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Tactile Skin Deformation Feedback for Conveying Environment Forces in Teleoperation.

, , , и . HRI (Extended Abstracts), стр. 195-196. ACM, (2015)

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Markus Schorr

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The effect of manipulator gripper stiffness on teleoperated task performance., , , и . World Haptics, стр. 494-499. IEEE, (2015)Sensory augmentation of stiffness using fingerpad skin stretch., , , , и . World Haptics, стр. 467-472. IEEE, (2013)Haptics: The Present and Future of Artificial Touch Sensation., , и . Annu. Rev. Control. Robotics Auton. Syst., (2018)Sensory substitution using 3-degree-of-freedom tangential and normal skin deformation feedback., , , , и . HAPTICS, стр. 27-33. IEEE, (2014)Augmentation Of Stiffness Perception With a 1-Degree-of-Freedom Skin Stretch Device., , , , и . IEEE Trans. Hum. Mach. Syst., 44 (6): 731-742 (2014)Tactor-Induced Skin Stretch as a Sensory Substitution Method in Teleoperated Palpation., , , , и . IEEE Trans. Hum. Mach. Syst., 45 (6): 714-726 (2015)Sensory substitution of force and torque using 6-DoF tangential and normal skin deformation feedback., , , , и . ICRA, стр. 264-271. IEEE, (2015)Environment Perception in the Presence of Kinesthetic or Tactile Guidance Virtual Fixtures., , , и . HRI, стр. 287-294. ACM, (2015)Sensory Substitution and Augmentation Using 3-Degree-of-Freedom Skin Deformation Feedback., , , , и . IEEE Trans. Haptics, 8 (2): 209-221 (2015)Three-Dimensional Skin Deformation as Force Substitution: Wearable Device Design and Performance During Haptic Exploration of Virtual Environments., и . IEEE Trans. Haptics, 10 (3): 418-430 (2017)