Author of the publication

Percutaneous intracardiac beating-heart surgery using metal MEMS tissue approximation tools.

, , , , , , , , and . Int. J. Robotics Res., 31 (9): 1081-1093 (2012)

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. You can also use the button next to the name to display some publications already assigned to the person.

 

Other publications of authors with the same name

GPU based real-time instrument tracking with three-dimensional ultrasound., , , , , , and . Medical Image Anal., 11 (5): 458-464 (2007)An organosynthetic dynamic heart model with enhanced biomimicry guided by cardiac diffusion tensor imaging., , , , , , , , , and 3 other author(s). Sci. Robotics, (2020)Metal MEMS tools for beating-heart tissue approximation., , , , , , and . ICRA, page 411-416. IEEE, (2011)Temporal enhancement of two-dimensional color doppler echocardiography., , , , , and . Medical Imaging: Image Processing, volume 9784 of SPIE Proceedings, page 97843T. SPIE, (2016)An active motion compensation instrument for beating heart mitral valve surgery., , , , , and . IROS, page 1290-1295. IEEE, (2007)GPU Based Real-Time Instrument Tracking with Three Dimensional Ultrasound., , , , , and . MICCAI (1), volume 4190 of Lecture Notes in Computer Science, page 58-65. Springer, (2006)Metal MEMS tools for beating-heart tissue removal., , , , , , , , and . ICRA, page 1921-1926. IEEE, (2012)Robotic tissue tracking for beating heart mitral valve surgery., , , and . Medical Image Anal., 17 (8): 1236-1242 (2013)Mitral annulus segmentation from four-dimensional ultrasound using a valve state predictor and constrained optical flow., , , , , and . Medical Image Anal., 16 (2): 497-504 (2012)Percutaneous intracardiac beating-heart surgery using metal MEMS tissue approximation tools., , , , , , , , and . Int. J. Robotics Res., 31 (9): 1081-1093 (2012)