Your search keyword '"James F. Bell III"' showing total 7 results

1. Three‐Dimensional Data Preparation and Immersive Mission‐Spanning Visualization and Analysis of Mars 2020 Mastcam‐Z Stereo Image Sequences

Author

Gerhard Paar, Thomas Ortner, Christian Tate, Robert G. Deen, Parker Abercrombie, Marsette Vona, Jon Proton, Andreas Bechtold, Fred Calef, Robert Barnes, Christian Koeberl, Ken Herkenhoff, Elisabeth M. Hausrath, Christoph Traxler, Piluca Caballo, Andrew M. Annex, Sanjeev Gupta, James F. Bell III, and Justin Maki

Subjects

Mars exploration, visualization, Mars 2020, Mastcam‐Z, Astronomy, QB1-991, Geology, QE1-996.5

Abstract

Abstract The Mars 2020 Mastcam‐Z stereo camera investigation enables the generation of three dimension (3D) data products needed to visualize and analyze rocks, outcrops, and other geological and aeolian features. The Planetary Robotics Vision Processing framework “PRoViP” as well as the Instrument Data System on a tactical—sol‐by‐sol—timeframe generate 3D vision products, such as panoramas, distance maps, and textured meshes. Structure‐from‐motion used by the Advanced Science Targeting Toolkit for Robotic Operations (ASTTRO) “Landform” tool and long baseline stereo pipelines add to the 3D vision products' suite on various scales. Data fusion with textured meshes from satellite imagery and 3D data analysis and interpretation of the resulting large 3D data sets is realized by visualization assets like the Planetary Robotics Vision 3D Viewer PRo3D, the 3D Geographical Information System GIS CAMP (Campaign Analysis Mapping and Planning tool), the ASTTRO 3D data presentation and targeting tool, and the Mastcam‐Z planning tool Viewpoint. The pipelines' workflows and the user‐oriented features of the visualization assets, shared across the Mars 2020 mission, are reported. The individual role and interplay, complements and synergies of the individual frameworks are explained. Emphasis is laid on publicly available 3D vision data products and tools. A representative set of scientific use cases from planetary geology, aeolian activity, soil analysis and impact science illustrates the scientific workflow, and public data deployment modes are briefly outlined, demonstrating that 3D vision processing and visualization is an essential mission‐wide asset to solve important planetary science questions such as prevailing wind direction, soil composition, or geologic origin.

Published

2023

2. Geological, Multispectral, and Meteorological Imaging Results from the Mars 2020 Perseverance Rover in Jezero Crater

Author

James F. Bell, III, Justin N. Maki, Sanna Alwmark, Bethany L. Ehlmann, Sarah A. Fagents, John P. Grotzinger, Sanjeev Gupta, Alexander Hayes, Ken E. Herkenhoff, Briony H. N. Horgan, Jeffrey R. Johnson, Kjartan B. Kinch, Mark T. Lemmon, Morten B. Madsen, Jorge I. Núñez, Gerhard Paar, Melissa Rice, James W. Rice, Jr, Nicole Schmitz, Robert Sullivan, Alicia Vaughan, Mike J. Wolff, Andreas Bechtold, Tanja Bosak, Louise E. Duflot, Alberto G. Fairén, Brad Garczynski, Ralf Jaumann, Marco Merusi, Chase Million, Eleni Ravanis, David L. Shuster, Justin Simon, Michael St. Clair, Christian Tate, Sebastian Walter, Benjamin Weiss, Alyssa M. Bailey, Tanguy Bertrand, Olivier Beyssac, Adrian J. Brown, Piluca Caballo-Perucha, Michael A. Caplinger, Christy M. Caudill, Francesca Cary, Ernest Cisneros, Edward Cloutis, Nathan Cluff, Paul Corlies, Kelsie Crawford, Sabrina Curtis, Robert Deen, Darian Dixon, Christopher Donaldson, Megan Barrington, Michelle Ficht, Stephanie Fleron, Michael Hansen, David Harker, Rachel Howson, Joshua Huggett, Samantha Jacob, Elsa Jensen, Ole B Jensen, Mohini Jodhpurkar, Jonathan Joseph, Christian Juarez, Linda C Kah, Oak Kanine, Jessica Kristensen, Tex Kubacki, Kristiana Lapo, Angela Magee, Michael Maimone, Greg L Mehall, Laura Mehall, Jess Mollerup, Daniel Viúdez-Moreiras, Kristen Paris, Kathryn E Powell, Frank Preusker, Jon Proton, Corrine Rojas, Danny Sallurday, Kim Saxton, Eva Scheller, Christina H Seeger, Mason Starr, Nathan Stein, Nathalie Turenne, Jason Van Beek, Andrew G Winhold, and Rachel Yingling

Subjects

Lunar and Planetary Science and Exploration

Abstract

Perseverance’s Mastcam-Z instrument provides high-resolution stereo and multispectral images with a unique combination of spatial resolution, spatial coverage, and wavelength coverage along the rover’s traverse in Jezero crater, Mars. Images reveal rocks consistent with an igneous (including volcanic and/or volcaniclastic) and/or impactite origin and limited aqueous alteration, including polygonally fractured rocks with weathered coatings; massive boulder-forming bedrock consisting of mafic silicates, ferric oxides, and/or iron-bearing alteration minerals; and coarsely layered outcrops dominated by olivine. Pyroxene dominates the iron-bearing mineralogy in the fine-grained regolith, while olivine dominates the coarse-grained regolith. Solar and atmospheric imaging observations show significant intra- and intersol variations in dust optical depth and water ice clouds, as well as unique examples of boundary layer vortex action from both natural (dust devil) and Ingenuity helicopter–induced dust lifting. High-resolution stereo imaging also provides geologic context for rover operations, other instrument observations, and sample selection, characterization, and confirmation.

Published

2022

3. Lucy Mission to the Trojan Asteroids: Instrumentation and Encounter Concept of Operations

Author

Catherine B. Olkin, Harold F. Levison, Michael Vincent, Keith S. Noll, John Andrews, Sheila Gray, Phil Good, Simone Marchi, Phil Christensen, Dennis Reuter, Harold Weaver, Martin Pätzold, James F. Bell III, Victoria E. Hamilton, Neil Dello Russo, Amy Simon, Matt Beasley, Will Grundy, Carly Howett, John Spencer, Michael Ravine, and Michael Caplinger

Published

2021

4. Evidence for recent and ancient faulting at Mare Frigoris and implications for lunar tectonic evolution

Author

Maria Elaine Banks, Nathan R. Williams, James F. Bell III, Thomas R. Watters, Katie Daud, and Renee A. French

Subjects

Lunar And Planetary Science And Exploration

Published

2019

5. Evidence for recent and ancient faulting at Mare Frigoris and implications for lunar tectonic evolution

Author

Nathan R. Williams, James F. Bell III, Thomas R. Watters, Maria E. Banks, Katie Daud, and Renee A. French

Subjects

Geosciences (General)

Abstract

Nearside basin-related extensional tectonism on the Moon was thought to have ended by about 3.6 billion years ago and mare basin-localized contractional deformation ended by about 1.2 billion years ago. Lunar Reconnaissance Orbiter Camera (LROC) high resolution (50–200 cm/pixel) images show the Moon's surface in unprecedented detail and have enabled us to find many previously unidentified tectonic landforms, forcing a reassessment of our views of tectonism in the maria. The morphology and stratigraphic relationships of these newly identified populations of tectonic landforms imply a more complex and longer-lasting history of deformation. We selected Mare Frigoris as an ideal location to perform a mapping survey where excellent imaging conditions, abundant tectonic landforms, and restricted mascon allow us to unravel the mare's tectonic evolution. Similar to previous surveys, we find that tectonism in the eastern portion of Mare Frigoris was controlled by ancient mascon induced flexure. In the western portion, however, we identify a parallel set of ancient compressional wrinkle ridges across the mare that is inconsistent with an origin by mare basin-centric mascon flexure or influence from the Mare Imbrium mascon. Instead, our results imply an ancient, regional, non-isotropic stress field over western Mare Frigoris. We also identify young wrinkle ridges and show that they have likely been active within the last 1 billion years, and some ridges as recently as within 40 million years. Finally, we identify a 300 km long series of lobate scarps coincident with one of the shallow moonquakes recorded during Apollo and use geodetic strain from the mapped global population of young lobate scarps to predict a level of seismicity consistent with the shallow moonquakes recorded during Apollo. In tandem with similarly young lobate scarps and small graben, as well as recorded shallow moonquakes, these young wrinkle ridges imply that some tectonism in and around Mare Frigoris has occurred in the geologically recent past and likely still continues today.

Published

2019

6. Mineralogy, morphology, and emplacement history of the Maaz formation on the Jezero crater floor from orbital and rover observations

Author

Briony Heather Noelle Horgan, Arya Udry, Meiissa S Rice, Sanna Alwmark, Hans E. F. Amundsen, James F. Bell III, Larry S. Crumpler, Bradley Garczynski, Jeffrey R. Johnson, Kjartan Münster Kinch, Lucia Mandon, Marco Merusi, Chase Million, Jorge I. Núñez, Patrick S. Russell, Justin I. Simon, Michael St. Clair, Kathryn Stack Morgan, Alicia Fallacaro Vaughan, Brittan Valhalla Wogsland, Andrew Michael Annex, Andreas Bechtold, Tor Berger, Olivier Beyssac, Adrian Jon Brown, Edward Cloutis, Barbara A Cohen, Sarah Fagents, Linda C Kah, Ken Farley, David Timothy Flannery, Sanjeev Gupta, Sein-Erik Hamran, Yang Liu, Gerhard Paar, Cathy Quantin-Nataf, Nicolas Randazzo, Eleni Maria Ravanis, Steven F Sholes, David Shuster, Vivian Zheng Sun, Christian Tate, Nicholas Tosca, Meenakshi Wadhwa, and Roger C. Wiens

Published

2022

7. Lifting and transport of Martian dust by the Ingenuity helicopter rotor downwash as observed by high-speed imaging from the Perseverance rover

Author

Mark T Lemmon, Ralph D. Lorenz, Jason Rabinovitch, Claire Newman, Nathan Robert Williams, Robert Sullivan, Matthew P. Golombek, James F. Bell III, Justin N. Maki, and Alvaro Vicente-Retortillo

Published

2022