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Mashup Score: 0
A compact and lightweight soft dielectric elastomer actuator–based peristaltic pump can power and precisely control fluidic actuators.
Source: Science RoboticsCategories: Future of Medicine, Latest HeadlinesTweet
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Mashup Score: 2Contents | Science Robotics 8, 79 - 10 month(s) ago
Science Robotics Volume 8|Issue 79|Jun 2023 ONLINE COVER Soft Robot Fabrication. Fabricating fully functional soft robots that do not require assembly of the component parts can be achieved by monolithic three-dimensional printing. Zhai et al. have developed a 3D-printing process that can produce airtight soft robots integrated with pneumatic valves, control switches, and…
Source: Science RoboticsCategories: Future of Medicine, Latest HeadlinesTweet
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Mashup Score: 1Contents | Science Robotics 8, 78 - 12 month(s) ago
Science Robotics Volume 8|Issue 78|May 2023 ONLINE COVER Special issue on brain-inspired and brain-interfacing robots. The ability of robots to recognize places is crucial for interacting with their environment. Inspired by the multimodal sensory processing by the brain, Fangwen Yu et al. have developed a general place recognition system that relies on multiple sensors, in…
Source: Science RoboticsCategories: Future of Medicine, Latest HeadlinesTweet
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Mashup Score: 2Contents | Science Robotics 8, 76 - 1 year(s) ago
Science Robotics Volume 8|Issue 76|Mar 2023 ONLINE COVER Robust robots. The ability of robots to endure severe damage, as well as offer the possibility for repair, can enable their deployment in challenging settings. Kim et al. have developed aerial robots that can endure several punctures while sustaining controlled flight. The dielectric elastomer actuators on the robots…
Source: Science RoboticsCategories: Future of Medicine, Latest HeadlinesTweet
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Mashup Score: 0Contents | Science Robotics 8, 75 - 1 year(s) ago
Science Robotics Volume 8|Issue 75|Feb 2023 ONLINE COVER Quick Reaction. Exoskeleton suits can improve standing balance by quickly reacting to postural perturbations. Beck et al. have developed a wearable ankle exoskeleton suit, ExoBoot, that can generate artificially fast torque before the onset of the user’s physiological reaction. ExoBoot was validated with human…
Source: Science RoboticsCategories: Future of Medicine, Latest HeadlinesTweet
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Mashup Score: 2Contents | Science Robotics 8, 74 - 1 year(s) ago
Science Robotics Volume 8|Issue 74|Jan 2023 ONLINE COVER Drones branch out. Continuous and systematic biomonitoring of natural environments could enable a better understanding of how the biosphere responds to environmental changes. Environmental DNA (eDNA) is a useful tool for assessing biodiversity levels, particularly in forests. Aucone et al. report a drone that can…
Source: Science RoboticsCategories: Future of Medicine, Latest HeadlinesTweet
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Mashup Score: 4Contents | Science Robotics 7, 70 - 2 year(s) ago
Science Robotics Volume 7|Issue 70|Sep 2022 ONLINE COVER Microrobots Make Big Steps Toward Autonomy. Existing microrobots are generally limited to external control through magnetic fields or light. Microrobots that are able to integrate control, power, and sensing internally (or onboard) are expected to achieve greater autonomy than their externally controlled counterparts….
Source: Science RoboticsCategories: Future of Medicine, Latest HeadlinesTweet
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Mashup Score: 24Contents | Science Robotics 7, 69 - 2 year(s) ago
Science Robotics Volume 7|Issue 69|Aug 2022 ONLINE COVER Flexing Biomolecular Muscle. Actuation of soft microrobots can be achieved through the application of miniature motors, such as artificial muscles. However, the integration of such actuators within soft microrobots requires assembly processes that are often slow and require multiple steps. Wang et al. have developed a…
Source: Science RoboticsCategories: Future of Medicine, Latest HeadlinesTweet
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Mashup Score: 0Contents | Science Robotics 7, 69 - 2 year(s) ago
Science Robotics Volume 7|Issue 69|Aug 2022 ONLINE COVER Flexing Biomolecular Muscle. Actuation of soft microrobots can be achieved through the application of miniature motors, such as artificial muscles. However, the integration of such actuators within soft microrobots requires assembly processes that are often slow and require multiple steps. Wang et al. have developed a…
Source: Science RoboticsCategories: Future of Medicine, Latest HeadlinesTweet
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Mashup Score: 11Contents | Science Robotics 7, 67 - 2 year(s) ago
Science Robotics Volume 7|Issue 67|Jun 2022 ONLINE COVER Special Issue on Electronic Skin and Computing Hardware for Robotics. In order for robots to be deployed effectively, they must be able to interact with their environment. Yu et al. have developed a…
Source: Science RoboticsCategories: Future of Medicine, Latest HeadlinesTweet
A new type of compact and lightweight fluidic soft pump harnesses dielectric elastomer actuators to yield bidirectional flow of various fluids as well as to power fluidically-driven soft robots with tunable output pressure. @wyssinstitute @Harvard 📄: https://t.co/xyQN3deipO https://t.co/uVe0pfv1l1