Modeling and Simulation of Robotic Finger Powered by Nylon Artificial Muscles

Lokesh Saharan, Lianjun Wu, Yonas Tadesse

Research output: Contribution to journalArticlepeer-review

18 Scopus citations

Abstract

A robotic finger actuated by novel artificial muscles known as twisted and coiled polymer (TCP) muscles has been proposed as an inexpensive, yet high-performance component of a robotic hand in recent years. In this paper, the Euler-Lagrangian method coupled with an electro-thermo-mechanical model-based transfer function was used for the analysis of finger joints in the hand. Experiments were performed at three power magnitudes provided to the TCP muscles, and the output angular displacements of the index finger subtended corresponding to the power levels were measured. The measured input and output parameters were used for system identification. To elucidate how the new artificial muscle influences the finger motion, two types of numerical simulations were performed: force input simulation (FIS) using measured force as an input and power input simulation (PIS) using measured electrical power as an input. Results were quantified statistically, and the simulated data were compared with the experimental results. Sensitivity analysis was also presented to understand the effect of the mechanical properties on the system. This model will help in understanding the effect of the TCP muscles and other similar smart actuators on the dynamics of the robotic finger.

Original languageEnglish
Article number014501
JournalJournal of Mechanisms and Robotics
Volume12
Issue number1
DOIs
StatePublished - Feb 1 2020

Keywords

  • actuators and transmissions
  • artificial muscles
  • cable-driven mechanisms
  • grasping and fixturing
  • modeling
  • multi-body dynamics and exoskeletons
  • Robotic finger
  • simulation and experiments
  • smart materials

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