Annals of the New York Academy of Sciences

Cover image for Vol. 1017 Astrodynamics, Space Missions, and Chaos

May 2004

Volume 1017 Astrodynamics, Space Missions, and Chaos

Pages ix–x, 1–474

  1. Frontmatter

    1. Top of page
    2. Frontmatter
    3. Astrodynamics Space Missions, and Chaos: Part I: Applications of Chaos and Dynamical Systems
    4. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    5. Part II: Formation Flying
    6. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    7. Astrodynamics Space Missions, and Chaos: Part III: Optimization and Design
    8. Astrodynamics Space Missions, and Chaos: Part IV: Mission Design
    9. Astrodynamics Space Missions, and Chaos: Part V: Celestial Mechanics
    10. Astrodynamics Space Missions, and Chaos: Part VI: Propulsion
    1. Introduction (pages ix–x)

      EDWARD BELBRUNO

      Article first published online: 12 JAN 2006 | DOI: 10.1196/annals.1311.000

  2. Astrodynamics Space Missions, and Chaos: Part I: Applications of Chaos and Dynamical Systems

    1. Top of page
    2. Frontmatter
    3. Astrodynamics Space Missions, and Chaos: Part I: Applications of Chaos and Dynamical Systems
    4. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    5. Part II: Formation Flying
    6. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    7. Astrodynamics Space Missions, and Chaos: Part III: Optimization and Design
    8. Astrodynamics Space Missions, and Chaos: Part IV: Mission Design
    9. Astrodynamics Space Missions, and Chaos: Part V: Celestial Mechanics
    10. Astrodynamics Space Missions, and Chaos: Part VI: Propulsion
    1. Geometric Mechanics and the Dynamics of Asteroid Pairs (pages 11–38)

      WANG-SANG KOON, JERROLD E. MARSDEN, SHANE D. ROSS, MARTIN LO and DANIEL J. SCHEERES

      Article first published online: 12 JAN 2006 | DOI: 10.1196/annals.1311.002

    2. Migration of Interplanetary Dust (pages 66–80)

      S I. IPATOV, J C. MATHER and P A. TAYLOR

      Article first published online: 12 JAN 2006 | DOI: 10.1196/annals.1311.005

  3. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying

    1. Top of page
    2. Frontmatter
    3. Astrodynamics Space Missions, and Chaos: Part I: Applications of Chaos and Dynamical Systems
    4. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    5. Part II: Formation Flying
    6. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    7. Astrodynamics Space Missions, and Chaos: Part III: Optimization and Design
    8. Astrodynamics Space Missions, and Chaos: Part IV: Mission Design
    9. Astrodynamics Space Missions, and Chaos: Part V: Celestial Mechanics
    10. Astrodynamics Space Missions, and Chaos: Part VI: Propulsion
  4. Part II: Formation Flying

    1. Top of page
    2. Frontmatter
    3. Astrodynamics Space Missions, and Chaos: Part I: Applications of Chaos and Dynamical Systems
    4. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    5. Part II: Formation Flying
    6. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    7. Astrodynamics Space Missions, and Chaos: Part III: Optimization and Design
    8. Astrodynamics Space Missions, and Chaos: Part IV: Mission Design
    9. Astrodynamics Space Missions, and Chaos: Part V: Celestial Mechanics
    10. Astrodynamics Space Missions, and Chaos: Part VI: Propulsion
    1. Coordinated Orbit Transfer for Satellite Clusters (pages 112–137)

      FUMIN ZHANG and P S. KRISHNAPRASAD

      Article first published online: 12 JAN 2006 | DOI: 10.1196/annals.1311.008

  5. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying

    1. Top of page
    2. Frontmatter
    3. Astrodynamics Space Missions, and Chaos: Part I: Applications of Chaos and Dynamical Systems
    4. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    5. Part II: Formation Flying
    6. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    7. Astrodynamics Space Missions, and Chaos: Part III: Optimization and Design
    8. Astrodynamics Space Missions, and Chaos: Part IV: Mission Design
    9. Astrodynamics Space Missions, and Chaos: Part V: Celestial Mechanics
    10. Astrodynamics Space Missions, and Chaos: Part VI: Propulsion
    1. Hamiltonian Modelling of Relative Motion (pages 138–157)

      N JEREMY KASDIN and PINI GURFIL

      Article first published online: 12 JAN 2006 | DOI: 10.1196/annals.1311.009

    2. Control of Satellite Clusters in Elliptic Orbit with Limited Communication (pages 177–189)

      DAVID F. CHICHKA, GENE BELANGER and JASON L. SPEYER

      Article first published online: 12 JAN 2006 | DOI: 10.1196/annals.1311.011

  6. Astrodynamics Space Missions, and Chaos: Part III: Optimization and Design

    1. Top of page
    2. Frontmatter
    3. Astrodynamics Space Missions, and Chaos: Part I: Applications of Chaos and Dynamical Systems
    4. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    5. Part II: Formation Flying
    6. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    7. Astrodynamics Space Missions, and Chaos: Part III: Optimization and Design
    8. Astrodynamics Space Missions, and Chaos: Part IV: Mission Design
    9. Astrodynamics Space Missions, and Chaos: Part V: Celestial Mechanics
    10. Astrodynamics Space Missions, and Chaos: Part VI: Propulsion
    1. Optimal Plane Changes Using Third-Body Forces (pages 255–266)

      B F VILLAC and D J SCHEERES

      Article first published online: 12 JAN 2006 | DOI: 10.1196/annals.1311.015

  7. Astrodynamics Space Missions, and Chaos: Part IV: Mission Design

    1. Top of page
    2. Frontmatter
    3. Astrodynamics Space Missions, and Chaos: Part I: Applications of Chaos and Dynamical Systems
    4. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    5. Part II: Formation Flying
    6. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    7. Astrodynamics Space Missions, and Chaos: Part III: Optimization and Design
    8. Astrodynamics Space Missions, and Chaos: Part IV: Mission Design
    9. Astrodynamics Space Missions, and Chaos: Part V: Celestial Mechanics
    10. Astrodynamics Space Missions, and Chaos: Part VI: Propulsion
    1. Autonomous Low-Thrust Guidance: Application to SMART-1 and BepiColombo (pages 307–327)

      JESÚS GIL-FERNÁNDEZ, MARIELLA GRAZIANO, M A GÓMEZ-TIERNO and E MILIC

      Article first published online: 12 JAN 2006 | DOI: 10.1196/annals.1311.017

    2. The Bering Small Vehicle Asteroid Mission Concept (pages 328–349)

      RENE MICHELSEN, ANJA ANDERSEN, HENNING HAACK, JOHN L. JØRGENSEN, MAURIZIO BETTO and PETER S. JØRGENSEN

      Article first published online: 12 JAN 2006 | DOI: 10.1196/annals.1311.018

    3. Advanced Stellar Compass Onboard Autonomous Orbit Determination, Preliminary Performance (pages 393–407)

      MAURIZIO BETTO, JOHN L. JØRGENSEN, PETER S. JØRGENSEN and TROELZ DENVER

      Article first published online: 12 JAN 2006 | DOI: 10.1196/annals.1311.022

  8. Astrodynamics Space Missions, and Chaos: Part V: Celestial Mechanics

    1. Top of page
    2. Frontmatter
    3. Astrodynamics Space Missions, and Chaos: Part I: Applications of Chaos and Dynamical Systems
    4. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    5. Part II: Formation Flying
    6. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    7. Astrodynamics Space Missions, and Chaos: Part III: Optimization and Design
    8. Astrodynamics Space Missions, and Chaos: Part IV: Mission Design
    9. Astrodynamics Space Missions, and Chaos: Part V: Celestial Mechanics
    10. Astrodynamics Space Missions, and Chaos: Part VI: Propulsion
    1. New Orbits for the n-Body Problem (pages 422–433)

      ROBERT J. VANDERBEI

      Article first published online: 12 JAN 2006 | DOI: 10.1196/annals.1311.024

    2. Analytical Theory of an Artificial Satellite of the Moon (pages 434–449)

      BERNARD DE SAEDELEER and JACQUES HENRARD

      Article first published online: 12 JAN 2006 | DOI: 10.1196/annals.1311.025

  9. Astrodynamics Space Missions, and Chaos: Part VI: Propulsion

    1. Top of page
    2. Frontmatter
    3. Astrodynamics Space Missions, and Chaos: Part I: Applications of Chaos and Dynamical Systems
    4. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    5. Part II: Formation Flying
    6. Astrodynamics Space Missions, and Chaos: Part II: Formation Flying
    7. Astrodynamics Space Missions, and Chaos: Part III: Optimization and Design
    8. Astrodynamics Space Missions, and Chaos: Part IV: Mission Design
    9. Astrodynamics Space Missions, and Chaos: Part V: Celestial Mechanics
    10. Astrodynamics Space Missions, and Chaos: Part VI: Propulsion
    1. A Survey of Propulsion Options for Cargo and Piloted Missions to Mars (pages 450–467)

      K SANKARAN, L CASSADY, A D KODYS and E Y CHOUEIRI

      Article first published online: 12 JAN 2006 | DOI: 10.1196/annals.1311.027

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