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Automatic control in aerospace : selected papers from the IFAC symposium, Tsukuba, Japan, 17-21 July 1989 /
The papers presented at the Symposium covered the areas in aerospace technology where automatic control plays a vital role. These included navigation and guidance, space robotics, flight management systems and satellite orbital control systems. The information provided reflects the recent developmen...
| Clasificación: | Libro Electrónico |
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| Autor Corporativo: | |
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Oxford, England :
Published for the International Federation of Automatic Control by Pergamon Press,
1990.
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| Edición: | First edition. |
| Colección: | IFAC symposia series ;
1990, no. 6. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Automatic Control in Aerospace; Copyright Page; Table of Contents; PART I: PLENARY SESSION; Chapter 1. NASDA's Long-range Plan and Automatic Control; 1. INTRODUCTION; 2. SPACE TRANSPORTATION SYSTEM; 3. SPACE UTILIZATION SYSTEM; 4. DEVELOPMENT OF SPACE INFRASTRUCTURE AND EVOLUTION OF MANNED SPACE ACTIVITIES; 5. DEVELOPMENT AND UTILIZATION OF THE MOON AND PLANETS; 6. CONCLUSIONS; 7. REFERENCES; Chapter 2. The NASA Telerobotics Research Program ; INTRODUCTION; APPLICATIONS OF SPACE TELEROBOTICS; NASA's SUPPORTING RESEARCH PROGRAM; CONCLUSIONS AND OBSERVATIONS; GLOSSARY.
- ACKNOWLEDGEMENTREFERENCES; PART II: NAVIGATION, ATTITUDE DETERMINATION AND POINTING SYSTEMS; Chapter 3. Dynamic Evaluation for the DRTS User Spacecrafts' Antenna Pointing System ; INTRODUCTION; ANTENNA POINTING SYSTEM; ACTUATOR MODELING; DYNAMIC TEST; CONCLUSIONS; ACKNOWLEDGMENT; REFERENCES; Chapter 4. Control Design of an Antenna Pointing Control System with Large On-board Reflectors; NOMENCLATURE; INTRODUCTION; SYSTEM REQUIREMENTS; SYSTEM CONFIGURATION; DYNAMICS; CONTROL DESIGN; CONCLUSIONS; ACKNOWLEDGEMENTS; REFERENCES.
- Chapter 5. The Theoretical and Experimental Validation of the GPS-INS-STAR Hybrid Navigation System Concept INTRODUCTION; SYSTEM DESCRIPTION; DESCRIPTION OF EXPERIMENT AND ITS RESULTS; DISCUSSIONS BY THEORETICAL APPROACH; CONCLUSIONS; REFERENCES; Chapter 6. Kalman Filter Based Range Estimation for Autonomous Navigation using imaging sensors; 1 Introduction; 2 Image Geometry; 3 Optical Flow Computation; 4 Recursive Range Estimation; 5 Numerical Results; 6 Summary; References; Chapter 7. A Star Pattern Recognition Algorithm for Autonomous Attitude Determination; INTRODUCTION.
- PREVIOUS RELATED RESULTSRECOGNITION ALGORITHM; SUCCESS RATE OF RECOGNITION ALGORITHM; COMPUTATIONAL REQUIREMENTS FOR FAST; CONCLUSIONS; ACKNOWLEDGEMENTS; REFERENCES; Chapter 8. New Concept for Autonomous Rendezvous Approach Navigation and Guidance System using Only Target Image Information; INTRODUCTION; SYSTEM DESCRIPTION; FUNDAMENTAL EQUATIONS; OBSERVABILITY ANALYSIS; NAVIGATION SIMULATION; VISUAL SENSOR IMPLEMENTATION; APPROACH SOE AND GUIDANCE; CONCLUSIONS; REFERENCES; PART III: SATELLITE ATTITUDE AND ORBITAL CONTROL SYSTEMS I.
- Chapter 9. Attitude Control System for Engineering Test Satellite-VI1. Introduction; 2. Spacecraft Configuration; 3. Requirements; 4. Attitude Control System Configuration; 5. Attitude Control Design; 6. Simulation Results; 7. Conclusion; ACKNOWLEDGMENT; REFERENCE; Chapter 10. Attitude and Orbit Control Subsystem for MOS-1; INTRODUCTION; OUTLINE OF THE AOCS; REGULATOR DESIGN; FLIGHT EXPERIENCE; CONCLUSIONS; ACKNOWLEDGEMENT; REFERENCES; Chapter 11. Attitude and Orbit Control Subsystem for ERS-1 and its Subsystem Test; INTRODUCTION; THRUSTER CONTROL; NORMAL MODE CONTROL; SUBSYSTEM TEST.