Tower of Hanoi (Occupational Therapy Task) with Microsoft Hololens 2
Tower of Hanoi (Occupational Therapy Task) with Microsoft Hololens 2 (Video 2/3)
Quantifying Motor Cognitive Function of the Upper Limb Using Mixed Reality Smartglasses, 44th Annual International Conferences of the IEEE Engineering in Medicine and Biology Society, K. Tada, K. Kutsuzawa, D. Owaki, M. Hayashibe (EMBC2022)
Tohoku University, Neuro-Robotics Lab
http://neuro.mech.tohoku.ac.jp/
#Microsoft #Hololens2
Видео Tower of Hanoi (Occupational Therapy Task) with Microsoft Hololens 2 канала Neuro-Robotics Lab
Quantifying Motor Cognitive Function of the Upper Limb Using Mixed Reality Smartglasses, 44th Annual International Conferences of the IEEE Engineering in Medicine and Biology Society, K. Tada, K. Kutsuzawa, D. Owaki, M. Hayashibe (EMBC2022)
Tohoku University, Neuro-Robotics Lab
http://neuro.mech.tohoku.ac.jp/
#Microsoft #Hololens2
Видео Tower of Hanoi (Occupational Therapy Task) with Microsoft Hololens 2 канала Neuro-Robotics Lab
Показать
Комментарии отсутствуют
Информация о видео
Другие видео канала
ニューロロボティクス、東北大学 学祭模擬講義 2021
Towards Robust Wheel-Legged Biped Robot System: Combining Feedforward and Feedback Control![[EMBC2020] Personalized Fall Risk Estimation with Kinect Two](https://i.ytimg.com/vi/yl-5B5-hX1Y/default.jpg)
[EMBC2020] Personalized Fall Risk Estimation with Kinect Two
Individual deformability compensation of soft hydraulic actuators through iterative learning![[EMBC21] Deep Reinforcement Learning with Gait Mode Specification for Trot-Gallop Analysis](https://i.ytimg.com/vi/8wGuRABPi3Q/default.jpg)
[EMBC21] Deep Reinforcement Learning with Gait Mode Specification for Trot-Gallop Analysis
AI-CPG: Adaptive Imitated Central Pattern Generators
Motor Synergy Development in Symmetric Gait ofWhole-body Locomotion Learning (ICRA2023 video)![[ICRA2020] Discovering Interpretable Dynamics by Sparsity Promotion on Energy and the Lagrangian](https://i.ytimg.com/vi/70DQMpIt10E/default.jpg)
[ICRA2020] Discovering Interpretable Dynamics by Sparsity Promotion on Energy and the Lagrangian
反復学習制御によるFiber-Reinforced Soft Actuatorの個体差補償
Synergetic synchronized oscillation by distributed neural integrators
Joint Elasticity Produces Energy Efficiency in Underwater Locomotion
Spiking Neural Network Discovers Energy-Efficient Hexapod Motion in Deep Reinforcement Learning![[ICRA2020 video] Motor Synergy Development in High-performing Deep Reinforcement Learning algorithms](https://i.ytimg.com/vi/AxdQzhEAKgQ/default.jpg)
[ICRA2020 video] Motor Synergy Development in High-performing Deep Reinforcement Learning algorithms![[EMBC2011] Joint Angle Estimation with Inertial Sensors and its Integration with Kinect](https://i.ytimg.com/vi/wPgJlwFq9VQ/default.jpg)
[EMBC2011] Joint Angle Estimation with Inertial Sensors and its Integration with Kinect![[EMBC2012] Real-time Simulation of Volumetric Muscle Deformation with EMG signals](https://i.ytimg.com/vi/jea7wPxLmbc/default.jpg)
[EMBC2012] Real-time Simulation of Volumetric Muscle Deformation with EMG signals![[ICRA21] Deep Reinforcement Learning Framework for Underwater Locomotion of Soft Robot](https://i.ytimg.com/vi/fBoAKVq2Tgo/default.jpg)
[ICRA21] Deep Reinforcement Learning Framework for Underwater Locomotion of Soft Robot
Synergetic Learning Control Paradigm for Redundant Robot to Enhance Error-Energy Index
Electromyographically Controlled Snake Robot
Self-Organizing Neural Network for Reproducing Human Postural Mode Alternation through Learning
Simultaneous On-line Motion Discrimination and Evaluation of Whole-body Exercise by Synergy Probes