en | de | ru )

 

Disambiguation

From post

копироватьудалитьдобавить публикацию в буфер
Evolution and Integration of Medical Laboratory Information System in an Asia National Medical Center.

, , и . IEICE Trans. Commun., 92-B (2): 379-386 (2009)

Please choose a person to relate this publication to

To differ between persons with the same name, the academic degree and the title of an important publication will be displayed.

Yu Jin Shin

Jin-Wook Shin

Jin-Sook Shin-Kim

Dong-Shin Shin

Waltraud Lai

 

Другие публикации лиц с тем же именем

Interactive torque controller with electromyography intention prediction implemented on exoskeleton robot NTUH-II., , , , , , , и . ROBIO, стр. 1485-1490. IEEE, (2017)Velocity Field based Active-Assistive Control for Upper Limb Rehabilitation Exoskeleton Robot., , , , , , и . ICRA, стр. 1742-1748. IEEE, (2020)Deep Learning based Motion Prediction for Exoskeleton Robot Control in Upper Limb Rehabilitation., , , , и . ICRA, стр. 5076-5082. IEEE, (2019)A gravity compensation-based upper limb rehabilitation robot., , , , , и . ACC, стр. 4819-4824. IEEE, (2012)An Interflow System Requirement Analysis in Health Informatics Field., , и . CSIE (7), стр. 712-716. IEEE Computer Society, (2009)An articulated rehabilitation robot for upper limb physiotherapy and training., , , , и . IROS, стр. 1470-1475. IEEE, (2010)NTUH-II robot arm with dynamic torque gain adjustment method for frozen shoulder rehabilitation., , , , , , , и . IROS, стр. 3555-3560. IEEE, (2014)Sensorless Control with Friction and Human Intention Estimation of Exoskeleton Robot for Upper-limb Rehabilitation., , , , и . ROBIO, стр. 290-296. IEEE, (2019)Active control with force sensor and shoulder circumduction implemented on exoskeleton robot NTUH-II., , , , , , , и . IROS, стр. 2406-2411. IEEE, (2016)Developing a novel bilateral arm training on rehabilitation robot NTUH-II for neurologic and orthopedic disorder., , , , , и . ROBIO, стр. 158-163. IEEE, (2015)