Exoskeletal Force-Sensing End-Effectors With Embedded Optical Fiber-Bragg-Grating Sensors

Exoskeletal Force-Sensing End-Effectors With Embedded Optical Fiber-Bragg-Grating Sensors

Force sensing is an essential requirement for dexterous robot manipulation. We describe composite robot end-effectors that incorporate optical fibers for accurate force sensing and estimation of contact locations. The design is inspired by the sensors in arthropod exoskeletons that allow them to det...

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Veröffentlicht in:IEEE transactions on robotics 2009-12, Vol.25 (6), p.1319-1331
Hauptverfasser: Yong-Lae Park, Seok Chang Ryu, Black, R.J., Chau, K.K., Moslehi, B., Cutkosky, M.R.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Automation
Biologically inspired robots
Closed loop systems
Computer science
control theory
systems
Contact
Control theory. Systems
Detection
dexterous manipulation
Estimating techniques
Exact sciences and technology
Exoskeletons
fiber Bragg grating (FBG)
Fiber optics
force and tactile sensing
Force control
Force sensors
Industrial robots
Manufacturing engineering
Optical device fabrication
Optical fiber sensors
Optical fibers
Optical sensors
Robot sensing systems
Robotics
Robots
Sensor phenomena and characterization
Sensor systems
Sensors
shape-deposition manufacturing
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Beschreibung
Zusammenfassung:Force sensing is an essential requirement for dexterous robot manipulation. We describe composite robot end-effectors that incorporate optical fibers for accurate force sensing and estimation of contact locations. The design is inspired by the sensors in arthropod exoskeletons that allow them to detect contacts and loads on their limbs. In this paper, we present a fabrication process that allows us to create hollow multimaterial structures with embedded fibers and the results of experiments to characterize the sensors and controlling contact forces in a system involving an industrial robot and a two-fingered dexterous hand. We also briefly describe the optical-interrogation method used to measure multiple sensors along a single fiber at kilohertz rates for closed-loop force control.
ISSN:1552-3098
1941-0468
DOI:10.1109/TRO.2009.2032965