Tgm Thijs Vromen scite author profile

An adaptive training procedure is developed for a network of electronic neurons, which controls a mobile robot driving around in an unknown environment while avoiding obstacles. The neuronal network controls the angular velocity of the wheels of the robot based on the sensor readings. The nodes in the neuronal network controller are clusters of neurons rather than single neurons. The adaptive training procedure ensures that the input–output behavior of the clusters is identical, even though the constituting neurons are nonidentical and have, in isolation, nonidentical responses to the same input. In particular, we let the neurons interact via a diffusive coupling, and the proposed training procedure modifies the diffusion interaction weights such that the neurons behave synchronously with a predefined response. The working principle of the training procedure is experimentally validated and results of an experiment with a mobile robot that is completely autonomously driving in an unknown environment with obstacles are presented.

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Adaptive Training of Neural Networks for Control of Autonomous Mobile Robots

Steur

Vromen

Nijmeijer

2017

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Experimental Validation of Torsional Controllers for Drilling Systems

Wouw

Nijmeijer²,

Vromen

et al. 2018

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Tgm Thijs Vromen

Robust output-feedback control to eliminate stick-slip oscillations in drill-string systems

Training a Network of Electronic Neurons for Control of a Mobile Robot

Adaptive Training of Neural Networks for Control of Autonomous Mobile Robots

Experimental Validation of Torsional Controllers for Drilling Systems

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