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203 results on '"Barbour, Dennis L."'

1. Distributional Latent Variable Models with an Application in Active Cognitive Testing

Author

Kasumba, Robert, Marticorena, Dom CP, Pahor, Anja, Ramani, Geetha, Goffney, Imani, Jaeggi, Susanne M, Seitz, Aaron, Gardner, Jacob R, and Barbour, Dennis L

Subjects
Computer Science - Artificial Intelligence, Computer Science - Human-Computer Interaction
Abstract

Cognitive modeling commonly relies on asking participants to complete a battery of varied tests in order to estimate attention, working memory, and other latent variables. In many cases, these tests result in highly variable observation models. A near-ubiquitous approach is to repeat many observations for each test independently, resulting in a distribution over the outcomes from each test given to each subject. Latent variable models (LVMs), if employed, are only added after data collection. In this paper, we explore the usage of LVMs to enable learning across many correlated variables simultaneously. We extend LVMs to the setting where observed data for each subject are a series of observations from many different distributions, rather than simple vectors to be reconstructed. By embedding test battery results for individuals in a latent space that is trained jointly across a population, we can leverage correlations both between disparate test data for a single participant and between multiple participants. We then propose an active learning framework that leverages this model to conduct more efficient cognitive test batteries. We validate our approach by demonstrating with real-time data acquisition that it performs comparably to conventional methods in making item-level predictions with fewer test items., Comment: 11 pages, 6 figures

Published
2023

3. Accelerating Psychometric Screening Tests With Bayesian Active Differential Selection

Author

Larsen, Trevor J., Malkomes, Gustavo, and Barbour, Dennis L.

Subjects
Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

Classical methods for psychometric function estimation either require excessive measurements or produce only a low-resolution approximation of the target psychometric function. In this paper, we propose a novel solution for rapid screening for a change in the psychometric function estimation of a given patient. We use Bayesian active model selection to perform an automated pure-tone audiogram test with the goal of quickly finding if the current audiogram will be different from a previous audiogram. We validate our approach using audiometric data from the National Institute for Occupational Safety and Health NIOSH. Initial results show that with a few tones we can detect if the patient's audiometric function has changed between the two test sessions with high confidence., Comment: Extended Abstract accepted to ML4H: Machine Learning for Health Workshop at NeurIPS 2019

Published
2020

7. Scalable Probabilistic Modeling of Working Memory Performance

Author

Rojo, Mariluz, primary, Maddula, Pranav, additional, Fu, Dan, additional, Guo, Minzhe, additional, Zheng, Ethan, additional, Grande, Álvaro, additional, Pahor, Anja, additional, Jaeggi, Susanne, additional, Seitz, Aaron, additional, Goffney, Imani, additional, Ramani, Geetha, additional, Gardner, Jacob R., additional, and Barbour, Dennis L., additional

Published
2023
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11. Cognition and Brain System Segregation in Pediatric Brain Tumor Patients Treated with Proton Therapy

Author

Dowling, Anna V., primary, Seitzman, Benjamin A., additional, Mitchell, Timothy J., additional, Olufawo, Michael, additional, Dierker, Donna L., additional, Anandarajah, Hari, additional, Dworetsky, Ally, additional, McMichael, Alana, additional, Jiang, Catherine, additional, Barbour, Dennis L., additional, Schlaggar, Bradley L., additional, Limbrick, David D., additional, Strahle, Jennifer M., additional, Rubin, Joshua B., additional, Shimony, Joshua S., additional, and Perkins, Stephanie M., additional

Published
2023
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12. Active transfer learning for audiogram estimation.

Author

Twinomurinzi, Hossana, Myburgh, Herman, and Barbour, Dennis L.

Subjects
MIDDLE-income countries, STATISTICAL models, CONDUCTIVE hearing loss, PREDICTION models, SECONDARY analysis, NOISE, AUDIOLOGY, AUDIOMETRY, LEARNING, DESCRIPTIVE statistics, SIMULATION methods in education, COMPUTER-aided diagnosis, HEARING, LOW-income countries, ALGORITHMS
Abstract

Computational audiology (CA) has grown over the last few years with the improvement of computing power and the growth of machine learning (ML) models. There are today several audiogram databases which have been used to improve the accuracy of CA models as well as reduce testing time and diagnostic complexity. However, these CA models have mainly been trained on single populations. This study integrated contextual and prior knowledge from audiogram databases of multiple populations as informative priors to estimate audiograms more precisely using two mechanisms: (1) a mapping function drawn from feature-based homogeneous Transfer Learning (TL) also known as Domain Adaptation (DA) and (2) Active Learning (Uncertainty Sampling) using a stream-based query mechanism. Simulations of the Active Transfer Learning (ATL) model were tested against a traditional adaptive staircase method akin to the Hughson-Westlake (HW) method for the left ear at frequencies v = 0.25, 0.5, 1, 2, 4, 8 kHz, resulting in accuracy and reliability improvements. ATL improved HW tests from a mean of 41.3 sound stimuli presentations and reliability of +9.02 dB down to 25.3 + 1.04 dB. Integrating multiple databases also resulted in classifying the audiograms into 18 phenotypes, which means that with increasing data-driven CA, higher precision is achievable, and a possible re-conceptualisation of the notion of phenotype classifications might be required. The study contributes to CA in identifying an ATL mechanism to leverage existing audiogram databases and CA models across different population groups. Further studies can be done for other psychophysical phenomena using ATL. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Online Machine Learning Audiometry

Author

Barbour, Dennis L., Howard, Rebecca T., Song, Xinyu D., Metzger, Nikki, Sukesan, Kiron A., DiLorenzo, James C., Snyder, Braham R. D., Chen, Jeff Y., Degen, Eleanor A., Buchbinder, Jenna M., and Heisey, Katherine L.

Published
2019
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23. Computational Audiology: New Approaches to Advance Hearing Health Care in the Digital Age

Author

Wasmann, J.W.A., Lanting, C.P., Huinck, W.J., Mylanus, E.A.M., Laak, J.A.W.M. van der, Govaerts, Paul J., Moore, David R., Barbour, Dennis L., Wasmann, J.W.A., Lanting, C.P., Huinck, W.J., Mylanus, E.A.M., Laak, J.A.W.M. van der, Govaerts, Paul J., Moore, David R., and Barbour, Dennis L.

Abstract

Contains fulltext : 239781.pdf (Publisher’s version ) (Open Access)

Published
2021

24. Computational Audiology: New Approaches to Advance Hearing Health Care in the Digital Age

Author

Wasmann, Jan-Willem A., Lanting, Cris P., Huinck, Wendy J., Mylanus, Emmanuel A. M., van der Laak, Jeroen, Govaerts, Paul J., Swanepoel, De Wet, Moore, David R., Barbour, Dennis L., Wasmann, Jan-Willem A., Lanting, Cris P., Huinck, Wendy J., Mylanus, Emmanuel A. M., van der Laak, Jeroen, Govaerts, Paul J., Swanepoel, De Wet, Moore, David R., and Barbour, Dennis L.

Abstract

The global digital transformation enables computational audiology for advanced clinical applications that can reduce the global burden of hearing loss. In this article, we describe emerging hearing-related artificial intelligence applications and argue for their potential to improve access, precision, and efficiency of hearing health care services. Also, we raise awareness of risks that must be addressed to enable a safe digital transformation in audiology. We envision a future where computational audiology is implemented via interoperable systems using shared data and where health care providers adopt expanded roles within a network of distributed expertise. This effort should take place in a health care system where privacy, responsibility of each stakeholder, and patients safety and autonomy are all guarded by design., Funding Agencies|NIHUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USA [R21DC016241]; NIHR Manchester Biomedical Research CentreNational Institute for Health Research (NIHR); Cochlear; MED-EL; Oticon Medical

Published
2021
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29. Precision clinical trials: a framework for getting to precision medicine for neurobehavioural disorders

Author

Lenze, Eric J., primary, Nicol, Ginger E., additional, Barbour, Dennis L., additional, Kannampallil, Thomas, additional, Wong, Alex W.K., additional, Piccirillo, Jay, additional, Drysdale, Andrew T., additional, Sylvester, Chad M., additional, Haddad, Rita, additional, Miller, J. Philip, additional, Low, Carissa A., additional, Lenze, Shannon N., additional, Freedland, Kenneth E., additional, and Rodebaugh, Thomas L., additional

Published
2021
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35. Cognitive Deficits and Altered Functional Brain Network Organization in Pediatric Brain Tumor Patients

Author

Anandarajah, Hari, primary, Seitzman, Benjamin A., additional, McMichael, Alana, additional, Dworetsky, Ally, additional, Coalson, Rebecca S., additional, Jiang, Catherine, additional, Gu, Hongjie, additional, Barbour, Dennis L., additional, Schlaggar, Bradley L., additional, Limbrick, David D., additional, Rubin, Joshua B., additional, Shimony, Joshua S., additional, and Perkins, Stephanie M., additional

Published
2020
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37. Online Machine Learning Audiometry

Author

Barbour, Dennis L., primary, Howard, Rebecca T., additional, Song, Xinyu D., additional, Metzger, Nikki, additional, Sukesan, Kiron A., additional, DiLorenzo, James C., additional, Snyder, Braham R. D., additional, Chen, Jeff Y., additional, Degen, Eleanor A., additional, Buchbinder, Jenna M., additional, and Heisey, Katherine L., additional

Published
2018
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50. Electrophysiological Sequelae of Hemispherotomy in Ipsilateral Human Cortex

Author

Hawasli, Ammar H., primary, Chacko, Ravi, additional, Szrama, Nicholas P., additional, Bundy, David T., additional, Pahwa, Mrinal, additional, Yarbrough, Chester K., additional, Dlouhy, Brian J., additional, Limbrick, David D., additional, Barbour, Dennis L., additional, Smyth, Matthew D., additional, and Leuthardt, Eric C., additional

Published
2017
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