September 7, 2022

12:00 pm / 1:00 pm

Venue

Hackerman B17

Link for Live Seminar
Link for Recorded seminars ? 2022/2023 school year
 
Abstract:
Flexible and soft medical robots offer capabilities beyond those of conventional rigid-link robots due to their ability to traverse confined spaces and conform to highly curved paths. They also offer potential for improved safety due to their inherent compliance. In this talk, I will present several new robot designs for various surgical applications. In particular, I will discuss our work on soft, growing robots that achieve locomotion by material extending from their tip. I will discuss limitations in miniaturizing such robots, along with methods for actively steering, sensing, and controlling them. Finally, I will discussnew sensing and human-in-the-loop control paradigms that are aimed at improving the performance of flexible surgical robots.
Bio:
Tania Morimoto is an Assistant Professor in the Department of Mechanical and Aerospace Engineering and in the Department of Surgery at the University of California, San Diego. She received the B.S. degree from Massachusetts Institute ofTechnology, Cambridge, MA, and the M.S. and Ph.D. degrees from Stanford University, Stanford, CA, all in mechanical engineering. Her researchlab focuses on the design and control of flexible continuum robots for increased dexterity and accessibility in uncertain environments, particularly for minimally invasive surgical interventions. They are also working toaddress the challenges of designing human-in-the-loop interfaces for controlling these flexible and soft robots, including the integration of haptic feedback to improve surgical outcomes. She is a recipient of the Hellman Fellowship (2021), the Beckman Young Investigator Award (2022), and the NSF CAREER Award (2022).