More Like this

1. CovIdentify Dataset

   https://doi.org/10.13026/ncq1-vp79  

   Cho, Peter; Shandhi, Md_Mobashir Hasan; Roghanizad, Ali; Dunn, Jessilyn (November 2024, PhysioNet)

   This dataset supports the study "A method for intelligent allocation of diagnostic testing by leveraging data from commercial wearable devices: a case study on COVID-19" which developed an Intelligent Testing Allocation (ITA) method. The study demonstrated the efficacy of using continuous digital biomarkers like resting heart rate and steps to enhance COVID-19 diagnostic testing positivity rates. The findings suggest significant potential for large-scale, symptom-independent surveillance testing to alleviate diagnostic test shortages. The provided data is from the CovIdentify study launched by Duke's BIG IDEAs Lab in the Biomedical Engineering Department. From April 2nd, 2020 to May 25th, 2021, 2,887 participants connected their smartwatches to the CovIdentify platform, including 1,689 Garmin, 1,091 Fitbit, and 107 Apple smartwatches 

   more » « less
2. DMDD: A Large-Scale Dataset for Dataset Mentions Detection

   https://doi.org/10.1162/tacl_a_00592  

   Pan, Huitong; Zhang, Qi; Dragut, Eduard; Caragea, Cornelia; Latecki, Longin Jan (September 2023, Transactions of the Association for Computational Linguistics)

   Abstract The recognition of dataset names is a critical task for automatic information extraction in scientific literature, enabling researchers to understand and identify research opportunities. However, existing corpora for dataset mention detection are limited in size and naming diversity. In this paper, we introduce the Dataset Mentions Detection Dataset (DMDD), the largest publicly available corpus for this task. DMDD consists of the DMDD main corpus, comprising 31,219 scientific articles with over 449,000 dataset mentions weakly annotated in the format of in-text spans, and an evaluation set, which comprises 450 scientific articles manually annotated for evaluation purposes. We use DMDD to establish baseline performance for dataset mention detection and linking. By analyzing the performance of various models on DMDD, we are able to identify open problems in dataset mention detection. We invite the community to use our dataset as a challenge to develop novel dataset mention detection models. 

   more » « less
3. Student Engagement Dataset

   https://doi.org/10.1109/ICCVW54120.2021.00405  

   Delgado, Kevin; Origgi, Juan Manuel; Hasanpoor, Tania; Yu, Hao; Allessio, Danielle; Arroyo, Ivon; Lee, William; Betke, Margrit; Woolf, Beverly; Bargal, Sarah Adel (October 2021, 2021 IEEE/CVF International Conference on Computer Vision Workshop (ICCVW))

   A major challenge for online learning is the inability of systems to support student emotion and to maintain student engagement. In response to this challenge, computer vision has become an embedded feature in some instructional applications. In this paper, we propose a video dataset of college students solving math problems on the educational platform MathSpring.org with a front facing camera collecting visual feedback of student gestures. The video dataset is annotated to indicate whether students’ attention at specific frames is engaged or wandering. In addition, we train baselines for a computer vision module that determines the extent of student engagement during remote learning. Baselines include state-of-the-art deep learning image classifiers and traditional conditional and logistic regression for head pose estimation. We then incorporate a gaze baseline into the MathSpring learning platform, and we are evaluating its performance with the currently implemented approach. 

   more » « less
4. Dataset Relationship Management

   Zachary G. Ives, Yi Zhang (January 2019, Proceedings of Conference on Innovative Database Systems Research (CIDR 19))

   The database community has largely focused on providing improved transaction management and query capabilities over records (and generalizations thereof). Yet such capabilities address only a small part of today’s data science tasks, which are often much more focused on discovery, linking, comparative analysis, and collaboration across holistic datasets and data products. Data scientists frequently point to a strong need for data management — with respect to their many datasets and data products. We propose the development of the dataset relationship management system to support five main classes of operations on datasets: reuse of schema, data, curation, and work across many datasets; revelation of provenance, context, and assumptions; rapid revision of data and processing steps; system-assisted retargeting of computation to alternative execution environments; and metrics to reward individuals’ contributions to the broader data ecosystem. We argue that the recent adoption of computational notebooks (particularly JupyterLab and Jupyter Notebook), as a unified interface over data tools, provides an ideal way of gathering detailed information about how data is being used, i.e., of transparently capturing dataset provenance and relationships, and thus such notebooks provide an attractive mechanism for integrating dataset relationship management into the data science ecosystem. We briefly outline our experiences in building towards JuNEAU, the first prototype DRMS. 

   more » « less
5. HoloSet - A Dataset for Visual-Inertial Pose Estimation in Extended Reality: Dataset

   https://doi.org/10.1145/3560905.3567763  

   Chandio, Yasra; Bashir, Noman; Anwar, Fatima M. (November 2022, ACM Conference on Embedded Networked Sensor Systems)

   There is a lack of datasets for visual-inertial odometry applications in Extended Reality (XR). To the best of our knowledge, there is no dataset available that is captured from an XR headset with a human as a carrier. To bridge this gap, we present a novel pose estimation dataset --- called HoloSet --- collected using Microsoft Hololens 2, which is a state-of-the-art head mounted device for XR. Potential applications for HoloSet include visual-inertial odometry, simultaneous localization and mapping (SLAM), and additional applications in XR that leverage visual-inertial data. HoloSet captures both macro and micro movements. For macro movements, the dataset consists of more than 66,000 samples of visual, inertial, and depth camera data in a variety of environments (indoor, outdoor) and scene setups (trails, suburbs, downtown) under multiple user action scenarios (walk, jog). For micro movements, the dataset consists of more than 12,000 samples of additional articulated hand depth camera images while a user plays games that exercise fine motor skills and hand-eye coordination. We present basic visualizations and high-level statistics of the data and outline the potential research use cases for HoloSet. 

   more » « less