Soft robotics for infrastructure protection

Milana, Edoardo

doi:10.3389/frobt.2022.1026891

Cited by 9 publications

(8 citation statements)

References 49 publications

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“…Sustainable robots aim to mimic life cycles with a focus on waste, including developing long-term environmental sustainability to dispose of robots . The demand for recyclable, reusable, or biodegradable robotic materials is increasing, and future robotic systems may involve disintegrating and reusing internal circuits and systems several times. , Hardware-security robots are used in a wide range of fields including surveillance and monitoring in environments where security is a top priority, such as personal and industrial security and critical infrastructure protection. , Hence, the demand for robots that emphasize sustainability and security is increasing due to their functional adaptability and wide applications, and expected to accelerate the development of lifetime-configurable soft actuators. Trigger transient soft actuators, which can degrade on-demand, are emerging as promising alternatives for achieving efficient lifetime configuration of soft actuators .…”

Section: Introductionmentioning

confidence: 99%

“…5,24 Hardware-security robots are used in a wide range of fields including surveillance and monitoring in environments where security is a top priority, such as personal and industrial security and critical infrastructure protection. 25,26 Hence, the demand for robots that emphasize sustainability and security is increasing due to their functional adaptability and wide applications, and expected to accelerate the development of lifetime-configurable soft actuators. Trigger transient soft actuators, which can degrade on-demand, are emerging as promising alternatives for achieving efficient lifetime configuration of soft actuators.…”

Section: ■ Introductionmentioning

confidence: 99%

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Magnetically Actuated Trigger Transient Soft Actuators Comprising On-Demand Photo-Initiated and Thermo-Degradable Polypropylene Carbonate–Photo-Acid Generator

Oh,

Kim,

Han

et al. 2024

ACS Appl. Mater. Interfaces

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Lifetime-reconfigurable soft robots have emerged as a new class of robots, emphasizing the unmet needs of futuristic sustainability and security. Trigger-transient materials that can both actuate and degrade on-demand are crucial for achieving life-reconfigurable soft robots. Here, we propose the use of transient and magnetically actuating materials that can decompose under ultraviolet light and heat, achieved by adding photo-acid generator (PAG) and magnetic particles (Sr-ferrite) to poly(propylene carbonate) (PPC). Chemical and thermal analyses reveal that the mechanism of PPC–PAG decomposition occurs through PPC backbone cleavage by the photo-induced acid. The self-assembled monolayer (SAM) encapsulation of Sr-ferrite preventing the interaction with the PAG allowed the transience of magnetic soft actuators. We demonstrate remotely controllable and degradable magnetic soft kirigami actuators using blocks with various magnetized directions. This study proposes novel approaches for fabricating lifetime-configurable magnetic soft actuators applicable to diverse environments and applications, such as enclosed/sealed spaces and security/military devices.

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Section: Introductionmentioning

confidence: 99%

Section: ■ Introductionmentioning

confidence: 99%

Magnetically Actuated Trigger Transient Soft Actuators Comprising On-Demand Photo-Initiated and Thermo-Degradable Polypropylene Carbonate–Photo-Acid Generator

Oh,

Kim,

Han

et al. 2024

ACS Appl. Mater. Interfaces

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“…In addition, soft grippers are generally more tolerant of positioning errors that are inevitable due to ground effects [36]. These features make soft grippers promising candidates for grasping in complex, unstructured environments [37]. Jamming grippers are promising for versatile drones thanks to this combination of softness and a wide range of grasping capabilities.…”

Section: Introductionmentioning

confidence: 99%

A Stretchable Jamming Gripper Grasping Flat Plates

Toyoda,

Yamada,

Mao

et al. 2024

IEEE Access

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The demand for drone-based object transportation has been rapidly growing recently. Current drones face limitations in their ability to grasp objects on the flat surface. To address this issue, our study presents a universal jamming holding system with the capability to grasp flat surfaces. In general, jamming grippers cannot grasp flat surfaces. Here we have introduced a stretchable membrane and spherical shape to the gripper, allowing our jamming gripper to grasp flat surfaces. We assumed that when the stretchable membrane attaches to an object, the stretchable membrane spontaneously forms microscopic suction cup-like structure at the contact area. Our jamming gripper then can grasp flat objects by the effect of the suction cuplike structure. Our jamming gripper is ideal for drone mounting as it maintains the center of gravity during the gripping process and can operate with low positional accuracy. In addition, our jamming gripper operate on a pneumatic circuit powered by a solenoid valve, allowing our drone to hold objects without consuming energy. Our experimental results demonstrated that an acrylic plate could support a load of 945 g on a flat surface at a filling rate of 75%. Our gripper also has a good adsorption force on metal, acrylic, ice, and other surfaces. The gripping force of our grippers is independent of the pressing force. Our jamming gripper can be mounted on a drone and controlled wirelessly to perform grasping movements autonomously, making them highly versatile. It can be applied to various situations where the shapes of objects to be grasped are uncertain, such as delivery of goods to remote areas or sample collection.INDEX TERMS Jamming gripper, grasping, drone, soft robotics.

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“…T HE field of soft robotics has attracted significant interest from researchers worldwide [1]. Compared to conventional rigid robots, the main defining characteristic of soft robots is their mechanical compliance, which enables potential applications in fields such as human-robot interaction, inspection tasks, or rescue operations in confined spaces [2], [3]. The low mechanical stiffness of soft robots, however, poses significant challenges for the sensing and control of their shape [4].…”

Section: Introductionmentioning

confidence: 99%

Sensorless Proprioception in Multi-DoF Dielectric Elastomer Soft Robots via System-Level Self-Sensing

Prechtl,

Baltes,

Flaßkamp

et al. 2024

IEEE/ASME Trans. Mechatron.

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Proprioception in soft robots remains an ongoing challenge, owing to practical issues such as tight sensor integration while maintaining mechanical compliance. Soft robots based on dielectric elastomer (DE) technology could provide a compelling answer to these challenges, due to the inherent flexibility and compliance of such transducers as well as their ability to simultaneously work as actuators and sensors, i.e., self-sensing. In this work, we propose a novel real-time self-sensing scheme for DE soft robotic systems. By combining an actuatorlevel recursive least squares identification with an extended Kalman filter, our architecture provides an estimation of the mechanical state of the structure without requiring additional electromechanical sensors, solely relying on electrical measurements performed on the DEs during high voltage actuation. Experimental validation, conducted on a DE soft robot prototype, reveals that the proposed solution reconstructs the system state during actuation in a robust and accurate way, and under various external loading conditions.

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Soft robotics for infrastructure protection

Cited by 9 publications

References 49 publications

Magnetically Actuated Trigger Transient Soft Actuators Comprising On-Demand Photo-Initiated and Thermo-Degradable Polypropylene Carbonate–Photo-Acid Generator

Magnetically Actuated Trigger Transient Soft Actuators Comprising On-Demand Photo-Initiated and Thermo-Degradable Polypropylene Carbonate–Photo-Acid Generator

A Stretchable Jamming Gripper Grasping Flat Plates

Sensorless Proprioception in Multi-DoF Dielectric Elastomer Soft Robots via System-Level Self-Sensing

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