APL / Jet Propulsion Laboratory / Naval Research Laboratory / the Sun / RF-Based Transceivers Optical Comm Systems / Hammers Co. / Stanford Telecommunications Inc. / Stanford Plasma Dynamics Laboratory / Air Force Research Laboratory / Johns Hopkins University Applied Physics Laboratory / Honeywell / AMES / Micro-Electro-Mechanical Systems / Enhanced Automation Technologies / Applied Physics Laboratory / / /
Event
Reorganization / Business Partnership / /
Facility
Texas A&M University / Applied Physics Laboratory / John Hopkins University / Astronautics Stanford University / Northeastern University / University of California Los Angeles / University of Texas A&M / Stanford University / Space Station / NASA’s Goddard Space Flight Center / AFRL University / Purdue University / Jet Propulsion Laboratory / Study NASA Institute / Goddard Space Flight Center / Naval Research Laboratory / Johns Hopkins University Applied Physics Laboratory / The Stanford University / Throughput X-Ray NASA Institute / Air Force Research Laboratory / University of Toronto / Massachusetts Institute of Technology / University of Pennsylvania / Virginia Polytechnic University / /
IndustryTerm
real-time distributed computing emphasis / crosslink communications approach / direct solutions / gyro systems / spaceflight processors / experimental technology / communication systems / formation control technologies / communication technologies / onboard computing / optical systems / formation control algorithms / autonomous formation flying algorithms / requirements onboard computing / communications/navigation subsystem / energy / low power attitude tracking devices / drive electronics/motors / inter-spacecraft communications systems emphasis / onboard navigation systems / telecommunications / optical communications systems / autonomous systems / inter-satellite states / communications infrastructure / collective management / spacecraft timing systems / interspacecraft communications / formation flying technology focus areas / point solution / crosslink communications / autonomous formation control algorithms / telecommunications capability / sensing technologies / large satellite cluster / optical communications methods / wireless ethernet / receiver systems / performance processors / formation flying technology / satellite geometry / absolute and relative attitude sensing devices / autonomous balloon systems / sensor technology / relative navigation solution / flight software development / inter-spacecraft communications / orbit control software / satellite cross-link communications / technology focus areas / spaceborne applications / control systems / data management / on-board processing / distributed coordinating satellite concepts / information management systems / metrology systems / inter-spacecraft communication systems / absolute and relative navigation solution / data handling services / software simulation modules / formation flying technologies / flight software emulation environments component / /
Organization
Vegetation Recovery Mission / NMP Earth Observer-1 FreeFlyer mission / the Johns Hopkins University / Northeastern University / Ocean Salinity Observing Mission / Department of Aeronautics and Astronautics Stanford University / IMC / Massachusetts Institute of Technology / Global Precipitation Mission / U.S. Securities and Exchange Commission / NASA Institute of Advanced Concepts / Space Products and Applications / Department of Aeronautics and Astronautics / GSFC Guidance / Navigation and Control Center / Stanford University Formation Flying Testbed / MightySat/Orion/Orion Jr. Auroral Multiscale Mission / Texas A&M University / University of Texas / NASA’s Goddard Space Flight Center / MIT / the University of Pennsylvania / MIT Space Systems Lab / Virginia Polytechnic University / Space Interferometry Mission / Mag Constellation mission / Purdue University / Time-Dependent Gravity Field Mapping Mission / SM / NASA Institute / Guidance / Navigation and Control Center / John Hopkins University / Stanford University / NASA GSFC / University of California Los Angeles / and Space Products / University of California Los Angeles / National Aeronautics and Space Administration / Synchronized Formation Rotation and Control Techniques* mission / Department of Defense / University of Toronto / Department of Aeronautics and Astronautics at Stanford University / /
Person
Kate Hartman / Franz Busse / Frank H. Bauer / John Bristow / Jonathan P. How / David Weidow / / /
Position
coordinator / a planner / Chief / Representative / Distributed Spacecraft Thrust Area Manager / government-university-contractor / central supervisor / Virtual Platform Technology Development Program manager / Assistant Professor / controller / /
Product
Orion / Cross Link Transceiver / /
ProgrammingLanguage
APL / /
ProvinceOrState
Tennessee / Pennsylvania / Massachusetts / /
SportsLeague
Stanford University / /
Technology
Formation Flying technology / radiation / autonomous formation control algorithms / X-ray / GPS technology / formation control technologies / performance processors / adapting communication technologies / timing sensor technology / spaceflight processors / autonomous formation flying algorithms / formation control algorithms / GPS / formation flying technologies / alternative technologies / plug and play / ethernet / Laser / Radio Frequency / simulation / Using formation flying technology / experimental technology / /
Enabling Spacecraft Formation Flying through Spaceborne GPS and Enhanced Automation Technologies= Frank H. Bauer*, Kate Hartman*, Jonathan P. How**, John Bristow*, David Weidow*, and Franz Busse** *NASA Goddard Space Fli