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Controller Gains of an Inverted Pendulum are Influenced by the Visual Feedback Position.

, , , и . EMBC, стр. 5068-5071. IEEE, (2019)

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Другие публикации лиц с тем же именем

A Technique for Measuring Visuomotor Feedback Contributions to the Control of an Inverted Pendulum., , , и . EMBC, стр. 1513-1516. IEEE, (2019)Perception of Stiffness during Interaction with Delay-Like Nonlinear Force Field., , и . EuroHaptics (1), том 6191 из Lecture Notes in Computer Science, стр. 87-92. Springer, (2010)Force Control During the Precision Grip Translates to Virtual Reality., , , и . EMBC, стр. 4171-4174. IEEE, (2022)LQG framework explains performance of balancing inverted pendulum with incongruent visual feedback., , , и . EMBC, стр. 1940-1943. IEEE, (2019)Feedback Delay Changes the Control of an Inverted Pendulum., , , и . EMBC, стр. 1517-1520. IEEE, (2019)Learning of Dexterous Object Manipulation in a Virtual Reality Environment., , , и . EMBC, стр. 4175-4178. IEEE, (2022)The effect of dissociation between proprioception and vision on perception and grip force control in a stiffness judgment task., , и . HAPTICS, стр. 139-144. IEEE, (2018)Stability of inverted pendulum reveals transition between predictive control and impedance control in grip force modulation., , , и . EMBC, стр. 1481-1484. IEEE, (2022)Direction-Specific Effects of Artificial Skin-Stretch on Stiffness Perception and Grip Force Control., , , и . WHC, стр. 1151. IEEE, (2021)Controller Gains of an Inverted Pendulum are Influenced by the Visual Feedback Position., , , и . EMBC, стр. 5068-5071. IEEE, (2019)