RT @rthandiackal: Our new paper with @KMRoBoTa, @BIOROB_EPFL and many more is out in @SciRobotics! We show how undulatory swimming patterns…
RT @DarwinsDevices: Sensing sensibility: biorobotic model, AgnathaX, built to test ideas about how fish gather and use fluid pressure infor…
RT @neuromechpapers: Emergence of robust self-organized undulatory swimming based on local hydrodynamic force sensing https://t.co/B9h13bpE…
RT @BinggwongLeung: cool visualization https://t.co/9Zrgjs0Q30
RT @DarwinsDevices: Sensing sensibility: biorobotic model, AgnathaX, built to test ideas about how fish gather and use fluid pressure infor…
Sensing sensibility: biorobotic model, AgnathaX, built to test ideas about how fish gather and use fluid pressure information to swim well. https://t.co/fGMrvnLTSi
RT @rthandiackal: Check out https://t.co/eB9V5UxEKq for a short movie with some fun animations & robot videos of our recent work in @SciRob…
RT @rthandiackal: Our new paper with @KMRoBoTa, @BIOROB_EPFL and many more is out in @SciRobotics! We show how undulatory swimming patterns…
cool visualization
RT @rthandiackal: Our new paper with @KMRoBoTa, @BIOROB_EPFL and many more is out in @SciRobotics! We show how undulatory swimming patterns…
Check out https://t.co/eB9V5UxEKq for a short movie with some fun animations & robot videos of our recent work in @SciRobotics! Paper: https://t.co/SY0jS1zNq1 https://t.co/jDVJwwE8IW
RT @rthandiackal: Our new paper with @KMRoBoTa, @BIOROB_EPFL and many more is out in @SciRobotics! We show how undulatory swimming patterns…
Emergence of robust self-organized undulatory swimming based on local hydrodynamic force sensing https://t.co/B9h13bpEmm https://t.co/rSh5xKDTts
RT @EricTytell: Really beautiful work out in @SciRobotics today from @rthandiackal @laurisa27 @BIOROB_EPFL and others https://t.co/JtFbUC6W…
Awesome paper!
RT @EricTytell: Really beautiful work out in @SciRobotics today from @rthandiackal @laurisa27 @BIOROB_EPFL and others https://t.co/JtFbUC6W…
RT @EricTytell: Really beautiful work out in @SciRobotics today from @rthandiackal @laurisa27 @BIOROB_EPFL and others https://t.co/JtFbUC6W…
RT @rthandiackal: Our new paper with @KMRoBoTa, @BIOROB_EPFL and many more is out in @SciRobotics! We show how undulatory swimming patterns…
Many thanks Eric! also for your great commentary in Science Robotics together with John Long
RT @rthandiackal: Our new paper with @KMRoBoTa, @BIOROB_EPFL and many more is out in @SciRobotics! We show how undulatory swimming patterns…
RT @laurisa27: Don't miss our new work in @SciRobotics with my robot AgnathaX in undulatory swimming and force sensing feedback. @KMRoBoTa…
RT @EricTytell: Really beautiful work out in @SciRobotics today from @rthandiackal @laurisa27 @BIOROB_EPFL and others https://t.co/JtFbUC6W…
RT @laurisa27: Don't miss our new work in @SciRobotics with my robot AgnathaX in undulatory swimming and force sensing feedback. @KMRoBoTa…
RT @EricTytell: Really beautiful work out in @SciRobotics today from @rthandiackal @laurisa27 @BIOROB_EPFL and others https://t.co/JtFbUC6W…
RT @rthandiackal: Our new paper with @KMRoBoTa, @BIOROB_EPFL and many more is out in @SciRobotics! We show how undulatory swimming patterns…
RT @EricTytell: Really beautiful work out in @SciRobotics today from @rthandiackal @laurisa27 @BIOROB_EPFL and others https://t.co/JtFbUC6W…
Really beautiful work out in @SciRobotics today from @rthandiackal @laurisa27 @BIOROB_EPFL and others https://t.co/JtFbUC6W3t. Local pressure sensing can give robust swimming, even when the controller is damaged!
Don't miss our new work in @SciRobotics with my robot AgnathaX in undulatory swimming and force sensing feedback. @KMRoBoTa @BIOROB_EPFL https://t.co/CIxgEr0J1p
Check out our new paper with @BIOROB_EPFL and @laurisa27 published in @SciRobotics. Fluid force feedback allows to emerge spontaneous undulatory swimming (https://t.co/2hCWC1xQ7W)
RT @rthandiackal: Our new paper with @KMRoBoTa, @BIOROB_EPFL and many more is out in @SciRobotics! We show how undulatory swimming patterns…
RT @rthandiackal: Our new paper with @KMRoBoTa, @BIOROB_EPFL and many more is out in @SciRobotics! We show how undulatory swimming patterns…
RT @rthandiackal: Our new paper with @KMRoBoTa, @BIOROB_EPFL and many more is out in @SciRobotics! We show how undulatory swimming patterns…
Our new paper with @KMRoBoTa, @BIOROB_EPFL and many more is out in @SciRobotics! We show how undulatory swimming patterns can spontaneously emerge based on local force feedback. (https://t.co/ju7rQ8M1bP) Check out our interactive data visualization here:
Emergence of robust self-organized undulatory swimming based on local hydrodynamic force sensing https://t.co/wJnuGbeewV #roboticsainews #robotics #robots #engineering https://t.co/ZtvIYEibUn