G: A Rhythmic Activation Mechanism for Soft Multi-legged Robots. Sampaio, R.A.G., Silva, F.L., e., Carvalho, C. Gu G., Liu, Y: Adaptive Variable Stiffness Particle Phalange for Robust and Durable Robotic Grasping. This study offers a promising solution for the design of multifunctional soft grippers. The results show that by varying the gripping modes, objects with various sizes, shapes, and postures can be steadily gripped. The static gripping test and dynamic palletizing test have been performed. The capability of variable gripping size of the soft gripper has been proofed, which has increased the gripping size range from 84 to 141 mm. The single finger bending experiment is carried out to verify the theoretical model. A theoretical model is established to predict the relationship between the bending angle and pressure of the actuator. The fiber-reinforced bending actuator is used to mimic the finger of the soft gripper. This paper presents a four-finger soft gripper with two gripping sizes and four gripping modes. However, it has always been a challenge for soft grippers to work under different sizes, shapes, and postures. Soft grippers have attracted increasing attention due to safer and more adaptable human–machine and environment-machine interactions.
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