FECS Symposium

FECS Symposium

INVITED · MAR-F10 · ID: 2800507

Presentations

FECS Diversity and Inclusion and Award

ORAL · Invited

March 18, 2025, 11:00 AM – March 18, 2025, 11:36 AM
Presenters
- Luis R De Jesus Baez
  
  State Univ of NY - Buffalo
Authors
- Luis R De Jesus Baez
  
  State Univ of NY - Buffalo
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Mechanics of Soft Filaments: From Biology to Engineering

ORAL · Invited

March 18, 2025, 11:36 AM – March 18, 2025, 12:12 PM

Publication: Maghsoodi, A., Bhattacharya, K., 2022, "Light-induced Swirling and Locomotion", Proceedings of the Royal Society A 478.2267: 20220545

Maghsoodi, A., Chatterjee, A., Andricioaei, I., Perkins, N., 2019, "How the Phage T4 Injection Machinery Works including Energetics, Forces, Pathway and Time Scale", Proceedings of the National Academy of Sciences of the United States of America (PNAS), 116(50), pp.25097-25105.
Presenters
- Neda Maghsoodi
  
  University of Southern California
Authors
- Neda Maghsoodi
  
  University of Southern California
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Invited Talk: Optimal scalar and vector transport using branching flows

ORAL · Invited

March 18, 2025, 12:12 PM – March 18, 2025, 12:48 PM
Presenters
- Anuj Kumar
  
  University of California, Berkeley
Authors
- Anuj Kumar
  
  University of California, Berkeley
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Learning about Massive Binary Stellar Evolution from High Mass X-ray Binaries in Local Group Galaxies

ORAL · Invited

March 18, 2025, 12:48 PM – March 18, 2025, 1:24 PM
Presenters
- Margaret Lazzarini
  
  California State University, Los Angeles
Authors
- Margaret Lazzarini
  
  California State University, Los Angeles
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Exploring Nature-inspired Systems and the Importance of Broadening Participation of Early Career Scientists in URM and Non-doctoral Institutions

ORAL · Invited

March 18, 2025, 1:24 PM – March 18, 2025, 2:00 PM

Publication: 1. Rojas S, Michalaros D, Rincon J, Arrieta AF. Bioinspired Self-Stiffening Wing for Multimodal
Locomotion. 7th International Conference on Soft Robotics (RoboSoft); 2024 April; San Diego,
CA. Available from: https://ieeexplore.ieee.org/document/10521991
2. Rojas S, Riley K, Arrieta A. Multistable bioinspired origami with reprogrammable self-folding.
Journal of The Royal Society Interface. 2022 October 12; 19(195):-. Available from:
https://royalsocietypublishing.org/doi/10.1098/rsif.2022.0426 DOI: 10.1098/rsif.2022.0426
3. Rojas S, Riley KS, Arrieta AF. Characterization of Multistable Self-Folding Origami
Architectures. 5th IEEE Reconfigurable Mechanisms and Robotics (REMaR); 2021 August;
Toronto, Canada.
4. Rojas S, Boston DM, Arrieta AF. Actuation Simplification for Grippers Based on Bioinspired
Spring Origami. Proc. SPIE 10965, Bioinspiration, Biomimetics, and Bioreplication IX;
2019 March; Denver, CO. Available from: https://doi.org/10.1117/12.2514389
5. Addis CC, Rojas S, Arrieta AF. Connecting the branches of multistable non-Euclidean origami
by crease stretching. Phys Rev E. 2023 Nov;108(5-2):055001. PubMed PMID: 38115478.
Presenters
- Salvador Rojas
  
  California State University, Los Angeles
Authors
- Salvador Rojas
  
  California State University, Los Angeles
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