QoS-GUARANTEED MODEL RESEARCH FOR A SATELLITE NETWORK

Chundong She, Junfeng Wang, Ligang Fei, Kaiming Liu, and Shaohua Liu

References

1. [1] A. Destounis and A.D. Panagopoulos, Dynamic power alloca-tion for broadband multi-beam satellite communication net-works, Communications Letters, IEEE, 15(4), 2011, 380–382.
2. [2] G. Maral and M. Bousquet, Satellite communications systems:Systems, techniques and technology (John Wiley & Sons, 2011).
3. [3] S.E. Burrowbridge, Optimal allocation of satellite networkresources, 1999.
4. [4] F. Alagöz and G. Gür, Energy efficiency and satellitenetworking: A holistic overview, Proceedings of the IEEE,99(11), 2011, 1954–1979.
5. [5] C. Warty, Cooperative communication for multiple satellitenetwork, 2010 IEEE Aerospace Conference, Big Sky, MT,USA, 2010, 1–7.
6. [6] L. Liu, D. Wang, L. Wang, Research of a new non-layer protocolarchitecture for satellite network, TELKOMNIKA IndonesianJournal of Electrical Engineering, 12(6), 2014, 4654–4663.
7. [7] J. Chen, L. Liu, and X. Hu, Towards an end-to-end delay anal-ysis of ubiquitous access network, Science China InformationSciences, 56, 2013, 110101:1–110101:13.
8. [8] H. Liu, and F. Sun, A QoS-oriented congestion controlmechanism for satellite networks, Mathematical Problems inEngineering, 2014(11), 2014, 1–13.
9. [9] K. Arshad, R. MacKenzie, U. Celentano, et al. Resourcemanagement for QoS support in cognitive radio networks,Communications Magazine, IEEE, 52(3), 2014, 114–120.
10. [10] E. Blasch, K. Pham, G. Chen, et al. Distributed QoS aware-ness in satellite communication network with optimal routing(QuASOR), 2014 IEEE/AIAA 33rd, Digital Avionics SystemsConference, Colorado Springs, CO, USA, 2014, 6C3-1–6C3-11.
11. [11] K.J. Birdwell, B. Moran, D. Feinleib, Multi-packet transportstructure and method for sending network data over satellitenetwork, U.S. Patent 6,172,972. 2001-1-9.
12. [12] J. Wenjuan and Z. Peng, QoS routing algorithm based ontraffic classification in LEO satellite networks, 2011 EighthInternational Conference on. IEEE, 2011, 1–5.
13. [13] L. Wood, A. Clerget, I. Andrikopoulos, et al., IP routing issues in satellite constellation networks, International Journal ofSatellite Communications, 19(1), 2001, 69–92.
14. [14] H. Xu, F. Huang, and S. Wu, A distributed QoS routingbased on ant algorithm for LEO satellite network, Journal ofElectronics (China), 24(6), 2007, 765–771.
15. [15] A. Stentz, Optimal and efficient path planning for unknownand dynamic environments, International Journal of Robotics& Automation, 10(3), 1993, 89–100.
16. [16] E. Lutz, M. Werner, and A. Jahn, Satellite systems for personal and broadband communications (Springer Science & BusinessMedia, 2012).
17. [17] N. Celandroni, F. Davoli, and E. Ferro, Static and dynamicresource allocation in a multiservice satellite network withfading, International Journal of Satellite Communications andNetworking, 21(4–5), 2003, 469–487.
18. [18] F. Ganhão, L. Bernardo, R. Dinis, et al., Energy-efficient QoSprovisioning in demand assigned satellite NDMA, 2012 21stInternational Conference on Computer Communications andNetworks (ICCCN), Munich, Germany, 2012, 1–8.
19. [19] R. Mauger and C. Rosenberg, QoS guarantees for multimediaservices on a TDMA-based satellite network, CommunicationsMagazine, IEEE, 35(7), 1997, 56–65.
20. [20] Q. Liu, M. Zhao, and F. Lin, A QoS guarantee service servingmodel in LEO satellite networks based on differential game,Communications, China, 11(14), 2014, 128–134.
21. [21] R. Challoo and S. Dubey, Simultaneous state and actuatorfault estimation with fuzzy descriptor PMID and PD observersfor satellite control systems, International Journal of Roboticsand Automation (IJRA), 2(5), 2011, 344.
22. [22] Y. Rao, J. Zhu, W. Chen, et al., Agent-based QoS routing forpolar-orbit LEO satellite IP networks, Journal of ConvergenceInformation Technology, 7(17), 2012, 197–206.
23. [23] R.I. Qureshi and O. Alphand, SIP-based QoS control oversatellite networks, Proc. of the IEEE International Conf. onEmerging Technologies. Piscataway: IEEE Computer Society,2005, 242–245.
24. [24] A. Bhattacharya and A. Kumar, A shortest path tree basedalgorithm for relay placement in a wireless sensor network andits performance analysis, Computer Networks, 71, 2014, 48–62.
25. [25] Q. Yanbin, C. Xingyuan, D. Xuehui, et al., Layered secureaccess research for space network, 2008 International Sym-posium on Computer Science and Computational Technology(ISCSCT), Shanghai, 2008, 307–311.
26. [26] A. Bhattacharya, and A. Kumar, A shortest path tree basedalgorithm for relay placement in a wireless sensor network andits performance analysis, Computer Networks, 71, 2014, 48–62.
27. [27] F. De Rango, M. Tropea, and S. Marano, Call admissioncontrol for integrated Diff-Serv terrestrial and Int-Serv satellitenetwork, 2004 IEEE 59th Vehicular Technology Conference,2004. VTC 2004-Spring, Milan, Italy, 2004, Vol. 5, 2921–2925.
28. [28] I. Mahadevan and K. M. Sivalingam, Quality of service architectures for wireless networks: IntServ and DiffServ models,501Proc. Fourth International Symposium on Parallel Architec-tures, Algorithms, and Networks, 1999 (I-SPAN’99) IEEE,Perth/Fremantle, WA, Australia, 1999, 420–425.
29. [29] R. Fantacci, R. Gubellini, D. Tarchi, et al. An efficient DiffServswitch for satellite communication systems based on cellularneural networks, IEEE, 2004, 2716–2720.
30. [30] A. Molinaro, F. De Rango, S. Marano, et al., A scalable frame-work for end-to-end QoS assurance in IP-oriented terrestrial-GEO satellite networks, IEEE Communications Magazine,43(4), 2005, 130–137.

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• Abstract
• DOI: 10.2316/Journal.206.2018.5.206-0064
• From Journal (206) International Journal of Robotics and Automation - 2018

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