TY - GEN
T1 - Near-Earth Object Surveyor Project Overview
AU - Hoffman, Tom
AU - Citron, Jason
AU - Dube, Brandon
AU - Dubovitsky, Serge
AU - Erlig, Hernan
AU - Haag, Cameron
AU - Lawler, Chris
AU - Lay, Oliver
AU - Lysek, Mark
AU - Murray, Alexander
AU - Peddada, Pavani
AU - Rokey, Mark
AU - Spanos, John
AU - Swenka, Edward
AU - Vaquero, Mar
AU - Mainzer, Amy
AU - Wong, Andre
AU - Andersen, Jason
AU - Sayer, Timothy T.J.
AU - Veto, Michael
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024
Y1 - 2024
N2 - The Near-Earth Object Surveyor (NEO Surveyor) is preparing to enter the detailed design phase of the project for both the Instrument and the Spacecraft. NEO Surveyor is to designed to detect, categorize and characterize NEOs using infrared imaging. The NEOS project responds to National Research Council's report Defending Planet Earth: Near-Earth Object Surveys & Hazard Mitigation Strategies (2010), the U. S. National Near-Earth Object Preparedness Strategy and Action Plan (2023), and the objectives of NASA's Planetary Defense Coordination Office (PDCO). The project was identified as a high priority project in the recent NASA Authorization Act. The goals of the NEOS project are to: (1) identify impact hazards to the Earth posed by NEOs (both asteroids and comets) by performing a comprehensive survey of the NEO population; (2) obtain detailed physical characterization data for individual objects that are likely to pose an impact hazard; (3) characterize the entire population of potentially hazardous NEOs to inform potential mitigation strategies by assisting the determination of impact energies through accurate object size determination and physical properties. The mission will make significant progress toward the George E. Brown, Jr. NEO Survey Act objective of detecting, tracking, cataloging, and characterizing at least 90% of NEOs equal to or larger than 140 m in diameter. The project is a collaboration between NASA-JPL, the University of Arizona and industry, with Ball Aerospace notably providing the Spacecraft and key Instrument elements. This paper describes the status of the project design and analyses heading into the start of hardware development. Key developments are discussed and put into perspective for the overall project. Progress toward meeting the science requirements and the integrated modelling approach being used on NEO Surveyor is also described.
AB - The Near-Earth Object Surveyor (NEO Surveyor) is preparing to enter the detailed design phase of the project for both the Instrument and the Spacecraft. NEO Surveyor is to designed to detect, categorize and characterize NEOs using infrared imaging. The NEOS project responds to National Research Council's report Defending Planet Earth: Near-Earth Object Surveys & Hazard Mitigation Strategies (2010), the U. S. National Near-Earth Object Preparedness Strategy and Action Plan (2023), and the objectives of NASA's Planetary Defense Coordination Office (PDCO). The project was identified as a high priority project in the recent NASA Authorization Act. The goals of the NEOS project are to: (1) identify impact hazards to the Earth posed by NEOs (both asteroids and comets) by performing a comprehensive survey of the NEO population; (2) obtain detailed physical characterization data for individual objects that are likely to pose an impact hazard; (3) characterize the entire population of potentially hazardous NEOs to inform potential mitigation strategies by assisting the determination of impact energies through accurate object size determination and physical properties. The mission will make significant progress toward the George E. Brown, Jr. NEO Survey Act objective of detecting, tracking, cataloging, and characterizing at least 90% of NEOs equal to or larger than 140 m in diameter. The project is a collaboration between NASA-JPL, the University of Arizona and industry, with Ball Aerospace notably providing the Spacecraft and key Instrument elements. This paper describes the status of the project design and analyses heading into the start of hardware development. Key developments are discussed and put into perspective for the overall project. Progress toward meeting the science requirements and the integrated modelling approach being used on NEO Surveyor is also described.
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U2 - 10.1109/AERO58975.2024.10521050
DO - 10.1109/AERO58975.2024.10521050
M3 - Conference contribution
AN - SCOPUS:85193806711
T3 - IEEE Aerospace Conference Proceedings
BT - 2024 IEEE Aerospace Conference, AERO 2024
PB - IEEE Computer Society
T2 - 2024 IEEE Aerospace Conference, AERO 2024
Y2 - 2 March 2024 through 9 March 2024
ER -