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- Title
Development of a Two-Finger Haptic Robotic Hand with Novel Stiffness Detection and Impedance Control.
- Authors
Mohammadi, Vahid; Shahbad, Ramin; Hosseini, Mojtaba; Gholampour, Mohammad Hossein; Shiry Ghidary, Saeed; Najafi, Farshid; Behboodi, Ahad
- Abstract
Haptic hands and grippers, designed to enable skillful object manipulation, are pivotal for high-precision interaction with environments. These technologies are particularly vital in fields such as minimally invasive surgery, where they enhance surgical accuracy and tactile feedback: in the development of advanced prosthetic limbs, offering users improved functionality and a more natural sense of touch, and within industrial automation and manufacturing, they contribute to more efficient, safe, and flexible production processes. This paper presents the development of a two-finger robotic hand that employs simple yet precise strategies to manipulate objects without damaging or dropping them. Our innovative approach fused force-sensitive resistor (FSR) sensors with the average current of servomotors to enhance both the speed and accuracy of grasping. Therefore, we aim to create a grasping mechanism that is more dexterous than grippers and less complex than robotic hands. To achieve this goal, we designed a two-finger robotic hand with two degrees of freedom on each finger; an FSR was integrated into each fingertip to enable object categorization and the detection of the initial contact. Subsequently, servomotor currents were monitored continuously to implement impedance control and maintain the grasp of objects in a wide range of stiffness. The proposed hand categorized objects' stiffness upon initial contact and exerted accurate force by fusing FSR and the motor currents. An experimental test was conducted using a Yale–CMU–Berkeley (YCB) object set consisted of a foam ball, an empty soda can, an apple, a glass cup, a plastic cup, and a small milk packet. The robotic hand successfully picked up these objects from a table and sat them down without inflicting any damage or dropping them midway. Our results represent a significant step forward in developing haptic robotic hands with advanced object perception and manipulation capabilities.
- Subjects
ROBOT hands; IMPEDANCE control; INDUSTRIAL robots; OBJECT recognition (Computer vision); OBJECT manipulation
- Publication
Sensors (14248220), 2024, Vol 24, Issue 8, p2585
- ISSN
1424-8220
- Publication type
Article
- DOI
10.3390/s24082585