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Global Positioning System Navigation Above 76,000 km for NASA's Magnetospheric Multiscale Mission (2016)

Long, Anne C. ; Carpenter, J. Russell ; Farahmand, Mitra ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: NASA's Magnetospheric Multiscale (MMS) mission, launched in March of 2015, consists of a controlled formation of four spin-stabilized spacecraft in similar highly elliptic orbits reaching apogee at radial distances of 12 and 25 Earth radii (RE) in the first and second phases of the mission. Navigation for MMS is achieved independently on-board each spacecraft by processing Global Positioning System (GPS) observables using NASA Goddard Space Flight Center (GSFC)'s Navigator GPS receiver and the Goddard Enhanced Onboard Navigation System (GEONS) extended Kalman filter software. To our knowledge, MMS constitutes, by far, the highest-altitude operational use of GPS to date and represents a high point of over a decade of high-altitude GPS navigation research and development at GSFC. In this paper we will briefly describe past and ongoing high-altitude GPS research efforts at NASA GSFC and elsewhere, provide details on the design of the MMS GPS navigation system, and present on-orbit performance data from the first phase. We extrapolate these results to predict performance in the second phase orbit, and conclude with a discussion of the implications of the MMS results for future high-altitude GPS navigation, which we believe to be broad and far-reaching.

Keywords: Space Communications, Spacecraft Communications, Command and Tracking

Type: AAS 15-076 , GSFC-E-DAA-TN28898 , 2016 AAS GN&amp;C Conference; Feb 05, 2016 - Feb 10, 2016; Breckenridge, CO; United States

Format: application/pdf

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Predicted Performance of an X-Ray Navigation System for Future Deep Space and Lunar Missions (2019)

Farahmand, Mitra ; Mitchell, Jason W. ; Long, Anne ; [et al.]

In: CASI

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Publication Date: 2019-07-20

Description: No abstract available

Keywords: Space Communications, Spacecraft Communications, Command and Tracking

Type: GSFC-E-DAA-TN64947 , American Astronautical Society Annual Guidance and Control Conference (AAS GNC 2019); Feb 01, 2019 - Feb 06, 2019; Breckenridge, CO; United States

Format: application/pdf

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Metric Tracking Services in the Era of Optical Communications (2019)

Donaldson, Jennifer ; Long, Anne ; Winternitz, Luke M. ; [et al.]

In: CASI

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Publication Date: 2019-10-31

Description: The Space Communications and Navigation program, at the National Aeronautics and Space Administration, is developing free-space optical communications technology to facilitate the next generation of space missions in near-Earth, Lunar, and planetary space. A discussion of optimetric observation performance and hardware-in-the-loop test results are presented. Simulation of orbit-determination for LEO and Lunar spacecraft relying on optimetric tracking extends raw observation accuracy to realizable orbit-determination performance. Potential science and operational applications are reviewed, along with NASA's approach for developing optimetric technology. Current investments in developing optimetric hardware and plans for NASA's future optical communications network define the path for a future operational optimetric capability in the 2020's and beyond.

Keywords: Space Communications, Spacecraft Communications, Command and Tracking

Type: IAC-19-B2.6.7 , HQ-E-DAA-TN74106 , International Astronautical Congress (IAC); Oct 21, 2019 - Oct 25, 2019; Washington, DC; United States

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GPS Navigation Above 76,000 km for the MMS Mission (2016)

Bamford, Bill ; Winternitz, Luke ; Farahmand, Mitra ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: NASA's MMS mission, launched in March of 2015,consists of a controlled formation of four spin-stabilized spacecraft in similar highly elliptic orbits reaching apogee at radial distances of 12and 25 Earth radii in the first and second phases of the mission. Navigation for MMS is achieved independently onboard each spacecraft by processing GPS observables using NASA GSFC's Navigator GPS receiver and the Goddard Enhanced Onboard Navigation System (GEONS) extended Kalman filter software. To our knowledge, MMS constitutes, by far, the highest-altitude operational use of GPS to date and represents the culmination of over a decade of high-altitude GPS navigation research and development at NASA GSFC. In this paper we will briefly describe past and ongoing high-altitude GPS research efforts at NASA GSFC and elsewhere, provide details on the design of the MMS GPS navigation system, and present on-orbit performance data. We extrapolate these results to predict performance in the Phase 2b mission orbit, and conclude with a discussion of the implications of the MMS results for future high-altitude GPS navigation, which we believe to be broad and far-reaching.

Keywords: Space Communications, Spacecraft Communications, Command and Tracking

Type: GSFC-E-DAA-TN29404 , Annual AAS Guidance, Navigation and Control Conference 2016; Feb 05, 2016 - Feb 10, 2016; Breckenridge, CO; United States

Format: application/pdf

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