The Effect of Dissociation between Proprioception and Vision on Perception and Grip Force Control in a Stiffness Judgment Task

Abstract: Our sensorimotor system estimates stiffness to form stiffness perception, such as for choosing a ripe fruit, and to generate actions, such as to adjust grip force to avoid slippage of a scalpel during surgery. We examined how temporal manipulation of the haptic and visual feedback affect stiffness perception and grip force adjustment during a stiffness discrimination task. We used delayed force feedback and delayed visual feedback to break the natural relations between these modalities when participants tried … Show more

“…However, these studies did not provide participants with visual feedback about object deformation, which has the potential to affect the integration of the haptic information. For example, in [20], the addition of visual feedback influenced the effect of introducing delay into force feedback on the control of grip force in a stiffness discrimination task. The effect of adding visual feedback when both kinesthetic and artificial tactile feedback are presented is currently unknown.…”

Visual Feedback Weakens the Augmentation of Perceived Stiffness by Artificial Skin Stretch

“…However, these studies did not provide participants with visual feedback about object deformation, which has the potential to affect the integration of the haptic information. For example, in [20], the addition of visual feedback influenced the effect of introducing delay into force feedback on the control of grip force in a stiffness discrimination task. The effect of adding visual feedback when both kinesthetic and artificial tactile feedback are presented is currently unknown.…”

Visual Feedback Weakens the Augmentation of Perceived Stiffness by Artificial Skin Stretch