Umer Huzaifa, Dimuthu D. K. Arachchige, Muhammad Aneeq uz Zaman, Usman Syed
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引用次数: 0
摘要
在搜救任务和复杂精密任务等应用中,软体机器人已显示出其作为刚性机器人替代品或补充的价值。与刚性机器人相比,软体机器人能够呈现出各种形状,并能施加适应性强的力,这使它们更具优势。然而,有时它们的软结构并不能为任务提供足够的力。混合软体机器人(HSR)结合了软体和更坚固的骨架,以处理需要更多力量的任务。我们可以利用刚体动力学来估计混合软体机器人的行为。在这里,我们引入了一个简化的具有恒定刚度的 N 连杆刚体动力学模型来模拟 HSR 的行为。软体机器人的刚度是变化的,而 HSR 中的骨架使其类似于具有恒定刚度。对比实验证明了我们的 N-连杆模型在 HSR 建模中的有效性。
Simplified Modeling of Hybrid Soft Robots with Constant Stiffness Assumption
Soft robots have shown their value as alternatives or supplements to rigid robots in applications like search and rescue missions and complex precise tasks. Their ability to take on various shapes and apply adaptable force gives them an advantage over stiff robots. However, sometimes their soft structure doesn’t offer enough force for the task. Hybrid soft robots (HSRs) combine a soft body with a stronger backbone to handle tasks needing more strength. This rigid part lets us use rigid body dynamics to estimate HSR behavior. Here, we introduce a simplified N-link rigid body dynamic model with constant stiffness to mimic HSR behavior. While soft robots’ stiffness varies, the backbone in HSRs makes it similar to having constant stiffness. Comparing experiments supports the effectiveness of our N-link model for HSR modeling.
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