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Researchers at USC have developed a new robotic system to assess arm non-use in stroke recovery patients. The system aims to help patients break the habit of relying on their stronger arm and improve recovery. Additionally, a new motion planning framework has enabled two robotic arms to complete tasks without collisions. These developments are featured in the November issue of Science Robotics.
Innovative Robotic System for Spontaneous Arm Use Assessment in Stroke Survivors #RoboticsaAINews #RoboticsNews #Robotics #Robots #Automation https://t.co/LCtyRKHRDy
The November issue of Science #Robotics is here! The cover showcases two robot arms using a new framework for collision-free, coordinated motion planning. Other studies include a robot-based clinical metric for post-stroke arm non-use. Read more: https://t.co/dxfHcQs0U8 https://t.co/0OW3c7AGwS
A new motion planning framework helped two robotic arms move in tandem—completing tasks including reorganizing coffee mugs and passing a sugar box—without collisions. @MIT @MITEECS @Harvard @hseas Read more in Science #Robotics: https://t.co/tXQcUqPCsL https://t.co/WuUJqAKhiu
.@USC researchers have created a new robotic system that can measure how #Stroke survivors with arm weakness use their arms daily; This data can be used to help them break the habit of relying on their stronger arm and improve recovery @SciRobotics https://t.co/PMzgKh7kGQ
Use it or lose it: New robotic system assesses mobility after #stroke @USC https://t.co/nhJE3EDuMi https://t.co/isR2n15G5d
To evaluate arm non-use in affected limbs of hemispheric stroke recovery patients undergoing rehabilitation, researchers created a new robot-based clinical quantification metric. @ndennler @snikolaidis19 @icaroslab @USC Read more in Science #Robotics: https://t.co/ud2E4UUNQz https://t.co/TVjDt9vCKf