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This book presents the essential characteristics of the different satellite motions. Satellite motions can be classified as anomalistic, draconitic, tropical, Hansen-, Kepler-, meridional, Sun-synodical, Moon-synodical motion, depending on the relevant reference point. When two of these types of motions (in some cases even more than two) are coupled, satellite orbits are obtained, which are called equivalence orbits in this book. They share the special properties of the different coupled motions and are therefore of particular interest in the selection of special satellite orbits.
In the book the author calculates mean equivalence orbits with secular perturbation formulas, as well as true equivalence orbits considering a complete orbit model including periodic motion effects. Some of the equivalence orbits can be determined unambiguously and with extremely high accuracy, they are stable in the long term. Others can only be found with low accuracy and reduced stability. The author investigates all possible combinations and the associated general equations of condition are derived in each case. Some well-known families of satellite orbits, such as the Sun-synchronous orbits, can be interpreted as mean equivalence orbits. The study of their stability is of great interest in orbit mechanics. Special applications and numerous numerical examples, graphical representations of all possible ranges of the Kepler elements, and detailed studies of the stability of particularly important equivalence orbits are carried out using the Brouwer orbit model as well as the modification by Eckstein.
This lays the foundation for possible refinements using arbitrary extended orbital models and for possibly required orbital corrections. Numerous problems are to deepen the treated topics and/or to stimulate for further investigations.
The book will be of interest to Astrodynamics and Aerospace Engineers as well as graduate students studying satellite orbits.
Presents the technique of coupling of two or more satellite motions important for remote sensing and reconnaissance Compiles all possible such couplings of satellite motions, with graphical methods for a first approximation selection Of detailed interest for finding suitable satellite orbits associated with the coupling of satellite motions
Auteur
Fritz Jochim holds a Diploma Degree (Master Degree) in mathematics and mathematical astronomy from University Würzburg, and got a Second State Degree for mathematics and physics as high school teacher in 1970. From 1970 - 2006 he worked a scientific employee at German Aerospace Center in Braunschweig and Oberpfaffenhofen. His main topic was satellite orbit analysis, development of a comprehensive package of analytical satellite orbit analysis programs, which are successfully used in almost all German satellite missions and space studies. He participated in studies like Helios, Symphonie, Erdsat, POLO (Polar Orbiting Lunar Observatory), Planetenteleskop, ENVISAT, AMPTE, CHAMP, ERS1/2, GRACE, Mars Express, Asteroid-Mission to minor planets, ROSAT, X-SAR (support of two shuttle missions in the POCC, Houston, USA), TerraSAR-X, TanDEM-X, TanDEM-L.
In 2011 he was awarded a Doctor Degree (Dr. Ing.) from UniBw München.
Contenu
INTRODUCTION.- COMPILATION OF RELATED SATELLITE ORBITAL MOTIONS.- EQUIVALENCE ORBITS RELATED TO MERIDIONAL MOTION.- EQUIVALENCE ORBITS RELATED TO SUN-SYNODIC MOTION.- EQUIVALENCE ORBITS RELATED TO MOON-SYNODIC MOTION.- NEAR-PARALLEL EQUIVALENCE SATELLITE ORBITS.- MULTIPLE COUPLING OF EQUIVALENCE ORBITS.- EQUIVALENCE ORBITS RELATED TO A FIXED SATELLITE PERIOD.- COMPILATION OF SOME CHARACTERISTIC PROPERTIES OF SATELLITE.- APPENDIX.- REFERENCES.- LIST OF SYMBOLS.- INDEX.