[1] Jurski J, Wozniak J. Routing decisions independent of queuing delays in broadband LEO Networks //IEEE Globecom. 2009: 1-6.

[2] Caini C, Firrincieli R, Marchese M, et al. Transport layer protocals and architectures for satellite networks
[J]. International Journal of Satellite Communications and Networking, 2007, 25: 1-26.

[3] Gu M, Zhang J. A cross-layer mechanism to improve TCP performance in satellite networks
[J]. Journal of Electronics and Information Technology, 2008, 30(8): 1815-1819 (in Chinese). 顾明, 张军. 适用于卫星网络的TCP跨层改进机制
[J]. 电子与信息学报, 2008, 30(8):1815-1819.

[4] Taleb T, Kato N, Nemoto Y. REFWA: an efficient and fair congestion control scheme for LEO satellite networks
[J]. IEEE/ACM Trans Networking, 2006, 14(5):1031-1044.

[5] Lutz E, Werner M, Jahn A. Satellite systems for personal and broadband communications
[M]. Berlin Heidelberg: Springer-Verlag, 2000.

[6] Huang C, Liu F L. A distributed class-based alternative routing under a congestion control architecture for LEO satellite networks //IEEE WCNIS. 2010: 431-435.

[7] Network Simulator-ns (Version 2) . .http://www.isi.edu/nsnam/ns/.

[8] Goyal R, Jain R, Goyal M, et al. Buffer management and rate guarantees for TCP over satellite-ATM networks
[J]. International Journal of Satellite Communications, 2001, 19: 111-139.

[9] Huang C, Liu F L. A distributed class-based alternative routing and a congestion control architecture for LEO satellite networks
[J]. International Journal of Wireless Communications and Networking, 2011,3(2):121-129.