Soft Robotics
Soft robotics focuses on creating robots from highly deformable materials, enabling safer and more adaptable interaction with unstructured environments. Current research emphasizes developing advanced control algorithms (including physics-informed neural networks and quality diversity optimization) and improved sensing capabilities (like acoustic and capacitive e-skins) to enhance the precision and dexterity of these robots. This field is significant for its potential applications in diverse areas such as minimally invasive surgery, flexible manufacturing, and assistive devices, driving innovation in materials science, control theory, and robotic design.
Papers
From Problem to Solution: Bio-inspired 3D Printing for Bonding Soft and Rigid Materials via Underextrusions
Arman Goshtasbi, Luca Grignaffini, Ali Sadeghi
Closed-loop underwater soft robotic foil shape control using flexible e-skin
Leo Micklem, Huazhi Dong, Francesco Giorgio-Serchi, Yunjie Yang, Gabriel D. Weymouth, Blair Thornton