Sensorless Position Control Using Feedforward Internal Force for Completely Restrained Parallel-Wire-Driven Systems

Sensorless Position Control Using Feedforward Internal Force for Completely Restrained Parallel-Wire-Driven Systems

Generally, point-to-point control for a completely restrained (CR) parallel-wire-driven system requires a balancing internal force to prevent slackening of wires, along with a feedback term based on some displacement sensor. This paper specifically describes CR systems' internal force propertie...

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Veröffentlicht in:IEEE transactions on robotics 2009-04, Vol.25 (2), p.467-474
Hauptverfasser: Kino, H., Yahiro, T., Taniguchi, S., Tahara, K.
Format: Artikel
Sprache:eng
Schlagworte:
Accuracy
Actuators
Applied sciences
Chromium
Computer science
control theory
systems
Control systems
Control theory
Control theory. Systems
Convergence
Displacement
Drives
Emergencies
Exact sciences and technology
Feedforward
Force feedback
Force sensors
internal force
Linkage mechanisms, cams
Mechanical engineering. Machine design
Methods
Orbital robotics
parallel mechanism
Parallel robots
Payloads
Position control
Robotics
Sensor systems
Sensors
Wire
wire cable
Wires
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Beschreibung
Zusammenfassung:Generally, point-to-point control for a completely restrained (CR) parallel-wire-driven system requires a balancing internal force to prevent slackening of wires, along with a feedback term based on some displacement sensor. This paper specifically describes CR systems' internal force properties, then presents the possibility of motion convergence at a desired position when the internal force balancing at a position is given as sensorless feedforward input. Subsequently, we use the property of internal force positively for sensorless position control. This positioning method is applicable for low-cost manipulation, which does not require high accuracy, and for emergency positioning of systems when sensors malfunction.
ISSN:1552-3098
1941-0468
DOI:10.1109/TRO.2009.2013495