József Katona scite author profile

Keeping up with novel methods and keeping abreast of new applications are crucial issues in engineering education. In brain research, one of the most significant research areas in recent decades, many developments have application in both modern engineering technology and education. New measurement methods in the observation of brain activity open a new frontier in engineering applications. Electroencephalogram (EEG)-based brain activity observation processes are very promising and have been used in several engineering studies, primarily for the implementation of control tasks. This paper presents the development, implementation, and assessment of an EEG-based engineering education project, in which engineering students applied the theory they had learned and improved their knowledge and skills in the area of observation and evaluation of electrical signals generated by brain activity and measured by biosensors. The main project goal was to develop and test a brain-computer interface that is able to measure the average attention level. The effectiveness of this project-based learning was evaluated by student questionnaire responses and analysis of students' exam results; students who had participated in the project were shown to have higher levels of acquired knowledge.Index Terms-Brain-computer interface (BCI), electroencephalogram (EEG), engineering education, project-based learning (PjBL).

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Evaluation of the NeuroSky MindFlex EEG headset brain waves data

Katona

Farkas

Ujbányi

et al. 2014

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Examine the effect of different web-based media on human brain waves

Katona

Ujbányi

Sziladi

et al. 2017

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A Review of Human–Computer Interaction and Virtual Reality Research Fields in Cognitive InfoCommunications

Katona

2021

Applied Sciences

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Cognitive infocommunications (CogInfoCom) is a young and evolving discipline that is at the crossroads of information and communication technology (ICT) and cognitive sciences with many promising results. The goal of the field is to provide insights into how human cognitive capabilities can be merged and extended with the cognitive capabilities of the digital devices surrounding us, with the goal of enabling more seamless interactions between humans and artificially cognitive agents. Results in the field have already led to the appearance of numerous CogInfoCom-based technological innovations. For example, the field has led to a better understanding of how humans can learn more effectively, and the development of new kinds of learning environment have followed accordingly. The goal of this paper is to summarize some of the most recent results in CogInfoCom and to introduce important research trends, developments and innovations that play a key role in understanding and supporting the merging of cognitive processes with ICT.

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József Katona

Speed control of Festo Robotino mobile robot using NeuroSky MindWave EEG headset based brain-computer interface

A Brain–Computer Interface Project Applied in Computer Engineering

Evaluation of the NeuroSky MindFlex EEG headset brain waves data

Examine the effect of different web-based media on human brain waves

A Review of Human–Computer Interaction and Virtual Reality Research Fields in Cognitive InfoCommunications

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