TY - JOUR T1 - Simplifying Telerobotics: Wearability and Teleimpedance Improves Human-Robot Interactions in Teleoperation JF - IEEE Robotics Automation Magazine Y1 - 2018 A1 - S. Fani A1 - S. Ciotti A1 - M. G. Catalano A1 - G. Grioli A1 - A. Tognetti A1 - G. Valenza A1 - A. Ajoudani A1 - M. Bianchi KW - application fields KW - augmented teleoperation KW - Autonomous robots KW - communication KW - effective design KW - effective simplification KW - environmental constraints KW - feedback KW - Force feedback KW - fundamental requirement KW - haptic feedback devices KW - haptic interfaces KW - human workspace KW - human-robot interaction KW - human-robot interactions KW - human-robot interfaces KW - ideal scenario KW - integrated approach KW - integrated interface KW - integrated system KW - interaction forces KW - intuitive information exchange KW - Kinematics KW - KUKA lightweight robotic arm KW - lightweight design KW - manipulators KW - master KW - position control KW - reduced versions KW - Robot sensing systems KW - robotic devices KW - robotic hand-arm system KW - robotic manipulator KW - robotic teleoperation KW - simplified information exchange KW - slave robot KW - stiffness control KW - synergy KW - Task analysis KW - teleimpedance techniques KW - Telemedicine KW - teleoperator system KW - telerobotics KW - TI control KW - vision KW - wearability KW - wearable feedback KW - wearable hand/arm VL - 25 ER -