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Locomotion in Biorobotic and Somatic Systems Article 2025

Scaly-tail organ enhances static stability during Pel’s scaly-tailed flying squirrels’ arboreal locomotion

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Haptic Intelligence
Andrew Schulz
  • Research Scientist
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Mrudul Chellapurath
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Locomotion in Biorobotic and Somatic Systems
Seyedreza Rezaei
  • Research Scientist
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Locomotion in Biorobotic and Somatic Systems
Ardian Jusufi
Max Planck Research Group Leader [~Assoc. Prof.]
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Perceiving Systems
Pranav Khandelwal
  • Guest Scientist

Author(s): Schulz, Andrew K. and Chellapurath, Mrudul and Khandelwal, Pranav C. and Rezaei, SeyedReza and Merker, Stefan and Jusufi, Ardian
Journal: Journal of The Royal Society Interface
Volume: 22
Number (issue): 227
Year: 2025
Day: 25
Publisher: Royal Society
Bibtex Type: Article (article)
DOI: 10.1098/rsif.2024.0937
State: Published
URL: https://doi.org/10.1098/rsif.2024.0937
Address: London
Article Number: 20240937
PUBMED: 40555385

BibTex 

@article{item_3656096,
  title = {Scaly-tail organ enhances static stability during Pel’s scaly-tailed flying squirrels’ arboreal locomotion},
  journal = {Journal of The Royal Society Interface},
  volume = {22},
  number = {227},
  publisher = {Royal Society},
  address = {London},
  year = {2025},
  slug = {item_3656096},
  author = {Schulz, Andrew K. and Chellapurath, Mrudul and Khandelwal, Pranav C. and Rezaei, SeyedReza and Merker, Stefan and Jusufi, Ardian},
  url = {https://doi.org/10.1098/rsif.2024.0937}
}