Multiple Gravity Assist Interplanetary Trajectories
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Product Details
Author:
A V Labunsky, O V Papkov, K G Sukhanov
Format:
Paperback
Pages:
292
Publisher:
CRC Press (June 30, 2020)
Language:
English
Audience:
Professional and scholarly
ISBN-13:
9780367579234
Weight:
19.125oz
Dimensions:
6.125" x 9.1875"
File:
TAYLORFRANCIS-TayFran_260405043548125-20260405.xml
Folder:
TAYLORFRANCIS
List Price:
$67.99
Country of Origin:
United States
Series:
Earth Space Institute Book Series
As low as:
$64.59
Publisher Identifier:
P-CRC
Discount Code:
H
Pub Discount:
30
Case Pack:
1
Imprint:
CRC Press
Overview
Reflecting the results of twenty years; experience in the field of multipurpose flights, this monograph includes the complex routes of the trajectories of a number of bodies (e.g., space vehicles, comets) in the solar system.
A general methodological approach to the research of flight schemes and the choice of optimal performances is developed. Additionally, a number of interconnected methods and algorithms used at sequential stages of such development are introduced, which allow the selection of a rational multipurpose route for a space vehicle, the design of multipurpose orbits, the determination of optimal space vehicle design, and ballistic performances for carrying out the routes chosen. Other topics include the practical results obtained from using these methods, navigation problems, near-to-planet orbits, and an overview of proven and new flight schemes.
A general methodological approach to the research of flight schemes and the choice of optimal performances is developed. Additionally, a number of interconnected methods and algorithms used at sequential stages of such development are introduced, which allow the selection of a rational multipurpose route for a space vehicle, the design of multipurpose orbits, the determination of optimal space vehicle design, and ballistic performances for carrying out the routes chosen. Other topics include the practical results obtained from using these methods, navigation problems, near-to-planet orbits, and an overview of proven and new flight schemes.
