Proceedings of the 44th Annual American Astronautical Society Guidance, Navigation, and Control Conference, 2022 -

Proceedings of the 44th Annual American Astronautical Society Guidance, Navigation, and Control Conference, 2022

Media-Kombination
XXVII, 1857 Seiten | Ausstattung: Hardcover
2024 | 2024
Springer International Publishing
978-3-031-51927-7 (ISBN)
588,49 inkl. MwSt

This conference attracts GN&C specialists from across the globe. The 2022 Conference was the 44th Annual GN&C conference with more than 230 attendees from six different countries with 44 companies and 28 universities represented. The conference presented more than 100 presentations and 16 posters across 18 topics.

This year, the planning committee wanted to continue a focus on networking and collaboration hoping to inspire innovation through the intersection of diverse ideas. These proceedings present the relevant topics of the day while keeping our more popular and well-attended sessions as cornerstones from year to year.  Several new topics including "Autonomous Control of Multiple Vehicles" and "Results and Experiences from OSIRIS-REx" were directly influenced by advancements in our industry. In the end, the 44th Annual GN&C conference became a timely reflection of the current state of the GN&C ins the space industry.

The annual American Astronautical Society Rocky Mountain Guidance, Navigation and Control (GN&C) Conference began 1977 as an informal exchange of ideas and reports of achievements among guidance and control specialists local to the Colorado area. Bud Gates, Don Parsons, and Bob Culp organized the first conference, and began the annual series of meetings the following winter. In March 1978, the First Annual Rocky Mountain Guidance and Control Conference met at Keystone, Colorado. It met there for eighteen years, moving to Breckenridge in 1996 where it has been for over 25 years.

Mr. Matt Sandnas has spent 27 years in the aerospace industry focusing on guidance, navigation, and control; software development, systems engineering and architecture synthesis, system safety, product line management, general management, and business development.  Prior to working at SEAKR Engineering, Matt worked at Ball Aerospace and Collins/UTC Aerospace Systems.  Matt has his B.S. in Computer Science and Engineering and his M.S. in Management of Technology both from the University of Minnesota.

Dr. David B. Spencer is the Vice President for Publications for The American Astronautical Society. In this role, he oversees the publications portfolio for the society. He is Professor Emeritus of Aerospace Engineering at Penn State University. He is also a Senior Project Leader at The Aerospace Corporation in Chantilly, Virginia.

Part 1: STUDENT INNOVATIONS IN GUIDANCE, NAVIGATION AND CONTROL.- Chapter 1: Autonomous Guidance for Robust Achievement of Science Observations Around Small Bodies.- Chapter 2: Root Locus Analysis of the FROA and FROA/TDOA Geolocation Problem.- Chapter 3: Low-Thrust Earth-Moon Transfers Via Manifolds of a Halo Orbit in the Cis-Lunar Space (AAS 20-014).- Chapter 5: A Composite Framework for Joint Optimization of Trajectory and Propulsion System Design (AAS 20-015).- Chapter 6: The Design of a Space-Based Observation and Tracking System for Interstellar Objects (AAS 20-016).- Chapter 7: Investigation of Prandtl-Ishlinskii Hysteresis Compensation for Deep Space Optical Communications Pointing Control (AAS 20-017).- Chapter 8: Multifunctional Structures for Spacecraft Attitude Control (AAS 20-018).- Part 2: SMALL SAT GUIDANCE, NAVIGATION AND CONTROL.- Chapter 9: Passive Roll Stabilization of the Near Earth Asteroid Scout Solar Sail Mission (AAS 20-021).- Chapter 10: Advancing Asteroid Spacecraft GNC Technology Using Student Built CubeSat Centrifuge Laboratories (AAS 20-023).- Chapter 11: Decentralized Spacecraft Swarms for Inspection of Large Space Structures (AAS 20-024).- Chapter 12: Mobility, Power and Thermal Control of SphereX for Planetary Exploration (AAS 20-025).- Chapter 13: GNC of Shape Morphing Microbots for Planetary Exploration (AAS 20-026 ).- Chapter 14: A Multiplicative Extended Kalman Filter for Low Earth Orbit Attitude Estimation Aboard a 0.5U SmallSat (AAS 20-027).- Chapter 15: Design and Performance of an Open-Source Star Tracker Algorithm on Commercial Off-The-Shelf Cameras and Computers (AAS 20-028).- Part 3: ADVANCES IN HARDWARE .- Chapter 16: RVS®3000-3D Lidar - Gateway Rendezvous and Lunar Landing (AAS 20-031).- Chapter 17: The Magnetically Clean Reaction Wheel: Is Active Magnetic Field Compensation a Feasible Solution? (AAS 20-032 ).- Chapter 18: GPS Navigation from Geo-Transfer to Geosynchronous Orbit: A New Receiver for Efficient Electric Orbit Raising (AAS 20-033).- Chapter 19: ASTRO XP - First Test Results (AAS 20-034 ).- Chapter 20: Preliminary Test Results from ARIETIS, a High to Medium Performance, Hi-Rel, Space Qualified Gyro (AAS 20-035).- Chapter 21: A Low-Cost Radiation-Hardened ASIC for Coriolis Vibratory Gyroscope Control (AAS 20-036).- Chapter 22: Auriga Star Tracker Flight Heritage on Inaugural Airbus OneWeb Satellites Constellation (AAS 20-037).- Part 4: HUMAN SPACEFLIGHT/ DEEP SPACE GATEWAY.- Chapter 23: Analysis of Cislunar Autonomous Navigation with StarNAV and OPNAV (AAS 20-041).- Chapter 24: Evaluating Relative Navigation Filter Designs and Architectures for Human Spaceflight (AAS 20-042).- Chapter 25: Path-Adaptive Guidance Algorithm Trades for a Two-Stage Lunar Descent Vehicle AAS 20-043).- Chapter 26: Powered Descent Guidance for a Crewed Lunar Landing Mission (AAS 20-044).- Chapter 27: GN&C Sequencing for Orion Rendezvous, Proximity Operations, and Docking (AAS 20-045).- Chapter 28: Attitude Control and Perturbation Analysis of a Crewed Spacecraft with a Lunar Lander in Near Rectilinear Halo Orbit (AAS 20-046).- Chapter 29: Phase Control and Eclipse Avoidance in Near Rectilinear Halo Orbits (AAS 20-047).- Chapter 30: A Practical Method for Truncating Spherical Harmonic Gravity Fields (AAS 20-048).- Chapter 31: Application at the Moon.

Erscheint lt. Verlag 27.4.2024
Reihe/Serie Advances in the Astronautical Sciences
Zusatzinfo XXVII, 1857 p. In 3 volumes, not available separately.
Verlagsort Cham
Sprache englisch
Maße 210 x 279 mm
Themenwelt Technik Luft- / Raumfahrttechnik
Schlagworte 44th Annual AAS Proceedings • 44th Annual American Astronautical Society Conference • Advances in Propulsion • American Astronautical Society Conference • Attitude Dynamics and Control Systems • Guidance, Navigation, and Control Systems • Machine Learning and Autonomous Control • Spacecraft GN&C Components • Spacecraft Guidance and Control • Trajectory, Mission and Maneuver Design and Optimization
ISBN-10 3-031-51927-2 / 3031519272
ISBN-13 978-3-031-51927-7 / 9783031519277
Zustand Neuware
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