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Attitude control
Juno Telecommunications
THE ATTITUDE CONTROL and DETERMINATION SYSTEMS of the SAS-A Satellite
Juno Spacecraft Description
19.1 Attitude Determination and Control Systems Scott R. Starin
+ New Horizons
Cubesat Attitude Control System Based on Embedded Magnetorquers in Photovoltaic Panels Mario Castro Santiago Junio De 2018
Space Sector Brochure
Skylab Attitude and Pointing Control System
1 the New Horizons Spacecraft Glen H. Fountain, David Y
The Non-Gravitational Accelerations of the Cassini Spacecraft
Fundamentals of Attitude Control
Flight Experience of Cassini Spacecraft Attitude Control at Saturn
Passive Magnetic Attitude Control for Cubesat Spacecraft
Design and Specification of an Attitude Control System for The
Aas 03-149 Messenger Spacecraft Pointing Options
Attitude Control of Hayabusa2 by Solar Radiation Pressure in One Wheel Control Mode
Attitude Control and Stabilization of Spacecraft with a Captured Asteroid
Category 7—Page 1
Top View
Rigid-Body Attitude Control
A Brief Survey of Attitude Control Systems for Small Satellites Using
Team Persephone
Attitude Control of Hayabusa2 Using Sun-Tracking Motion Under Solar Radiation Pressure
Guidance, Navigation, and Control of Small Satellite Attitude Using Micro-Thrusters
Fuel-Free Attitude Control of Bias-Momentum Solar Sail
International Space Station Attitude Motion Associated with Flywheel Energy Storage
Design and Utility Assessment of Attitude Control Systems for EVA Task Performance by Todd F
Zero Propellant Maneuver Flight Results for 180 Degree ISS Rotation
Attitude and Orbit Control Using the Spacecraft Control Toolbox V4.6
Space Station Control Moment Gyroscope Lessons Learned
Messenger Spacecraft Pointing Performance During the Mission’S Mercury Orbital Phase
Jupiter System Observer Mission Study: FINAL REPORT Task Order #NMO710851
Design Standard Attitude Control System
Hubble Space Telescope Reduced-Gyro Control Law Design, Implementation, and On-Orbit Performance
MESSENGER-Indesign Doc
Improvements in Attitude Determination and Control of the Small Satellite Flying Laptop
Attitude Determination and Control
Attitude Tracking Control Simulating the Hubble Space Telescope
Aerojet Rocketdyne Propulsion Plays Critical Role in Juno Mission to Study Jupiter
AAS SFMC Manuscript Format Template
Impacts of Center of Mass Shifts on Messenger Spacecraft Operations*
Design and Development of an Unrestricted Satellite Motion Simulator
Attitude Determination and Control • Lecture #29 - December 10, 2020 • Review of Rotational Dynamics • Attitude Determination • Attitude Control Systems
Nonlinear Attitude Control for a 6U Cubesat with a Flexible, Deployable Boom
Design of an Attitude Control System for Spin-Axis Control of a 3U Cubesat
On the Juno Mission to Jupiter
Hayabusa2 Update
Study and Design of the Attitude Control of a Cubesat 1U Based on Reaction Wheels
4.3.1 Space Vehicle Control Systems
An Updated Re-Entry Analysis of the Hubble Space Telescope
Modeling and Control of Propellant Slosh Dynamics in Observation Spacecraft with Actuator Saturations
Spacecraft Attitude Control Using Magnetic Actuators
New Horizons Mission 557
1 Attitude Control of Hayabusa2 by Solar
Trajectory Monitoring and Control of the New Horizons Pluto Flyby
Junocam: Juno's Outreach Camera
On-Orbit Performance & Operation of the Attitude & Pointing Control
Iac-10-C1.2.3 Trajectory Control for a Solar Sail Spacecraft in an Offset Lunar Orbit
Parameter Analysis of an Adaptive, Fault-Tolerant Attitude Control
Development of a Generic Guidance Navigation & Control System For
(PACE) an Experimental Three-Axis Stabilized Cubesat
Control Lessons Learned During the Cassini/Huygens Mission to Explore the Saturnian Moon Titan
Attitude Determination and Control of the Cubesat MIST
Advances in Spacecraft Attitude Control
Three Axis Control of the Hubble Space Telescope Using Two Reaction Wheels and Magnetic Torquer Bars for Science Observations
Attitude Control for Planetary Missions
Jupiter Press
The International Space Station (ISS) Flight Systems Make up the Core Functional Infrastructure of the On-Orbit ISS
New Horizons Mission Design
Electric Satellite Station Keeping, Attitude Control, and Momentum Management by MPC
International Space Station Overview
Attitude Control and Orbit Maneuver System Selection for the Space Shuttle
Attitude Determination and Control System for Cubesat
Attitude Control of the Asteroid Origins Satellite 1 (Aosat 1)