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Planetary Spacecraft Navigation

  • Textbook
  • © 2019

Overview

Authors:
  1. James Miller

    1. Porter Ranch, USA

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  • Offers an in-depth look into the resources and technologies used at the Jet Propulsion Laboratories, including the Deep Space Network
  • Explains the mathematical reasoning behind navigation computer programs
  • Examines the success and failure of real-world navigation theory application in previous space missions

Part of the book series: Space Technology Library (SPTL, volume 37)

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Table of contents (9 chapters)

  1. Front Matter

    Pages i-xii
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  2. Equations of Motion

    • James Miller
    Pages 1-49

  3. Force Models

    • James Miller
    Pages 51-93

  4. Trajectory Design

    • James Miller
    Pages 95-155

  5. Trajectory Optimization

    • James Miller
    Pages 157-185

  6. Probability and Statistics

    • James Miller
    Pages 187-215

  7. Orbit Determination

    • James Miller
    Pages 217-254

  8. Measurements and Calibrations

    • James Miller
    Pages 255-292

  9. Navigation Operations

    • James Miller
    Pages 293-301

  10. Navigation Analysis

    • James Miller
    Pages 303-378

  11. Back Matter

    Pages 379-390
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Keywords

About this book

This textbook introduces the theories and practical procedures used in planetary spacecraft navigation. Written by a former member of NASA's Jet Propulsion Laboratory (JPL) navigation team, it delves into the mathematics behind modern digital navigation programs, as well as the numerous technological resources used by JPL as a key player in the field. In addition, the text offers an analysis of navigation theory application in recent missions, with the goal of showing students the relationship between navigation theory and the real-world orchestration of mission operations.



Authors and Affiliations

  • Porter Ranch, USA

    James Miller

About the author

James Miller worked as the assistant Navigation Team Chief on the Viking Mission to Mars in 1976. In 2000, he received the Mechanics and Control of Flight medal from the AIAA for his design of the navigation system for the first orbiting and landing on the asteroid Eros. Further, he designed a trajectory to leave Earth and orbit the Moon with no propulsive maneuvers. This was the first practical solution of the four-body problem, and it has since been used on the missions Hiten, Genesis, and Grail.  

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