Leonard Rychly scite author profile

Leonard Rychly

2Publications

46Citation Statements Received

86Citation Statements Given

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Fortiss, Technical University of Munich

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Gumpy: a Python toolbox suitable for hybrid brain–computer interfaces

et al. 2018

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Gumpy is a free and open source software, which allows end-users to perform online hybrid BCIs and provides different techniques for processing and decoding of EEG and EMG signals. More importantly, the achieved results reveal that gumpy's deep learning toolbox can match or outperform the state-of-the-art in terms of accuracy. This can therefore enable BCI researchers to develop more robust decoding algorithms using novel techniques and hence chart a route ahead for new BCI improvements.

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Lane-Merging Using Policy-based Reinforcement Learning and Post-Optimization

Hart

Rychly

Knoll

2019

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Many current behavior generation methods struggle to handle real-world traffic situations as they do not scale well with complexity. However, behaviors can be learned off-line using data-driven approaches. Especially, reinforcement learning is promising as it implicitly learns how to behave utilizing collected experiences. In this work, we combine policy-based reinforcement learning with local optimization to foster and synthesize the best of the two methodologies. The policy-based reinforcement learning algorithm provides an initial solution and guiding reference for the post-optimization. Therefore, the optimizer only has to compute a single homotopy class, e.g. drive behind or in front of the other vehicle. By storing the state-history during reinforcement learning, it can be used for constraint checking and the optimizer can account for interactions. The post-optimization additionally acts as a safetylayer and the novel method, thus, can be applied in safetycritical applications. We evaluate the proposed method using lane-change scenarios with a varying number of vehicles.

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Leonard Rychly

Gumpy: a Python toolbox suitable for hybrid brain–computer interfaces

Lane-Merging Using Policy-based Reinforcement Learning and Post-Optimization

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