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Autonomous Motion
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Research Overview
Learning Control
Learning Coupling Terms of Movement Primitives
Incremental Local Regression
Perception for Action
Autonomous Robotic Manipulation
Modeling Top-Down Saliency for Visual Object Search
Interactive Perception
State Estimation and Sensor Fusion for the Control of Legged Robots
Probabilistic Object and Manipulator Tracking
Global Object Shape Reconstruction by Fusing Visual and Tactile Data
Robot Arm Pose Estimation as a Learning Problem
Learning to Grasp from Big Data
Gaussian Filtering as Variational Inference
Template-Based Learning of Model Free Grasping
Associative Skill Memories
Real-Time Perception meets Reactive Motion Generation
Motion planning and control
Autonomous Robotic Manipulation
Learning Coupling Terms of Movement Primitives
State Estimation and Sensor Fusion for the Control of Legged Robots
Inverse Optimal Control
Motion Optimization
Optimal Control for Legged Robots
Movement Representation for Reactive Behavior
Associative Skill Memories
Real-Time Perception meets Reactive Motion Generation
Neural Control of Movement
Experimental Robotics
Autonomous Robotic Manipulation
Inverse Optimal Control
Motion Optimization
Optimal Control for Legged Robots
Associative Skill Memories
Real-Time Perception meets Reactive Motion Generation
Overview
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mms
Gisela Schütz
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