Michael R. Wright
Goddard Space Flight Center
13 Papers
11 Citations
Michael R. Wright is an academic researcher from Goddard Space Flight Center. The author has contributed to research in topics: Payload & International Space Station. The author has an hindex of 5, co-authored 13 publications.
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Papers
The Neutron star Interior Composition Explorer (NICER): design and development
Keith C. Gendreau,Zaven Arzoumanian,Phillip Adkins,Cheryl L. Albert,John F. Anders,Andrew T. Aylward,Charles Baker,Erin Balsamo,William A. Bamford,Suyog S. Benegalrao,Daniel L. Berry,Shiraz Bhalwani,J. Kevin Black,Carl Blaurock,Ginger Bronke,Gary L. Brown,Jason Budinoff,Jeffrey D. Cantwell,Thoniel Cazeau,Philip T. Chen,Thomas G. Clement,Andrew T. Colangelo,Jerry S. Coleman,Jonathan D. Coopersmith,William E. Dehaven,John P. Doty,Mark Egan,Teruaki Enoto,Terry W.-M. Fan,Deneen M. Ferro,R. Foster,Nicholas M. Galassi,Luis D. Gallo,Christopher M. Green,Dave Grosh,Kong Q. Ha,Monther A. Hasouneh,Kristofer B. Heefner,Phyllis Hestnes,Lisa J. Hoge,Tawanda M. Jacobs,John Leif Jørgensen,Michael A. Kaiser,James W. Kellogg,Steven Kenyon,Richard Koenecke,Robert Kozon,Beverly LaMarr,Mike D. Lambertson,Anne M. Larson,Steven Lentine,Jesse Lewis,Michael G. Lilly,Kuochia Alice Liu,Andrew Malonis,Sridhar S. Manthripragada,Craig B. Markwardt,Bryan D. Matonak,Isaac E. Mcginnis,Roger L. Miller,Alissa L. Mitchell,Jason W. Mitchell,Jelila S. Mohammed,Charles Monroe,K Garcia,Peter Mule,Louis T. Nagao,Son N. Ngo,Eric D. Norris,Dwight A. Norwood,Joseph Novotka,Takashi Okajima,L. Olsen,Chimaobi O. Onyeachu,Henry Y. Orosco,Jacqualine R. Peterson,Kristina N. Pevear,Karen K. Pham,Sue E. Pollard,John S. Pope,Daniel Powers,Charles E. Powers,Samuel R. Price,Gregory Y. Prigozhin,Julian B. Ramirez,Winston J. Reid,Ronald A. Remillard,Eric M. Rogstad,Glenn P. Rosecrans,John N. Rowe,Jennifer A. Sager,Claude A. Sanders,Bruce Savadkin,Maxine R. Saylor,Alexander F. Schaeffer,Nancy S. Schweiss,Sean R. Semper,Peter J. Serlemitsos,Larry V. Shackelford,Yang Soong,Jonathan Struebel,Michael Vezie,Joel Villasenor,Luke Winternitz,George I. Wofford,Michael R. Wright,Mike Y. Yang,Wayne H. Yu +107 more
TL;DR: The Neutron star Interior Composition Explorer (NICER) mission is scheduled for launch in early 2017 on the Commercial Resupply Services SpaceX-11 flight.
A Lunar Electromagnetic Launch System for In Situ Resource Utilization
TL;DR: An example LEML concept is presented based on previous studies, existing electromagnetic launch technologies, and the National Aeronautics and Space Administration's human exploration architecture; the conclusion is not as favorable for LEMl as originally suggested.
First Stage of a Highly Reliable Reusable Launch System
Kurt J. Kloesel,Jonathan B. Pickrel,Emily L. Sayles,Michael R. Wright,Darin Marriott,Leo Holland,Stephen Kuznetsov +6 more
- 14 Sep 2009
TL;DR: In this paper, the benefits of a smaller system that adds the advantages of a high specific impulse air-breathing stage and supersonic launch speeds were explored, and the method of virtual specific impulse was introduced as a tool to emphasize the gains afforded by launch assist.
Low-latency teleoperations and telepresence for the evolvable Mars campaign
Mark L. Lupisella,Michael R. Wright,Jacob E. Bleacher,K. E. Young,Michael L. Gernhardt,Steven P. Chappell,Kara H. Beaton +6 more
- 01 Mar 2017
TL;DR: In this paper, low-latency teleoperations (LLT) analyses performed by the NASA Human Spaceflight Architecture Team (HAT) as part of the Evolvable Mars Campaign (EMC) are described.
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Low-Latency Teleoperations for Human Exploration and Evolvable Mars Campaign
Mark L. Lupisella,Michael R. Wright,Dale C. Arney,Bob Gershman,Fred Stillwagen,Marianne R. Bobskill,James Johnson,Hilary Shyface,Kevin Larman,Ruthan Lewis,Jake Bleacher,Mike Gernhardt,Robert P. Mueller,Gerald B. Sanders,Kevin Watts,J. L. Eigenbrode,Brent Garry,Joshua E. Freeh,David H. Manzella,Kurt J. Hack,Tom Aranyos +20 more
- 10 Jun 2015
TL;DR: In this article, the authors discuss the operational and technology implications of low-latency teleoperations, including discussion of relevant items in the NASA Technology Roadmap and also how previously deployed robotic assets from any source could subsequently be used by astronauts via LLT.