Concurrent Actuation and Sensing in Fluid by Cilia‐Like Transducers

to related objects

Motile cilia are miniature, hair‐like organelles whose beating moves fluid in various organisms and the human body. Motile cilia are also able to sense many mechanical or fluidic cues. Inspired by the motile cilia in nature, a type of artificial cilia that can both actuate and sense is investigated. These artificial cilia can operate their sensing and actuation individually to sense the flow speed and collaboratively transport objects. More importantly, they can also sense the viscosity of the fluid and the distance from the wall by beating and feeling their own motion. In the latter function, two different sensing modes (modes 1 and 2) are proposed for low and high Reynolds numbers. They are investigated through both computational fluid dynamics and experiments. It is found that mode 1 can sense a wall distance up to 3 times the body length of the cilium, while mode 2 can sense up to 2 times. Such sensing of distance can be further converted into the ability to compute the morphology of the boundary inside the fluid. This work can be useful for small‐scale soft robots that work inside fluid and other flow control applications.

Location
Deutsche Nationalbibliothek Frankfurt am Main
Extent
Online-Ressource
Language
Englisch

Bibliographic citation
Concurrent Actuation and Sensing in Fluid by Cilia‐Like Transducers ; day:26 ; month:04 ; year:2023 ; extent:13
Advanced intelligent systems ; (26.04.2023) (gesamt 13)

Creator
Wang, Wenkang
Song, Shanyuan
Hu, Wenqi

DOI
10.1002/aisy.202300046
URN
urn:nbn:de:101:1-2023042715304378874952
Rights
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
Last update
14.08.2025, 10:50 AM CEST

Data provider

This object is provided by:
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Show original at data provider

Associated

  • Wang, Wenkang
  • Song, Shanyuan
  • Hu, Wenqi

Other Objects (12)

Modeling quantitative aspects of concurrent systems using weighted Petri net transducers

Modeling quantitative aspects of concurrent systems using weighted Petri net transducers

Soft Optomechanical Systems for Sensing, Modulation, and Actuation

Soft Optomechanical Systems for Sensing, Modulation, and Actuation

Fast Sensing and Adaptive Actuation for Robust Legged Locomotion

Fast Sensing and Adaptive Actuation for Robust Legged Locomotion

Cilia

Zeitschrift

Cilia

Flexible actuation with intrinsic sensing for ram extrusion 3D printing

Flexible actuation with intrinsic sensing for ram extrusion 3D printing

Hierarchical Joint Control of Humanoid Robots : Sensing, Actuation and Communication Systems

Hochschulschrift

Hierarchical Joint Control of Humanoid Robots : Sensing, Actuation and Communication Systems

Liquid Crystalline Elastomer for Separate or Collective Sensing and Actuation Functions

Liquid Crystalline Elastomer for Separate or Collective Sensing and Actuation Functions

Application of Single Optically Heated Gold Nanoparticles to Sensing and Actuation

Application of Single Optically Heated Gold Nanoparticles to Sensing and Actuation

Human actuation

Human actuation

Our thanks to Cilia’s reviewers

Our thanks to Cilia’s reviewers

Investigations on halobacterial transducers with respect to membrane potential sensing and adaptive methylation

Hochschulschrift

Investigations on halobacterial transducers with respect to membrane potential sensing and adaptive methylation

One-shot additive manufacturing of robotic finger with embedded sensing and actuation

One-shot additive manufacturing of robotic finger with embedded sensing and actuation

Related objects