Grasping by Spiraling: Reproducing Elephant Movements with Rigid-Soft Robot Synergy

The logarithmic spiral is observed as a common pattern in several living beings across kingdoms and species. Some examples include fern shoots, prehensile tails, and soft limbs like octopus arms and elephant trunks. In the latter cases, spiraling is also used for grasping. Motivated by how this strategy simplifies behavior into kinematic primitives and combines them to develop smart grasping movements, this work focuses on the elephant trunk, which is more deeply investigated in the literature. We present a soft arm combined with a rigid robotic system to replicate elephant grasping capabilities based on the combination of a soft trunk with a solid body. In our system, the rigid arm ensures positioning and orientation, mimicking the role of the elephant's head, while the soft manipulator reproduces trunk motion primitives of bending and twisting under proper actuation patterns. This synergy replicates 9 distinct elephant grasping strategies reported in the literature, accommodating objects of varying shapes and sizes. The synergistic interaction between the rigid and soft components of the system minimizes the control complexity while maintaining a high degree of adaptability.

@article{huang2025_2504.01507,
  title={ Grasping by Spiraling: Reproducing Elephant Movements with Rigid-Soft Robot Synergy },
  author={ Huishi Huang and Haozhe Wang and Chongyu Fang and Mingge Yan and Ruochen Xu and Yiyuan Zhang and Zhanchi Wang and Fengkang Ying and Jun Liu and Cecilia Laschi and Marcelo H. Ang Jr },
  journal={arXiv preprint arXiv:2504.01507},
  year={ 2025 }
}