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BCI Meeting 2010 Posters
| A-1 | A self-paced brain computer interface (BCI) based point-and-click system
Xin Yi Yong*, Rabab Ward, Gary Birch |
| A-2 | Use of long waves in the electromagnetic spectrum in development of passive areas of brain
Mohammad Gouran-savadkoohi* |
| A-3 | P300- and SSVEP-based brain-computer interface for a virtual smart-home environment control
Günter Edlinger*, Gunther Krausz, Massimo Mecella, Christoph Guger |
| A-4 | Analogue mouse pointer control via an online BCI using SSVEP
John Wilson* |
| A-5 | Towards communication in the complete locked-in state: an electrical semantic conditioning paradigm
Daniele De Massari*, Adrian Furdea, Tamara Matuz, Carolin Ruf, Jeremy Hill, Sebastian Halder, Niels Birbaumer |
| A-6 | Investigation of the stability of SSSEP elicited by vibro-tactile stimulation
Christian Breitwieser*, Christa Neuper, Gernot Mueller-Putz |
| A-7 | How much learning is involved in BCI control?
Andrea Kübler*, Donatella Mattia, Harry George, Benaya Doron, Christa Neuper |
| A-8 | Self-paced training of an asynchronous brain switch
Teodoro Solis Escalante*, Gert Pfurtscheller, Christa Neuper |
| A-9 | Toward BCI Wizard - best BCI approach for each user
Ivan Volosyak*, Diana Valbuena, Christoph Guger, Jan Ehlers, Axel Gräser |
| A-10 | Feedback information-theoretic paradigms for designing brain-machine interfaces
Abdullah Akce*, Rui Ma, Martin McCormick, Miles Johnson, Cyrus Omar, Edward Maclin, Timothy Bretl, Todd Coleman |
| A-11 | Development of a laryngeal surface electromyographic biofeedback system for an efficient neurally-controlled communication interface
Emily Mugler*, Patrick Rousche, James Patton |
| A-12 | Towards a practical SSVEP-based BCI
Gary Garcia Molina*, Danhua Zhu |
| B-1 | Variability and nonstationarities in brain computer interfaces
Linsey Roijendijk*, Jason Farquhar |
| B-2 | A feature extraction method combining wavelet packet decomposition with Hilbert-Huang Transform for EEG in BCIs
Banghua Yang*, Ling Yuan, Xiaoming Zheng, Li Liu |
| B-3 | Conditional random fields as classifiers for 3-class motor-imagery based BCIs
Bashar Awwad Shiekh Hasan*, John Gan |
| B-4 | Improved feature set for mental-task EEG-based BCI
Tugce Balli*, Ramaswamy Palaniappan |
| B-5 | Asynchronous mind-reading based on EEG source imaging
Han-Jeong Hwang, Chang-Hwan Im* |
| B-6 | Classifying EEG using incremental support vector machine in BCIs
Xiaoming Zheng*, Banghua Yang, Ling Yuan |
| B-7 | A bispectrum-based feature-extraction technique for devising a practical brain-computer-interfacing system
Shahjahan Shahid*, Rakesh Sinha, Girijesh Prasad |
| B-8 | CSP Patches – an optimized filter ensemble for adaptive BCI systems
Claudia Sannelli*, Carmen Vidaurre, Klaus-Robert Müller, Benjamin Blankertz |
| B-9 | Variability in subjects supports optimization of signal feature extraction and classification
Mark Renfrew*, Janis Daly, Kenneth Hrovat, Cenk Çavusoglu |
| B-10 | Automated feature filtering for BCI sequence labelling
Remi Flamary, Benjamin Labbe, Alain Rakotomamonjy* |
| B-11 | Benchmarking common BCI algorithms for fast-paced HMS applications
Johanna Wagner*, Klas Ihme, Matti Gaertner, Christian Kothe, Thorsten Zander |
| B-12 | Reliable identification of mental tasks using Gaussian models of time-embedded EEG and sequential evidence accumulation
Chuck Anderson* |
| B-13 | Non-intentional control for asynchronous BCI: A statistical approach
Michele Tavella*, Serafeim Perdikis, Robert Leeb, Jose del R. Millán |
| B-14 | Using linear mixed-effects models for subject-independent SMR-based BCI classification
Juerg Schelldorfer*, Siamac Fazli, Peter Buehlmann, Klaus-Robert Müller |
| B-15 | BCI research at EPFL
Jose del R. Millán*, Ricardo Chavarriaga, Robert Leeb, Serafeim Perdikis, Michele Tavella, Gangadhar Garipelli, Eileen Lew, Matteo Lostuzzo, Luca Tonin |
| B-16 | The BCI group in LAGIS at Lille University
François Cabestaing*, Marie-Helene Bekaert, Claudine Botte-LeCocq |
| B-17 | Analyzing EEG data by multi-scale tensor factorization
Marko Ristin*, Márton Danóczy, Klaus-Robert Müller |
| B-18 | EEG classification using predictions from recurrent neural networks
Elliott Forney*, Chuck Anderson |
| B-19 | Towards an heuristic-based approach detecting nonstationarities in BCI features
Sabine Jatzev*, Monica de Filippis, Thorsten Zander, Christian Kothe, Sebastian Welke, Matthias Roetting |
| B-20 | Classification of EEG signal for walk intent
Priya Velu*, Paul Hammon, Virgina de Sa |
| B-21 | A "multi-HMM+SVM" classifier for EEG classification
Eunho Noh*, Adam Koerner , Virginia de Sa |
| B-22 | A comparison of univariate, multivariate, bilinear autoregressive, and bandpower features for brain-computer interfaces
Clemens Brunner*, Martin Billinger, Christa Neuper |
| B-23 | Rapid EEG-based BCI setup with an intelligent multistage signal-processing framework for accurate online communication and control
Damien Coyle*, Abdul Satti, Martin McGinnity |
| B-24 | Subject-specific data-segment-related parameters for improvement of EEG signal classification in brain-computer interface
Walter Besio*, Hongbao Cao, Xiang Liu |
| C-1 | Pyff – a platform-independent open-source feedback framework for BCI systems
Bastian Venthur*, Benjamin Blankertz |
| C-2 | BrainStream: a MATLAB environment for definition and execution of brain-computer interfaces
Philip Van den Broek*, Rutger Vlek, Peter Desain |
| C-3 | MatRiver software for real-time analysis and visualization of EEG and multi-modal data
Nima Bigdely Shamlo*, Andre Vankov, Scott Makeig |
| C-4 | Bristlesensors – soft, flexible dry EEG electrodes for neurofeedback and BCI applications
Cristian Grozea*, Catalin Voinescu |
| C-6 | A LabVIEW-based modular extension for BCI2000
John Kelly*, Alan Degenhart, Dan Siewiorek, Asim Smailagic, Doug Weber, Wei Wang |
| C-7 | Integration of an extensible modular graphical user interface with open BCI
Melanie Ware*, Madga Michalska, Paul McCullagh, Piotr Durka |
| C-8 | DataRiver - a software platform for real-time management of multiple data streams
Andre Vankov*, Nima Bigdely Shamlo, Scott Makeig |
| C-9 | BCILAB: A BCI/EEG research framework
Christian Kothe*, Arnaud Delorme, Thorsten Zander, Scott Makeig |
| D-1 | (C)overt attention and visual speller design
Matthias Treder*, Benjamin Blankertz |
| D-2 | How many people are able to control a P300/motor imagery-based brain-computer interface?
Christoph Guger*, Gunther Krausz, Eric Sellers, Massimo Mecella, Guenter Edlinger |
| D-3 | Brain painting – BCI meets patients and artists in the field
Harry George*, Adi Hösle, Andrea Kübler |
| D-4 | BCI-Applications: Needs and requirements of disabled end-users and professional users
Claudia Zickler*, Abdul Al-Khodairy, Andrea Kübler, Evert-jan Hoogerwerf, Sonja Kleih, Martin Rohm, Donatella Mattia, Simona Mongardi, Christa Neuper, Angela Riccio, Ruediger Rupp, Pit Staiger-Saelzer, Vera Kaiser |
| D-5 | User-focused design of a BCI experimentation room
Claudine Botte-LeCocq*, Stéphanie Leclercq, Marie-Helene Bekaert, François Cabestaing |
| E-1 | Control of the P300 speller using electrocorticographic signals
Dean Krusienski*, Jerry Shih |
| E-2 | Neural decoding with steady-state Kalman filter
Wasim Malik*, Emery Brown, Wilson Truccolo, Leigh Hochberg |
| E-3 | Cortical activity during motor movement, motor imagery, and imagery-based online feedback
Kai Miller*, Gerwin Schalk, Eberhard Fetz, Marcel den Nijs, Rajesh Rao, Jeffrey Ojemann |
| E-4 | Development of a closed-loop BCI system using epidural LFP signals from the rat somatosensory system
George Dimitriadis*, Eric Maris, Han Langeslag |
| E-5 | Changing gears from extracellular field-potential recordings to in-cell recordings by extracellular multi-electrode array
Micha Spira* |
| E-6 | Cognitive brain functions for BCI: promise of sophisticated interfaces
Erik Aarnoutse*, Mariska Vansteensel, Dora Hermes, Frans Leijten, Peter Van Rijen, Nick Ramsey |
| E-7 | High-field fMRI for localization of electrode implant sites for BCI: a study on visual attention
Nick Ramsey*, Jeroen Siero, Josien Pluim, Max Viergever, Patrik Andersson |
| E-8 | INRIA Cortex team project: BCI activities
Laurent Bougrain, Carolina Saavedra*, Baptiste Payan, Axel Hutt, Maxime Rio, Frédéric Alexandre |
| E-9 | Rapid brain-based communication using electrocorticographic signals (ECoG)
Anthony Ritaccio*, Peter Brunner, Joseph Emrich, Horst Bischof, Gerwin Schalk |
| E-10 | Can synergistic finger movements be represented as the superposition of individual finger movements?
Reinhold Scherer*, Stavros Zanos, Erik Edwards, Kai Miller, Jeffrey Ojemann, Rajesh Rao |
| E-11 | Volitional control of cortical neuron activity
Chet Moritz*, Eberhard Fetz |
| E-12 | Spatiotemporal dynamics of ECoG activity related to language processing
Xiao-mei Pei*, Eric Leuthardt, Peter Brunner, Jonathan Wolpaw, Gerwin Schalk |
| E-13 | Sparse space-time decompositions of ECoG signals
Connie Cheung*, Charles Cadieu, Lavi Secundo, Edward Chang, Robert Knight, Bruno Olshausen |
| E-14 | Feedback Control of the spatial-temporal firing patterns of neural microcircuits
Jianbo Liu, Hassan K. Khalil, Karim G. Oweiss |
| E-15 | Correlations between cortical activity and concurrent behavior vary with context
Chadwick Boulay, Lu Chen, Yi Chen, Rong Liang Liu, Xiang Yang Chen, Jonathan Wolpaw |
| F-1 | EOG artifact correction for brain-computer interface application using GALME-ICA
Cota Gupta, Ramaswamy Palaniappan* |
| F-2 | EEG dynamics associated with human motor control in patients with ALS or PLS
Ou Bai* |
| F-3 | Classification of adaptive autoregressive models at different sampling rates in a motor imagery-based BCI
Martin Billinger*, Clemens Brunner, Christa Neuper |
| F-4 | rtMEG: A real-time software toolbox for BCI2000 using magnetoencephelography
Gustavo Sudre*, Wei Wang, John Kelly, Tao Song, Elekta Oy, Matti Kajola, Ramana Vinjamuri, Jennifer Collinger, Alan Degenhart, Anto Bagic, Doug Weber |
| F-5 | Exploiting prior neurophysiological knowledge to improve brain-computer interface performance
Arne Ewald*, Andreas Ziehe, Forooz Shahbazi, Guido Nolte |
| F-6 | Effort toward zero training in brain-computer interface using beam-forming source imaging
Minkyu Ahn, Sungwook Kang, Sung Jun* |
| F-7 | Feature Extraction from High-Impedance EEG Recordings Using Maximum Noise Fraction
Zachary Cashero |
| G-1 | Ethical issues in brain-computer interface research
Mary-Jane Schneider*, Jonathan Wolpaw |
| H-1 | Visual cue design in brain-computer interfaces
Kamrun Nahar*, Andrew Geronimo, Steven Schiff |
| H-2 | Multi-task learning for zero-training brain-computer interfaces
Morteza Alamgir*, Moritz Grosse-Wentru, Yasemin Altun |
| H-3 | Semi-autonomous navigation based on error-related EEG potentials
Ricardo Chavarriaga*, Xavier Perrin, Roland Siegwart, Jose del R. Millán |
| I-1 | An online-BCI system using hand-movement direction recognition from MEG
Matthias Witte*, Ferran Galán, Stephan Waldert, Ad Aertsen, Niels Birbaumer, Christoph Braun, Carsten Mehring |
| I-2 | NIRS signals predict SMR-based BCI performance in EEG
Siamac Fazli*, Jan Mehnert, Jens Steinbrink, Gabriel Curio, Benjamin Blankertz |
| I-3 | Effect of NIRS-based neurofeedback on brain activity during motor imagery
Shin'ichiro Kanoh*, Ko-ichiro Miyamoto, Tatsuo Yoshinobu, Ryuta Kawashima |
| I-4 | Applying supervised Hidden Markov Model for functional near-Infrared spectroscopy
Patrick Kierkegaard*, Bashar Awwad Shiekh Hasan |
| J-1 | Advanced User-System Interaction: BCI research at TNO human factors
Jan Van Erp*, Anne-Marie Brouwer |
| J-2 | OpenViBE tutorial
Anatole Lecuyer, Yann Renard, Laurent Bougrain*, Baptiste Payan, Laurent Bonnet |
| J-3 | A mobile and wireless brain-computer interface for communication in daily life
Yijun Wang*, Yu-Te Wang, Tzyy-Pong Jung |
| K-1 | A practical design of the asynchronous BCI based on ERD
Kai Qian*, Plamen Nikolov, Ding-Yu Fei, Ou Bai |
| K-2 | Subjective rhythmization as a paradigm for BCI
Rutger Vlek*, Rebecca Schaefer, Jason Farquhar, Peter Desain |
| K-3 | Towards a fully interpretable EEG-based BCI system
Fabien Lotte*, Anatole Lecuyer, Cuntai Guan |
| K-4 | Sequential operation of a hybrid BCI: combining motor imagery-based and SSVEP-based BCIs
Gert Pfurtscheller*, Teodoro Solis Escalante, Christa Neuper |
| L-1 | Event-related potential classification "Best Practice"
Jason Farquhar*, Jeremy Hill |
| L-2 | Stimulus-presentation manipulations in P300-BCI: Flashing stimuli are not necessary for accurate spelling
Eric Sellers*, Stephany Mesa Guerra |
| L-3 | Does the P300 speller depend on eye-gaze?
Peter Brunner*, Shubhada Joshi, Samuel Briskin, Jonathan Wolpaw, Horst Bischof, Gerwin Schalk |
| L-4 | Adaptive flashing: increasing the speed of the visual speller
Peter Desain*, Andrei Belitski, Jason Farquhar, Jeroen Geuze |
| L-5 | Strategies for decoding in the visual speller system
Suzanna Martens*, Jose Leiva, Joris Mooij, Jeremy Hill, Jason Farquhar, Bernhard Schoelkopf |
| L-6 | Motor disability, speech disability, and task performance in a P300-based brain-computer interface
Chang Nam*, Yueqing Li |
| L-7 | Classification accuracy of the P300-based BCI depends on the location of the target character in the matrix.
Siri-Maria Kamp*, Matthew Miller, Emanuel Donchin |
| L-8 | Suppressing surrounding characters during calibration may improve P300-based BCI performance
Gerald Frye*, Christopher Hauser, George Townsend, Eric Sellers |
| L-9 | Effects of cardiac autonomic balance on performance in a P300 brain-computer interface
Tobias Kaufmann*, Claus Vögele, Stefan Sütterlin, Steve Lukito, Andrea Kübler |
| L-10 | Initial design of an AAC device with non-invasive BCI, adaptive language modeling and Rapid Serial Visual Presentation (RSVP)
Deniz Erdogmus*, Kenneth Hild II, Barry Oken, Brian Roark, Melanie Fried-Oken |
| L-11 | P300-BCI: disassociating flash groups from physical organizations provides improved performance
George Townsend*, Jessica Shanahan, Gerald Frye |
| L-12 | An open-access P300 speller database
Claudia Ledesma-Ramirez, Erik Bojorges-Valdez, Oscar Yanez-Suarez*, Carolina Saavedra, Laurent Bougrain, Gerardo Gentiletti |
| L-13 | Effective classification and interpretability of ERP components using Shrinkage Linear Discriminant Analysis
Benjamin Blankertz*, Stefan Haufe, Matthias Treder |
| L-14 | Optimized stimulus design for a spatial auditory BCI based on ERP
Michael Tangermann*, Evert-Jan Martijn Schreuder |
| L-15 | Preliminary study towards a multi-modality P300-based speller
Vaishnavi Karnad*, Ding-Yu Fei, Ou Bai |
| L-16 | Toward the optimization of P300-based BCI protocols: decimation factors and classifiers
Lucia Rita Quitadamo*, Febo Cincotti, Donatella Mattia, Gian Carlo Cardarilli, Maria Grazia Marciani, Luigi Bianchi |
| L-17 | A brute force investigation of electrode subsets for a P300 BCI
Michael McCann*, David Thompson, Jane Huggins |
| L-18 | EEG features correlated with performance in P300-based BCI operation: a long-term case study in a home user with amyotrophic lateral sclerosis (ALS)
Joseph Mak*, Dennis McFarland, Theresa Vaughan, Phillippa Tsui, Lynn McCane, Eric Sellers, Jonathan Wolpaw |
| L-19 | Toward independent home use of a P300-BCI: An email application
Phillippa Tsui*, Kumiko Boulay, Lynn McCane, Joseph Mak, Theresa Vaughan, Dennis McFarland, Steve Carmack, Stefan Winden, Debra Zeitlin, Laura Tenteromano, Jonathan Wolpaw |
| L-20 | Overlaid P300 stimulation-based BCI: a solution to “limit” workload in communication application?
Angela Riccio*, Luigi Bianchi, Fabio Aloise, Claudia Zickler, Evert-jan Hoogerwerf, Donatella Mattia, Febo Cincotti |
| L-21 | A multimodal (visual+auditory) speller
Andrei Belitski*, Jason Farquhar, Peter Desain |
| L-22 | Using BCIs to explore brain function: EEG/MEG classification maps in a classical P300 speller
Luigi Bianchi*, Lucia Rita Quitadamo, Donatella Mattia, Febo Cincotti, Fabio Babiloni, Gian Carlo Cardarilli, Maria Grazia Marciani, Stefano Seri |
| L-23 | Asynchronous control in a P300 task for domotic control
Fabio Aloise*, Francesca Schettini, Lucia Quitadamo, Serenella Salinari, Luigi Bianchi, Fabio Babiloni, Donatella Mattia, Febo Cincotti |
| L-24 | The P300-based visual speller for people with ALS: Insights from initial evaluations
Lynn McCane*, Joseph Mak, Theresa Vaughan, Dennis McFarland, Laura Tenteromano, Debra Zeitlin, Phillippa Tsui, Eric Sellers, George Townsend, Steve Carmack, Jonathan Wolpaw |
| L-25 | Inexpensive system for experimenting with P300 and other ERPs
Douglas Hains*, Chuck Anderson |
| L-26 | A framework for improved usability and scientific exploration of visual ERP-based spellers
Christian Puzicha*, Jeremy Hill |
| L-27 | Online BCI based on attention to auditory streams: ERPs vs SSEPs
Jeremy Hill* |
| L-28 | Do people with ALS perform better with the checkerboard paradigm than with the standard row/column P300-BCI?
Sara Feldman*, Vincent Petaccio, Eric Sellers, George Townsend, Theresa Vaughan, Christopher Hause, Terry Heiman-Patterson, Jonathan Wolpaw |
| L-29 | Towards clinically acceptable BCI spellers: Preliminary results for different stimulus-selection patterns and pattern-recognition techniques
Chandra S. Throckmorton, David B. Ryan, Benjamin Hamner, Kevin Caves, Kenneth Colwell, Eric W. Sellers, Leslie M. Collins |
| M-1 | Goal selection versus process control while learning to use a brain-computer interface
Audrey Royer*, Bin He |
| M-2 | Adaptive center-out paradigm for a four-directional BCI control
Dandan Huang*, Ding-Yu Fei, Ou Bai |
| M-3 | Pre-stimulus SMR amplitude – a key to improve BCI performance
Cecilia Maeder*, Claudia Sannelli, Stefan Haufe, Steven Lemm, Benjamin Blankertz |
| M-4 | Exploring the role of feedback in learning novel neuromotor mappings
Andrew Jackson* |
| M-5 | Attentional manipulations can enhance P300-based BCI performance
Daniel Berry*, Chad Lakey, Eric Sellers |
| M-6 | Practicing fast-decision BCI using a "goalkeeper" paradigm
Lenny Ramsey*, Michael Tangermann, Stefan Haufe, Benjamin Blankertz |
| M-7 | A 4-class brain-computer interface driven by mental strategies evaluated with and without user distraction
Elisabeth V. C. Friedrich*, Reinhold Scherer, Christa Neuper |
| M-8 | Auditory semantic conditioning in healthy and locked-in subjects: Thinking of “yes” and “no”
Carolin Ruf*, Adrian Furdea, Tamara Matuz, Daniele de Massari, Linda Van der Heiden, Jeremy Hill, Sebastian Halder, Boris Kotchoubey, Niels Birbaumer |
| M-9 | Psychological predictors of SMR-BCI performance
Eva-Maria Hammer*, Sebastian Halder, Benjamin Blankertz, Claudia Sannelli, Thorsten Dickhaus, Sonja Kleih, Klaus-Robert Müller, Andrea Kübler |
| M-10 | Operant conditioning vs. application of strategies in a neurofeedback-based SMR BCI
Benaya Doron*, Eva Hammer, Femke Nijboer, Andrea Kübler |
| M-11 | Merging EEG and eye-behavior data to improve BCI target detection
Stanley Klein*, David Kim, Thom Carney, Claudio Privetara |
| M-12 | Exploring the effects of individual characteristics on mental training and control
Adriane Randolph*, Ashley Ingraham |
| M-13 | Cue variation in a motor-imagery task
Andrew Geronimo*, Kamrun Nahar, Steven Schiff |
| M-14 | Passive BCIs for detection of covert aspects of user state and enhancing human-machine systems
Thorsten Zander*, Christian Kothe, Sabine Jatzev, Matthias Roetting, |
| M-15 | A portable and user-friendly SSVEP-based BCI system
An Luo and Thomas J. Sullivan |
| M-16 | Subject decoupled maximal SSVEP bit rate
Eric Liauw*, Bruce Gluckman |
| N-1 | Operant modification of the pain-related BOLD response in healthy controls using a brain computer interface (BCI)
Herta Flor*, Mariela Rance, Michaela Ruttorf, Frauke Nees, Pinar Yilmaz |
| N-2 | Application of a video feedback-based BCI for phantom pain - a case study
Armin Walter*, Alexander Roth, Georgios Naros, Niels Birbaumer, Alireza Gharabaghi, Wolfgang Rosenstiel, Martin Bogdan |
| O-1 | Emotion BCI: Communicating emotion via EEG dynamics
Scott Makeig*, Julie Onton |
| O-2 | BCI for psychometric assessment
Paolo Perego*, Giuseppe Andreoni |
| O-3 | Reliable detection of emergency braking situations during simulated driving
Stefan Haufe*, Matthias Treder, Max Sagebaum, Manfred Gugler, Arne Ewald, Klaus-Robert Müller, Gabriel Curio, Benjamin Blankertz |
| P-1 | Causal influence of gamma oscillations on performance in brain-computer interfaces
Moritz Grosse-Wentrup*, Jeremy Hill, Bernhard Schölkopf |
| P-2 | The first trial use of BCI2000 at home in Japan
Sachiko Oka*, Koichi Mori, Toshinori Maruoka |
| Q-1 | BCI for rehabilitation: Goal-oriented imagination and test of vividness of motor imagery
Aleksandra Vuckovic* |
| Q-2 | Conditioning of cortical responses to the trueness and falseness of word pairs: a new paradigm for basic communication by means of BCI
Linda Van der Heiden*, Adrian Furdea, Tamara Matuz, Carolin Ruf, Daniele de Massari, Sebastian Halder, Piotr Jaskowski, Niels Birbaumer |
| Q-3 | First steps towards a motor imagery-based stroke BCI
Vera Kaiser*, Alex Kreilinger, Gernot Mueller-Putz, Christa Neuper |
| Q-4 | Are stroke patients capable of operating non-invasive EEG-based motor-imagery brain-computer interface?
Kai Keng Ang*, Cuntai Guan, Karen Sui Geok Chua, Kok Soon Phua, Chuanchu Wang, Haihong Zhang, Zheng Yang Chin, Rongsheng Lin, Beng Ti Ang, Christopher Kuah |
| Q-5 | Usable signal from involved stroke hemisphere for combined BCI/FES or combined BCI/Robot and initial BCI session accuracy
Kenneth Hrovat*, Janis Daly, Roger Cheng, Jean Rogers, Krisanne Litinas, Mark Dohring |
| Q-6 | Changes in cortical excitability following the use of a BCI with abstract feedback
Imran Niazi, Ning Jiang, Thomas Lorrain, Alvaro Fuentes Cabrera, Natalie Mrachacz-Kersting, Kim Dremstrup, Dario Farina* |
| Q-7 | Correlation between human sensorimotor rhythms and motor-cortical excitability during simple hand motor tasks: influence of motor imagery based BCI training
Floriana Pichiorri*, Annalisa Bononati, Febo Cincotti, Fabio Aloise, Fabio Babiloni, Donatella Mattia |
| Q-8 | Sensorimotor rhythm-based brain-computer interface: toward the understanding of training-induced effects on motor-cortical excitability
Annalisa Bononati*, Floriana Pichiorri, Febo Cincotti, Andrea Kübler, Christa Neuper, Donatella Mattia |
| Q-9 | Approaching rehabilitation of severe acquired brain injuries through a neurophysiological screening
Monica Risetti*, Angela Riccio, Febo Cincotti, Rita Formisano, Donatella Mattia |
| Q-10 | Motor imagination combined with peripheral stimulation increases cortical excitability
Signe Kristensen*, Natalie Mrachacz-Kersting, Johnny Nielsen, Thomas Sinkjær, Dario Farina |
| R-1 | Control of an artificial arm with time-coded motor imagery and error-potential detection
Alex Kreilinger*, Christa Neuper, Gernot Mueller-Putz |
| R-2 | Towards natural arm control: classification of hand and elbow movements
Gernot Mueller-Putz*, Vera Kaiser, Alex Kreilinger, Christa Neuper |
| R-3 | Number of command sources required for a set of functional upper-extremity endpoint postures
Brian Murphy*, Robert Kirsch |
| R-4 | Development of framework to quantify benefit of diverse command signals in a brain-computer Interface: a data fusion simulation
James Liao*, Robert Kirsch |
| R-5 | Improving invasive and non-invasive BCIs for general and neuroprosthetic applications
Dawn Taylor*, Dan Bloomberg, Holle Carey, Stephen Foldes, Longlong Cheng, Harrison Kalodimos, Amar Marathe, Abirami Muralidharan, Kathy Ward |
| R-6 | Asynchronous brain-computer interface control of a walking simulator
An Do*, Po Wang, Christine King, Luis Chui, Zoran Nenadic |
| R-7 | Controlling wheelchair tilt with a brain-computer interface
David Thompson*, Michael McCann, Jane Huggins |
| R-8 | Chronic hand paralysis after traumatic brain injury: a case report on the use of a brain-computer interface to operate a mechanical hand orthosis
Alissa Fourkas*, Surjo Soekadar, Matthias Witkowski, Anusha Venkatakrishnan, Ethan Buch, Heidi Schambra, Niels Birbaumer, Leonardo Cohen |
| R-9 | The P300 brain-computer interface as a controller of a wheelchair-mounted robotic-arm system
Yael Arbel*, Kathryn De Laurentis, Redwan Alqasemi, Rajiv Dubey, Emanuel Donchin |
| R-10 | Tools for efficiently comparing decoding options for real-time control of upper-limb neuroprostheses
Amar Marathe*, Dawn Taylor |
| R-11 | Towards hierarchical BCIs: Combining motor imagery and evoked potentials for robotic control
Mike Chung*, Reinhold Scherer, Rawichote Chalodhorn, Rajesh Rao |
| R-12 | Network dynamics and neurally enabled autonomous robots
Cali Fidopiastis*, Chris Berka, Sharon Shaw |
| S-1 | Solved and unsolved issues in BCI-applications
Niels Birbaumer* |
| S-2 | Future directions in brain/neuronal computer interaction
Brendan Allison*, Jose del R. Millán, Anton Nijholt, Stephen Dunne, Robert Leeb, Mannes Poel, Diane Whitmer, Christa Neuper |
| S-3 | Soft targets: Brains and BCIs as security liabilities
Matthew Wilczynski*, Brendan Allison |
| T-1 | Preferred programming languages to illicit steady-state visual evoked potentials from a CRT monitor
Dwight Waddell*, Aik Min Choong, Joseph Smith, Fei Teng, Christopher Reichley, Pamela Lawhead, Yixin Chen |
| T-2 | Harmonics in SSVEP: Are they evoked by the fundamental frequency or by the artifacts of the stimuli?
Fei Teng*, Aik Min Choong , Scott Gustafson, Dwight Waddell, Christopher Reichley, Pamela Lawhead, Yixin Chen |
| T-3 | EEG processing and robotic bio-feedback interfaces
Christopher Reichley*, Aik Min Choong , Fei Teng, Dwight Waddell, Pamela Lawhead, Scott Gustafson, Yixin Chen |
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