Linear electrostatic actuators with Moiré-effect optical proprioceptive sensing and electroadhesive braking

Muscles in animals and actuation systems in advanced robots consist not of the actuation component alone; the motive, dissipative, and proprioceptive components exist in a complete set to achieve versatile and precise manipulation tasks. We present such a system as a linear electrostatic actuator pa...

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Published in:The International journal of robotics research 2024-04, Vol.43 (5), p.646-664
Main Authors: Choi, Inrak, Yoon, Sohee John, Park, Yong-Lae
Format: Article
Language:English
Subjects:
Actuation
Actuator design
Actuator position
Braking
Force measurement
Modular design
Moire patterns
Optical measuring instruments
Robot arms
Robot control
Robotics
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cited_by cdi_FETCH-LOGICAL-c355t-52e6eb17fe70ff00d23a74d636fd7f0af255a4ea2c2bbd0254aac5a25a414d713
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description Muscles in animals and actuation systems in advanced robots consist not of the actuation component alone; the motive, dissipative, and proprioceptive components exist in a complete set to achieve versatile and precise manipulation tasks. We present such a system as a linear electrostatic actuator package incorporated with sensing and braking components. Our modular actuator design is composed of these actuator films and a dielectric fluid, and we examine the performance of the proposed system both theoretically and experimentally. In addition, we introduce a mechanism of optical proprioceptive sensing utilizing the Moiré pattern innately generated on the actuator surface, which allows high-resolution reading of the position of the actuator without noise. The optical sensor is also capable of measuring the force exerted by the actuator. Lastly, we add an electroadhesive brake in the package in parallel with the actuator, introducing a method of mode switching that utilizes all three components and presenting control demonstrations with a robot arm. Our actuation system is compact and flexible and can be easily integrated with various robotic applications.
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subjects Actuation
Actuator design
Actuator position
Braking
Force measurement
Modular design
Moire patterns
Optical measuring instruments
Robot arms
Robot control
Robotics
title Linear electrostatic actuators with Moiré-effect optical proprioceptive sensing and electroadhesive braking
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