Includes bibliographical references )p. 267-277( and indexes
NOTES PERTAINING TO TITLE AND STATEMENT OF RESPONSIBILITY
Text of Note
Alexei V. Labunsky, Oleg V. Papkov, and Konstantin G. Sukhanov
CONTENTS NOTE
Text of Note
Machine generated contents note: 1. Dynamic scheme, models, and methods of analysis of spacecraft -- trajectories using gravity assist maneuvers -- 1.1. Dynamic scheme -- 1.2. Effect of perturbation maneuvers on the spacecraft orbital -- characteristics -- 1.3. Flight paths; methods of study -- 2. Methods and algorithms for the development of optimal -- multi-purpose missions -- 2.1. Graphic-analytical method -- 2.2. Application of the graphic-analytical method to multi-purpose -- mission analysis -- 2.3. A universal algorithm for the synthesis of spacecraft multi-purpose -- missions -- 2.4. Formation of multi-purpose spacecraft missions in the solar system -- 3. Ballistic methods in multi-purpose interplanetary spacecraft design -- 3.1. Isoline method -- 3.2. Optimization of design and ballistic characteristics of multi-purpose -- spacecraft -- 3.3. Optimization of design solutions based on the generalized criterion -- method -- 4. Analysis of multi-purpose schemes of interplanetary flight -- 4.1. Nomographic analysis of spacecraft multi-purpose paths in the -- solar system -- 4.1.1. Paths to Mars and Venus -- 4.1.2. Recurrent and periodically-recurrent trajectories -- 4.1.3. Flights to Mercury -- 4.1.4. Flights to Jupiter -- 4.1.5. Flights to Saturn -- 4.1.6. Flights to Uranus -- 4.1.7. Flights to Neptune and Pluto -- 4.1.8. Nomographic analysis of the perturbation potential of the -- Earth in interplanetary flight schemes -- 4.1.9. Flights to the sun -- 4.2. Numerical studies of some promising schemes of planetary flights -- 4.3. Examination of periodical recurrent trajectories with multiple -- flybys of Mars and Earth -- 5. Multi-purpose flights in planetary-satellite systems -- 5.1. Natural planetary satellites and their perturbation potential -- 5.2. Formation of spacecraft orbits in planetary satellite systems -- 5.3. The use of gravity assist maneuvers to orbit the spacecraft -- as an artificial planetary satellite -- 5.4. Multi-purpose flight schemes to natural planetary satellites -- 6. Flights to small bodies in the solar system -- 6.1. Examination of flight schemes to comets -- 6.2. Examination of flight schemes to asteroids -- 7. Solution of navigational problems for multi-purpose missions -- at near-planet segments of the flight trajectory -- 7.1. Formation of descent and flyby trajectories -- 7.2. Determining the trajectories of interplanetary probes -- 7.3. Examples of application of the methods of planetocentric -- orbit analysis -- References -- Author index -- Subject index
TOPICAL NAME USED AS SUBJECT
Entry Element
، Space trajectories
Entry Element
، Celestial mechanics
Entry Element
، Orbital mechanics
Entry Element
، Gravity assist )Astrodynamics(
LIBRARY OF CONGRESS CLASSIFICATION
Class number
TL
1075
.
L23
PERSONAL NAME - PRIMARY RESPONSIBILITY
Entry Element
Labunsky, Alexei V.
Relator Code
AU
AU Papkov, Oleg V
AU Sukhanov, Konstantin G
TI
SE
SE Earth Space Institute book series on public and private sector interest in space