Learning Kinematic Models for Articulated Objects (bibtex)
by J. Sturm, V. Pradeep, C. Stachniss, C. Plagemann, K. Konolige and W. Burgard
Reference:
Learning Kinematic Models for Articulated Objects (J. Sturm, V. Pradeep, C. Stachniss, C. Plagemann, K. Konolige and W. Burgard), In Proc. of the International Joint Conference on Artificial Intelligence (IJCAI), 2009. 
Bibtex Entry:
@inproceedings{sturm09ijcai,
 author = {J. Sturm and V. Pradeep and C. Stachniss and C. Plagemann and K. Konolige and W. Burgard},
 title = {Learning Kinematic Models for Articulated Objects},
 booktitle = {Proc. of the International Joint Conference on Artificial Intelligence (IJCAI)},
 year = {2009},
 month = {July},
 titleurl = {sturm09ijcai.pdf},
 topic = {articulated-objects},
 keywords = {sturmselection},
}
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Learning Kinematic Models for Articulated Objects (bibtex)
Learning Kinematic Models for Articulated Objects (bibtex)
by J. Sturm, V. Pradeep, C. Stachniss, C. Plagemann, K. Konolige and W. Burgard
Reference:
Learning Kinematic Models for Articulated Objects (J. Sturm, V. Pradeep, C. Stachniss, C. Plagemann, K. Konolige and W. Burgard), In Proc. of the International Joint Conference on Artificial Intelligence (IJCAI), 2009. 
Bibtex Entry:
@inproceedings{sturm09ijcai,
 author = {J. Sturm and V. Pradeep and C. Stachniss and C. Plagemann and K. Konolige and W. Burgard},
 title = {Learning Kinematic Models for Articulated Objects},
 booktitle = {Proc. of the International Joint Conference on Artificial Intelligence (IJCAI)},
 year = {2009},
 month = {July},
 titleurl = {sturm09ijcai.pdf},
 topic = {articulated-objects},
 keywords = {sturmselection},
}
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You're viewing the old homepage. The new homepage of Jürgen Sturm is located here: http://jsturm.de.

I am fascinated by the immense progress and application potential of computer vision and robotics research. My motivation is to push the state-of-the-art by developing novel approaches and applying these methods to solve real-world problems. For example, our approach to autonomous quadrocopter flight enables a low-cost quadrocopter to follow its trajectory using a camera as its main sensor while taking a series of images. Our 3D reconstruction algorithm allows to scan persons in 3D and print the acquired model as a small figure. As I see a large potential for commercial applications of such methods, I recently co-founded the university spin-off FabliTec to bring this technology to market.

I am currently working in the following research areas:

RGB-D sensors (Kinect) including visual odometry, SLAM, dense 3D reconstruction, mapping, localization, pose tracking and benchmarking
Quadcopter, including camera-based localization, dense mapping, data fusion, safe navigation and, when all of this works, flying manipulation



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Selected Publications

Click here to see the full list of my publications. Find me on Google Scholar, Microsoft Academic Search, DBLP.

Click here to see the full list of my publications. Find me on Google Scholar, Microsoft Academic Search, DBLP. Google+ page.