Design of a Twisted-String Actuator for Haptic Force Rendering

Abstract In this paper, the design of a Twisted-String Actuation (TSA) module suitable for a wide set of robotic applications is presented. The TSA module is characterized by an integrated force sensor based on optoelectronic components and embedded controller with power electronics. The proposed actuation system is particularly suited for very compact, light-weight, wearable and low cost robotic devices, such as haptic devices, wearable systems and rehabilitation exoskeletons. The whole module design and the basic force sensor working principle are illustrated and discussed. Particular attention is given to the integration of the force sensor into the TSA module to solve the drawbacks of previous solutions. Moreover, the structure of the TSA module electronics and embedded controller is presented. Finally, the actuation module has been experimentally tested, and the ability of the system of controlling the actuation force has been demonstrated.

[1]  C. Natale,et al.  Modeling and Control of the Twisted String Actuation System , 2013, IEEE/ASME Transactions on Mechatronics.

[2]  Gianluca Palli,et al.  Development of an haptic interface based on twisted string actuators , 2017, 2017 IEEE International Conference on Advanced Intelligent Mechatronics (AIM).

[3]  In-Won Park,et al.  Impedance controlled twisted string actuators for tensegrity robots , 2014, 2014 14th International Conference on Control, Automation and Systems (ICCAS 2014).

[4]  Dongjun Lee,et al.  Design and control of a low cost 6 DOF master controller , 2014, 2014 IEEE International Conference on Robotics and Automation (ICRA).

[5]  Paolo Gallina,et al.  3-d.o.f. Wire Driven Planar Haptic Interface , 2001, J. Intell. Robotic Syst..

[6]  Thomas H. Massie,et al.  The PHANToM Haptic Interface: A Device for Probing Virtual Objects , 1994 .

[7]  Masaru Uchiyama,et al.  Design of a compact 6-DOF haptic interface , 1998, Proceedings. 1998 IEEE International Conference on Robotics and Automation (Cat. No.98CH36146).

[8]  Uhn Joo Na,et al.  A New 6-DOF Haptic Device for Teleoperation of 6-DOF Serial Robots , 2011, IEEE Transactions on Instrumentation and Measurement.

[9]  Sungchul Kang,et al.  Development of a six DOF haptic master for teleoperation of a mobile manipulator , 2010 .

[10]  Bruno Siciliano,et al.  The DEXMART hand: Mechatronic design and experimental evaluation of synergy-based control for human-like grasping , 2014, Int. J. Robotics Res..

[11]  Davide Chiaravalli,et al.  A hybrid teleoperation control scheme for a single-arm mobile manipulator with omnidirectional wheels , 2016, 2016 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS).

[12]  Dmitry Popov,et al.  A preliminary study on a twisted strings-based elbow exoskeleton , 2013, 2013 World Haptics Conference (WHC).

[13]  Gianluca Palli,et al.  A simple and easy-to-build optoelectronics force sensor based on light fork: Design comparison and experimental evaluation , 2018 .

[14]  Gianluca Palli,et al.  Experimental Evaluation of Guided Twisted Actuation , 2016 .

[15]  Soo S. Lee,et al.  Design of a general purpose 6-DOF haptic interface , 2003 .

[16]  Gianluca Palli,et al.  Design and implementation of a simple and low-cost optoelectronic force sensor for robotic applications , 2016, 2016 IEEE International Conference on Advanced Intelligent Mechatronics (AIM).