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Titlebook: Bioinspired Sensing, Actuation, and Control in Underwater Soft Robotic Systems; Derek A. Paley,Norman M. Wereley Book 2021 Springer Nature

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發(fā)表于 2025-3-21 17:36:44 | 只看該作者 |倒序瀏覽 |閱讀模式
期刊全稱Bioinspired Sensing, Actuation, and Control in Underwater Soft Robotic Systems
影響因子2023Derek A. Paley,Norman M. Wereley
視頻videohttp://file.papertrans.cn/188/187259/187259.mp4
發(fā)行地址Describes state-of-the-art in bioinspired soft robotics for underwater domain.Presents opportunities for new researchers to become exposed to this ?eld.Contains a collection of cutting-edge cross-disc
圖書封面Titlebook: Bioinspired Sensing, Actuation, and Control in Underwater Soft Robotic Systems; Derek A. Paley,Norman M. Wereley Book 2021 Springer Nature
影響因子This book includes representative research from the state?of?the?art in the emerging ?eld of soft robotics, with a special focus on bioinspired soft robotics for underwater applications. Topics include novel materials, sensors, actuators, and system design for distributed estimation and control of soft robotic appendages inspired by the octopus and seastar.?It summarizes the latest findings in an emerging ?eld of bioinspired soft robotics for the underwater domain, primarily drawing from (but not limited to) an ongoing research program in bioinspired autonomous systems sponsored by the O?ce of Naval Research. The program has stimulated cross?disciplinary research in biology, material science, computational mechanics, and systems and control for the purpose of creating novel robotic appendages for maritime applications. The book collects recent results in this area..
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Bioinspired Shape-Changing Soft Robots for Underwater Locomotion: Actuation and Optimization for Crge payloads at high speeds through open water. However, the movement patterns exhibited by soft underwater organisms suggest that there are alternative locomotion methods that robots can use to be more efficient, less disruptive to the environment, and to navigate confined spaces more easily than cu
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Bioinspired Sensors and Actuators Based on Stimuli-Responsive Hydrogels for Underwater Soft Robotic in octopus arms and elephant trunks. Stimuli-responsive hydrogels, a class of water-loaded polymers, exhibit large volume change and actuation strain upon environmental cues, enabling them to absorb and release water up to more than 90% of their total weight. These tissue-like, multifunctional, and
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A Biomimetic Robotic Jellyfish Based on Shape Memory Alloy Springs,ematics of a typical jellyfish. Compared to previous attempts by other researchers to design and fabricate a synthetic jellyfish, our prototype achieves comparable performance in a simpler, compact, solid-state design. The body of the robot is a thin, flat slab of silicone rubber in the shape of a c
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