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Researchers have developed a soft #valve design to protect #soft #robots from damage due to sudden changes in pressure. The University of Sheffield Learn more in Science #Robotics: scim.ag/7Nu

Researchers demonstrate a #robotic exoskeleton that reduces muscle fatigue and improves spinal safety during lifting tasks. Read more in Science #Robotics: scim.ag/7Og

A new study in Science #Robotics presents a multimodal soft #valve that detects and responds to bursts and overpressurization to prevent #soft #robot failure. scim.ag/7Q4

A new study in Science #Robotics describes an automated pupae #sorter that can produce 16 million sterile male #mosquitoes per week for population suppression: scim.ag/7RS

An automated #sorter enables mass production of incompatible male #mosquitoes for curbing mosquito-borne diseases. More in Science #Robotics: scim.ag/7Tq

No pressure! The University of Sheffield researchers demonstrate how multimodal #valves can protect soft pneumatic #robots against damage from overpressurization. Dana Damian 🤖: scim.ag/7Tr

A new study in Science #Robotics details a #drone-based #mosquito release device that could help scale efforts to combat #dengue: scim.ag/7V0

Researchers have designed a shapeshifting wheel that can drive over obstacles like steps and large rocks. Learn more in Science #Robotics: scim.ag/81Z

Researchers have developed a zinc-based #microbattery designed to power #microrobots and nanosensors. Read more in Science #Robotics: scim.ag/82N MIT ChemE Dept

A new Science #Robotics study describes a variable-stiffness #wheel that mimics surface tension of liquid droplets to switch between circular and irregular modes on rough terrain. scim.ag/83G

A new study in Science #Robotics describes a high energy density picoliter zinc-air #battery that could provide scaled down energy storage for microscopic robots. scim.ag/84S

A new Science #Robotics study describes how a robot can recognize and interpret symbols or letters handwritten on its body by using its force-torque sensors with #DeepLearning algorithms. scim.ag/86r

Researchers have designed a soft #jumper that—like some insects—can leap more than 100 times its own body height under the guidance of a #magnetic field. Read more in Science #Robotics: scim.ag/872

According to new research, intuitive physical human-robot interactions can be achieved without expensive external sensors, thanks to inbuilt force sensors and #AI. Learn more in Science #Robotics: scim.ag/87A

A new study in Science #Robotics describes an ultrafast, magnetically driven soft jumper that can hop through confined spaces and leap out of a water tank. scim.ag/891

New research in Science #Robotics showcases #biohybrid robots that rely on bioelectric signals from light-sensitive fungal #mycelium to walk or drive. scim.ag/8aP

Scientists have developed s-FEAST, a tree-based method that allows robotic #spacecraft simulators to detect faulty parts proactively and reroute to prevent collisions. Learn more in Science #Robotics: scim.ag/8bz Caltech Division of Engineering & Applied Science

Scientists have developed #biohybrid robots that use electrical signals from living #fungi to control movement. Learn more in Science #Robotics: scim.ag/8cv Cornell Mechanical & Aerospace Engineering

New research in Science #Robotics describes s-FEAST, a proactive planner approach to identify and correct system failures in autonomous #robots without human intervention. scim.ag/8e2 Soon-Jo Chung