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41 results on '"Nezamfar, Hooman"'

1. Context-Aware Recursive Bayesian Graph Traversal in BCIs

Author

Salehi, Seyed Sadegh Mohseni, Moghadamfalahi, Mohammad, Nezamfar, Hooman, Haghighi, Marzieh, and Erdogmus, Deniz

Subjects
Computer Science - Human-Computer Interaction
Abstract

Noninvasive brain computer interfaces (BCI), and more specifically Electroencephalography (EEG) based systems for intent detection need to compensate for the low signal to noise ratio of EEG signals. In many applications, the temporal dependency information from consecutive decisions and contextual data can be used to provide a prior probability for the upcoming decision. In this study we proposed two probabilistic graphical models (PGMs), using context information and previously observed EEG evidences to estimate a probability distribution over the decision space in graph based decision-making mechanism. In this approach, user moves a pointer to the desired vertex in the graph in which each vertex represents an action. To select a vertex, a Select command, or a proposed probabilistic Selection criterion (PSC) can be used to automatically detect the user intended vertex. Performance of different PGMs and Selection criteria combinations are compared over a keyboard based on a graph layout. Based on the simulation results, probabilistic Selection criterion along with the probabilistic graphical model provides the highest performance boost for individuals with pour calibration performance and achieving the same performance for individuals with high calibration performance., Comment: This work has been submitted to EMBC 2017

Published
2017

2. Decoding Complex Imagery Hand Gestures

Author

Salehi, Seyed Sadegh Mohseni, Moghadamfalahi, Mohammad, Quivira, Fernando, Piers, Alexander, Nezamfar, Hooman, and Erdogmus, Deniz

Subjects
Computer Science - Human-Computer Interaction
Abstract

Brain computer interfaces (BCIs) offer individuals suffering from major disabilities an alternative method to interact with their environment. Sensorimotor rhythm (SMRs) based BCIs can successfully perform control tasks; however, the traditional SMR paradigms intuitively disconnect the control and real task, making them non-ideal for complex control scenarios. In this study, we design a new, intuitively connected motor imagery (MI) paradigm using hierarchical common spatial patterns (HCSP) and context information to effectively predict intended hand grasps from electroencephalogram (EEG) data. Experiments with 5 participants yielded an aggregate classification accuracy--intended grasp prediction probability--of 64.5\% for 8 different hand gestures, more than 5 times the chance level., Comment: This work has been submitted to EMBC 2017

Published
2017

3. Automated Pain Assessment using Electrodermal Activity Data and Machine Learning

Author

Susam, Busra T, Akcakaya, Murat, Nezamfar, Hooman, Diaz, Damaris, Xu, Xiaojing, de Sa, Virginia R, Craig, Kenneth D, Huang, Jeannie S, and Goodwin, Matthew S

Subjects
Information and Computing Sciences, Biomedical and Clinical Sciences, Clinical Sciences, Neurosciences, Pain Research, Chronic Pain, Algorithms, Galvanic Skin Response, Humans, Machine Learning, Pain, Pain Measurement, Sensitivity and Specificity
Abstract

Objective pain assessment is required for appropriate pain management in the clinical setting. However, clinical gold standard pain assessment is based on subjective methods. Automated pain detection from physiological data may provide important objective information to better standardize pain assessment. Specifically, electrodermal activity (EDA) can identify features of stress and anxiety induced by varying pain levels. However, notable variability in EDA measurement exists and research to date has demonstrated sensitivity but lack of specificity in pain assessment. In this paper, we use timescale decomposition (TSD) to extract salient features from EDA signals to identify an accurate and automated EDA pain detection algorithm to sensitively and specifically distinguish pain from no-pain conditions.

Published
2018

4. An Active RBSE Framework to Generate Optimal Stimulus Sequences in a BCI for Spelling

Author

Moghadamfalahi, Mohammad, Akcakaya, Murat, Nezamfar, Hooman, Sourati, Jamshid, and Erdogmus, Deniz

Subjects
Computer Science - Human-Computer Interaction
Abstract

A class of brain computer interfaces (BCIs) employs noninvasive recordings of electroencephalography (EEG) signals to enable users with severe speech and motor impairments to interact with their environment and social network. For example, EEG based BCIs for typing popularly utilize event related potentials (ERPs) for inference. Presentation paradigm design in current ERP-based letter by letter typing BCIs typically query the user with an arbitrary subset characters. However, the typing accuracy and also typing speed can potentially be enhanced with more informed subset selection and flash assignment. In this manuscript, we introduce the active recursive Bayesian state estimation (active-RBSE) framework for inference and sequence optimization. Prior to presentation in each iteration, rather than showing a subset of randomly selected characters, the developed framework optimally selects a subset based on a query function. Selected queries are made adaptively specialized for users during each intent detection. Through a simulation-based study, we assess the effect of active-RBSE on the performance of a language-model assisted typing BCI in terms of typing speed and accuracy. To provide a baseline for comparison, we also utilize standard presentation paradigms namely, row and column matrix presentation paradigm and also random rapid serial visual presentation paradigms. The results show that utilization of active-RBSE can enhance the online performance of the system, both in terms of typing accuracy and speed., Comment: 10 pages, 6 figures, Will be submitted to IEEE transactions on Signal Processing

Published
2016
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5. Towards Automated Pain Detection in Children Using Facial and Electrodermal Activity

Author

Xu, Xiaojing, Susam, Büşra Tuğçe, Nezamfar, Hooman, Diaz, Damaris, Craig, Kenneth D., Goodwin, Matthew S., Akcakaya, Murat, Huang, Jeannie S., de Sa, Virginia R., Hutchison, David, Series Editor, Kanade, Takeo, Series Editor, Kittler, Josef, Series Editor, Kleinberg, Jon M., Series Editor, Mattern, Friedemann, Series Editor, Mitchell, John C., Series Editor, Naor, Moni, Series Editor, Pandu Rangan, C., Series Editor, Steffen, Bernhard, Series Editor, Terzopoulos, Demetri, Series Editor, Tygar, Doug, Series Editor, Koch, Fernando, editor, Koster, Andrew, editor, Riaño, David, editor, Montagna, Sara, editor, Schumacher, Michael, editor, ten Teije, Annette, editor, Guttmann, Christian, editor, Reichert, Manfred, editor, Bichindaritz, Isabelle, editor, Herrero, Pau, editor, Lenz, Richard, editor, López, Beatriz, editor, Marling, Cindy, editor, Martin, Clare, editor, Montani, Stefania, editor, and Wiratunga, Nirmalie, editor

Published
2019
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7. High accuracy DNA sequencing on a small, scalable platform via electrical detection of single base incorporations

Author

Esfandyarpour, Hesaam, primary, Parizi, Kosar B., additional, Barmi, Meysam R., additional, Rategh, Hamid, additional, Wang, Lisen, additional, Paliwal, Saurabh, additional, Golnabi, HamidReza, additional, Kenney, Paul, additional, Reel, Richard, additional, Lee, Frank, additional, Gomes, Xavier, additional, Stern, Seth, additional, Ramachandran, Ashok, additional, Sankar, Subra, additional, Doomson, Solomon, additional, Ung, Rick, additional, Jouzi, Maryam, additional, Babu, Ramya Akula Suresh, additional, Nabi, Ali, additional, Castillo, Nestor, additional, Lei, Raymond, additional, Fallahi, Mohammad, additional, LoPrete, Eric, additional, Kemper, Austin, additional, Bagchi, Srijeeta, additional, Tarbox, Robert, additional, Choudhary, Pallavi, additional, Nezamfar, Hooman, additional, Hsie, Linda, additional, Monier, Nicolas, additional, Clark, Tyson A., additional, Spence, Eric, additional, Yang, Fei, additional, Bronson, Benjamin, additional, Sutton, Gina, additional, Schweidenback, Caterina, additional, Lundy, John, additional, Ho, An, additional, Tangprasertchai, Narin, additional, Thomas, Anthony, additional, Baxter, Brian, additional, Shastry, Shankar, additional, Barua, Anooshka, additional, Chen, Yongzhi, additional, Hashemzadeh, Hamid, additional, Shtern, David, additional, Kim, Eugene, additional, Thomas, Christopher, additional, Tanti, Patrice, additional, Mazouchi, Ali, additional, Tumurbaatar, Erden, additional, Nieboer, Jordan, additional, Knopf, Christopher, additional, Tram, Hien, additional, Sood, Vipal, additional, Stingley, Sam, additional, Cahill, Megan, additional, Roy, Sid, additional, Sha, Ky, additional, Dong, Bin, additional, Witney, Frank R., additional, and Davis, Ronald W., additional

Published
2019
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12. FLashLifeTM: A Context Aware Solution for Everyday Life

Author

Quivira, Fernando, Sinyukov, Dmitry, Orhan, Umut, Salehi, Seyed Sadegh Mohseni, Moghadamfalahi, Mohammad, Pas, Andreas ten, Nezamfar, Hooman, Padir, Taskin, Higger, Matt, Erdogmus, Deniz, Ackakaya, Murat, and Jr., Robert Platt

Abstract

Proceedings Of The 6Th International Bci Meeting: Bci Past, Present, And Future

Published
2016
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18. Decoding complex imagery hand gestures

Author

Mohseni Salehi, Seyed Sadegh, primary, Moghadamfalahi, Mohammad, additional, Quivira, Fernando, additional, Piers, Alexander, additional, Nezamfar, Hooman, additional, and Erdogmus, Deniz, additional

Published
2017
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19. Recursive Bayesian Coding for BCIs

Author

Higger, Matt, primary, Quivira, Fernando, additional, Akcakaya, Murat, additional, Moghadamfalahi, Mohammad, additional, Nezamfar, Hooman, additional, Cetin, Mujdat, additional, and Erdogmus, Deniz, additional

Published
2017
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20. Probabilistic simulation framework for EEG-based BCI design

Author

Orhan, Umut, primary, Nezamfar, Hooman, additional, Akcakaya, Murat, additional, Erdogmus, Deniz, additional, Higger, Matt, additional, Moghadamfalahi, Mohammad, additional, Fowler, Andrew, additional, Roark, Brian, additional, Oken, Barry, additional, and Fried-Oken, Melanie, additional

Published
2016
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26. Brain Interface to Control a Tele-Operated Robot

Author

Nezamfar, Hooman, Sinyukov, Dmitry, Orhan, Umut, Erdogmus, Deniz, and Padir, Taskin

Subjects
InformationSystems_GENERAL, MathematicsofComputing_GENERAL
Abstract

Proceedings of the fifth International Brain-Computer Interface Meeting

Published
2013
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34. Signal Processing and Machine Learning of EEG and Respiration Changes During Mindfulness Meditation State.

Author

Ahani, Asieh, Wahbeh, Helane, Nezamfar, Hooman, Miller, Meghan, Erdogmus, Deniz, and Goodrich, Elena

Subjects
ANALYSIS of variance, ELECTROENCEPHALOGRAPHY, PROBABILITY theory, RESPIRATION, MINDFULNESS, DESCRIPTIVE statistics
Abstract

An abstract of the study "Signal Processing and Machine Learning of EEG and Respiration Changes During Mindfulness Meditation State" by Barry Oken and colleagues is presented.

Published
2014
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35. Automated Pain Assessment using Electrodermal Activity Data and Machine Learning.

Author

Susam BT, Akcakaya M, Nezamfar H, Diaz D, Xu X, de Sa VR, Craig KD, Huang JS, and Goodwin MS

Subjects
Algorithms, Galvanic Skin Response, Humans, Pain, Sensitivity and Specificity, Machine Learning, Pain Measurement
Abstract

Objective pain assessment is required for appropriate pain management in the clinical setting. However, clinical gold standard pain assessment is based on subjective methods. Automated pain detection from physiological data may provide important objective information to better standardize pain assessment. Specifically, electrodermal activity (EDA) can identify features of stress and anxiety induced by varying pain levels. However, notable variability in EDA measurement exists and research to date has demonstrated sensitivity but lack of specificity in pain assessment. In this paper, we use timescale decomposition (TSD) to extract salient features from EDA signals to identify an accurate and automated EDA pain detection algorithm to sensitively and specifically distinguish pain from no-pain conditions.

Published
2018
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36. Towards Automated Pain Detection in Children using Facial and Electrodermal Activity.

Author

Xu X, Susam BT, Nezamfar H, Diaz D, Craig KD, Goodwin MS, Akcakaya M, Huang JS, and Virginia RS

Abstract

Accurately determining pain levels in children is difficult, even for trained professionals and parents. Facial activity and electro- dermal activity (EDA) provide rich information about pain, and both have been used in automated pain detection. In this paper, we discuss preliminary steps towards fusing models trained on video and EDA features respectively. We compare fusion models using original video features and those using transferred video features which are less sensitive to environmental changes. We demonstrate the benefit of the fusion and the transferred video features with a special test case involving domain adaptation and improved performance relative to using EDA and video features alone.

Published
2018

37. Decoding complex imagery hand gestures.

Author

Mohseni Salehi SS, Moghadamfalahi M, Quivira F, Piers A, Nezamfar H, and Erdogmus D

Subjects
Brain-Computer Interfaces, Electroencephalography, Hand, Humans, Imagery, Psychotherapy, Imagination, Gestures
Abstract

Brain computer interfaces (BCIs) offer individuals suffering from major disabilities an alternative method to interact with their environment. Sensorimotor rhythm (SMRs) based BCIs can successfully perform control tasks; however, the traditional SMR paradigms intuitively disconnect the control and real task, making them non-ideal for complex control scenarios. In this study we design a new, intuitively connected motor imagery (MI) paradigm using hierarchical common spatial patterns (HCSP) and context information to effectively predict intended hand grasps from electroencephalogram (EEG) data. Experiments with 5 participants yielded an aggregate classification accuracy-intended grasp prediction probability-of 64.5% for 8 different hand gestures, more than 5 times the chance level.

Published
2017
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38. Context-aware recursive bayesian graph traversal in BCIs.

Author

Salehi SSM, Moghadamfalahi M, Nezamfar H, Haghighi M, and Erdogmus D

Subjects
Algorithms, Bayes Theorem, Electroencephalography, Models, Statistical, Probability, Brain-Computer Interfaces
Abstract

Noninvasive brain computer interfaces (BCI), and more specifically Electroencephalography (EEG) based systems for intent detection need to compensate for the low signal to noise ratio of EEG signals. In many applications, the temporal dependency information from consecutive decisions and contextual data can be used to provide a prior probability for the upcoming decision. In this study we proposed two probabilistic graphical models (PGMs), using context information and previously observed EEG evidences to estimate a probability distribution over the decision space in graph based decision-making mechanism. In this approach, user moves a pointer to the desired vertex in the graph in which each vertex represents an action. To select a vertex, a "Select" command, or a proposed probabilistic Selection criterion (PSC) can be used to automatically detect the user intended vertex. Performance of different PGMs and Selection criteria combinations are compared over a keyboard based on a graph layout. Based on the simulation results, probabilistic Selection criterion along with the probabilistic graphical model provides the highest performance boost for individuals with pour calibration performance and achieving the same performance for individuals with high calibration performance.

Published
2017
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39. Probabilistic Simulation Framework for EEG-Based BCI Design.

Author

Orhan U, Nezamfar H, Akcakaya M, Erdogmus D, Higger M, Moghadamfalahi M, Fowler A, Roark B, Oken B, and Fried-Oken M

Abstract

A simulation framework could decrease the burden of attending long and tiring experimental sessions on the potential users of brain computer interface (BCI) systems. Specifically during the initial design of a BCI, a simulation framework that could replicate the operational performance of the system would be a useful tool for designers to make design choices. In this manuscript, we develop a Monte Carlo based probabilistic simulation framework for electroencephalography (EEG) based BCI design. We employ one event related potential (ERP) based typing and one steady state evoked potential (SSVEP) based control interface as testbeds. We compare the results of simulations with real time experiments. Even though over and under estimation of the performance is possible, the statistical results over the Monte Carlo simulations show that the developed framework generally provides a good approximation of the real time system performance.

Published
2016
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40. Change in physiological signals during mindfulness meditation.

Author

Ahani A, Wahbeh H, Miller M, Nezamfar H, Erdogmus D, and Oken B

Abstract

Mindfulness meditation (MM) is an inward mental practice, in which a resting but alert state of mind is maintained. MM intervention was performed for a population of older people with high stress levels. This study assessed signal processing methodologies of electroencephalographic (EEG) and respiration signals during meditation and control condition to aid in quantification of the meditative state. EEG and respiration data were collected and analyzed on 34 novice meditators after a 6-week meditation intervention. Collected data were analyzed with spectral analysis and support vector machine classification to evaluate an objective marker for meditation. We observed meditation and control condition differences in the alpha, beta and theta frequency bands. Furthermore, we established a classifier using EEG and respiration signals with a higher accuracy at discriminating between meditation and control conditions than one using the EEG signal only. EEG and respiration based classifier is a viable objective marker for meditation ability. Future studies should quantify different levels of meditation depth and meditation experience using this classifier. Development of an objective physiological meditation marker will allow the mind-body medicine field to advance by strengthening rigor of methods.

Published
2013
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41. Fusion with language models improves spelling accuracy for ERP-based brain computer interface spellers.

Author

Orhan U, Erdogmus D, Roark B, Purwar S, Hild KE 2nd, Oken B, Nezamfar H, and Fried-Oken M

Subjects
Computer Simulation, Electroencephalography methods, Humans, Models, Theoretical, Brain physiology, Evoked Potentials, Visual physiology, Language, Natural Language Processing, Task Performance and Analysis, User-Computer Interface, Writing
Abstract

Event related potentials (ERP) corresponding to a stimulus in electroencephalography (EEG) can be used to detect the intent of a person for brain computer interfaces (BCI). This paradigm is widely utilized to build letter-by-letter text input systems using BCI. Nevertheless using a BCI-typewriter depending only on EEG responses will not be sufficiently accurate for single-trial operation in general, and existing systems utilize many-trial schemes to achieve accuracy at the cost of speed. Hence incorporation of a language model based prior or additional evidence is vital to improve accuracy and speed. In this paper, we study the effects of Bayesian fusion of an n-gram language model with a regularized discriminant analysis ERP detector for EEG-based BCIs. The letter classification accuracies are rigorously evaluated for varying language model orders as well as number of ERP-inducing trials. The results demonstrate that the language models contribute significantly to letter classification accuracy. Specifically, we find that a BCI-speller supported by a 4-gram language model may achieve the same performance using 3-trial ERP classification for the initial letters of the words and using single trial ERP classification for the subsequent ones. Overall, fusion of evidence from EEG and language models yields a significant opportunity to increase the word rate of a BCI based typing system.

Published
2011
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