Comparison of Smoothing Filters' Influence on Quality of Data Recorded with the Emotiv EPOC Flex Brain-Computer Interface Headset during Audio Stimulation

• Published in: Brain sciences Vol. 11; no. 1; p. 98
• Main Authors: Browarska, Natalia, Kawala-Sterniuk, Aleksandra, Zygarlicki, Jaroslaw, Podpora, Michal, Pelc, Mariusz, Martinek, Radek, Gorzelańczyk, Edward Jacek
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI 13.01.2021; MDPI AG
• Subjects: Brain-Computer Interfaces; digital filtering; electroencephalography; Emotiv Flex; signal processing; Brain-Computer Interfaces; electroencephalography; Emotiv Flex; signal processing; digital filtering
• ISSN: 2076-3425; 2076-3425
• DOI: 10.3390/brainsci11010098

Off-the-shelf, consumer-grade EEG equipment is nowadays becoming the first-choice equipment for many scientists when it comes to recording brain waves for research purposes. On one hand, this is perfectly understandable due to its availability and relatively low cost (especially in comparison to some clinical-level EEG devices), but, on the other hand, quality of the recorded signals is gradually increasing and reaching levels that were offered just a few years ago by much more expensive devices used in medicine for diagnostic purposes. In many cases, a well-designed filter and/or a well-thought signal acquisition method improve the signal quality to the level that it becomes good enough to become subject of further analysis allowing to formulate some valid scientific theories and draw far-fetched conclusions related to human brain operation. In this paper, we propose a smoothing filter based upon the Savitzky-Golay filter for the purpose of EEG signal filtering. Additionally, we provide a summary and comparison of the applied filter to some other approaches to EEG data filtering. All the analyzed signals were acquired from subjects performing visually involving high-concentration tasks with audio stimuli using Emotiv EPOC Flex equipment.