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MFI 2016 PLENARY TALKS

The plenary talks at the IEEE International Conference on Multisensor Fusion and Integration for Intelligent Systems will feature the following keynote speakers:



Tuesday, September 20, 09:00 – 10:00

Rüdiger Dillmann, KIT Karlsruhe Institute of Technology, Karlsruhe, Germany

Neurorobotics in the Human Brain Project: Robot Sensor-Motor Controls Based on Spiking Neural Clouds

This talk presents a functional control framework for neuro-robotics platforms. The required robot controls are based on the plasticity of spiking neural clouds known from neuroscience and cybernetics. The work is part of the European FET-Flagship "Modelling the Human Brain" where simulated humanoid and other robots as well as human body model are be connected with a brain simulator and with neurohardware to study learning of sensor-motor body control schema. A neurorobotics simulator platform is used to study neural control mechanisms for visual servoing, grasping and body motion in particular. Learning of body schema, of coordinated whole body walking patterns and of learning of grasping activities are typical experiments to evaluate spiking neural clouds. An important aspect is to identify the simplest neuronal circuit capable of providing specific functionality and to use the circuit for the analysis and implementation in neuromorphic robot technology and neuromorphic systems engineerin. The first devices based on small, low ganularity models are to be scaled up to become more powerful and energy efficient whole body controls. As the project progresses towards the human brain truly intelligent humanoid robot controls and adequate world representations with a broad range of applications are considered. Actuators and sensorial feedback like vision, haptics and acoustics are to be discussed. As a starting point the brain of a mouse has been mapped with high granularity and implemented in a super computer. The model is used to study the behaviour of the mouse, its body-motion-schema, its receptors and its behaviour in a simulated virtual environment to support both mapping of brain functionalities and understanding basic neural adaptive control principles. Emphasis is given to the highly flexible synaptic plasticity supporting learning of various closed loop and feed forward contol principles.


Rüdiger Dillmann KIT Karlsruhe Institute of Technology, Karlsruhe, Germany

Rüdiger Dillmann received his Ph. D. from University of Karlsruhe in 1980. Since 1987 he has been Professor of the Department of Computer Science and is Director of the Research Lab. Humanoids and Intelligence Systems at KIT. 2002 he became director of an innovation lab. at the Research Center for Information Science (FZI), Karlsruhe. Since 2009 he is spokesman of the Institute of Anthropomatics at the Karlsruhe Institute of Technolog and founder of the KIT – Focus Anthropomatics and Robotics.

His research interest is in the areas of humanoid robotics with special emphasis on intelligent, autonomous and interactive robot behaviour based on machine learning methods and programming by demonstration (PbD). Other research interests include machine vision for mobile systems, man-machine interaction, computer supported intervention in surgery and related simulation techniques.

He is author/co-author of more than 850 scientific publications, conference papers, several books and book contributions. He was Coordinator of the German Collaborative Research Center ”Humanoid Robots”, SFB 588 and several European IPs. He is Editor of the journal ”Robotics and Autonomous Systems”, Elsevier, and Editor in Chief of the book series COSMOS, Springer. He is IEEE Fellow.



Wednesday, September 21

Simon J. Julier, University College London, United Kingdom

Tractable Estimation in Nonlinear Systems

An awkward fact of life is that almost all systems of interest are nonlinear. Nonlinearities introduce many challenges for estimation systems, including biases, coupling through higher order dependencies, and restrict estimates to lie on nonlinear manifolds. Although these problems can be solved in theory, it is well-known that, in practice, the theoretical solutions are intractable and suboptimal approximations must be used. Historically, linear minimum mean squared error estimators such as the Kalman filter were developed. Given the limitations of these algorithms, many other approaches—such as particle filters, Gaussian mixture models, grids and kernel density estimators have been proposed.

In this talk, we revisit the problem of how to develop tractable methods which will improve the performance of least squares estimators in nonlinear systems. There are two reasons for this. First, some methods (such as mixture models) build upon linear estimators, and improving the performance of these improves the performance of the entire system. Second, approaches such as particle filters suffer from problems such as the curse of dimensionality, and cannot be applied in practice. In particular, this talk will review the sigma point approaches, such as the Unscented Kalman Filter (UKF), the Cubature Kalman Flter (CKF). We will show how these approaches lead to a framework which is naturally scalable. We will also discuss the strengths and limitations of these approaches.


Julier.jpg

Simon J. Julier is a Senior Lecturer at the Vision, Imaging and Virtual Environments Group, in the Computer Science Department at UCL. Before joining UCL, Dr. Julier worked for nine years at the 3D Mixed and Virtual Environments Laboratory at the Naval Research Laboratory in Washington DC. There he was PI of the Battlefield Augmented Reality System (BARS), a research effort to develop man-wearable systems for providing situation awareness information. He served as the Associate Director of the 3DMVEL from 2005–2006. His research interests include user interfaces, distributed data fusion, nonlinear estimation, and simultaneous localisation and mapping.


VDE

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