| Plenary Papers / Volume 1: |
| Russian Space Programs: Achievements and Prospects of Automatic Control |
| Applications Control and Navigation Aspects of the New ESA Earth Observation Missions Current Status of Japanese Aerospace Programs |
| Focusing on the High Speed Flight Demonstration National Achievements in Control Theory (The Aerospace Perspective) |
| Model-Based Fault Detection and Diagnosis - Status and Applications |
| Spacecraft Attitude And Orbit Control |
| On the Precision Attitude Control Problems Control System of the Microsatellite Micron Visual Feedback |
| Attitude Control Experiment of a Bias Momentum |
| Micro Satellite Graph Models of Orbital Assembly and Dynamics of a Large Space Structure Position Control Design and Validation Applied to ATV |
| During Docking to ISS On-Orbit Operation and Performance of Micro LabSat Attitude Control Subsystem |
| Nonlinear Dynamics of a Spacecraft Respinup by a Weak Internal Control Systematic Approach to Achieve Fine Pointing Requirement of SOLAR-B |
| Onboard Control Complex for Vehicles Implementation Concept by ISS Example |
| A Novel Architecture for Magnetic Attitude Control of Gravity Gradient Satellites Accurate |
| Modes Design of the Darwin Precursor |
| Formation Flying Demonstration Mission Spacecraft Disposal on a Graveyard Orbit: The In-Flight AOCS |
| Performance for Eurostar 2000 and SPOT 1 during End-of-Life Operations Development of Attitude |
| Control System of Micro LabSat Steering the Control Moment |
| Gyroscope Clusters Onboard High-Agile Spacecraft Microvibration Management and Pointing Stability |
| Analysis of SELENE Satellite Three DOF Optimal Thrusters |
| Selection and Modulation for Space Vehicles Lessons Learned from the Object-Oriented Design of the BIRD Attitude Control System Software A Lyapunov-Typed |
| Nonlinear Attitude Controller for Spacecraft Integrated Power and Attitude Control Using VSCMGs for Small Agile Satellite Advance of Chinese Spacecraft Control |
| Technologies An Autonomous Celestial Navigation |
| Method for Geosychronous Satellite Orbit Dynamics and Kinematics with Full Quaternions |
| Autonomous Control, Mission Control And Operations |
| Overview of Recent Control Technology for Japanese Scientific Space Missions |
| Overview of the Attitude and Orbit Control Systems (AOCS) |
| Developed for NASDA/JAXA Engineering Test and Applications Satellites |
| Autonomous Navigation Concepts for Interplanetary Missions |
| Mechanics and Motion Control of a Space Vehicle in the Project of Relict Substance Delivery on Earth |
| (The Project Phobos_Grunt) |
| Orbit Acquisition of the Disaster |
| Monitoring Constellation Preliminary Results On-Orbit Experiment of Motion |
| Estimation and Tracking of Tumbling Object in Space Electric Propulsions as Actuators of the Spacecraft |
| Flight Control Systems Single-Pulse Correction of the |
| Re-Entry Point of a Payload Module End-to-End Modeling for Drag-Free Missions with Application to LISA Pathfinder |
| Organization of an Intellectual Technological Searching Cycle to Support Making Decisions During a Space Vehicles (SV) |
| Remote Control Capabilities of Multiagent-Based Cargo Layout System for H-II Transfer |
| Vehicle Development of Navigation Algorithm Architecture for Automatic |
| Landing Based on Landmarks Image Processing Dynamic Models of Comprehensive |
| Scheduling for Ground-Based Facilities Communication with Navigation |
| Spacecrafts Corrections of a Vestibular Function Under Extreme Conditions of the Aerospace |
| Flight Control of the Times of Engine Shutdown by the Launch Safety |
| Criterion Observability Analysis of a Geostationary |
| Satellite Autonomous Navigation System An Information Fusion Method for Satellite Autonomous |
| Plenary Papers / Volume 1: |
| Russian Space Programs: Achievements and Prospects of Automatic Control |
| Applications Control and Navigation Aspects of the New ESA Earth Observation Missions Current Status of Japanese Aerospace Programs |
図書
