https://cvg.cit.tum.de/ 2026-04-21T14:12:00+00:00 FeedCreator 1.8 (info@mypapit.net) 2012-09-07T14:48:04+00:00 2012-09-07T14:48:04+00:00 https://cvg.cit.tum.de/teaching/ss2012/gpucourse2012?rev=1347029284&do=diff Anonymous anonymous@undisclosed.example.com ---------- Practical Course: GPU Programming in Computer Vision (6h / 10 ECTS) SS 2012, TU München ---------- Organisation: Martin Oswald Frank Steinbrücker Location: Lab 02.05.014 Time and Date: * 6 days with 7-8 hours lectures and supervised practical training each day:

---------- Practical Course: GPU Programming in Computer Vision (6h / 10 ECTS) SS 2012, TU München ---------- Organisation: Martin Oswald Frank Steinbrücker Location: Lab 02.05.014 Time and Date: * 6 days with 7-8 hours lectures and supervised practical training each day:

2013-01-28T15:12:11+00:00 2013-01-28T15:12:11+00:00 https://cvg.cit.tum.de/teaching/ss2012/imageprocseminar2012?rev=1359385931&do=diff Anonymous anonymous@undisclosed.example.com ---------- Mathematical Image Processing Seminar 2012 SS 2012, TU München Seminar Location: Room 02.09.023 Time: Thursday, 11:00--12:30 Lecturers: Prof. Dr. Daniel Cremers, Dr. Laurent Demaret, Evgeny Strekalovskiy ECTS: 3 SWS: 2 First meeting: 19.04.2012 First talk: 31.05.2012

---------- Mathematical Image Processing Seminar 2012 SS 2012, TU München Seminar Location: Room 02.09.023 Time: Thursday, 11:00--12:30 Lecturers: Prof. Dr. Daniel Cremers, Dr. Laurent Demaret, Evgeny Strekalovskiy ECTS: 3 SWS: 2 First meeting: 19.04.2012 First talk: 31.05.2012

2014-06-06T05:33:57+00:00 2014-06-06T05:33:57+00:00 https://cvg.cit.tum.de/teaching/ss2012/visnav2012?rev=1402032837&do=diff Anonymous anonymous@undisclosed.example.com Lecture: Visual Navigation for Flying Robots In recent years, flying robots such as quadcopters have gained increased interest in robotics and computer vision research. For navigating safely, these robots need the ability to localize themselves autonomously using their onboard sensors. Potential applications of such systems include the autonomous 3D reconstruction of buildings, inspection and simple maintenance tasks, surveillance of public places as well as in search and rescue systems.

Lecture: Visual Navigation for Flying Robots In recent years, flying robots such as quadcopters have gained increased interest in robotics and computer vision research. For navigating safely, these robots need the ability to localize themselves autonomously using their onboard sensors. Potential applications of such systems include the autonomous 3D reconstruction of buildings, inspection and simple maintenance tasks, surveillance of public places as well as in search and rescue systems.