Peter D. Bedini
Johns Hopkins University Applied Physics Laboratory
27 Papers
127 Citations
Peter D. Bedini is an academic researcher from Johns Hopkins University Applied Physics Laboratory. The author has contributed to research in topics: Spacecraft & Planet. The author has an hindex of 10, co-authored 26 publications. Previous affiliations of Peter D. Bedini include University of Michigan & Johns Hopkins University.
Chat about Author
Papers
Compact Reconnaissance Imaging Spectrometer for Mars (CRISM) on Mars Reconnaissance Orbiter (MRO)
Scott L. Murchie,Raymond E. Arvidson,Peter D. Bedini,K. Beisser,Jean-Pierre Bibring,Janice L. Bishop,John D. Boldt,P. Cavender,T. Choo,R. T. Clancy,E. H. Darlington,David J. Des Marais,R. C. Espiritu,D. Fort,Robert O. Green,Edward A. Guinness,John Hayes,Christopher D. Hash,K. J. Heffernan,J. Hemmler,Gene A. Heyler,David C. Humm,J. Hutcheson,Noam R. Izenberg,R. Lee,J. Lees,D. A. Lohr,Erick Malaret,Terry Z. Martin,J. A. McGovern,Patrick C. McGuire,Richard V. Morris,John F. Mustard,Shannon M. Pelkey,Edgar A. Rhodes,Mark S. Robinson,Ted L. Roush,Edward D. Schaefer,G. Seagrave,Frank P. Seelos,P. Silverglate,S. Slavney,M. D. Smith,W. J. Shyong,K. Strohbehn,H. W. Taylor,P. Thompson,B. Tossman,M. Wirzburger,M. J. Wolff +49 more
TL;DR: The Compact Reconnaissance Imaging Spectrometer for Mars (CRISM) is a hyperspectral imager on the Mars Reconnaissance Orbiter (MRO) spacecraft as discussed by the authors, which consists of three subassemblies, a gimbaled Optical Sensor Unit (OSU), a Data Processing Unit (DPU), and the Gimbal Motor Electronics (GME).
1.1K
The Pluto system: Initial results from its exploration by New Horizons.
S. A. Stern,Fran Bagenal,Kimberly Ennico,G. R. Gladstone,William M. Grundy,William B. McKinnon,J. M. Moore,Catherine B. Olkin,John R. Spencer,Harold A. Weaver,Leslie A. Young,Tom Andert,Jane M. Andrews,M. E. Banks,B. Bauer,Jeremy Bauman,Olivier S. Barnouin,Peter D. Bedini,K. B. Beisser,Ross A. Beyer,S. Bhaskaran,Richard P. Binzel,Emma Birath,Mike Bird,D. J. Bogan,Alice Bowman,Veronica J. Bray,M. Brozovic,C. Bryan,Matthew R. Buckley,Marc W. Buie,Bonnie J. Buratti,Stewart Bushman,Andrew B. Calloway,Brian Carcich,Andrew F. Cheng,Steven J. Conard,C. A. Conrad,Jason C. Cook,Dale P. Cruikshank,O. S. Custodio,C. M. Dalle Ore,C. C. Deboy,Zach Dischner,Philip J. Dumont,Alissa M. Earle,H. A. Elliott,J. Ercol,Carolyn M. Ernst,Tiffany J. Finley,Sarah H. Flanigan,Glen H. Fountain,M. J. Freeze,Thomas K. Greathouse,James L. Green,Yanping Guo,Matthias Hahn,Douglas P. Hamilton,Sarah A. Hamilton,Jennifer Hanley,A. Harch,H. M. Hart,Chris B. Hersman,A. Hill,Matthew E. Hill,David P. Hinson,Mark E. Holdridge,Mihaly Horanyi,Alan D. Howard,Carly Howett,Coralie D. Jackman,Robert A. Jacobson,D. E. Jennings,Joshua A. Kammer,H. K. Kang,David E. Kaufmann,Peter Kollmann,Stamatios M. Krimigis,David Y. Kusnierkiewicz,Tod R. Lauer,J. E. Lee,K. L. Lindstrom,Ivan Linscott,Carey M. Lisse,Allen W. Lunsford,V. A. Mallder,Nicole Martin,David J. McComas,Ralph L. McNutt,Douglas S. Mehoke,Thomas Mehoke,E. D. Melin,Max Mutchler,Derek S. Nelson,Francis Nimmo,Jorge I. Nunez,A. C. Ocampo,William M. Owen,Martin Paetzold,B. Page,Alex Parker,Joel Wm. Parker,Frederic Pelletier,J. Peterson,Nickalaus Pinkine,M. Piquette,Simon B. Porter,Silvia Protopapa,Jillian Redfern,Harold J. Reitsema,D. C. Reuter,James H. Roberts,Stuart J. Robbins,Gabe Rogers,Debi Rose,Kirby Runyon,Kurt D. Retherford,M. G. Ryschkewitsch,Paul M. Schenk,Eric Schindhelm,B. Sepan,Mark R. Showalter,Kelsi N. Singer,M. Soluri,Dale Stanbridge,Andrew J. Steffl,Darrell F. Strobel,T. Stryk,Michael E. Summers,Jamey Szalay,M. B. Tapley,A. Taylor,H. W. Taylor,Henry B. Throop,Constantine Tsang,G. L. Tyler,Orkan M. Umurhan,A. J. Verbiscer,M. H. Versteeg,Michael Vincent,R. W. Webbert,S. Weidner,G. Weigle,Oliver L. White,Karl Whittenburg,B. G. Williams,Kaj E. Williams,S. P. Williams,W. W. Woods,Amanda M. Zangari,Eric J. Zirnstein +150 more
TL;DR: The New Horizons encounter revealed that Pluto displays a surprisingly wide variety of geological landforms, including those resulting from glaciological and surface-atmosphere interactions as well as impact, tectonic, possible cryovolcanic, and mass-wasting processes.
485
Dragonfly: A rotorcraft lander concept for scientific exploration at titan
Ralph D. Lorenz,Elizabeth P. Turtle,Jason W. Barnes,M. G. Trainer,Douglas S. Adams,Kenneth Hibbard,Colin Sheldon,Kris Zacny,Patrick N. Peplowski,David J. Lawrence,Michael A. Ravine,Timothy G. McGee,Kristin S. Sotzen,Shannon MacKenzie,Jack W. Langelaan,Sven Schmitz,Lawrence Wolfarth,Peter D. Bedini +17 more
- 01 Oct 2018
TL;DR: The Dragonfly lander concept for scientific exploration at Titan was proposed by the Johns Hopkins University Applied Physics Laboratory (APL) in 2016 as mentioned in this paper, with the goal of landing on Titan's Belet sand sea, a large and easily targeted dune field.
191
CRISM (Compact Reconnaissance Imaging Spectrometer for Mars) on MRO (Mars Reconnaissance Orbiter)
Scott L. Murchie,Raymond E. Arvidson,Peter D. Bedini,K. Beisser,Jean-Pierre Bibring,J. L. Bishop,John D. Boldt,Tech H. Choo,R. Todd Clancy,E. H. Darlington,David J. Des Marais,R. C. Espiritu,Melissa J. Fasold,Dennis E. Fort,Richard N. Green,E. Guinness,John Hayes,Christopher D. Hash,Kevin J. Heffernan,J. Hemmler,Gene A. Heyler,David C. Humm,J. Hutchison,Noam R. Izenberg,Robert Lee,Jeffrey Lees,D. A. Lohr,Erick Malaret,Terry Z. Martin,Richard V. Morris,John F. Mustard,Edgar A. Rhodes,Mark S. Robinson,Ted L. Roush,Edward D. Schaefer,Gordon G. Seagrave,Peter R. Silverglate,S. Slavney,M. F. Smith,Kim Strohbehn,H. W. Taylor,Patrick L. Thompson,Barry E. Tossman +42 more
- 30 Dec 2004
TL;DR: The Compact Reconnaissance Imaging Spectrometer for Mars (CRISM) as discussed by the authors is a two-dimensional (2D) offner spectrometer with a 2.12° field-of-view (FOV) to focus light on the entrance slit of a dual-spectrometer.
44
•Journal Article
Dragonfly: Exploring Titan's Prebiotic Organic Chemistry and Habitability
Elizabeth P. Turtle,Jason W. Barnes,Melissa G Trainer,Ralph D. Lorenz,Shannon MacKenzie,Kenneth Hibbard,Douglas S. Adams,Peter D. Bedini,Jacob W Langelaan,Kris Zacny +9 more
TL;DR: Turtle et al. as mentioned in this paper used the Dragonfly team to demonstrate the feasibility of robotic flight for the first time in space exploration and demonstrated the Dragon fly team's ability to fly in the International Space Station.
18