L. Figure-66-présente-le-comportement, Le bruit à la seconde 60 réduit rapidement le débit. L'émetteur continue à envoyer pendant quelques secondes (en attendant l'expiration du timeout de no-feedback), puis l'émetteur commence à diviser son débit par deux jusqu'à être nul

. Référence, Architecture à qualité de service pour systèmes satellites DVB-S/RCS dans un contexte NGN.: Rapport LAAS N°05672, 2005.

A. Pietrabissa and F. Delli-priscoli, Design of a bandwidth-on-demand protocol for satellite networks modeled as timedelay systems, Automatica, vol.40, issue.5, 2004.

S. Choi, G. R. Hiertz, O. Klein, B. Walke, and S. Mangold, Analysis of IEEE 802.11e for QoS Support in Wireless Lans, 2003.

F. Nivor, Architecture de communication pour les applications multimédia interactives dans les réseaux sans fil, 2009.

A. Ansari, S. Dutta, and M. Tseytlin, S-WiMAX: adaptation of IEEE 802.16e for mobile satellite services, IEEE Communications Magazine, vol.47, issue.6, 2009.
DOI : 10.1109/MCOM.2009.5116812

O. Projet, Aerospace Valley

D. Clark, S. Shenker, and R. Braden, Integrated Services in the Internet Architecture : an Overview, IETF, 1994.

J. Wroclawski, RFC 2211: Specification of the Controlled-Load Network Element Service, IETF, 1997.

F. Baker, W. Weiss, and J. Heinanen, Assured Forwarding PHB Group, IETF, Juin 1999. [27] ETSI Broadband Satellite Multimedia

E. Tr, Satellite Earth Stations and Systems (SES); Broadband Satellite Multimedia;IP Interworking over satellite;Performance, Availability and Quality of Service, pp.157-158

R. Ahmed, K. Brunnstrom, and K. Kooij, Perceived quality of channel zapping, fifth IASTED International Conference Spain, pp.155-158, 2006.

D. Vinent, Partage de spectre dans les systèmes intégrés, 2012.

F. Potorti, R. Secchi, and A. Gotta, Simulating Dynamic Bandwidth Allocation on Satellite Links, WNS2 '06, 2006.

P. Berthou, T. Gayraud, F. Nivor, B. Jacquemin, D. Barvaux et al., “PLATINE: DVB-S2/RCS enhanced testbed for next generation satellite networks, IP Networking over Next-Generation Satellite Systems, International Workshop, 2007.

. Opensand, satellite emulation platform

D. L. Mills, Version 3) Specification, Implementation and Analysis, IETF, Network Time Protocol, 1992.
DOI : 10.17487/rfc1305

URL : http://citeseerx.ist.psu.edu/viewdoc/summary?doi=

B. Jacquemin, Architecture pour la mobilité et la qualité de service dans les systèmes satellites DVB-S2, RCS, 2010.

. Oreneta, One Way Delay Real-time Network Analyser)

M. Reddy, Web100: Extended TCP Instrumentation for Research, Education and Diagnosis, ACM SIGCOMM Computer Communications Review, vol.33, issue.3, 2003.

J. Heffner, R. Reddy, J. Saperia, and M. Mathis, TCP Extended Statistics MIB. Work in progress: IETF Internet-Draft, 2002.

P. Sarolahti and A. Kuznetsov, Congestion Control in Linux TCP, Proceedings of Usenix 2002/Freenix Track, pp.49-62, 2002.

R. Firrincieli, D. Lacamera, and C. Caini, A Performance Enhancing Proxy for TCP satellite connections, in: Interworking and Resource Management in Satellite Systems Special Series, IEEE Aerospace and Electronic Systems Magazine, vol.22, 2007.

T. Henderson, A. Gurtov, and S. Floyd, The NewReno Modification to TCP's Fast Recovery Algorithm, IETF, 2004.

I. Rhee, L. Xu, and S. Ha, CUBIC: a new TCP-friendly high-speed TCP variant, ACM SIGOPS Operating Systems Review, 2008.

Q. Zhang, M. Sridharan, and K. T. Song, A Compound TCP approach for High-speed and Long Distance Networks, 2006.

Q. Zhang, M. Sridharan, and K. T. Song, Compound TCP: A Scalable and TCP-Friendly Congestion Control for High-speed Networks -Protocols for Fast Long-Distance Networks, 2006.

E. Kristiansen, C. Roseti, and . Noordwijk, optimize TCP-based transport over DAMA in satellite networks, International Communications Satellite Systems Conference, 2008.

J. Wen, J. Zhang, Y. Han, and –. J. Wang, TCP-FIT: An Improved TCP Congestion Control Algorithm and its Performance, 2010.

J. Wen, J. Zhang, Y. Han, and J. Wang, A Demonstration of a new TCP Congestion Control Algorithm over LTE and other Challenging Networks, 2010.

R. Firrincieli and C. Caini, TCP Hybla: a TCP enhancement for heterogeneous networks, International Journal of Satellite Communications and Networking, 2004.

T. Ba, !. Ar, R. Srikant, and S. Liu, TCP-Illinois: A Loss and Delay-Based Congestion Control Algorithm for High-Speed Networks, 2006.

A. F. Harris, C. J. Hughes, and S. V. Adve, The Illinois GRACE Project: Global Resource Adaptation through CoopEration, Proceedings of the Workshop on SHAMAN, 2002.

R. Shorten, D. Leith, and H. , TCP for high-speed and long-distance networks, Proc. PFLDnet, 2004.

M. Allman, K. Fall, L. Wang, and E. Blanton, A Conservative Selective Acknowledgment (SACK)-based Loss Recovery Algorithm for TCP IETF Standard Track, RFC, vol.3517, 2003.

R. Braden, D. Borman, and V. Jacobson, RFC 1323 : TCP Extensions for High Performance IETF Standard Track, 1992.

S. Floyd, C. Partridge, and M. Allman, RFC 3390 : Increasing TCP's Initial Window, 2002.

N. Dukkipati, Y. Cheng, M. Mathis, and J. Chu, draft-ietf-tcpm-initcwnd-01 : Increasing TCP's Initial Window, IETF Internet Draft, 2011.

K. Avrachenkov, U. Ayesta, J. Blanton, P. Hurtig, and M. Allman, RFC 5827 : Early Retransmit for TCP and Stream Control Transmission Protocol (SCTP), IETF Experimental, 2010.

R. Ludwig and M. Meyer, RFC 3522 : The Eifel Detection Algorithm for TCP, IETF Experimental, 2003.

R. Ludwig and A. Gurtov, RFC 4015 : The Eifel Response Algorithm for TCP, IETF Standard Track, 2005.

E. Blanton and M. Allman, RFC 3708 : Using TCP Duplicate Selective Acknowledgement (DSACKs) and Stream Control Transmission Protocol (SCTP) Duplicate Transmission Sequence Numbers (TSNs) to Detect Spurious Retransmissions, 2004.

C. Caini, Analysis of TCP live experiments on a real GEO satellite testbed, Performance Evaluation, vol.66, issue.6, 2009.
DOI : 10.1016/j.peva.2008.10.012

S. Floyd, D. Black, and K. Ramakrishnan, The Addition of Explicit Congestion Notification (ECN) to IP, 2001.

S. Jacobson and . Floyd, Random Early Detection Gateways for Congestion Avoidance, IEEE/ACM Transactions on Networking, 1993.

T. Yamamoto, Estimation of the advanced TCP/IP algorithms for long distance collaboration, Fusion Engineering and Design, vol.83, issue.2-3, pp.516-519, 2008.
DOI : 10.1016/j.fusengdes.2007.10.006

E. Kohler and S. Floyd, Profile for Datagram Congestion Control Protocol, Congestion Control ID 2: TCP-like Congestion Control, IETF, 2006.

E. Kohler, J. Padhye, and S. Floyd, Profile for Datagram Congestion Control Protocol (DCCP) Congestion Control ID 3: TCP-Friendly Rate Control (TFRC), IETF, 2006.

E. Kohler and S. Floyd, Profile for Datagram Congestion Control Protocol (DCCP) Congestion ID 4: TCP-Friendly Rate Control for Small Packets (TFRC-SP), 2009.

R. Boreli, E. G. Lochin, and . Sarwar, Performance of VoIP with DCCP for Satellite links, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00392560

G. Fairhurst and A. Sathiaseelan, Performance of VoIP using DCCP over DVB-RCS Satellite Network, 2007.

G. Fairhurst and A. Sathiaseelan, TCP-Friendly Rate Control (TFRC) for bursty media flows, Comput. Commun, 2011.

S. Floyd, A. Sathiaseelan, and E. Kohler, Faster Restart for TCP Friendly Rate Control (TFRC), IETF Draft 06, 2008.

M. Gineste, C. Baudoin, P. Berthou, T. Gayraud, and F. Nivor, Cross-layer anticipation of resource allocation for multimedia applications based on SIP signaling over DVB-RCS Satellite System

. Budapest, Hongrie: IP Networking over Next-generation Satellite Systems Workshop, 2007.

T. Goff, J. Moronski, D. S. Phatak, and V. Gupta, Freeze-TCP: a true end-to-end TCP enhancement mechanism for mobile environments, Proceedings IEEE INFOCOM 2000. Conference on Computer Communications. Nineteenth Annual Joint Conference of the IEEE Computer and Communications Societies (Cat. No.00CH37064), 2000.
DOI : 10.1109/INFCOM.2000.832552

R. Jain, G. Dommety, and C. , So-In, PETS: PErsistent TCP using Simple freeze, Future Information Networks, 2009.

K. Sleurs, E. Van-lil, A. Van-de-capelle, and D. Li, A fast adaptation mechanism for TCP vertical handover, Advanced Technologies for Communications, 2008.

H. P. Chang and Y. C. Lin, VA-TCP: a vertical handoff-aware TCP-Proceeding Applied Computing, 2007.

M. Takahiro, Y. Miki, and M. Yosuke, TCP Congestion Control with ACK-Pacing for Vertical Handover, IEICE Transactions on Communications, 2007.

H. Kawahara, Y. Oie, and H. Kaga, TCP Flow Control Using Link Layer Information in Mobile Networks - SPIE proceedings series, 2002.

D. Pearce, P. Mitchell, and Y. Gou, A Receiver-based Vertical Handover Mechanism for TCP Congestion Control, 2006.

J. C. Hoe, Improving the start-up behavior of a congestion control sheme for TCP, ACM SIGCOMM, 1996.