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http://yadda.icm.edu.pl:80/baztech/element/bwmeta1.element.baztech-article-BPOC-0060-0065

Czasopismo

Przegląd Elektrotechniczny

Tytuł artykułu

The Hierarchical-Cluster Topology Control Strategy of InterPlaNetary Internet Backbone based on Libration Points

Autorzy Jiang, Y.  Li, G.  Zhang, G.  Yang, S. 
Treść / Zawartość http://pe.org.pl/
Warianty tytułu
PL Hierarchiczna topologia klastrów w interplanetarnym Internecie
Języki publikacji EN
Abstrakty
EN The concept of InterPlaNetary (IPN) Internet was proposed by National Aeronautics and Space Administration (NASA). The IPN Internet could provide Internet-like services crossing interplanetary distances in support of deep space exploration, which includes backbone network, access network, and planetary network. The IPN backbone topology control strategy based on Libration points was studied in this paper. Firstly, the location and stability of Libration point is simulated by celestial mechanics. Secondly, a novel Hierarchical-Cluster model of IPN backbone network is proposed to simplify topology design. Then Intra-Cluster Link and Inter-Cluster Link are analyzed in detail. Finally, the optimal handover moment is gotten by critical angle which to use relay theory, and the total number of handover times is calculated within a relative period between Uranus and Neptune cluster.
PL Koncepcja interplanetarnego Internetu IPN została zaproponowana przez NASA. W artykule omówiono strategię kontroli topologii szkieletu bazującą, na punkcie Libration. Na wstępie przeanalizowano stabilność systemu a następnie model hierarchiczny klastrów. Wreszcie analizowano przełączenie połączeń między stacjami bazowymi – handover.
Słowa kluczowe
PL interplanetarny Internet  
EN topology control   InterPlaNetary Internet   libration points   hierarchical-cluster  
Wydawca Wydawnictwo SIGMA-NOT
Czasopismo Przegląd Elektrotechniczny
Rocznik 2012
Tom R. 88, nr 4a
Strony 271--276
Opis fizyczny Bibliogr. 19 poz., rys., wykr.
Twórcy
autor Jiang, Y.
autor Li, G.
autor Zhang, G.
autor Yang, S.
Bibliografia
[1] Bhasin K. and Hayden J., Developing Architectures and Technologies for an Evolvable NASA Space Communication Infrastructure, AIAA International Communications Satellite Systems Conference and Exhibit (ICSSC), Monterey, California, May 2004.
[2] V. Cerf, Interplanetary Internet (IPN): Architectural Definition. Internet draft, draft-irtf-ipnrg-arch-00.txt, May 2001.
[3] E. Travis, The InterPlaNetary Internet: architecture and key technical concepts. Internet Global Summit, INET 2001,.
[4] Bhasin K., Hayden J., Space Internet Architectures and Technologies for NASA Enterprises, IEEE Aerospace Conference, Big Sky, MT, USA, Mar 2001, Vol.2, 931-941.
[5] Shaun E., Michael G., and Behnam M., Space Based Internet Network Emulation for Deep Space Mission Applications, AIAA International Communications Satellite Systems Conference and Exhibit (ICSSC), 2004.
[6] Lagrangian point, http://en.wikipedia.org/wiki/Lagrangian_point, Oct. 2011.
[7] A. Jorba, J.J. Masdemont, Dynamics in the Center Manifold of the Restricted Three–Body Problem, Physica D, 132(1997), No. 6, 189–213.
[8] M.A. Andreu, The Quasibicircular Problem, Ph.D. thesis, Dept. Matemàtica Aplicada i Anàlisi, Universitat de Barcelona, Barcelona, Spain, 1999.
[9] V. Szebehely, Theory of Orbits, Academic Press, 1967.
[10] G. Ĝomez, Martin W.L., Josep J., Utilization of Libration Point Orbits: proceedings of the conference, World Sci. Press, 2003
[11] Elisabet C.V., Contributions to Libration Orbit Mission Design using Hyperbolic Invariant Manifolds, Ph.D. thesis, Universitat Politècnica de Catalunya, July ,2007.
[12] E. Belbruno, Capture Dynamics and Chaotic Motions in Celestial Mechanics, Princeton University Press, 2004.
[13] G. Ĝomez, Dynamics and Mission Design Near Libration Point Orbits: Advanced methods for collinear points, World Sc. Press, 2001.
[14] À. Jorba and J. Villanueva, On the Persistence of Lower Dimensional Invariant Tori Under Quasiperiodic Perturbations, Journal of Nonlinear Science, 7(1997), 427-473.
[15] Howell, K. C., Families of Orbits in the Vicinity of the Collinear Libration Points, Journal of the Astronautical Sciences, 49(2001), No.1, 107-125.
[16] J. G. Smith, Ka-Band (32GHz) Downlink Capability for Deep Space Communications, TDA Progress Report, 1966, 42-66.
[17] O. Scott Sands, Kul Bhasin, Jeffrey L. Hayden, Relay Station Based Architecture and Tchnology for Space Missions to The Outer Planets, AIAA International Communications Satellite Systems Conference and Exhibit (ICSSC), Montreal, 2002.
[18] J.R. Hall, R.C. Hastrup and D.J. Bell, Microwave systems applications in deep space telecommunications and navigation: space exploration initiative architectures, IEEE Trans. On Microwave Theory and Techniques, 40(1992), No.6, 1171-1178.
[19] T. G. Howard, An initial design assessment for a communications relay satellite to support the interplanetary information infrastructure, AIAA International Communications Satellite Systems Conference(ICSSC), Washington 1996.
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