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151. Preface.

Author

Dornhege, Guido, del R. Millán, José, Hinterberger, Thilo, McFarland, Dennis J., and Müller, Klaus-Robert

Published
2007

153. A P300 event-related potential brain–computer interface (BCI): The effects of matrix size and inter stimulus interval on performance

Author

Sellers, Eric W., Krusienski, Dean J., McFarland, Dennis J., Vaughan, Theresa M., and Wolpaw, Jonathan R.

Subjects
*COMPUTER interfaces, *COMPUTER input-output equipment, *MATRICES (Mathematics), *CHARACTER
Abstract

Abstract: We describe a study designed to assess properties of a P300 brain–computer interface (BCI). The BCI presents the user with a matrix containing letters and numbers. The user attends to a character to be communicated and the rows and columns of the matrix briefly intensify. Each time the attended character is intensified it serves as a rare event in an oddball sequence and it elicits a P300 response. The BCI works by detecting which character elicited a P300 response. We manipulated the size of the character matrix (either 3×3 or 6×6) and the duration of the inter stimulus interval (ISI) between intensifications (either 175 or 350ms). Online accuracy was highest for the 3×3 matrix 175-ms ISI condition, while bit rate was highest for the 6×6 matrix 175-ms ISI condition. Average accuracy in the best condition for each subject was 88%. P300 amplitude was significantly greater for the attended stimulus and for the 6×6 matrix. This work demonstrates that matrix size and ISI are important variables to consider when optimizing a BCI system for individual users and that a P300-BCI can be used for effective communication. [Copyright &y& Elsevier] more...

Published
2006
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154. Sensor Technology

Author

Gerhardt, Greg A., Tresco, Patrick A., Berger, Theodore W., Chapin, John K., Gerhardt, Greg A., McFarland, Dennis J., Principe, José C., Soussou, Walid V., Taylor, Dawn M., and Tresco, Patrick A.

Published
2008
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156. Cognitive and Emotional Neuroprostheses

Author

Soussou, Walid V., Berger, Theodore W., Berger, Theodore W., Chapin, John K., Gerhardt, Greg A., McFarland, Dennis J., Principe, José C., Soussou, Walid V., Taylor, Dawn M., and Tresco, Patrick A.

Published
2008
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157. The Biotic-Abiotic Interface

Author

Tresco, Patrick A., Gerhardt, Greg A., Berger, Theodore W., Chapin, John K., Gerhardt, Greg A., McFarland, Dennis J., Principe, José C., Soussou, Walid V., Taylor, Dawn M., and Tresco, Patrick A.

Published
2008
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159. Introduction

Author

Berger, Theodore W., Berger, Theodore W., Chapin, John K., Gerhardt, Greg A., McFarland, Dennis J., Principe, José C., Soussou, Walid V., Taylor, Dawn M., and Tresco, Patrick A.

Published
2008
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160. Hardware Implementation

Author

Chapin, John K., Berger, Theodore W., Chapin, John K., Gerhardt, Greg A., McFarland, Dennis J., Principe, José C., Soussou, Walid V., Taylor, Dawn M., and Tresco, Patrick A.

Published
2008
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161. Use of phase-locking value in sensorimotor rhythm-based brain-computer interface: zero-phase coupling and effects of spatial filters.

Author

Jian, Wenjuan, Chen, Minyou, McFarland, Dennis, and McFarland, Dennis J

Subjects
*PARAMETRONS, *SENSORIMOTOR integration, *BRAIN-computer interfaces, *ELECTROENCEPHALOGRAPHY, *SPECTRUM analysis, *FRONTAL lobe, *SIGNAL processing equipment, *RESEARCH funding, *EQUIPMENT & supplies, *PHYSIOLOGY
Abstract

Phase-locking value (PLV) is a potentially useful feature in sensorimotor rhythm-based brain-computer interface (BCI). However, volume conduction may cause spurious zero-phase coupling between two EEG signals and it is not clear whether PLV effects are independent of spectral amplitude. Volume conduction might be reduced by spatial filtering, but it is uncertain what impact this might have on PLV. Therefore, the goal of this study was to explore whether zero-phase PLV is meaningful and how it is affected by spatial filtering. Both amplitude and PLV feature were extracted in the frequency band of 10-15 Hz by classical methods using archival EEG data of 18 subjects trained on a two-target BCI task. The results show that with right ear-referenced data, there is meaningful long-range zero-phase synchronization likely involving the primary motor area and the supplementary motor area that cannot be explained by volume conduction. Another novel finding is that the large Laplacian spatial filter enhances the amplitude feature but eliminates most of the phase information seen in ear-referenced data. A bipolar channel using phase-coupled areas also includes both phase and amplitude information and has a significant practical advantage since fewer channels required. [ABSTRACT FROM AUTHOR] more...

Published
2017
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162. An auditory brain–computer interface (BCI)

Author

Nijboer, Femke, Furdea, Adrian, Gunst, Ingo, Mellinger, Jürgen, McFarland, Dennis J., Birbaumer, Niels, and Kübler, Andrea

Subjects
*COMPUTER input-output equipment, *COMPUTER interfaces, *BRAIN, *MENTAL illness
Abstract

Abstract: Brain–computer interfaces (BCIs) translate brain activity into signals controlling external devices. BCIs based on visual stimuli can maintain communication in severely paralyzed patients, but only if intact vision is available. Debilitating neurological disorders however, may lead to loss of intact vision. The current study explores the feasibility of an auditory BCI. Sixteen healthy volunteers participated in three training sessions consisting of 30 2–3min runs in which they learned to increase or decrease the amplitude of sensorimotor rhythms (SMR) of the EEG. Half of the participants were presented with visual and half with auditory feedback. Mood and motivation were assessed prior to each session. Although BCI performance in the visual feedback group was superior to the auditory feedback group there was no difference in performance at the end of the third session. Participants in the auditory feedback group learned slower, but four out of eight reached an accuracy of over 70% correct in the last session comparable to the visual feedback group. Decreasing performance of some participants in the visual feedback group is related to mood and motivation. We conclude that with sufficient training time an auditory BCI may be as efficient as a visual BCI. Mood and motivation play a role in learning to use a BCI. [Copyright &y& Elsevier] more...

Published
2008
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164. Single-trial analysis of EEG during rapid visual discrimination: enabling cortically-coupled computer vision

Author

Sajda, Paul, Gerson, Adam D., Philiastides, Marios G., Parra, Lucas, Dornhege, Guido, Millán, José del R., Hinterberger, Thilo, McFarland, Dennis J., and Müller, Klaus-Robert

Abstract

We describe our work using linear discrimination of multi-channel electroencephalography\ud for single-trial detection of neural signatures of visual recognition events. We demonstrate\ud the approach as a methodology for relating neural variability to response variability, describing\ud studies for response accuracy and response latency during visual target detection.\ud We then show how the approach can be utilized to construct a novel type of brain-computer\ud interface, which we term cortically-coupled computer vision. In this application, a large\ud database of images is triaged using the detected neural signatures. We show how ‘corticaltriaging’\ud improves image search over a strictly behavioral response. more...

Published
2007

165. Brain-computer interfaces for amyotrophic lateral sclerosis.

Author

McFarland DJ

Subjects
Electroencephalography methods, Event-Related Potentials, P300 physiology, Humans, Amyotrophic Lateral Sclerosis physiopathology, Amyotrophic Lateral Sclerosis rehabilitation, Brain physiology, Brain-Computer Interfaces trends
Abstract

A brain-computer interface (BCI) is a device that detects signals from the brain and transforms them into useful commands. Researchers have developed BCIs that utilize different kinds of brain signals. These different BCI systems have differing characteristics, such as the amount of training required and the degree to which they are or are not invasive. Much of the research on BCIs to date has involved healthy individuals and evaluation of classification algorithms. Some BCIs have been shown to have potential benefit for users with minimal muscular function as a result of amyotrophic lateral sclerosis. However, there are still several challenges that need to be successfully addressed before BCIs can be clinically useful., (© 2020 Wiley Periodicals, Inc.) more...

Published
2020
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167. Independent home use of a brain-computer interface by people with amyotrophic lateral sclerosis.

Author

Wolpaw JR, Bedlack RS, Reda DJ, Ringer RJ, Banks PG, Vaughan TM, Heckman SM, McCane LM, Carmack CS, Winden S, McFarland DJ, Sellers EW, Shi H, Paine T, Higgins DS, Lo AC, Patwa HS, Hill KJ, Huang GD, and Ruff RL more...

Subjects
Adult, Aged, Amyotrophic Lateral Sclerosis diagnosis, Amyotrophic Lateral Sclerosis physiopathology, Brain-Computer Interfaces trends, Electroencephalography standards, Electroencephalography trends, Home Care Services trends, Humans, Male, Middle Aged, Self Care trends, Therapy, Computer-Assisted trends, United States epidemiology, United States Department of Veterans Affairs trends, Amyotrophic Lateral Sclerosis therapy, Brain-Computer Interfaces standards, Home Care Services standards, Self Care standards, Therapy, Computer-Assisted standards, United States Department of Veterans Affairs standards
Abstract

Objective: To assess the reliability and usefulness of an EEG-based brain-computer interface (BCI) for patients with advanced amyotrophic lateral sclerosis (ALS) who used it independently at home for up to 18 months., Methods: Of 42 patients consented, 39 (93%) met the study criteria, and 37 (88%) were assessed for use of the Wadsworth BCI. Nine (21%) could not use the BCI. Of the other 28, 27 (men, age 28-79 years) (64%) had the BCI placed in their homes, and they and their caregivers were trained to use it. Use data were collected by Internet. Periodic visits evaluated BCI benefit and burden and quality of life., Results: Over subsequent months, 12 (29% of the original 42) left the study because of death or rapid disease progression and 6 (14%) left because of decreased interest. Fourteen (33%) completed training and used the BCI independently, mainly for communication. Technical problems were rare. Patient and caregiver ratings indicated that BCI benefit exceeded burden. Quality of life remained stable. Of those not lost to the disease, half completed the study; all but 1 patient kept the BCI for further use., Conclusion: The Wadsworth BCI home system can function reliably and usefully when operated by patients in their homes. BCIs that support communication are at present most suitable for people who are severely disabled but are otherwise in stable health. Improvements in BCI convenience and performance, including some now underway, should increase the number of people who find them useful and the extent to which they are used., (© 2018 American Academy of Neurology.) more...

Published
2018
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168. Prediction of subjective ratings of emotional pictures by EEG features.

Author

McFarland DJ, Parvaz MA, Sarnacki WA, Goldstein RZ, and Wolpaw JR

Subjects
Adult, Aged, Feasibility Studies, Humans, Middle Aged, Photic Stimulation methods, Reproducibility of Results, Sensitivity and Specificity, Algorithms, Arousal physiology, Cerebral Cortex physiology, Electroencephalography methods, Emotions physiology, Pattern Recognition, Automated methods, Visual Perception physiology
Abstract

Objective: Emotion dysregulation is an important aspect of many psychiatric disorders. Brain-computer interface (BCI) technology could be a powerful new approach to facilitating therapeutic self-regulation of emotions. One possible BCI method would be to provide stimulus-specific feedback based on subject-specific electroencephalographic (EEG) responses to emotion-eliciting stimuli., Approach: To assess the feasibility of this approach, we studied the relationships between emotional valence/arousal and three EEG features: amplitude of alpha activity over frontal cortex; amplitude of theta activity over frontal midline cortex; and the late positive potential over central and posterior mid-line areas. For each feature, we evaluated its ability to predict emotional valence/arousal on both an individual and a group basis. Twenty healthy participants (9 men, 11 women; ages 22-68) rated each of 192 pictures from the IAPS collection in terms of valence and arousal twice (96 pictures on each of 4 d over 2 weeks). EEG was collected simultaneously and used to develop models based on canonical correlation to predict subject-specific single-trial ratings. Separate models were evaluated for the three EEG features: frontal alpha activity; frontal midline theta; and the late positive potential. In each case, these features were used to simultaneously predict both the normed ratings and the subject-specific ratings., Main Results: Models using each of the three EEG features with data from individual subjects were generally successful at predicting subjective ratings on training data, but generalization to test data was less successful. Sparse models performed better than models without regularization., Significance: The results suggest that the frontal midline theta is a better candidate than frontal alpha activity or the late positive potential for use in a BCI-based paradigm designed to modify emotional reactions. more...

Published
2017
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169. Therapeutic Applications of BCI Technologies.

Author

McFarland DJ, Daly J, Boulay C, and Parvaz M

Abstract

Brain-computer interface (BCI) technology can restore communication and control to people who are severely paralyzed. There has been speculation that this technology might also be useful for a variety of diverse therapeutic applications. This survey considers possible ways that BCI technology can be applied to motor rehabilitation following stroke, Parkinson's disease, and psychiatric disorders. We consider potential neural signals as well as the design and goals of BCI-based therapeutic applications. These diverse applications all share a reliance on neuroimaging and signal processing technologies. At the same time, each of these potential applications presents a series of unique challenges. more...

Published
2017
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170. Workshops of the Sixth International Brain-Computer Interface Meeting: brain-computer interfaces past, present, and future.

Author

Huggins JE, Guger C, Ziat M, Zander TO, Taylor D, Tangermann M, Soria-Frisch A, Simeral J, Scherer R, Rupp R, Ruffini G, Robinson DKR, Ramsey NF, Nijholt A, Müller-Putz G, McFarland DJ, Mattia D, Lance BJ, Kindermans PJ, Iturrate I, Herff C, Gupta D, Do AH, Collinger JL, Chavarriaga R, Chase SM, Bleichner MG, Batista A, Anderson CW, and Aarnoutse EJ more...

Abstract

The Sixth International Brain-Computer Interface (BCI) Meeting was held 30 May-3 June 2016 at the Asilomar Conference Grounds, Pacific Grove, California, USA. The conference included 28 workshops covering topics in BCI and brain-machine interface research. Topics included BCI for specific populations or applications, advancing BCI research through use of specific signals or technological advances, and translational and commercial issues to bring both implanted and non-invasive BCIs to market. BCI research is growing and expanding in the breadth of its applications, the depth of knowledge it can produce, and the practical benefit it can provide both for those with physical impairments and the general public. Here we provide summaries of each workshop, illustrating the breadth and depth of BCI research and highlighting important issues and calls for action to support future research and development. more...

Published
2017
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171. P300-based brain-computer interface (BCI) event-related potentials (ERPs): People with amyotrophic lateral sclerosis (ALS) vs. age-matched controls.

Author

McCane LM, Heckman SM, McFarland DJ, Townsend G, Mak JN, Sellers EW, Zeitlin D, Tenteromano LM, Wolpaw JR, and Vaughan TM

Subjects
Adult, Aged, Brain Mapping, Case-Control Studies, Communication, Electroencephalography, Female, Humans, Male, Middle Aged, Reaction Time physiology, Vision, Ocular physiology, Aging physiology, Amyotrophic Lateral Sclerosis physiopathology, Brain-Computer Interfaces, Event-Related Potentials, P300 physiology, Evoked Potentials physiology
Abstract

Objective: Brain-computer interfaces (BCIs) aimed at restoring communication to people with severe neuromuscular disabilities often use event-related potentials (ERPs) in scalp-recorded EEG activity. Up to the present, most research and development in this area has been done in the laboratory with young healthy control subjects. In order to facilitate the development of BCI most useful to people with disabilities, the present study set out to: (1) determine whether people with amyotrophic lateral sclerosis (ALS) and healthy, age-matched volunteers (HVs) differ in the speed and accuracy of their ERP-based BCI use; (2) compare the ERP characteristics of these two groups; and (3) identify ERP-related factors that might enable improvement in BCI performance for people with disabilities., Methods: Sixteen EEG channels were recorded while people with ALS or healthy age-matched volunteers (HVs) used a P300-based BCI. The subjects with ALS had little or no remaining useful motor control (mean ALS Functional Rating Scale-Revised 9.4 (±9.5SD) (range 0-25)). Each subject attended to a target item as the items in a 6×6 visual matrix flashed. The BCI used a stepwise linear discriminant function (SWLDA) to determine the item the user wished to select (i.e., the target item). Offline analyses assessed the latencies, amplitudes, and locations of ERPs to the target and non-target items for people with ALS and age-matched control subjects., Results: BCI accuracy and communication rate did not differ significantly between ALS users and HVs. Although ERP morphology was similar for the two groups, their target ERPs differed significantly in the location and amplitude of the late positivity (P300), the amplitude of the early negativity (N200), and the latency of the late negativity (LN)., Conclusions: The differences in target ERP components between people with ALS and age-matched HVs are consistent with the growing recognition that ALS may affect cortical function. The development of BCIs for use by this population may begin with studies in HVs but also needs to include studies in people with ALS. Their differences in ERP components may affect the selection of electrode montages, and might also affect the selection of presentation parameters (e.g., matrix design, stimulation rate)., Significance: P300-based BCI performance in people severely disabled by ALS is similar to that of age-matched control subjects. At the same time, their ERP components differ to some degree from those of controls. Attention to these differences could contribute to the development of BCIs useful to those with ALS and possibly to others with severe neuromuscular disabilities., (Copyright © 2015 International Federation of Clinical Neurophysiology. Published by Elsevier Ireland Ltd. All rights reserved.) more...

Published
2015
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172. The advantages of the surface Laplacian in brain-computer interface research.

Author

McFarland DJ

Subjects
Adult, Algorithms, Electroencephalography, Female, Humans, Male, Middle Aged, Online Systems, Brain physiology, Brain Mapping, Brain-Computer Interfaces, Evoked Potentials physiology, Movement physiology, Wavelet Analysis
Abstract

Brain-computer interface (BCI) systems frequently use signal processing methods, such as spatial filtering, to enhance performance. The surface Laplacian can reduce spatial noise and aid in identification of sources. In BCI research, these two functions of the surface Laplacian correspond to prediction accuracy and signal orthogonality. In the present study, an off-line analysis of data from a sensorimotor rhythm-based BCI task dissociated these functions of the surface Laplacian by comparing nearest-neighbor and next-nearest neighbor Laplacian algorithms. The nearest-neighbor Laplacian produced signals that were more orthogonal while the next-nearest Laplacian produced signals that resulted in better accuracy. Both prediction and signal identification are important for BCI research. Better prediction of user's intent produces increased speed and accuracy of communication and control. Signal identification is important for ruling out the possibility of control by artifacts. Identifying the nature of the control signal is relevant both to understanding exactly what is being studied and in terms of usability for individuals with limited motor control., (Copyright © 2014 Elsevier B.V. All rights reserved.) more...

Published
2015
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173. Simulating the effects of common and specific abilities on test performance: an evaluation of factor analysis.

Author

McFarland DJ

Subjects
Humans, Language Tests statistics & numerical data, Linear Models, Principal Component Analysis, Speech Production Measurement statistics & numerical data, Factor Analysis, Statistical, Test Taking Skills statistics & numerical data
Abstract

Purpose: Factor analysis is a useful technique to aid in organizing multivariate data characterizing speech, language, and auditory abilities. However, knowledge of the limitations of factor analysis is essential for proper interpretation of results. The present study used simulated test scores to illustrate some characteristics of factor analysis., Method: Linear models were used to simulate test scores that were determined by multiple latent variables. These simulated test scores were evaluated with principal components analysis and, in certain cases, structural equation modeling. In addition, a subset of simulated individuals characterized by poor test performance was examined., Results: The number of factors recovered and their identity do not necessarily correspond to the structure of the latent variables that generated the test scores. The first principal component may represent variance from multiple uncorrelated sources. Practices such as correction or control for general cognitive ability may produce misleading results., Conclusions: Inferences from the results of factor analysis should be primarily about the structure of test batteries rather than the structure of human mental abilities. Researchers and clinicians should consider multiple sources of evidence to evaluate hypotheses about the processes generating test results. more...

Published
2014
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176. Characterizing multivariate decoding models based on correlated EEG spectral features.

Author

McFarland DJ

Subjects
Algorithms, Fourier Analysis, Humans, Models, Statistical, Online Systems, User-Computer Interface, Brain Waves physiology, Electroencephalography, Models, Biological, Somatosensory Cortex physiology
Abstract

Objective: Multivariate decoding methods are popular techniques for analysis of neurophysiological data. The present study explored potential interpretative problems with these techniques when predictors are correlated., Methods: Data from sensorimotor rhythm-based cursor control experiments was analyzed offline with linear univariate and multivariate models. Features were derived from autoregressive (AR) spectral analysis of varying model order which produced predictors that varied in their degree of correlation (i.e., multicollinearity)., Results: The use of multivariate regression models resulted in much better prediction of target position as compared to univariate regression models. However, with lower order AR features interpretation of the spectral patterns of the weights was difficult. This is likely to be due to the high degree of multicollinearity present with lower order AR features., Conclusions: Care should be exercised when interpreting the pattern of weights of multivariate models with correlated predictors. Comparison with univariate statistics is advisable., Significance: While multivariate decoding algorithms are very useful for prediction their utility for interpretation may be limited when predictors are correlated., (Copyright © 2013 International Federation of Clinical Neurophysiology. Published by Elsevier Ireland Ltd. All rights reserved.) more...

Published
2013
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177. Factors influencing tests of auditory processing: a perspective on current issues and relevant concerns.

Author

Cacace AT and McFarland DJ

Subjects
Acoustic Stimulation, Audiometry, Evoked Response methods, Audiometry, Evoked Response standards, Auditory Perceptual Disorders physiopathology, Choice Behavior, Data Interpretation, Statistical, Diagnosis, Computer-Assisted, Diagnosis, Differential, Dichotic Listening Tests standards, Humans, Models, Theoretical, Neuropsychology, Psychomotor Performance physiology, Sensitivity and Specificity, Terminology as Topic, Auditory Perception physiology, Auditory Perceptual Disorders diagnosis, Evoked Potentials, Auditory, Brain Stem, Neuropsychological Tests standards, Psychoacoustics
Abstract

Background: Tests of auditory perception, such as those used in the assessment of central auditory processing disorders ([C]APDs), represent a domain in audiological assessment where measurement of this theoretical construct is often confounded by nonauditory abilities due to methodological shortcomings. These confounds include the effects of cognitive variables such as memory and attention and suboptimal testing paradigms, including the use of verbal reproduction as a form of response selection. We argue that these factors need to be controlled more carefully and/or modified so that their impact on tests of auditory and visual perception is only minimal., Purpose: To advocate for a stronger theoretical framework than currently exists and to suggest better methodological strategies to improve assessment of auditory processing disorders (APDs). Emphasis is placed on adaptive forced-choice psychophysical methods and the use of matched tasks in multiple sensory modalities to achieve these goals. Together, this approach has potential to improve the construct validity of the diagnosis, enhance and develop theory, and evolve into a preferred method of testing., Research Design: Examination of methods commonly used in studies of APDs. Where possible, currently used methodology is compared to contemporary psychophysical methods that emphasize computer-controlled forced-choice paradigms., Results: In many cases, the procedures used in studies of APD introduce confounding factors that could be minimized if computer-controlled forced-choice psychophysical methods were utilized., Conclusions: Ambiguities of interpretation, indeterminate diagnoses, and unwanted confounds can be avoided by minimizing memory and attentional demands on the input end and precluding the use of response-selection strategies that use complex motor processes on the output end. Advocated are the use of computer-controlled forced-choice psychophysical paradigms in combination with matched tasks in multiple sensory modalities to enhance the prospect of obtaining a valid diagnosis., (American Academy of Audiology.) more...

Published
2013
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178. Adaptive Laplacian filtering for sensorimotor rhythm-based brain-computer interfaces.

Author

Lu J, McFarland DJ, and Wolpaw JR

Subjects
Humans, Models, Neurological, Normal Distribution, Reproducibility of Results, Algorithms, Brain-Computer Interfaces, Electroencephalography methods, Filtration, Motor Cortex physiology, Pressure, Psychomotor Performance physiology
Abstract

Objective: Sensorimotor rhythms (SMRs) are 8-30 Hz oscillations in the electroencephalogram (EEG) recorded from the scalp over sensorimotor cortex that change with movement and/or movement imagery. Many brain-computer interface (BCI) studies have shown that people can learn to control SMR amplitudes and can use that control to move cursors and other objects in one, two or three dimensions. At the same time, if SMR-based BCIs are to be useful for people with neuromuscular disabilities, their accuracy and reliability must be improved substantially. These BCIs often use spatial filtering methods such as common average reference (CAR), Laplacian (LAP) filter or common spatial pattern (CSP) filter to enhance the signal-to-noise ratio of EEG. Here, we test the hypothesis that a new filter design, called an 'adaptive Laplacian (ALAP) filter', can provide better performance for SMR-based BCIs., Approach: An ALAP filter employs a Gaussian kernel to construct a smooth spatial gradient of channel weights and then simultaneously seeks the optimal kernel radius of this spatial filter and the regularization parameter of linear ridge regression. This optimization is based on minimizing the leave-one-out cross-validation error through a gradient descent method and is computationally feasible., Main Results: Using a variety of kinds of BCI data from a total of 22 individuals, we compare the performances of ALAP filter to CAR, small LAP, large LAP and CSP filters. With a large number of channels and limited data, ALAP performs significantly better than CSP, CAR, small LAP and large LAP both in classification accuracy and in mean-squared error. Using fewer channels restricted to motor areas, ALAP is still superior to CAR, small LAP and large LAP, but equally matched to CSP., Significance: Thus, ALAP may help to improve the accuracy and robustness of SMR-based BCIs. more...

Published
2013
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180. Should the parameters of a BCI translation algorithm be continually adapted?

Author

McFarland DJ, Sarnacki WA, and Wolpaw JR

Subjects
Adult, Discriminant Analysis, Electroencephalography instrumentation, Female, Humans, Learning Curve, Least-Squares Analysis, Male, Middle Aged, Scalp physiology, Signal Processing, Computer-Assisted, Software, Algorithms, Analysis of Variance, Artificial Intelligence, Brain physiology, Communication Devices for People with Disabilities, Electroencephalography methods, Event-Related Potentials, P300 physiology, Man-Machine Systems, User-Computer Interface
Abstract

People with or without motor disabilities can learn to control sensorimotor rhythms (SMRs) recorded from the scalp to move a computer cursor in one or more dimensions or can use the P300 event-related potential as a control signal to make discrete selections. Data collected from individuals using an SMR-based or P300-based BCI were evaluated offline to estimate the impact on performance of continually adapting the parameters of the translation algorithm during BCI operation. The performance of the SMR-based BCI was enhanced by adaptive updating of the feature weights or adaptive normalization of the features. In contrast, P300 performance did not benefit from either of these procedures., (Copyright © 2011 Elsevier B.V. All rights reserved.) more...

Published
2011
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181. Dichotic and dichoptic digit perception in normal adults.

Author

Lawfield A, McFarland DJ, and Cacace AT

Subjects
Adolescent, Adult, Female, Functional Laterality, Humans, Male, Recognition, Psychology physiology, Reference Values, Reproducibility of Results, Task Performance and Analysis, Young Adult, Auditory Perception physiology, Dichotic Listening Tests, Visual Perception physiology
Abstract

Background: Verbally based dichotic-listening experiments and reproduction-mediated response-selection strategies have been used for over four decades to study perceptual/cognitive aspects of auditory information processing and make inferences about hemispheric asymmetries and language lateralization in the brain. Test procedures using dichotic digits have also been used to assess for disorders of auditory processing. However, with this application, limitations exist and paradigms need to be developed to improve specificity of the diagnosis. Use of matched tasks in multiple sensory modalities is a logical approach to address this issue. Herein, we use dichotic listening and dichoptic viewing of visually presented digits for making this comparison., Purpose: To evaluate methodological issues involved in using matched tasks of dichotic listening and dichoptic viewing in normal adults., Research Design: A multivariate assessment of the effects of modality (auditory vs. visual), digit-span length (1-3 pairs), response selection (recognition vs. reproduction), and ear/visual hemifield of presentation (left vs. right) on dichotic and dichoptic digit perception., Study Sample: Thirty adults (12 males, 18 females) ranging in age from 18 to 30 yr with normal hearing sensitivity and normal or corrected-to-normal visual acuity., Data Collection and Analysis: A computerized, custom-designed program was used for all data collection and analysis. A four-way repeated measures analysis of variance (ANOVA) evaluated the effects of modality, digit-span length, response selection, and ear/visual field of presentation., Results: The ANOVA revealed that performances on dichotic listening and dichoptic viewing tasks were dependent on complex interactions between modality, digit-span length, response selection, and ear/visual hemifield of presentation. Correlation analysis suggested a common effect on overall accuracy of performance but isolated only an auditory factor for a laterality index., Conclusions: The variables used in this experiment affected performances in the auditory modality to a greater extent than in the visual modality. The right-ear advantage observed in the dichotic-digits task was most evident when reproduction mediated response selection was used in conjunction with three-digit pairs. This effect implies that factors such as "speech related output mechanisms" and digit-span length (working memory) contribute to laterality effects in dichotic listening performance with traditional paradigms. Thus, the use of multiple-digit pairs to avoid ceiling effects and the application of verbal reproduction as a means of response selection may accentuate the role of nonperceptual factors in performance. Ideally, tests of perceptual abilities should be relatively free of such effects., (American Academy of Audiology.) more...

Published
2011
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182. The P300-based brain-computer interface (BCI): effects of stimulus rate.

Author

McFarland DJ, Sarnacki WA, Townsend G, Vaughan T, and Wolpaw JR

Subjects
Adult, Analysis of Variance, Discriminant Analysis, Electroencephalography, Feedback, Psychological physiology, Female, Humans, Male, Middle Aged, Online Systems, Photic Stimulation, Psychomotor Performance physiology, Communication Devices for People with Disabilities, Event-Related Potentials, P300 physiology, User-Computer Interface
Abstract

Objective: Brain-computer interface technology can restore communication and control to people who are severely paralyzed. We have developed a non-invasive BCI based on the P300 event-related potential that uses an 8×9 matrix of 72 items that flash in groups of 6. Stimulus presentation rate (i.e., flash rate) is one of several parameters that could affect the speed and accuracy of performance. We studied performance (i.e., accuracy and characters/min) on copy spelling as a function of flash rate., Methods: In the first study of six BCI users, stimulus-on and stimulus-off times were equal and flash rate was 4, 8, 16, or 32 Hz. In the second study of five BCI users, flash rate was varied by changing either the stimulus-on or stimulus-off time., Results: For all users, lower flash rates gave higher accuracy. The flash rate that gave the highest characters/min varied across users, ranging from 8 to 32 Hz. However, variations in stimulus-on and stimulus-off times did not themselves significantly affect accuracy. Providing feedback did not affect results in either study suggesting that offline analyses should readily generalize to online performance. However there do appear to be session-specific effects that can influence the generalizability of classifier results., Conclusions: The results show that stimulus presentation (i.e., flash) rate affects the accuracy and speed of P300 BCI performance., Significance: These results extend the range over which slower flash rates increase the amplitude of the P300. Considering also presentation time, the optimal rate differs among users, and thus should be set empirically for each user. Optimal flash rate might also vary with other parameters such as the number of items in the matrix., (Copyright © 2010 International Federation of Clinical Neurophysiology. Published by Elsevier Ireland Ltd. All rights reserved.) more...

Published
2011
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183. A scanning protocol for a sensorimotor rhythm-based brain-computer interface.

Author

Friedrich EV, McFarland DJ, Neuper C, Vaughan TM, Brunner P, and Wolpaw JR

Subjects
Adult, Aged, Choice Behavior physiology, Electroencephalography methods, Female, Humans, Learning, Male, Middle Aged, Photic Stimulation, Signal Processing, Computer-Assisted, Brain physiology, Brain Mapping, Evoked Potentials, Somatosensory physiology, Somatosensory Cortex physiology, User-Computer Interface
Abstract

The scanning protocol is a novel brain-computer interface (BCI) implementation that can be controlled with sensorimotor rhythms (SMRs) of the electroencephalogram (EEG). The user views a screen that shows four choices in a linear array with one marked as target. The four choices are successively highlighted for 2.5s each. When a target is highlighted, the user can select it by modulating the SMR. An advantage of this method is the capacity to choose among multiple choices with just one learned SMR modulation. Each of 10 naive users trained for ten 30 min sessions over 5 weeks. User performance improved significantly (p<0.001) over the sessions and ranged from 30 to 80% mean accuracy of the last three sessions (chance accuracy=25%). The incidence of correct selections depended on the target position. These results suggest that, with further improvements, a scanning protocol can be effective. The ultimate goal is to expand it to a large matrix of selections. more...

Published
2009
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184. Electrophysiological markers of skill-related neuroplasticity.

Author

Romero SG, McFarland DJ, Faust R, Farrell L, and Cacace AT

Subjects
Adult, Electroencephalography, Evoked Potentials physiology, Female, Humans, Learning physiology, Male, Reaction Time physiology, Theta Rhythm, Cognition physiology, Electrophysiology, Neuronal Plasticity physiology, Psychomotor Performance physiology
Abstract

Neuroplasticity involved in acquiring a new cognitive skill was investigated with standard time domain event-related potentials (ERPs) of scalp-recorded electroencephalographic (EEG) activity and frequency domain analysis of EEG oscillations looking at the event-related synchronization (ERS) and desynchronization (ERD) of neural activity. Electroencephalographic activity was recorded before and after practice, while participants performed alphabet addition (i.e., E+3=G, true or false?). Participant's performance became automated with practice through a switch in cognitive strategy from mentally counting-up in the alphabet to retrieving the answer from memory. Time domain analysis of the ERPs revealed a prominent positive peak at approximately 300 ms that was not reactive to problem attributes but was reduced with practice. A second prominent positive peak observed at approximately 500 ms was found to be larger after practice, mainly for problems presented with correct answers. Frequency domain spectral analyses yielded two distinct findings: (1) a frontal midline ERS of theta activity that was greater after practice, and (2) a beta band ERD that increased with problem difficulty before, but not after practice. Because the EEG oscillations were not phase locked to the stimulus, they were viewed as being independent of the time domain results. Consequently, use of time and frequency domain analyses provides a more comprehensive account of the underlying electrophysiological data than either method alone. When used in combination with a well-defined cognitive/behavioral paradigm, this approach serves to constrain the interpretations of EEG data and sets a new standard for studying the neuroplasticity involved in skill acquisition. more...

Published
2008
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185. Towards an independent brain-computer interface using steady state visual evoked potentials.

Author

Allison BZ, McFarland DJ, Schalk G, Zheng SD, Jackson MM, and Wolpaw JR

Subjects
Adolescent, Adult, Brain Mapping, Dose-Response Relationship, Radiation, Electroencephalography methods, Female, Humans, Male, Pattern Recognition, Visual, Photic Stimulation, Spectrum Analysis, Attention physiology, Brain physiology, Evoked Potentials, Visual physiology, User-Computer Interface
Abstract

Objective: Brain-computer interface (BCI) systems using steady state visual evoked potentials (SSVEPs) have allowed healthy subjects to communicate. However, these systems may not work in severely disabled users because they may depend on gaze shifting. This study evaluates the hypothesis that overlapping stimuli can evoke changes in SSVEP activity sufficient to control a BCI. This would provide evidence that SSVEP BCIs could be used without shifting gaze., Methods: Subjects viewed a display containing two images that each oscillated at a different frequency. Different conditions used overlapping or non-overlapping images to explore dependence on gaze function. Subjects were asked to direct attention to one or the other of these images during each of 12 one-minute runs., Results: Half of the subjects produced differences in SSVEP activity elicited by overlapping stimuli that could support BCI control. In all remaining users, differences did exist at corresponding frequencies but were not strong enough to allow effective control., Conclusions: The data demonstrate that SSVEP differences sufficient for BCI control may be elicited by selective attention to one of two overlapping stimuli. Thus, some SSVEP-based BCI approaches may not depend on gaze control. The nature and extent of any BCI's dependence on muscle activity is a function of many factors, including the display, task, environment, and user., Significance: SSVEP BCIs might function in severely disabled users unable to reliably control gaze. Further research with these users is necessary to explore the optimal parameters of such a system and validate online performance in a home environment. more...

Published
2008
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186. A mu-rhythm matched filter for continuous control of a brain-computer interface.

Author

Krusienski DJ, Schalk G, McFarland DJ, and Wolpaw JR

Subjects
Cortical Synchronization methods, Humans, Algorithms, Cerebral Cortex physiology, Electroencephalography methods, Evoked Potentials physiology, Imagination physiology, Pattern Recognition, Automated methods, User-Computer Interface
Abstract

A brain-computer interface (BCI) is a system that provides an alternate nonmuscular communication/control channel for individuals with severe neuromuscular disabilities. With proper training, individuals can learn to modulate the amplitude of specific electroencephalographic (EEG) components (e.g., the 8-12 Hz mu rhythm and 18-26 Hz beta rhythm) over the sensorimotor cortex and use them to control a cursor on a computer screen. Conventional spectral techniques for monitoring the continuous amplitude fluctuations fail to capture essential amplitude/phase relationships of the mu and beta rhythms in a compact fashion and, therefore, are suboptimal. By extracting the characteristic mu rhythm for a user, the exact morphology can be characterized and exploited as a matched filter. A simple, parameterized model for the characteristic mu rhythm is proposed and its effectiveness as a matched filter is examined online for a one-dimensional cursor control task. The results suggest that amplitude/phase coupling exists between the mu and beta bands during event-related desynchronization, and that an appropriate matched filter can provide improved performance. more...

Published
2007
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187. Brain-computer interface signal processing at the Wadsworth Center: mu and sensorimotor beta rhythms.

Author

McFarland DJ, Krusienski DJ, and Wolpaw JR

Subjects
Adaptation, Physiological physiology, Humans, Signal Processing, Computer-Assisted, Beta Rhythm, Brain physiology, Electroencephalography, User-Computer Interface
Abstract

The Wadsworth brain-computer interface (BCI), based on mu and beta sensorimotor rhythms, uses one- and two-dimensional cursor movement tasks and relies on user training. This is a real-time closed-loop system. Signal processing consists of channel selection, spatial filtering, and spectral analysis. Feature translation uses a regression approach and normalization. Adaptation occurs at several points in this process on the basis of different criteria and methods. It can use either feedforward (e.g., estimating the signal mean for normalization) or feedback control (e.g., estimating feature weights for the prediction equation). We view this process as the interaction between a dynamic user and a dynamic system that coadapt over time. Understanding the dynamics of this interaction and optimizing its performance represent a major challenge for BCI research. more...

Published
2006
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188. Brain-computer interface (BCI) operation: signal and noise during early training sessions.

Author

McFarland DJ, Sarnacki WA, Vaughan TM, and Wolpaw JR

Subjects
Adult, Biofeedback, Psychology, Brain Mapping, Electroencephalography methods, Electromyography methods, Female, Humans, Male, Middle Aged, Muscle, Skeletal physiology, Psychomotor Performance physiology, Signal Processing, Computer-Assisted, Brain physiology, Teaching, User-Computer Interface
Abstract

Objective: People can learn to control mu (8-12 Hz) or beta (18-25 Hz) rhythm amplitude in the electroencephalogram (EEG) recorded over sensorimotor cortex and use it to move a cursor to a target on a video screen. The recorded signal may also contain electromyogram (EMG) and other non-EEG artifacts. This study examines the presence and characteristics of EMG contamination during new users' initial brain-computer interface (BCI) training sessions, as they first attempt to acquire control over mu or beta rhythm amplitude and to use that control to move a cursor to a target., Methods: In the standard one-dimensional format, a target appears along the right edge of the screen and 1s later the cursor appears in the middle of the left edge and moves across the screen at a fixed rate with its vertical movement controlled by a linear function of mu or beta rhythm amplitude. In the basic two-choice version, the target occupies the upper or lower half of the right edge. The user's task is to move the cursor vertically so that it hits the target when it reaches the right edge. The present data comprise the first 10 sessions of BCI training from each of 7 users. Their data were selected to illustrate the variations seen in EMG contamination across users., Results: Five of the 7 users learned to change rhythm amplitude appropriately, so that the cursor hit the target. Three of these 5 showed no evidence of EMG contamination. In the other two of these 5, EMG was prominent in early sessions, and tended to be associated with errors rather than with hits. As EEG control improved over the 10 sessions, this EMG contamination disappeared. In the remaining two users, who never acquired actual EEG control, EMG was prominent in initial sessions and tended to move the cursor to the target. This EMG contamination was still detectable by Session 10., Conclusions: EMG contamination arising from cranial muscles is often present early in BCI training and gradually wanes. In those users who eventually acquire EEG control, early target-related EMG contamination may be most prominent for unsuccessful trials, and may reflect user frustration. In those users who never acquire EEG control, EMG may initially serve to move the cursor toward the target. Careful and comprehensive topographical and spectral analyses throughout user training are essential for detecting EMG contamination and differentiating between cursor control provided by EEG control and cursor control provided by EMG contamination., Significance: Artifacts such as EMG are common in EEG recordings. Comprehensive spectral and topographical analyses are necessary to detect them and ensure that they do not masquerade as, or interfere with acquisition of, actual EEG-based cursor control. more...

Published
2005
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189. Control of a two-dimensional movement signal by a noninvasive brain-computer interface in humans.

Author

Wolpaw JR and McFarland DJ

Subjects
Adult, Algorithms, Female, Humans, Male, Robotics instrumentation, Robotics methods, User-Computer Interface, Brain physiology, Man-Machine Systems, Movement physiology, Signal Processing, Computer-Assisted
Abstract

Brain-computer interfaces (BCIs) can provide communication and control to people who are totally paralyzed. BCIs can use noninvasive or invasive methods for recording the brain signals that convey the user's commands. Whereas noninvasive BCIs are already in use for simple applications, it has been widely assumed that only invasive BCIs, which use electrodes implanted in the brain, can provide multidimensional movement control of a robotic arm or a neuroprosthesis. We now show that a noninvasive BCI that uses scalp-recorded electroencephalographic activity and an adaptive algorithm can provide humans, including people with spinal cord injuries, with multidimensional point-to-point movement control that falls within the range of that reported with invasive methods in monkeys. In movement time, precision, and accuracy, the results are comparable to those with invasive BCIs. The adaptive algorithm used in this noninvasive BCI identifies and focuses on the electroencephalographic features that the person is best able to control and encourages further improvement in that control. The results suggest that people with severe motor disabilities could use brain signals to operate a robotic arm or a neuroprosthesis without needing to have electrodes implanted in their brains. more...

Published
2004
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190. Separating stimulus-locked and unlocked components of the auditory event-related potential.

Author

McFarland DJ and Cacace AT

Subjects
Acoustic Stimulation, Adult, Analysis of Variance, Attention, Cortical Synchronization, Female, Humans, Male, Middle Aged, Electroencephalography, Evoked Potentials, Auditory
Abstract

A new method is evaluated for separating stimulus-locked and unlocked components of auditory event-related EEG activity. The new method uses a regression based subtraction procedure as a way to account for latency and amplitude variability within individual trials. It was applied using the oddball paradigm under conditions of active and passive listening and analyzed as spectral correlations (normalized differences) between post-stimulus epochs of standard, target or deviant stimulus conditions and silent pre-stimulus baseline activity. The regression-subtraction procedure accounted for a greater amount of variance than a method that uses linear subtraction alone. The major component of the response to auditory stimulation was an event-related synchronization in the delta and theta (2-4 Hz) frequency range. Event-related desynchronizations were also observed in the 10 Hz (alpha/mu) and in the 20-30 Hz (beta) frequency range. The regression based subtraction procedure provides better separation of stimulus-locked and unlocked components of event-related EEG activity then linear subtraction alone. Stimulus-locked and unlocked components show different patterns and topographies of effects related to attention and active discrimination. Studying both stimulus-locked and unlocked components of event-related EEG reactivity in the frequency domain provides a more comprehensive account of dynamic brain activity subserving auditory information processing. more...

Published
2004
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191. BCI2000: a general-purpose brain-computer interface (BCI) system.

Author

Schalk G, McFarland DJ, Hinterberger T, Birbaumer N, and Wolpaw JR

Subjects
Cognition, Communication Devices for People with Disabilities, Computer Peripherals, Equipment Design, Humans, Systems Integration, Algorithms, Brain physiology, Electroencephalography instrumentation, Electroencephalography methods, Equipment Failure Analysis methods, Evoked Potentials physiology, User-Computer Interface
Abstract

Many laboratories have begun to develop brain-computer interface (BCI) systems that provide communication and control capabilities to people with severe motor disabilities. Further progress and realization of practical applications depends on systematic evaluations and comparisons of different brain signals, recording methods, processing algorithms, output formats, and operating protocols. However, the typical BCI system is designed specifically for one particular BCI method and is, therefore, not suited to the systematic studies that are essential for continued progress. In response to this problem, we have developed a documented general-purpose BCI research and development platform called BCI2000. BCI2000 can incorporate alone or in combination any brain signals, signal processing methods, output devices, and operating protocols. This report is intended to describe to investigators, biomedical engineers, and computer scientists the concepts that the BC12000 system is based upon and gives examples of successful BCI implementations using this system. To date, we have used BCI2000 to create BCI systems for a variety of brain signals, processing methods, and applications. The data show that these systems function well in online operation and that BCI2000 satisfies the stringent real-time requirements of BCI systems. By substantially reducing labor and cost, BCI2000 facilitates the implementation of different BCI systems and other psychophysiological experiments. It is available with full documentation and free of charge for research or educational purposes and is currently being used in a variety of studies by many research groups. more...

Published
2004
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192. EEG-based communication and control: speed-accuracy relationships.

Author

McFarland DJ and Wolpaw JR

Subjects
Adult, Algorithms, Persons with Disabilities, Female, Humans, Male, Middle Aged, Reproducibility of Results, Task Performance and Analysis, Video Recording, Biofeedback, Psychology, Communication, Electroencephalography, Motor Cortex physiology, Motor Skills Disorders rehabilitation, Robotics, User-Computer Interface
Abstract

People can learn to control mu (8-12 Hz) or beta (18-25 Hz) rhythm amplitude in the EEG recorded over sensorimotor cortex and use it to move a cursor to a target on a video screen. In our current EEG-based brain-computer interface (BCI) system, cursor movement is a linear function of mu or beta rhythm amplitude. In order to maximize the participant's control over the direction of cursor movement, the intercept in this equation is kept equal to the mean amplitude of recent performance. Selection of the optimal slope, or gain, which determines the magnitude of the individual cursor movements, is a more difficult problem. This study examined the relationship between gain and accuracy in a 1-dimensional EEG-based cursor movement task in which individuals select among 2 or more choices by holding the cursor at the desired choice for a fixed period of time (i.e., the dwell time). With 4 targets arranged in a vertical column on the screen, large gains favored the end targets whereas smaller gains favored the central targets. In addition, manipulating gain and dwell time within participants produces results that are in agreement with simulations based on a simple theoretical model of performance. Optimal performance occurs when correct selection of targets is uniform across position. Thus, it is desirable to remove any trend in the function relating accuracy to target position. We evaluated a controller that is designed to minimize the linear and quadratic trends in the accuracy with which participants hit the 4 targets. These results indicate that gain should be adjusted to the individual participants, and suggest that continual online gain adaptation could increase the speed and accuracy of EEG-based cursor control. more...

Published
2003
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193. Brain-computer interface (BCI) operation: optimizing information transfer rates.

Author

McFarland DJ, Sarnacki WA, and Wolpaw JR

Subjects
Adult, Cerebral Palsy physiopathology, Communication, Electroencephalography methods, Female, Humans, Male, Signal Processing, Computer-Assisted, Spinal Injuries physiopathology, Task Performance and Analysis, Time Factors, Brain physiopathology, User-Computer Interface
Abstract

People can learn to control mu (8-12 Hz) or beta (18-25 Hz) rhythm amplitude in the EEG recorded over sensorimotor cortex and use it to move a cursor to a target on a video screen. In the present version of the cursor movement task, vertical cursor movement is a linear function of mu or beta rhythm amplitude. At the same time the cursor moves horizontally from left to right at a fixed rate. A target occupies 50% (2-target task) to 20% (5-target task) of the right edge of the screen. The user's task is to move the cursor vertically so that it hits the target when it reaches the right edge. The goal of the present study was to optimize system performance. To accomplish this, we evaluated the impact on system performance of number of targets (i.e. 2-5) and trial duration (i.e. horizontal movement time from 1 to 4 s). Performance was measured as accuracy (percent of targets selected correctly) and also as bit rate (bits/min) (which incorporates, in addition to accuracy, speed and the number of possible targets). Accuracy declined as target number increased. At the same time, for six of eight users, four targets yielded the maximum bit rate. Accuracy increased as movement time increased. At the same time, the movement time with the highest bit rate varied across users from 2 to 4 s. These results indicate that task parameters such as target number and trial duration can markedly affect system performance. They also indicate that optimal parameter values vary across users. Selection of parameters suited both to the specific user and the requirements of the specific application is likely to be a key factor in maximizing the success of EEG-based communication and control. more...

Published
2003
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195. Spectral dynamics of electroencephalographic activity during auditory information processing.

Author

Cacace AT and McFarland DJ

Subjects
Adult, Cortical Synchronization, Discrimination, Psychological, Evoked Potentials, Female, Humans, Male, Middle Aged, Psychophysics, Reaction Time, Auditory Perception physiology, Electroencephalography, Mental Processes physiology
Abstract

Dynamics of electroencephalographic (EEG) activity during auditory information processing were evaluated in response to changes in stimulus complexity, stimulus discriminability and attention using the oddball paradigm. In comparison to pre-stimulus baseline conditions, auditory stimulation synchronized EEG activity in delta, theta and alpha frequency bands. Event-related synchronization (ERS) effects were greatest at approximately 3 Hz (theta frequency band), and their magnitude depended on stimulus and task demands. Event-related desynchronization (ERD) of EEG activity was observed in the beta frequency band. This effect was greatest at approximately 21 Hz but occurred only for easily discriminable stimuli in attention-related target conditions. Because active discrimination tasks also required a button-press response with the right hand, ERDs involved more complex responses that may be related to a combination of perceptual, motor and cognitive processes. These results demonstrate that oddball and attention-related EEG responses to auditory stimulation could be characterized in the frequency domain. The specific design and analysis features described herein may prove useful since they provide a simple index of the brain's response to stimulation while at the same time provide powerful information not contained in typical time domain analysis. more...

Published
2003
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