Jonas Brönstrup scite author profile

Most brain-computer interfaces (BCIs) focus on detecting single aspects of user states (e.g., motor imagery) in the electroencephalogram (EEG) in order to use these aspects as control input for external systems. This communication can be effective, but unaccounted mental processes can interfere with signals used for classification and thereby introduce changes in the signal properties which could potentially impede BCI classification performance. To improve BCI performance, we propose deploying an approach that potentially allows to describe different mental states that could influence BCI performance. To test this approach, we analyzed neural signatures of potential affective states in data collected in a paradigm where the complex user state of perceived loss of control (LOC) was induced. In this article, source localization methods were used to identify brain dynamics with source located outside but affecting the signal of interest originating from the primary motor areas, pointing to interfering processes in the brain during natural human-machine interaction. In particular, we found affective correlates which were related to perceived LOC. We conclude that additional context information about the ongoing user state might help to improve the applicability of BCIs to real-world scenarios.

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Towards Implicit Control through Steady-State Somatosensory Evoked Potentials

Zander

Brönstrup

Klose

et al. 2013

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Jonas Brönstrup

Towards BCI-Based Implicit Control in Human–Computer Interaction

Affective Aspects of Perceived Loss of Control and Potential Implications for Brain-Computer Interfaces

Towards Implicit Control through Steady-State Somatosensory Evoked Potentials

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