Joshua Pinskier scite author profile

The emerging field of soft robotics presents a new paradigm for robot design in which “precision through rigidity” is replaced by “cognition through compliance.” Lightweight and flexible, soft robots have vast potential to interact with fragile objects and navigate unstructured environments. Like octopuses and worms in nature, soft robots’ flexible bodies conform to hard objects and reconfigure for different tasks, delegating the burden of control from brain to body through embodied cognition. However, because of the lack of efficient modeling and simulation tools, soft robots are primarily designed by hand. Typically, hard components from rigid robots or living creatures are heuristically substituted for comparable soft ones. Autonomous design and manufacturing methodologies are urgently required to produce bespoke, high‐performing robots. Currently, design methodologies exist between simple but realistic parametric optimizations, and evolutionary algorithms which simulate morphology and control coevolution. To find high‐performing designs, novel high‐fidelity simulators and high‐throughput manufacturing and testing processes are required to explore the complex soft material, morphology and control landscape, blending simulation, and experimental data. This article reviews the state of the art in autonomous soft robotic design. Existing manual and automated designs are surveyed and future directions to automate soft robot design and manufacturing are presented.

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Development of a 4-DOF haptic micromanipulator utilizing a hybrid parallel-serial flexure mechanism

Pinskier

Shirinzadeh

Clark

et al. 2018

Mechatronics

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Topology optimisation of bridge input structures with maximal amplification for design of flexure mechanisms

Clark

Shirinzadeh

Pinskier

et al. 2018

Mechanism and Machine Theory

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Joshua Pinskier

Soft Pneumatic Actuators: A Review of Design, Fabrication, Modeling, Sensing, Control and Applications

From Bioinspiration to Computer Generation: Developments in Autonomous Soft Robot Design

Development of a 4-DOF haptic micromanipulator utilizing a hybrid parallel-serial flexure mechanism

Topology optimisation of bridge input structures with maximal amplification for design of flexure mechanisms

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