A Hybrid Brain–Computer Interface for Real-Life Meal-Assist Robot Control

Ha, Jihyeon; Park, Sangin; Im, Chang-Hwan; Kim, Laehyun

doi:10.3390/s21134578

Cited by 16 publications

(6 citation statements)

References 35 publications

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“…These results suggest that high-speed and high-performance asynchronous SSVEP-BCI systems can be built using the FS framework to adapt to different working contexts. In contrast to studies using physiological signals to implement switches [13][14][15][16][17][18][19][20], the method in this study requires no additional action to transfer between IC and NC states. It is a more convenient and friendly way to implement asynchronous SSVEP-BCIs.…”

Section: Discussionmentioning

confidence: 99%

“…Several hBCI studies that employed electrooculogram (EOG) [13][14][15][16], electromyogram (EMG) [16,17], P300 [18,19], and respiration signals [20] to establish switches for SSVEP-BCIs have shown their potential to construct asynchronous SSVEP-BCIs for practical applications. In these studies, the users are usually required to perform intentional actions like eye blinks, occlusal movements, P300 tasks, and breath-holding to produce expected patterns to trigger the switch.…”

Section: Rain-computer Interface (Bci) Can Establish Direct Links Bet...mentioning

confidence: 99%

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Enhancing Detection of Control State for High-Speed Asynchronous SSVEP-BCIs Using Frequency-Specific Framework

Liu

et al. 2023

IEEE Trans. Neural Syst. Rehabil. Eng.

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This study proposed a novel frequencyspecific (FS) algorithm framework for enhancing control state detection using short data length toward highperformance asynchronous steady-state visual evoked potential (SSVEP)-based brain-computer interfaces (BCI). The FS framework sequentially incorporated task-related component analysis (TRCA)-based SSVEP identification and a classifier bank containing multiple FS control state detection classifiers. For an input EEG epoch, the FS framework first identified its potential SSVEP frequency using the TRCA-based method and then recognized its control state using one of the classifiers trained on the features specifically related to the identified frequency. A frequency-unified (FU) framework that conducted control state detection using a unified classifier trained on features related to all candidate frequencies was proposed to compare with the FS framework. Offline evaluation using data lengths within 1 s found that the FS framework achieved excellent performance and significantly outperformed the FU framework. 14-target FS and FU asynchronous systems were separately constructed by incorporating a simple dynamic stopping strategy and validated using a cue-guided selection task in an online experiment. Using averaged data length of 591.63±5.65 ms, the online FS system significantly outperformed the FU system and achieved an information transfer rate, true positive rate, false positive rate, and balanced accuracy of 124.95±12.35 bits/min, 93.16±4.4%, 5.21±5.85%, and 92.89±4.02%, respectively. The FS system was also of higher reliability by accepting more correctly identified SSVEP trials and rejecting more wrongly identified ones. These results suggest that the FS framework has great potential to enhance the control state detection for highspeed asynchronous SSVEP-BCIs.

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Section: Discussionmentioning

confidence: 99%

Section: Rain-computer Interface (Bci) Can Establish Direct Links Bet...mentioning

confidence: 99%

Enhancing Detection of Control State for High-Speed Asynchronous SSVEP-BCIs Using Frequency-Specific Framework

Liu

et al. 2023

IEEE Trans. Neural Syst. Rehabil. Eng.

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“…In a study by Guo et al (2019), the authors utilized blink and pupil diameter for five-class emotion recognition with the combination of EEG and EIG. In a study by Ha et al (2021), the authors created a meal assistant device to improve the self-esteem and enhance the life quality of disabled and elderly people. The proposed brain-computer interface (BCI) system is developed based on the features of triple eye blinks, EEG, and EMG.…”

Section: Blinkmentioning

confidence: 99%

Eye-Tracking Feature Extraction for Biometric Machine Learning

2022

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ContextEye tracking is a technology to measure and determine the eye movements and eye positions of an individual. The eye data can be collected and recorded using an eye tracker. Eye-tracking data offer unprecedented insights into human actions and environments, digitizing how people communicate with computers, and providing novel opportunities to conduct passive biometric-based classification such as emotion prediction. The objective of this article is to review what specific machine learning features can be obtained from eye-tracking data for the classification task.MethodsWe performed a systematic literature review (SLR) covering the eye-tracking studies in classification published from 2016 to the present. In the search process, we used four independent electronic databases which were the IEEE Xplore, the ACM Digital Library, and the ScienceDirect repositories as well as the Google Scholar. The selection process was performed by using the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) search strategy. We followed the processes indicated in the PRISMA to choose the appropriate relevant articles.ResultsOut of the initial 420 articles that were returned from our initial search query, 37 articles were finally identified and used in the qualitative synthesis, which were deemed to be directly relevant to our research question based on our methodology.ConclusionThe features that could be extracted from eye-tracking data included pupil size, saccade, fixations, velocity, blink, pupil position, electrooculogram (EOG), and gaze point. Fixation was the most commonly used feature among the studies found.

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“…In the scenario of feeding, ensuring the safety of human-robot interaction and accurately recognizing the user's intention are critical tasks. In South Korea, Jihyeon Ha, and Sangin Park have developed a braincomputer interface system based on electroencephalography (EEG), allowing users to operate devices according to their intentions, resulting in a more natural process for dining [9]. However, this approach may entail inconvenience due to the necessity of wearing associated equipment.…”

Section: Introductionmentioning

confidence: 99%

Visual-based feeding intention recognition for feeding robots

Yang,

Zhao,

Yang

et al. 2024

Fourth International Conference on Mechanical, Electronics, and Electrical and Automation Control (METMS 2024)

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A Hybrid Brain–Computer Interface for Real-Life Meal-Assist Robot Control

Cited by 16 publications

References 35 publications

Enhancing Detection of Control State for High-Speed Asynchronous SSVEP-BCIs Using Frequency-Specific Framework

Enhancing Detection of Control State for High-Speed Asynchronous SSVEP-BCIs Using Frequency-Specific Framework

Eye-Tracking Feature Extraction for Biometric Machine Learning

Visual-based feeding intention recognition for feeding robots

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