Biblio
Explorative learning of right inverse functions: theoretical implications of redundancy. Neurocomputing. 131:2-14.
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2013. Goal Babbling permits direct learning of inverse kinematics. IEEE Trans. Autonomous Mental Development. 2:216–229.
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2010. .
2012. Learning Flexible Full Body Kinematics for Humanoid Tool Use. Int. Symp. Learning and Adaptive Behavior in Robotic Systems (Best Paper Award). :171–176.
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2010. A Multi-Level Control Architecture for the Bionic Handling Assistant. Advanced Robotics. 29:847–859.
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2015. Efficient exploration and learning of whole body kinematics. IEEE 8th International Conference on Development and Learning. :1–7.
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2009. Mastering Growth while Bootstrapping Sensorimotor Coordination. Int. Conf. on Epigenetic Robotics.
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2010. Online Goal Babbling for rapid bootstrapping of inverse models in high dimensions. IEEE Int. Conf. Development and Learning and on Epigenetic Robotics (best student paper award). 2:1–8.
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2011. .
2013. Modellbasierte automatisierte Greifplanung. Fortschritte in der Robotik. 3
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1998. .
1996. Generating and Evaluating Stable Assembly Sequences. Journal of Advanced Robotics, Special Issue on Mechanical Assembly. 11:97-126.
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1997. Assembly Planning And Geometric Reasoning For Grasping. Proceedings of the 6th International Conference on Artificial Intelligence and Information-Control Systems of Robots. :93–106.
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1994. HighLAP: A High Level System for Generating, Representing, and Evaluating Assembly Sequences. International Journal on Artificial Intelligence Tools. 6:149–163.
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1997. Generating and Evaluating Regrasp Operations. IEEE International Conference on Robotics and Automation. :2013–2018.
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1997. Incremental Free Space Acquisition and Representation for Automatic Grasping. Fourth Int. Conference on Automation, Robotics and Computer Vision (ICARCV). :904–908.
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1996. HighLAP : A High Level System for Generating, Representing, and Evaluating Assembly Sequences. IEEE International Joint Symposia on Intelligence and Systems. :134–141.
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1996. Neural Architectures for Robotic Intelligence. Reviews in the Neurosciences. 14:121–143.
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2003. Manual Intelligence as a Rosetta Stone for Robot Cognition. Robotics Research. 66:135–146.
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2011. A Dual Interaction Perspective for Robot Cognition: Grasping as a "Rosetta Stone". Perspectives of Neural-Symbolic Integration. :159–178.
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2007. Trying to Grasp a Sketch of a Brain for Grasping. Creating Brain-Like Intelligence. :84–102.
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2009. Mit Kopf, Körper und Hand: Herausforderungen Humanoider Roboter. Automatisierungstechnik, special issue on "humnoid robotics". 58:630–638.
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2010. Gestalt Formation in a Competitive Layered Neural Architecture. Networks: From Biology to Theory. :163–191.
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2006. Towards Time to Collision Estimation With a Rear Camera. AAET 2007: 8. Symposium zum Thema Automatisierungssysteme, Assistenzsysteme und eingebettete Systeme für Transportmittel GZVB. :325–341.
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2007. Demonstration of a Prototype for Robot Assisted Endoscopic Sinus Surgery. International Conference on Robotics and Automation (ICRA). :1090–1091.
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2010.