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1. Cave Life Coloring Book

   Niemiller, K Denise_Kendall; Niemiller, Matthew L (October 2023, The University of Alabama in Huntsville)

   Coloring book of cave life in the eastern United States for K-12 

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2. CAVE: Connectome Annotation Versioning Engine

   https://doi.org/10.1101/2023.07.26.550598  

   Dorkenwald, Sven; Schneider-Mizell, Casey M; Brittain, Derrick; Halageri, Akhilesh; Jordan, Chris; Kemnitz, Nico; Castro, Manual A; Silversmith, William; Maitin-Shephard, Jeremy; Troidl, Jakob; et al (July 2023, bioRxiv)

   Abstract Advances in Electron Microscopy, image segmentation and computational infrastructure have given rise to large-scale and richly annotated connectomic datasets which are increasingly shared across communities. To enable collaboration, users need to be able to concurrently create new annotations and correct errors in the automated segmentation by proofreading. In large datasets, every proofreading edit relabels cell identities of millions of voxels and thousands of annotations like synapses. For analysis, users require immediate and reproducible access to this constantly changing and expanding data landscape. Here, we present the Connectome Annotation Versioning Engine (CAVE), a computational infrastructure for immediate and reproducible connectome analysis in up-to petascale datasets (∼1mm³) while proofreading and annotating is ongoing. For segmentation, CAVE provides a distributed proofreading infrastructure for continuous versioning of large reconstructions. Annotations in CAVE are defined by locations such that they can be quickly assigned to the underlying segment which enables fast analysis queries of CAVE’s data for arbitrary time points. CAVE supports schematized, extensible annotations, so that researchers can readily design novel annotation types. CAVE is already used for many connectomics datasets, including the largest datasets available to date. 

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3. CAVE: Connectome Annotation Versioning Engine

   https://doi.org/10.1038/s41592-024-02426-z  

   Dorkenwald, Sven; Schneider-Mizell, Casey_M; Brittain, Derrick; Halageri, Akhilesh; Jordan, Chris; Kemnitz, Nico; Castro, Manual_A; Silversmith, William; Maitin-Shephard, Jeremy; Troidl, Jakob; et al (April 2025, Nature Methods)

   Abstract Advances in electron microscopy, image segmentation and computational infrastructure have given rise to large-scale and richly annotated connectomic datasets, which are increasingly shared across communities. To enable collaboration, users need to be able to concurrently create annotations and correct errors in the automated segmentation by proofreading. In large datasets, every proofreading edit relabels cell identities of millions of voxels and thousands of annotations like synapses. For analysis, users require immediate and reproducible access to this changing and expanding data landscape. Here we present the Connectome Annotation Versioning Engine (CAVE), a computational infrastructure that provides scalable solutions for proofreading and flexible annotation support for fast analysis queries at arbitrary time points. Deployed as a suite of web services, CAVE empowers distributed communities to perform reproducible connectome analysis in up to petascale datasets (~1 mm³) while proofreading and annotating is ongoing. 

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4. Underwater cave mapping using stereo vision

   https://doi.org/10.1109/ICRA.2017.7989672  

   Weidner, Nick; Rahman, Sharmin; Li, Alberto Quattrini; Rekleitis, Ioannis (May 2017, 2017 IEEE International Conference on Robotics and Automation (ICRA),)

   This paper presents a systematic approach for the 3-D mapping of underwater caves. Exploration of underwater caves is very important for furthering our understanding of hydrogeology, managing efficiently water resources, and advancing our knowledge in marine archaeology. Underwater cave exploration by human divers however, is a tedious, labor intensive, extremely dangerous operation, and requires highly skilled people. As such, it is an excellent fit for robotic technology, which has never before been addressed. In addition to the underwater vision constraints, cave mapping presents extra challenges in the form of lack of natural illumination and harsh contrasts, resulting in failure for most of the state-ofthe-art visual based state estimation packages. A new approach employing a stereo camera and a video-light is presented. Our approach utilizes the intersection of the cone of the video-light with the cave boundaries: walls, floor, and ceiling, resulting in the construction of a wire frame outline of the cave. Successive frames are combined using a state of the art visual odometry algorithm while simultaneously inferring scale through the stereo reconstruction. Results from experiments at a cave, part of the Sistema Camilo, Quintana Roo, Mexico, validate our approach. The cave wall reconstruction presented provides an immersive experience in 3-D. 

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5. Stable isotope variability of precipitation and cave drip-water at Jumandy cave, western Amazon River basin (Ecuador)

   https://doi.org/10.1016/j.jhydrol.2022.127848  

   Jiménez-Iñiguez, Angie; Ampuero, Angela; Valencia, Bryan G.; Mayta, Victor C.; Cruz, Francisco W.; Vuille, Mathias; Novello, Valdir F.; Misailidis Stríkis, Nicolás; Aranda, Nataly; Conicelli, Bruno (July 2022, Journal of Hydrology)