About
Function approximation from noisy data is a central task in robot learning. Relevant problems include sensor modeling, manipulation, control, and many others. A large number of function approximation methods have been proposed from statistics, machine learning, and control system theory to address robotics-related issues such as online updates, active sampling, high dimensionality, non-homogeneous noise, and missing features.
In this workshop, we would like to develop a common understanding of the benefits and drawbacks of different function approximation approaches and to derive practical guidelines for selecting a suitable approach to a given problem.
In addition, we would like to discuss two key points of criticism in current robot learning research. First, data-driven machine learning methods do, in fact, not necessarily outperform models designed by human experts and we would like to explore what function approximation problems in robotics really have to be learned. Second, function approximation/regression methods are typically evaluated using different metrics and data sets, making standardized comparisons challenging.
For more information visit the Workshop website.
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Uploaded videos:
Lectures
Gaussian processes for Bayesian Filtering
Aug 03, 2009
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4194 Views
Learning vehicular dynamics models with application to helicopter modeling and c...
Aug 03, 2009
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4482 Views
Optimized Information Gatheringin Robotics and Sensor Networks
Aug 03, 2009
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3777 Views
Adaptation and Self-Supervision in Mobile Robots Poster Spotlight Presentations
Aug 03, 2009
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3086 Views
The Role of Function Approximation for both Regression and Classifiction in Robo...
Aug 03, 2009
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3547 Views
Going forward with Probablistic Local Learning Approaches
Aug 03, 2009
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4290 Views
Function Approximation for Imitation Learning in Humanoid Robots
Aug 03, 2009
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3586 Views
Reinforcement Learning by Reward-Weighted Regression
Aug 03, 2009
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4469 Views
Panel Session
Panel Discussion
Aug 03, 2009
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4655 Views