Design of satellite constellations with continuous coverage on elliptic orbits of Molniya type
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Ullock, M.H. and Shoen, A.H., Optimum Polar Satellite Networks for Continuous Earth Coverage, AIAA J., 1963, vol. 1, pp. 69–72. Translated under the title Optimal’nye seti polyarnykh sputnikov dlya nepreryvnogo obzora Zemli, in Raketnaya tekhnika i kosmonavtika, Moscow, 1963, vol. 1, no. 1, p. 85.
Mozhaev, G.V., The Problem on Continuous Coverage of the Earth and Kinematically Regular Satellite Systems. 1, 2, Kosm. Issled., 1972, vol. 10, no. 6, pp. 833–839 [Cosmic Research, p. 755]; Kosm. Issled., 1973, vol. 11, no. 1, pp. 59–69 [Cosmic Research, p. 52].
Walker, J.G., Some Circular Orbit Patterns Providing Continuous Whole Earth Coverage, J. of British Interplanetary Society, 1971, vol. 24, no. 11, pp. 369–384.
Barinov, K.N., Burdaev, M.N., and Mamon, P.A., Dinamika i printsipy postroeniya orbital’nykh sistem kosmicheskikh apparatov (Dynamics of Orbital Constellations of Spacecraft and Principles of Their Construction), Moscow: Mashinostroenie, 1975.
Adams, W.S. and Rider, L., Circular Polar Constellations Providing Continuous Single or Multiple Coverage above a Specified Latitude, J. of Astronautical Sci., 1987, vol. 35, no. 2, p. 155.
Mozhaev, G.V., Sintez orbital’nykh struktur sputnikovykh sistem (Teoretiko-gruppovoi podkhod) (Synthesis of Orbital Structures of Satellite Constellations: Group Theory Approach), Moscow: Mashinostroenie, 1989.
Lang, T.J., Optimal Low Earth Orbit Constellations for Continuous Global Coverage, AAS Paper, no. 597, 1993.
Lansard, E., Frayssinhes, E., and Palmade, J.-L., Global Design of Satellite Constellations: A Multi-Criteria Performance Comparison of Classical Walker Patterns and New Design Patterns, Acta Astronaut., 1998, vol. 42, no. 9, pp. 555–564.
Ulybyshev, Y., Near-Polar Satellite Constellations for Continuous Global Coverage, J. of Spacecraft and Rockets, 1999, vol. 36, no. 1, pp. 92–99.
Saulskiy, V.K., Multisatellite Systems with Linear Structure and Their Application for Continuous Coverage of the Earth, Kosm. Issled., 2005, vol. 43, no. 1, pp. 36–53. [Cosmic Research, pp. 34–51].
Mozhaev, G.V., Capabilities of Kinematically Regular Satellite Systems with Symmetry Groups of the Second Type in the Problem of Continuous Single Coverage of the Earth, Kosm. Issled., 2005, vol. 43, no. 3, pp. 215–223. [Cosmic Research, pp. 205–212].
Raketno-kosmicheskaya korporatsiya “Energiya”. 1946–1996 (The “Energiya” Rocket and Space Corporation, 1946–1996), Moscow, 1996.
Chernyavskii, G.M., and Bartenev, V.A., Orbity sputnikov svyazi (Orbits of Communication Satellites), Moscow: Svyaz’, 1978.
Byrkov, B.P., Silov, V.V., and Nikitin, I.N., The Use of Temporary Diagrams of Visibility for Choosing One-Route Satellite Systems on Elliptical Orbits, in Trudy 18 chtenii K.E. Tsiolkovskogo, sektsiya Mekhanika kosmicheskogo poleta (Proc. of 18th Tsiolkovskii Readings, Section of Space Flight Mechanics), Kaluga, 1983, pp. 38–45.
Draim, J.E., Three — and Four-satellite Continuous-Coverage Constellations, J. of Guidance, Control, and Dynamics, 1985, vol. 8, no. 6, p. 725. Translated under the title Nepreryvnyi obzor zemnoi poverkhnosti s pomoshch’yu trekh i chetyrekh sputnikov, in Aerokosm. Tekh., 1986, no. 8, p. 99.
Hanson, J.M. and Higgins, W.B., Designing Good Geosynchronous Constellations, J. of the Astronautical Sciences, 1990, vol. 38, no. 2, p. 143.
Razumnyi, Yu.N., Locally Stationary Orbits of Earth’s Artificial Satellites, in Trudy 25 chtenii K.E. Tsiolkovskogo, sektsiya Problemy raketnoi i kosmicheskoi tekhniki (Proc. of 25th Tsiolkovskii Readings, Section of Rocketry and Space-System Engineering), Moscow: IIET of USSR Acad. Sci., 1991, pp. 56–61.
Kantor, L.Ya. and Kheifets, V.N., Optimal Choice of a Satellite Broadcasting System Based on High Elliptic Orbits, Kosm. Issled., 2002, vol. 40, no. 6, pp. 633–640. [Cosmic Research, pp. 587–593].
Ulybyshev, Y.P. and Donianz, V.N., Elliptic Orbit Constellations for Regional Communication and Molniya-Zond Satellite Constellation, 53rd Intern. Astronautical Congress, Houston (USA), Oct. 10–19, 2002, Paper IAC-02-M.4.05, p. 8.
Dufour, F., Coverage Optimization of Elliptical Satellite Constellations with an Extended Satellite Triplet Method, 54th Intern. Astronautical Congress, Bremen (Germany), 25 Sep.–3 Oct., 2003, Paper IAC-03-A.3.02, p. 9.
Mortari, D, Wilkins, M.P., and Bruccoleri, C., The Flower Constellations, J. of the Astronautical Sci., 2004, vol. 52, no. 1–2, pp. 107–127.
Ulybyshev, Y., Satellite Constellation Design for Complex Coverage, J. of Spacecraft and Rockets, 2008, vol. 45, no. 4, pp. 843–849.
Barker, L. and Stoen, J., Sirius Satellite Design: The Challenges of the Tundra Orbit in Commercial Spacecraft Design, Adv. Astronautical Sci., 2001, vol. 107, pp. 575–596.