinghua 3+2 program. Students are required to obtain a registration override from the MechSE Undergraduate Office, Rm 154 Mechanical Engineering Bldg.
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