PhD Defense by Thomas Spenser

Event Details
  • Date/Time:
    • Monday March 23, 2020
      9:00 am - 11:00 am
  • Location: REMOTE
  • Phone:
  • URL: BlueJeans Link
  • Email:
  • Fee(s):
    N/A
  • Extras:
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Summaries

Summary Sentence: Fluid dynamics of biological and mechanical olfaction

Full Summary: No summary paragraph submitted.

Hello, please see below for updated information regarding my defense for next Monday.

 

BlueJeans Meeting link: https://bluejeans.com/669471500

 

 

SUBJECT:

Ph.D. Dissertation Defense


 

BY:

Thomas Spencer


 

TIME:

Monday, March 23, 2020, 9:00 a.m. a.m.


 

LOCATION:

Physical location TBD, virtual login at  https://bluejeans.com/669471500


 

TITLE:

Fluid dynamics of biological and mechanical olfaction


 

COMMITTEE:

David Hu, Chair (ME)

 

Alexander Alexeev (ME)

 

Craig Forest (ME)

 

Mike Farrell (GTRI ACL)

 

Daniel Goldman (Physics)

SUMMARY

The sense of smell is critical to a number of animals, from moths all the way to the largest mammal on land, the elephant. Despite these animals ranging across eight orders of magnitude in body mass, there are commonalities in their methods for bringing odor molecules to their sensors. Understanding the olfaction of animals can also inspire the design of autonomous smelling machines, which are currently limited in their speed and sensitivity. Most previous work on olfaction has focused on the neuroscience of animal olfaction or the algorithms involved in processing data from machine olfaction. In this dissertation, we focus on the fluid mechanics of olfaction. We used a combined experimental and theoretical approach, with particular emphasis on building machines that can mimic the olfaction of animals. We show that many animals have a hierarchical structure to their olfaction systems, either antenna or nasal cavities, that increase their surface area to improve the chance of odor deposition. Animals optimize their olfaction with behaviors varying from sniffing to angling their antenna obliquely to the wind. Both methods slow down the air near the sensing surfaces, which increases the number of molecules that can deposit by diffusion.    

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Graduate Studies

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Phd Defense
Status
  • Created By: Tatianna Richardson
  • Workflow Status: Published
  • Created On: Mar 17, 2020 - 2:14pm
  • Last Updated: Mar 17, 2020 - 2:14pm