DOCSLIB.ORG
Explore
Sign Up
Log In
Upload
Search
Home
» Tags
» Magnetorquer
Magnetorquer
ﻟﯿﻨﮏ ﻫﺎى ﻣﻔﯿﺪ
Analysis and Design of Integrated Magnetorquer Coils for Attitude Control of Nanosatellites
Research and Educational Space Activities at AAU
Comparison of Magnetorquer Performance
Prototype Design and Mission Analysis for a Small Satellite Exploiting Environmental Disturbances for Attitude Stabilization
Cubesat Introduction
A Sample AMS Latex File
Teaching Opportunities in Measurements of Magnetic Field
Nanosat ADCS Design and Performance Analysis
Magnetorquer-Only Attitude Control of Small Satellites Using Trajectory Optimization
Magnetorquer Based Attitude Control for a Nanosatellite Testplatform
Autonomy Testbed Development for Satellite Debris Avoidance E. Gregson, M. Seto Dalhousie University B. Kim Defence R&D Cana
Frictionless Spacecraft Simulator with Unrestricted Three-Axis Movement for Nanosats
Low Cost Magnetic Simulator for Attitude Control
Micro Satellite Orbital Boost by Electrodynamic Tethers
Fuzzy Attitude Control of a Magnetically Actuated Cubesat
ELSA-D CONOPS and Debris Mitigation Overview
Design of an Attitude Control System for Spin-Axis Control of a 3U Cubesat
Top View
Design Development and Production of Electromagnetic Coils for Attitude Control of a Pico Satellite
4.3.1 Space Vehicle Control Systems
Actuators ADCS
E.Cube Mission: the Environmental Cubesat
Development of an Active Magnetic Attitude Determination and Control System for Picosatellites on Highly Inclined Circular Low Earth Orbits
Drag De-Orbit Device (D3): a Retractable Device for Cubesat Attitude and Orbit Control Using Aerodynamic Forces
Cubesat Mission to Demonstrate Aerodynamically Controlled Re-Entry Using the Drag De-Orbit Device (D3)
Orbital Debris Assessment Report (ODAR)
State of the Art Small Spacecraft Technology 2014
A Versatile Magnetorquer Design for Microsatellite Constellation Missions
Design and Analysis of a Cubesat
Low Cost Validation Test-Bed for Small Satellite's Attitude Determination and Control
Magnetic Actuators for Nanosatellite Attitude Control
Feasibility of Using Lunar Magnetic Fields to Control Cubesat Attitude
Attitude Determination and Control System for Cubesat
DESIGN and ANALYSIS of FULLY MAGNETIC CONTROL for PICOSATELLITE STABILIZATION a Thesis Presented to the Faculty of California