Robotic manipulation in unstructured, humancentric environments poses a dual challenge: achieving the precision need for delicate free-space operation while ensuring safety during unexpected contact events. Traditional wrists struggle to balance these demands, often relying on complex control schemes or complicated mechanical designs to mitigate potential damage from force overload. In response, we present BiFlex, a flexible robotic wrist that uses a soft buckling honeycomb structure to provides a natural bimodal stiffness response. The higher stiffness mode enables precise household object manipulation, while the lower stiffness mode provides the compliance needed to adapt to external forces. We design BiFlex to maintain a fingertip deflection of less than 1 cm while supporting loads up to 500g and create a BiFlex wrist for many grippers, including Panda, Robotiq, and BaRiFlex. We validate BiFlex under several real-world experimental evaluations, including surface wiping, precise pick-and-place, and grasping under environmental constraints. We demonstrate that BiFlex simplifies control while maintaining precise object manipulation and enhanced safety in real-world applications.
View on arXiv@article{jeong2025_2504.08706,
title={ BiFlex: A Passive Bimodal Stiffness Flexible Wrist for Manipulation in Unstructured Environments },
author={ Gu-Cheol Jeong and Stefano Dalla Gasperina and Ashish D. Deshpande and Lillian Chin and Roberto Martín-Martín },
journal={arXiv preprint arXiv:2504.08706},
year={ 2025 }
}