Adaptive wireless millirobotic locomotion into distal vasculature

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Physische Intelligenz Article 2022

Physische Intelligenz

Tianlu Wang

Assistant Professor at the University of Hawaiʻi at Mānoa, USA

Physische Intelligenz

Halim Ugurlu

Physische Intelligenz

Yingbo Yan

Guest Researcher

Physische Intelligenz

Li Mingtong

Postdoctoral Researcher

Physische Intelligenz

Meng Li

Postdoctoral Researcher

Anna-Maria Wild

Research Scientist

Physische Intelligenz

Erdost Yildiz

Postdoctoral Researcher

Martina Schneider

Research Engineer

Physische Intelligenz

Devin Sheehan

Research Technician

Bioinspired Autonomous Miniature Robots

Wenqi Hu

Max Planck Research Group Leader

Physische Intelligenz

Metin Sitti

Guest Researcher

Author(s):	Wang, Tianlu and Ugurlu, Halim and Yan, Yingbo and Li, Mingtong and Li, Meng and Wild, Anna-Maria and Yildiz, Erdost and Schneider, Martina and Sheehan, Devin and Hu, Wenqi and Sitti, Metin
Journal:	Nature Communications
Volume:	13
Number (issue):	1
Pages:	1--17
Year:	2022
Month:	August

Project(s):	Adaptive wireless millirobotic locomotion into distal vasculature
Bibtex Type:	Article (article)

DOI:	https://doi.org/10.1038/s41467-022-32059-9

Electronic Archiving:	grant_archive

BibTex

@article{wang2022adaptive,
  title = {Adaptive wireless millirobotic locomotion into distal vasculature},
  journal = {Nature Communications},
  volume = {13},
  number = {1},
  pages = {1--17},
  month = aug,
  year = {2022},
  slug = {wang2022adaptive},
  author = {Wang, Tianlu and Ugurlu, Halim and Yan, Yingbo and Li, Mingtong and Li, Meng and Wild, Anna-Maria and Yildiz, Erdost and Schneider, Martina and Sheehan, Devin and Hu, Wenqi and Sitti, Metin},
  month_numeric = {8}
}