Catherine Ordun scite author profile

Catherine Ordun

5Publications

43Citation Statements Received

118Citation Statements Given

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113

Affiliations

Booz Allen Hamilton (United States), University of Maryland, Baltimore County, Oxford University Press (United Kingdom)

Publications

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Exploratory Analysis of Covid-19 Tweets using Topic Modeling, UMAP, and DiGraphs

Ordun¹,

Purushotham²,

Raff³

2020

Preprint

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This paper illustrates five different techniques to assess the distinctiveness of topics, key terms and features, speed of information dissemination, and network behaviors for Covid19 tweets. First, we use pattern matching and second, topic modeling through Latent Dirichlet Allocation (LDA) to generate twenty different topics that discuss case spread, healthcare workers, and personal protective equipment (PPE). One topic specific to U.S. cases would start to uptick immediately after live White House Coronavirus Task Force briefings, implying that many Twitter users are paying attention to government announcements. We contribute machine learning methods not previously reported in the Covid19 Twitter literature. This includes our third method, Uniform Manifold Approximation and Projection (UMAP), that identifies unique clustering-behavior of distinct topics to improve our understanding of important themes in the corpus and help assess the quality of generated topics. Fourth, we calculated retweeting times to understand how fast information about Covid19 propagates on Twitter. Our analysis indicates that the median retweeting time of Covid19 for a sample corpus in March 2020 was 2.87 hours, approximately 50 minutes faster than repostings from Chinese social media about H7N9 in March 2013. Lastly, we sought to understand retweet cascades, by visualizing the connections of users over time from fast to slow retweeting. As the time to retweet increases, the density of connections also increase where in our sample, we found distinct users dominating the attention of Covid19 retweeters. One of the simplest highlights of this analysis is that early-stage descriptive methods like regular expressions can successfully identify high-level themes which were consistently verified as important through every subsequent analysis.

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Open Source Health Intelligence (OSHINT) for Foodborne Illness Event Characterization

Ordun

Blake

Rosidi

et al. 2013

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Generating Thermal Human Faces for Physiological Assessment using Thermal Sensor Auxiliary Labels

Ordun

Raff

Purushotham

2021

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Thermal images reveal medically important physiological information about human stress, signs of inflammation, and emotional mood that cannot be seen on visible images. Providing a method to generate thermal faces from visible images would be highly valuable for the telemedicine community in order to show this medical information. To the best of our knowledge, there are limited works on visible-to-thermal (VT) face translation, and many current works go the opposite direction to generate visible faces from thermal surveillance images (TV) for law enforcement applications. As a result, we introduce favtGAN, a VT GAN which uses the pix2pix image translation model with an auxiliary sensor label prediction network for generating thermal faces from visible images. Since most TV methods are trained on only one data source drawn from one thermal sensor, we combine datasets from faces and cityscapes. These combined data are captured from similar sensors in order to bootstrap the training and transfer learning task, especially valuable because visible-thermal face datasets are limited. Experiments on these combined datasets show that favtGAN demonstrates an increase in SSIM and PSNR scores of generated thermal faces, compared to training on a single face dataset alone.

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Multimodal Deep Generative Models for Remote Medical Applications

Ordun

2023

AAAI

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Visible-to-Thermal (VT) face translation is an under-studied problem of image-to-image translation that offers an AI-enabled alternative to traditional thermal sensors. Over three phases, my Doctoral Proposal explores developing multimodal deep generative solutions that can be applied towards telemedicine applications. These include the contribution of a novel Thermal Face Contrastive GAN (TFC-GAN), exploration of hybridized diffusion-GAN models, application on real clinical thermal data at the National Institutes of Health, and exploration of strategies for Federated Learning (FL) in heterogenous data settings.

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Generating Thermal Human Faces for Physiological Assessment Using Thermal Sensor Auxiliary Labels

Ordun¹,

Raff²,

Purushotham³

2021

Preprint

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Catherine Ordun

Exploratory Analysis of Covid-19 Tweets using Topic Modeling, UMAP, and DiGraphs

Open Source Health Intelligence (OSHINT) for Foodborne Illness Event Characterization

Generating Thermal Human Faces for Physiological Assessment using Thermal Sensor Auxiliary Labels

Multimodal Deep Generative Models for Remote Medical Applications

Generating Thermal Human Faces for Physiological Assessment Using Thermal Sensor Auxiliary Labels

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