Litcius/Paper detail

Bio-inspired multimodal soft actuator with environmental self-adaptation

Chi Chen, Zixiao Liu, Pengju Shi, Yusen Zhao, Sidi Duan, Yingjie Du, Yichen Yan, Muqing Si, Tetsuya Iwasaki, Ximin He

2025Nature Communications16 citationsDOIOpen Access PDF

Abstract

Autonomous soft robots with built-in feedback can achieve self-sustained motion under constant, untethered stimuli. However, these systems are constrained to single-mode actuation within a fixed structure under the same type of stimulus and require human intervention to switch modes, lacking the robust and efficient self-adaptation of living organisms in changing environments. Inspired by Gymnura micrura, we developed a light-responsive soft actuator with engineered asymmetry and a dynamic structure, integrating two distinct built-in feedback mechanisms governed by intrinsic bifurcation. Thus, the actuator can seamlessly switch between three different motion modes-tracking, undulation, and oscillation-exhibiting self-adaptation to environmental changes (e.g., light intensity, viscosity, temperatures, and physical contact). Furthermore, this multimodal capability facilitates unique environmental interactions, expanding applications beyond locomotion to include fluid dynamics, electronics, and environmental monitoring. Such an advancement in physical intelligence represents a pivotal step toward next-generation autonomous soft robotic systems, unlocking higher-level autonomy and unprecedented adaptive behaviors.

Topics & Concepts

Adaptation (eye)Computer scienceBiologyNeuroscienceAdvanced Materials and MechanicsModular Robots and Swarm IntelligenceAdvanced Sensor and Energy Harvesting Materials