Publications
Found 332 results
“Nonlinear optics for frequency-doubling in nanosatellite laser communication”, Massachusetts Institute of Technology, 2016.
, “Performance Analysis of Algorithms for Coordination of Earth Observation by CubeSat Constellations”, Journal of Aerospace Information Systems, vol. 14, pp. 451-471, 2016.
, “Production leveling and cycle time reduction in satellite manufacturing”, Massachusetts Institute of Technology, 2016.
, “Resource-constrained avionics design for CubeSats”, Massachusetts Institute of Technology, 2016.
, “ROAD : Rapid Optical Asteroid Detection”, Massachusetts Institute of Technology, 2016.
, , “A systems-engineering assessment of multiple CubeSat build approaches”, Massachusetts Institute of Technology, 2016.
, “Using the Galileo Solid State Imager as a Sensor of Jovian Energetic Electrons”, in AGU Fall Meeting Abstracts, 2016, p. SM51A-2463.
, “Active Polarimetry for Orbital Debris Identification”, in Advanced Maui Optical and Space Surveillance Technologies Conference, 2015.
, “Compact optical transmitters for CubeSat free-space optical communications”, in Free-Space Laser Communication and Atmospheric Propagation XXVII, 2015, vol. 9354, p. 93540S.
, “Development of a pointing, acquisition, and tracking system for a nanosatellite laser communications module”, Massachusetts Institute of Technology, 2015.
, “Development of a pointing, acquisition, and tracking system for a CubeSat optical communication module”, in Free-Space Laser Communication and Atmospheric Propagation XXVII, 2015, vol. 9354, p. 93540O.
, “Development of the Microwave Radiometer Technology Acceleration (MiRaTA) CubeSat for all-weather atmospheric sounding”, in AGU Fall Meeting Abstracts, 2015, vol. 2015, p. A51S-09.
, “Effect of Longitude-dependent Cloud Coverage on Exoplanet Visible Wavelength Reflected-light Phase Curves”, vol. 804, p. 94, 2015.
, “Effect of Longitudinally Varying Cloud Coverage on Visible Wavelength Reflected-Light Exoplanet Phase Curves”, ArXiv e-prints, p. arXiv:1503.01028, 2015.
, “Enabling Technologies for Characterizing Exoplanet Systems with Exo-C”, in American Astronomical Society Meeting Abstracts \#225, 2015, vol. 225, p. 259.07.
, “End-to-end simulation of high-contrast imaging systems: methods and results for the PICTURE mission family”, in Proc. SPIE, 2015, vol. 9605, p. 96051A-96051A-13.
, “Exo-C: a probe-scale space observatory for direct imaging and spectroscopy of extrasolar planetary systems”, in Techniques and Instrumentation for Detection of Exoplanets VII, 2015, vol. 9605, p. 96050T.
, “Exo-C imaging nearby worlds”, by the Science and Technology Definition Team (STDT) and the Exo-C Design team, final report, http://exep. jpl. nasa. gov/stdt/Exo-C\_Final\_Report\_for\_Unlimited\_Release\_150323. pdf, 2015.
“Geostationary Communications Satellites as Sensors for the Space Weather Environment: Telemetry Event Identification Algorithms”, in AGU Fall Meeting Abstracts, 2015, vol. 2015, p. SA13B-2357.
, “Laser beacon tracking for free-space optical communication on small-satellite platforms in low-earth orbit”, Massachusetts Institute of Technology, 2015.
, , “Laser Guidestar Satellite for Ground-based Adaptive Optics Imaging of Geosynchronous Satellites and Astronomical Targets”, in AGU Fall Meeting Abstracts, 2015, vol. 2015, p. SH43B-2451.
, “The low-order wavefront sensor for the PICTURE-C mission”, in Techniques and Instrumentation for Detection of Exoplanets VII, 2015, vol. 9605, p. 960519.
, “Optical communications for small satellites”, Massachusetts Institute of Technology, 2015.
, “Planetary Imaging Concept Testbed Using a Recoverable Experiment–Coronagraph (PICTURE C)”, Journal of Astronomical Telescopes, Instruments, and Systems, vol. 1, pp. 044001-044001, 2015.
, “Resource optimization algorithms for an automated coordinated CubeSat constellation”, Massachusetts Institute of Technology, 2015.
, “Response of geostationary communications satellite solid-state power amplifiers to high-energy electron fluence”, Space Weather, vol. 13, pp. 298-315, 2015.
, “Seeing Through the Clouds: Thermal Emission and Reflected Light Spectra of Super-Earths with Flat Transmission Spectra”, in AAS/Division for Extreme Solar Systems Abstracts, 2015, vol. 47, p. 401.01.
, “Small Satellite Constellations for Data Driven Atmospheric Remote Sensing”, in Dynamic Data-Driven Environmental Systems Science, {Springer, Cham}, 2015, pp. 3-9.
, “Space radiation environment impacts on high power amplifiers and solar cells on-board geostationary communications satellites”, Massachusetts Institute of Technology, 2015.
, “Subsystem support feasibility for formation flight measuring Bi-directional Reflectance”, in Aerospace Conference, 2015 IEEE, 2015, pp. 1-20.
, “Thermal Emission and Reflected Light Spectra of Super Earths with Flat Transmission Spectra”, The Astrophysical Journal, vol. 815, p. 110, 2015.
, “Trapped Photoelectrons During Spacecraft Charging in Sunlight”, IEEE Transactions on Plasma Science, vol. 43, pp. 2856-2860, 2015.
, “Visible Wavelength Exoplanet Phase Curves from Global Albedo Maps”, in American Astronomical Society Meeting Abstracts, 2015, vol. 225.
, “The Atmospheres of Earthlike Planets after Giant Impact Events”, The Astrophysical Journal, vol. 784, p. 27, 2014.
, “Atmospheric Characterization of Cold Exoplanets Using a 1.5-m Space Coronagraph”, in Formation, Detection, and Characterization of Extrasolar Habitable Planets, 2014, vol. 293, pp. 289-291.
, “CubeSat Deformable Mirror Demonstration Mission”, in 2014 International Symposium on Optomechatronic Technologies (ISOT), 2014, pp. 134-138.
, , , “Does spacecraft potential depend on the ambient electron density?”, in AGU Fall Meeting Abstracts, 2014, vol. 2014, p. SM23B-4231.
, “Dynamic instabilities imparted by CubeSat deployable solar panels”, Massachusetts Institute of Technology, 2014.
, “Effect of Exoplanet Clouds on Visible Wavelength Albedo Spectra and Phase Curves”, in American Astronomical Society Meeting Abstracts \#224, 2014, vol. 224, p. 102.02.
, “Exo-C: a probe-scale space mission to directly image and spectroscopically characterize exoplanetary systems using an internal coronagraph”, in Space Telescopes and Instrumentation 2014: Optical, Infrared, and Millimeter Wave, 2014, vol. 9143, p. 91432K.
, “How to process radio occultation data: 1. From time series of frequency residuals to vertical profiles of atmospheric and ionospheric properties”, Planetary and Space Science, vol. 101, pp. 77-88, 2014.
, , “Microwave Radiometer Technology Acceleration Mission (MiRaTA): Advancing Weather Remote Sensing with Nanosatellites”, in AGU Fall Meeting Abstracts, 2014, p. A22F.
, , “Payload characterization for CubeSat demonstration of MEMS deformable mirrors”, in Proc. SPIE, 2014, vol. 9148, p. 91483Z-91483Z-16.
, “Planetary Imaging Concept Testbed Using a Recoverable Experiment - Coronagraph”, in American Astronomical Society Meeting Abstracts \#224, 2014, vol. 224, p. 122.09.
, “Radiometer Calibration Using Colocated GPS Radio Occultation Measurements”, IEEE Transactions on Geoscience and Remote Sensing, vol. 52, pp. 6423-6433, 2014.
, “Recent Results from the MicroMAS Global Environmental MonitoringNanosatellite Mission”, in AGU Fall Meeting Abstracts, 2014, p. A22F.
, “Testing the attitude determination and control of a CubeSat with hardware-in-the-loop”, Massachusetts Institute of Technology, 2014.
, “Two-Stage Control for CubeSat Optical Communications”, in CalPoly CubeSat Developers Workshop, 2014, pp. 1-29.
, “Using a co-located GNSS radio occultation payload for microwave radiometer calibration”, Massachusetts Institute of Technology, 2014.
, “Using Geostationary Communications Satellites as a Sensor: Telemetry Search Algorithms”, in AGU Fall Meeting Abstracts, 2014, vol. 2014, p. SM31A-4186.
, “Ad hoc CubeSat constellations: Secondary launch coverage and distribution”, in Proceedings of the 2013 IEEE Aerospace Conference, 2013, p. 220.
, “Atmospheric models for post- giant impact planets”, in AGU Fall Meeting Abstracts, 2013, vol. 2013, p. A23B-0236.
, “A Bottom-up Modeling Approach for the Profit Analysis of Cellularized Spacecraft Architectures”, in IAC-13 Congress, 2013.
“Causal relationships between solar proton events and single event upsets for communication satellites”, in Proceedings of the 2013 IEEE Aerospace Conference, 2013, p. 212.
, “Characterizing uncertainty to manage risk in spacecraft development with application to structures and mass”, Massachusetts Institute of Technology, 2013.
, “CubeSat Attitude Control Testbed Design: Merritt 4-Coil per axis Helmholtz Cage and Spherical Air Bearing”, in AIAA Guidance, Navigation, and Control (GNC) Conference, 2013, p. 4942.
, “CubeSat Deformable Mirror Demonstration mission (DeMi)”, in Aerospace Conference, 2013 IEEE, 2013, pp. 1-9.
, “Data management of geostationary communication satellite telemetry and correlation to space weather observations”, Massachusetts Institute of Technology, 2013.
, “A dual-spinning, three-axis-stabilized cubesat for earth observations”, in AIAA Guidance, Navigation, and Control (GNC) Conference, 2013, p. 4716.
, “Earth limb calibration of scanning spaceborne microwave radiometers”, in Geoscience and Remote Sensing Symposium (IGARSS), 2013 IEEE International, 2013, pp. 1934-1935.
, “Effect of Clouds on Exoplanet Visible-Wavelength Phase Curve Observations”, in AAS/Division for Planetary Sciences Meeting Abstracts \#45, 2013, p. 209.08.
, “Evaluation of hyperspectral snapshot imagers onboard nanosatellite clusters for multi-angular remote sensing”, in AIAA SPACE 2013 Conference and Exposition, 2013, p. 5462.
, “From CubeSats to constellations : systems design and performance analysis”, Massachusetts Institute of Technology, 2013.
, “GEOScan: A global, real-time geoscience facility”, in Proceedings of the 2013 IEEE Aerospace Conference, 2013, p. 187.
, “MEMS deformable mirror CubeSat testbed”, in Proc SPIE, 2013, vol. 8864, p. 88640U-88640U-17.
, “Modeling dispersions in initial conditions for air-launched rockets and their effect on vehicle performance”, Massachusetts Institute of Technology, 2013.
, “Preparations for the MicroMAS CubeSat mission”, in Geoscience and Remote Sensing Symposium (IGARSS), 2013 IEEE International, 2013, pp. 847-848.
“Propagation of CubeSats in LEO using NORAD Two Line Element Sets: Accuracy and Update Frequency”, in AIAA Guidance, Navigation, and Control (GNC) Conference, Guidance, Navigation, and Control and Co-located Conferences, (AIAA 2013-4944), 2013.
, “Quantifying the average and the likelihood of increases in space weather indices and in situ measurements during Solar Cycles 20–23”, International Journal of Space Science and Engineering, vol. 1, pp. 230-252, 2013.
, “Ranking CubeSat communication systems using a value-centric framework”, Massachusetts Institute of Technology, 2013.
, “A Simple and Robust Staged Control Architecture for Nanometric Optical Path-Length Control”, in AIAA Guidance, Navigation, and Control (GNC) Conference, 2013, p. 4945.
, , “Space weather radiation effects on geostationary satellite solid-state power amplifiers”, Space Weather, vol. 11, pp. 476-488, 2013.
, “TID tolerance of popular CubeSat components”, in Radiation Effects Data Workshop (REDW), 2013 IEEE, 2013, pp. 1-4.
, “Wavefront control in space with MEMS deformable mirrors”, in MEMS Adaptive Optics VII, 2013, vol. 8617, p. 861708.
, “Wavefront control in space with MEMS deformable mirrors for exoplanet direct imaging”, Journal of Micro/Nanolithography, MEMS, and MOEMS, vol. 13, pp. 011105-011105, 2013.
, “Atmospheric characterization of cold exoplanets using a 1.5-m coronagraphic space telescope”, vol. 541, p. A83, 2012.
, “Atmospheric characterization of cold exoplanets with a 1.5-m space coronagraph”, in Space Telescopes and Instrumentation 2012: Optical, Infrared, and Millimeter Wave, 2012, vol. 8442, p. 84424G.
, “Correlation of GEO communication satellite anomalies and space weather phenomena: improved satellite performance and risk mitigation”, in 30th AIAA International Communications Satellite Systems Conference (ICSSC), Ottawa, Canada, 2012.
, “Correlation of GEO Comsat Anomalies and Space Weather Phenomena for Improved Satellite Performance and Risk Mitigation”, in 30th AIAA International Communications Satellite System Conference (ICSSC), 2012, p. 15083.
, “CubeSat deformable mirror demonstration”, in Space Telescopes and Instrumentation 2012: Optical, Infrared, and Millimeter Wave, 2012, vol. 8442, p. 84424F.
, “Development and validation of software to process radio occultation data: From time series of frequency residuals to vertical profiles of atmospheric and ionospheric properties”, in AGU Fall Meeting Abstracts, 2012.
, “Direct imaging of exoEarths embedded in clumpy debris disks”, in Space Telescopes and Instrumentation 2012: Optical, Infrared, and Millimeter Wave, 2012, vol. 8442, p. 84420M.
, “GEOScan: a geoscience facility from space”, in Sensors and Systems for Space Applications V, 2012, vol. 8385, p. 83850V.
, , “Mars atmospheric CO2 condensation above the north and south poles as revealed by radio occultation, climate sounder, and laser ranging observations”, Journal of Geophysical Research: Planets, vol. 117, 2012.
, “Mars atmospheric CO₂ condensation above the north and south poles as revealed by radio occultation, climate sounder, and laser ranging observations”, Journal of Geophysical Research (Planets), vol. 117, p. E07002, 2012.
, “The MicroMAS CubeSat Mission”, in AGU Fall Meeting Abstracts, 2012, vol. 2012, p. SA13B-2162.
, “Nanosatellite Architectures for Improved Study of the Hydrologic Cycle”, in AGU Fall Meeting Abstracts, 2012, vol. 2012, p. H13F-1415.
, “Nanosatellites for earth environmental monitoring: The MicroMAS project”, in Microwave Radiometry and Remote Sensing of the Environment (MicroRad), 2012 12th Specialist Meeting on, 2012, pp. 1-4.
“Simulating Martian water ice clouds in terrestrial laboratories: What can we learn about Mars without leaving Earth?”, in AGU Fall Meeting Abstracts, 2012.