From post

Zoom Control to Compensate Camera Translation Within a Robot Egomotion Estimation Approach.

, и . RoMoCo, том 360 из Lecture Notes in Control and Information Sciences, стр. 81-88. Springer, (2007)

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.

 

Другие публикации лиц с тем же именем

Depth from the visual motion of a planar target induced by zooming., , и . ICRA, стр. 4727-4732. IEEE, (2007)3D modelling of leaves from color and ToF data for robotized plant measuring., , и . ICRA, стр. 3408-3414. IEEE, (2011)Zoom Control to Compensate Camera Translation Within a Robot Egomotion Estimation Approach., и . RoMoCo, том 360 из Lecture Notes in Control and Information Sciences, стр. 81-88. Springer, (2007)White Paper on Artificial Intelligence, Robotics and Data Science, , , , , , , , , и 1 other автор(ы). (2021)How do Consumers' Gender and Rational Thinking Affect the Acceptance of Entertainment Social Robots?, , , и . Int. J. Soc. Robotics, 14 (4): 973-994 (2022)OCRA - An ontology for collaborative robotics and adaptation., , , и . Comput. Ind., (2022)Improved Task Planning through Failure Anticipation in Human-Robot Collaboration., , , и . ICRA, стр. 7875-7880. IEEE, (2022)Reward-Weighted GMM and Its Application to Action-Selection in Robotized Shoe Dressing., , , и . ROBOT (2), том 694 из Advances in Intelligent Systems and Computing, стр. 141-152. Springer, (2017)User Evaluation of an Interactive Learning Framework for Single-Arm and Dual-Arm Robots., , , и . ICSR, том 9979 из Lecture Notes in Computer Science, стр. 52-61. (2016)Context-Aware Human Motion Prediction., , , и . CVPR, стр. 6990-6999. Computer Vision Foundation / IEEE, (2020)