Luke Winternitz scite author profile

Luke Winternitz

5Publications

105Citation Statements Received

42Citation Statements Given

How they've been cited

141

102

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Affiliations

Goddard Space Flight Center

Publications

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X-ray pulsar navigation algorithms and testbed for SEXTANT

Winternitz

Hassouneh

Mitchell

et al. 2015

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The Station Explorer for X-ray Timing and Navigation Technology (SEXTANT) is a NASA funded technologydemonstration. SEXTANT will, for the first time, demonstrate real-time, on-board X-ray Pulsar-based Navigation (XNAV), a significant milestone in the quest to establish a GPS-like navigation capability available throughout our Solar System and beyond.This paper describes the basic design of the SEXTANT system with a focus on core models and algorithms, and the design and continued development of the GSFC X-ray Navigation Laboratory Testbed (GXLT) with its dynamic pulsar emulation capability. We also present early results from GXLT modeling of the combined NICER X-ray timing instrument hardware and SEXTANT flight software algorithms.

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A GPS Receiver for High-Altitude Satellite Navigation

Winternitz

Bamford

Heckler

2009

IEEE J. Sel. Top. Signal Process.

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SEXTANT X-ray Pulsar Navigation demonstration: Flight system and test results

Winternitz

Mitchell

Hassouneh

et al. 2016

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SEXTANT - Station Explorer for X-ray Timing and Navigation Technology

Mitchell

Hasouneh

Winternitz

et al. 2015

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The Station Explorer for X-ray Timing and Navigation Technology (SEXTANT) is a technology demonstration enhancement to the Neutron-star Interior Composition Explorer (NICER) mission, which is scheduled to launch in late 2016 and will be hosted as an externally attached payload on the International Space Station (ISS) via the ExPRESS Logistics Carrier (ELC). During NICER's 18-month baseline science mission to understand ultra-dense matter though observations of neutron stars in the soft X-ray band, SEXTANT will, for the first-time, demonstrate real-time, on-board X-ray pulsar navigation, which is a significant milestone in the quest to establish a GPS-like navigation capability that will be available throughout our Solar System and beyond. Along with NICER, SEXTANT has proceeded through Phase B, Mission Definition, and received numerous refinements in concept of operation, algorithms, flight software, ground system, and ground test capability. NICER/SEXTANT's Phase B work culminated in NASA's confirmation of NICER to Phase C, Design and Development, in March 2014. Recently, NICER/SEXTANT successfully passed its Critical Design Review and SEXTANT received continuation approval in September 2014. In this paper, we describe the X-ray pulsar navigation concept and provide a brief history of previous work, and then summarize the SEXTANT technology demonstration objective, hardware and software components, and development to date.

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Validation of GNSS Multipath Model for Space Proximity Operations Using the Hubble Servicing Mission 4 Experiment

Ashman

Veldman²,

Axelrad³

et al. 2016

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In the rendezvous and docking of spacecraft, GNSS signals can reflect off the target vehicle and cause large errors in the chaser vehicle receiver at ranges below a few hundred meters. It has been proposed that these additional ray paths, or multipath, be used as a source of information about the state of the target relative to the receiver. With Hubble Servicing Mission 4 as a case study, electromagnetic ray tracing has been used to construct a model of reflected signals from known geometry. Oscillations in the prompt correlator power due to multipath, known as multipath fading, are studied as a means of model validation. Agreement between the measured and simulated multipath fading serves to confirm the presence of signals reflected off the target spacecraft that might be used for relative navigation.

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Luke Winternitz

X-ray pulsar navigation algorithms and testbed for SEXTANT

A GPS Receiver for High-Altitude Satellite Navigation

SEXTANT X-ray Pulsar Navigation demonstration: Flight system and test results

SEXTANT - Station Explorer for X-ray Timing and Navigation Technology

Validation of GNSS Multipath Model for Space Proximity Operations Using the Hubble Servicing Mission 4 Experiment

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