[biblio001] [1] “IP QoS traveling in first class on the Internet,” IEEE Internet Computing, , no. 2, pp. 84–88, Mar./Apr. 1999.
[biblio003] [3] and “Quality-of-Service in packet networks: Basic mechanisms and directions,” Computer Networks, , no. 3, pp. 169–179, Feb. 1999.
[biblio004] [4] “Fundamental design issues for the future Internet,” IEEE Journal on Selected Areas in Communications, , no. 7, pp. 1176–1188, Sept. 1995.
[biblio005] [5] and “The loss-delay adjustment algorithm: A TCP-friendly adaptation scheme,” in Proc. Network and Operating System Support for Digital Audio and Video (NOSSDAV), July 1998.
[biblio006] [6] and , “Experience with rate control mechanisms for packet video in the Internet,” Computer Communication Review, , no. 1, Jan. 1998.
[biblio007] [7] and “A model-based TCP friendly rate control,” in Proc. Network and Operating Systems Support for Digital Audio and Video (NOSSDAV), June 1999.
[biblio008] [8] and “RAP: An end-to-end rate-based congestion control mechanism for realtime streams in the Internet,” in Proc. IEEE INFOCOMM, March 1999.
[biblio009] [9] and “Network-adaptive video coding and transmission,” in Proc. Packet Video Workshop, May 1999.
[biblio010] [10] and , “TCP-friendly internet video streaming employing variable frame-rate encoding and interpolation,” IEEE Trans. on Circuits and Systems for Video Technology, , no. 7, pp. 1164–1177, Oct. 2000.
[biblio011] [11] and “MPEG system streams in best-effort networks,” in Proc. Packet Video Workshop, May 1999.
[biblio012] [12] and “Limited retransmission of real-time layered multimedia,” in IEEE Workshop on Multimedia Signal Processing, Dec. 1998.
[biblio013] [13] and , “Adaptive error control for packet video in the Internet,” in IEEE Int. Conf. on Image Processing (ICIP), Lausanne, Switzerland, Sept. 1996.
[biblio014] [14] and , “Joint source/channel coding of statistically multiplexed real time services on packet networks,” IEEE/ACM Trans. on Networking, , no. 1, pp. 71–80, Feb. 1993.
[biblio015] [15] and , “Transporting real-time video over the Internet: challenges and approaches,” Proceedings of the IEEE, , no. 12, Dec. 2000.
[biblio016] [16] and “Integrated services in the Internet architecture: an overview,” RFC 1633, IETF, June 1994.
[biblio019] [19] and “Resource reservation protocol (RSVP)—version 1 functional specification,” RFC 2205, IETF, Sept. 1997.
[biblio020] [20] and , “Resource reservation protocol (rsvp) version 1 applicability statement some guidelines on deployment,” RFC 2208, IETF, Sept. 1997.
[biblio021] [21] and “RSVP: a new resource ReSerVation Protocol,” IEEE Communications Magazine, , no. 5, pp. 2–19, Sept. 1993.
[biblio022] [22] and “Analysis and simulation of a fair queueing algorithm,” J. Internetworking: Research and Experience, pp. 3–26, Sept. 1990.
[biblio025] [25] and Data Networks, Second edition, Prentice Hall: Englewood Cliffs, NJ, <year>1992</year>.
[biblio026] [26] High-Speed Networks: TCP/IP and ATM Design Principles, Prentice Hall: Upper Saddle River, NJ, <year>1998</year>.
[biblio027] [27] Network Simulator–ns (version 2), 1998 (http://www-mash.cs.berkeley.edu/ns).
[biblio028] [28] and “A two-bit differentiated services architecture for the Internet,” RFC 2638, IETF, July 1999.
[biblio029] [29] and “Core-stateless fair queueing: Achieving approximately fair bandwidth allocations in high speed networks,” in Proc. ACM SIGCOMM, Vancouver, Canada, Sept. 1998.
[biblio030] [30] and “Providing guaranteed services without per flow management,” in Proc. ACM SIGCOMM, Boston, MA, Sept. 1999, pp. 81–94.
[biblio031] [31] and “Achieving per-flow weighted rate fairness in a core stateless network,” in Proc. IEEE Distributed Computing Systems, Taipei, Taiwan, Mar. 2000.
[biblio032] [32] and “Proportional differentiated services: Delay differentiation and packet scheduling,” in Proc. ACM SIGCOMM, Boston, MA, Sept. 1999.
[biblio033] [33] and “Proportional differentiated services, part II: Loss rate differentiation and packet dropping,” in Proc. International Workshop on Quality of Service, Pittsburgh, PA, June 2000.
[biblio034] [34] and Stochastic Networks: Theory and Applications, Royal Statistical Society Lecture Note Series No. 4. Oxford University Press, <year>1996</year>, 141–168.
[biblio035] [35] “RSVP and integrated services in the Internet: a tutorial,” IEEE Network, , no. 5, pp. 100–106, May 1997.
[biblio036] [36] “Specification of the controlled-load network element service,” RFC 2211, Sept. 1997, http://www2.ietf.org/rfc/rfc2211.txt.
[biblio037] [37] and “Specification of guaranteed quality of service,” RFC 2212, Sept. 1997, http://www2.ietf.org/rfc/rfc2212.txt.
[biblio038] [38] and “Internet protocol, version 6 (IPv6) specification,” RFC 1883, IETF, Dec. 1995.
[biblio039] [39] and , “Requirements for traffic engineering over MPLS,” RFC 2702, IETF, Sept. 1999.
[biblio040] [40] “MPLS: the magic behind the myths,” IEEE Communications Magazine, , no. 1, pp. 124–131, Jan. 2000.
[biblio041] [41] and “A framework for QoS-based routing in the Internet,” RFC 2386, IETF, Aug. 1998.
[biblio042] [42] and “An approach to service allocation in the Internet,” Internet draft, draft-clark-diff-svc-alloc-00.txt, July 1997.
[biblio043] [43] and “Packet classification on multiple fields,” in Proc. ACM SIGCOMM, Boston, MA, Sept. 1999.
[biblio044] [44] and “A framework for differentiated services,” Internet draft, IETF, draft-ietf-diffserv-framework-02.txt, Feb. 1999.
[biblio045] [45] and “Random early detection gateways for congestion avoidance,” IEEE/ACM Trans. on Networking, , no. 4, pp. 397–413, Aug. 1993.
[biblio046] [46] and “Recommendations on queue management and congestion avoidance in the Internet,” IETF RFC 2309, Apr. 1998.
[biblio047] [47] and “A self-configuring RED gateway,” in Proc. IEEE INFOCOM, New York, NY, Mar. 1999, pp. 1320–1328.
[biblio049] [49] and “Promoting the use of end-to-end congestion control in the Internet,” IEEE/ACM Trans. on Networking, , no. 4, pp. 458–472, August 1999.
[biblio051] [51] and , “Balanced-RED: An algorithm to achieve fairness in the Internet,” in Proc. IEEE INFOCOM, New York, NY, Mar. 1999.
[biblio052] [52] and “Explicit allocation of best effort packet delivery service,” IEEE/ACM Trans. on Networking, , pp. 362–373, August 1998.
[biblio053] [53] and “Congestion control for best effort services: why we need a new paradigm,” IEEE Network, , no. 1, pp. 10–19, Jan. 1996.
[biblio054] [54] and “Scalable QoS Provision Through Buffer Management,” in Proc. ACM SIGCOMM, Vancouver, Canada, Sept. 1998.
[biblio055] [55] “Service disciplines for guaranteed performance service in packet-switching networks,” Proceedings of the IEEE, , no. 10, pp. 1374–1396, Oct. 1995.
[biblio056] [56] and “Rate-controlled service disciplines,” Journal of High Speed Networks: Special Issue on Quality of Service, , no. 4, 1994.
[biblio057] [57] and , “Rate controlled servers for very high-speed networks,” in Proc. IEEE GLOBECOM, San Diego, CA, Dec. 1990, pp. 12–20.
[biblio058] [58] and “Efficient fair queueing using deficit round robin,” in Proc. ACM SIGCOMM, Cambridge, MA, Aug. 1995, pp. 231–243.
[biblio059] [59] and , “A generalized processor sharing approach to flow control in integrated services networks: The single node case,” IEEE/ACM Trans. on Networking, , no. 3, pp. 344–357, June 1993.
[biblio060] [60] and “Real-time admission control algorithms with delay and loss guarantees in ATM networks,” in Proc. IEEE INFOCOM, Mar. 1994.
[biblio061] [61] and , “Exact admission control in networks with bounded delay services,” IEEE/ACM Trans. on Networking, , no. 6, pp. 885–901, Dec. 1996.
[biblio062] [62] and “Efficient admission control for edf schedulers,” in Proc. IEEE INFOCOM, Mar. 1997.
[biblio063] [63] and “A framework for robust measurement-based admission control,” IEEE/ACM Trans. on Networking, , no. 3, pp. 293–309, June 1999.
[biblio064] [64] and “A measurement-based admission control algorithm for integrated service packet networks,” IEEE/ACM Trans. on Networking, , no. 1, pp. 56–70, Feb. 1997.
[biblio065] [65] and “Realizing throughput guarantees in a differentiated services network,” in Proc. IEEE ICMCS, June 1999.
[biblio066] [66] and “Impact of marking strategy on aggregated flows in a differentiated services network,” in IEEE/IFIP IWQoS, June 1999.
[biblio067] [67] and “Bandwidth assurance issues for TCP flows in a differentiated services network,” in IEEE GLOBECOM, Dec. 1999.
[biblio068] [68] and “Study of TCP and UDP interaction for the AF PHB,” Internet draft, IETF, draft-nsbnpp-diffserv-tcpudpaf-00.txt, June 1999.
[biblio069] [69] and “Preliminary simulation evaluation of an assured service,” Internet draft, IETF, draft-ibanez-diffserv-assured-eval-00.txt, Aug. 1998.
[biblio070] [70] , “SCED+: Efficient management of quality of service guarantees,” in Proc. IEEE INFOCOM, San Francisco, CA, Mar. 1998.
[biblio071] [71] and “A quantitative assured forwarding service,” in Proc. IEEE INFOCOM 2002, New York, June 2002.
[biblio072] [72] and , “Decoupling QoS control from core routers: A novel bandwidth broker architecture for scalable support of guaranteed services,” in Proc. ACM SIGCOMM, Sweden, Aug. 2000.
[biblio073] [73] and “SRP: a scalable resource reservation protocol for the Internet,” in Proc. International Workshop on Quality of Service (IWQoS), June 1998, pp. 107–116.
[biblio074] [74] and “Definition of differentiated services per domain behaviors and rules for their specification,” RFC 3086, IETF, Apr. 2001.
[biblio075] [75] “A framework for integrated services operation over Diffserv networks,” RFC 2998, Nov. 2000.
[biblio076] [76] “Deployment issues for IP multicast service and architecture,” IEEE Network, pp. 78–89, Jan.–Feb. 2000.
[biblio077] [77] and “Group communication in differentiated services networks,” in Proc. Internet QoS for Global Computing, Brisbane, Australia, May 2001.
[biblio078] [78] and “A scalable approach for DiffServ multicasting,” in IEEE Int. Conf. on Communications (ICC), June 2001.
[biblio079] [79] and , “VBR video: Tradeoffs and potentials,” Proceedings of the IEEE, , no. 5, pp. 952–973, May 1998.
[biblio080] [80] and “Packet loss effects on MPEG video sent over the public Internet,” in Proc. ACM Multimedia Conference, 1998, pp. 181–190.
[biblio081] [81] and “Low-complexity video coding for receiver-driven layered multicast,” IEEE Journal on Selected Areas in Communication, , no. 6, pp. 983–1001, Aug. 1997.
[biblio082] [82] and “Fine-granular-scalable video for oacket networks,” in Packet Video Workshop, New York, Apr. 1999.
[biblio083] [83] and “Scalable Internet video using MPEG-4,” Signal Processing: Image Communication, , pp. 95–126, Sept. 1999.
[biblio084] [84] and , “Motion-compensated 3-D subband coding of video,” IEEE Trans. on Image Processing, , no. 2, pp. 155–167, Feb. 1999.
[biblio085] [85] and “Real-time Internet video using error resilient scalable compression and TCP-friendly transport protocol,” IEEE Tran. on Multimedia, , no. 2, pp. 177–186, June 1999.
[biblio086] [86] and “Packet video and its integration into the network architecture,” IEEE Journal on Selected Areas in Communication, , no. 5, pp. 739–751, June 1989.
[biblio087] [87] and “Uniform versus priority dropping for layered video,” in Proc. ACM SIGCOMM, Vancouver, Canada, Sept. 1998.
[biblio088] [88] and , “A novel MPEG-4 based hybrid temporal-SNR scability for Internet video,” in IEEE International Conference on Image Processing, Vancouver, Canada, Sept. 2000.
[biblio089] [89] and “Implementing integrated and differentiated services for the Internet with ATM networks: A practical approach,” IEEE Communications Magazine, , no. 1, pp. 132–141, Jan. 2000.
[biblio090] [90] “The complementary roles of RSVP and differentiated services in the full-service QoS network,” IEEE Communications Magazine, , no. 2, pp. 154–162, Feb. 2000.
[biblio091] [91] , “Packet loss resilient transmission of MPEG video over the Internet,” Signal Processing: Image Communication, , pp. 7–24, 1999.
[biblio092] [92] and , “Multipriority video transmission for third-generation wireless communication systems,” Proceedings of the IEEE, , no. 10, pp. 1751–1763, 1999.
[biblio093] [93] and , “Unequal error protection of MPEG-4 compressed video,” in Proc. Intemational Conference on Image Processing, Kobe, Japan, Oct. 1999.
[biblio094] [94] and “H.263 based video codec for real-time visual communications over wireless radio networks,” in Proc. IEEE International Conference on Universal Personal Communications Record, Oct. 1997.
[biblio095] [95] and , “A differentiated services architecture for multimedia streaming in next generation Internet,” Computer Networks, , no. 2, pp. 185–209, Feb. 2000.
[biblio096] [96] “Draft text of recommendation H.263 version 2 ( ’H.263+’ ) for decision,” Tech. Rep., International Telecommunication Union, Jan. 1998.
[biblio097] [97] and “Explicit allocation of best effort packet delivery service,” IEEE/ACM Trans. on Networking, , no. 4, pp. 362–373, Aug. 1998.
[biblio098] [98] and “Definition of the differentiated services field (DS field) in the IPv4 and IPv6 headers,” RFC 2474, IETF, Dec. 1998.
[biblio099] [99] and , “Packet classification schemes for streaming mpeg video over delay and loss differentiated networks,” in Proc. Packet Video Workshop, Kyongju, Korea, Apr. 2001.
[biblio100] [100] and , “Aggregated QoS mapping framework for relative service differentiation-aware video streaming,” in Proc. Packet Video Workshop, Korea, May 2001.
[biblio101] [101] and “Expanding network video capacity with delay cognizant video coding,” in Proc. SPIE Visual Comunications and Image Processing, San Jose, CA, Jan. 1999.
[biblio102] [102] and , “Error control and concealment for video communication: A review,” Proceedings of the IEEE, , no. 5, May 1998.
[biblio103] [103] “Feedback-based error control for mobile video transmission,” Proceedings of the IEEE, , no. 10, Oct. 1999.
[biblio104] [104] and “Analysis of error propagation in hybrid video coding with application to error resilience,” in Proc. IEEE Int. Conf. Image Processing (ICIP), Oct. 1999.
[biblio105] [105] “Video codec test model near-term version 10 (TMN10),” Q.15/SG16 Document Q15-D-65, International Telecommunication Union, Apr. 1998.
[biblio106] [106] and , “A corruption model for motion compensated video subject to bit errors,” in Proc. Packet Video Workshop, May 1999.
[biblio107] [107] and , “Coordinated packet level protection employing corruption model for robust video transmission,” in Proc. SPIE Visual Communications and Image Processing, San Jose, CA, Jan. 2001.
[biblio109] [109] and “Modeling of packet loss and dealy and their effect on real-time multimedia service quality,” in Proc. NOSSDAV’00, Chapel Hill, NC, June 2000.
[biblio110] [110] and , “Adaptive FEC-based error control for interactive audio in the Internet,” in Proc. IEEE INFOCOM, New York, Mar. 1999.
[biblio111] [111] and “Measurement and modelling of the temporal dependence in packet loss,” in Proc. IEEE INFOCOM, New York, Mar. 1999.
[biblio112] [112] and , “Cell loss effect on QoS for MPEG video transmission in ATM networks,” in IEEE Int. Conf. on Communications (ICC), Vancouver, Canada, June 1999.
[biblio113] [113] and “A case for relative differentiated services and the proportional differentiation model,” IEEE Network, , no. 5, pp. 26–35, Sept. 1999.
[biblio114] [114] and “Relative differentiated services in the Internet: Issues and mechanisms,” in Proc. ACM SIGMETRICS, Atlanta, GA, May 1999.
[biblio115] [115] and “Toward a theory of differentiated services,” in Proc. International Workshop on Quality of Service, Pittsburgh, PA, June 2000.
[biblio117] [117] and “On achievable service differentiation with token bucket marking for TCP,” in Proc. ACM SIGMETRICS, June 2000.
[biblio118] [118] and , “Content-based packet video forwarding mechanism in differentiated service networks,” in Packet Video Workshop 2000, Sardinia, Italy, May 2000.
[biblio119] [119] and , “Relative priority based QoS interaction between video applications and differentiated service networks,” in Proc. IEEE International Conference on Image Processing, Vancouver, Canada, Sept. 2000.
[biblio120] [120] “Overview of fine granular scalability in MPEG-4 video standard,” IEEE Trans. on Circuits and Systems for Video Technology, , no. 3, pp. 301–317, May 2001.
[biblio121] [121] and , “Streaming video over the Internet: approaches and directions,” IEEE Trans. on Circuits and Systems for Video Technology, , no. 1, pp. 1–20, Feb. 2001.
[biblio122] [122] and , “Robust scalable video streaming over internet with network adaptive congestion control and unequal loss protection,” in Proc. Packet Video Workshop, May 2001.
[biblio123] [123] and “A simple loss differentiation approach to layered multicast,” in Proc. IEEE INFOCOM 2000, Tel-Aviv, Israel, May 2000.
[biblio124] [124] and , “Error control for receiver-driven layered multicast of audio and video,” IEEE Trans. on Multimedia, , no. 1, pp. 108–122, Mar. 2001.
[biblio125] [125] and , “Quality of service mapping mechanism for packet video in differentiated services network,” IEEE Tran. on Multimedia, , no. 2, pp. 219–231, June 2001.
[biblio126] [126] and , “Dynamic QoS mapping framework for relative service differentiation-aware video streaming,” European Transaction on Telecommunication, , no. 3, pp. 217–230, May/June 2001.
[biblio127] [127] and “Bit allocation for joint-source channel coding of scalable video,” IEEE Trans. on Image Processing, , no. 3, pp. 340–356, Mar. 2000.
[biblio128] [128] and “On packetization of embedded multimedia bitstreams,” IEEE Trans. on Multimedia, , no. 1, pp. 132–140, Mar. 2001.
[biblio129] [129] and “Bit-rate control using piecewise approximated rate-distortion characteristics,” IEEE Trans. on Circuits and Systems for Video Technology, , no. 4, pp. 446–459, Aug. 1998.
[biblio130] [130] and “Packet loss resilient MPEG-4 compliant video coding for the Internet,” Signal Processing:Image Communication, , no. 1, pp. 35–56, Sept. 2001.
[biblio131] [131] and “An improved UDP protocol for video transmission over Internet-to-wireless networks,” IEEE Tr. On Multimedia, , no. 3, pp. 356–365, Sept. 2001.
[biblio132] [132] and “An RTP payload format for generic forward error correction,” RFC 2733, IETF, Dec. 1999.
[biblio133] [133] “An RTP payload format for erasure-resilient transmission of progressive multimedia streams,” Internet draft, IETF, Work in progress, Sept. 2002.
[biblio134] [134] “An RTP payload format for generic with uneven level protection,” Internet draft, IETF, Work in progress, Aug. 2002.
[biblio135] [135] and “Retransmission scheduling in layered video caches,” in Proc. IEEE ICC, May 2002.
[biblio136] [136] and “On retransmission schemes for real-time streaming in the Internet,” in Proc. IEEE INFOCOM, Mar. 2001.
[biblio139] [139] and “A simple loss differentiation approach to layered multicast,” in Proc. IEEE INFOCOM’00, Mar. 2000.
[biblio140] [140] and “Controlling high-bandwidth flows at the congested router,” in Proc. ACM 9th International Conference on Network Protocols (ICNP), Nov. 2001.
[biblio141] [141] and “Empirical study of buffer management scheme for Diffserv assured forwarding PHB,” in Proc. IEEE International Conference on Computer Communications and Networks (ICCCN), Las Vegas, Oct. 2000, pp. 632–637.
[biblio142] [142] “ extrmRED: Discussions of setting parameters,” Nov. 1997 (http://www.aciri.org/floyd/red.html).
[biblio143] [143] and , “Effects of detail in wireless network simulation,” in Proceedings of the SCS Multiconference on Distributed Simulation, Phoenix, Arizona, USA, January 2001, USC/Information Sciences Institute, pp. 3–11 Society for Computer Simulation.
[biblio144] [144] and “General characterization parameters for integrated service network elements,” RFC 2215, IETF, Sept. 1997.
[biblio145] [145] “Ns (network simulator),” http://www.isi.edu/nsnam/ns/.
[biblio147] [147] “MPLS: the magic behind the myths,” IEEE Communications Magazine, , pp. 124–131, Jan. 2000.
[biblio148] [148] and “Diffserv’s assured forwarding phb: What assurance does the customer have?,” in Proc. NOSSDAV, June 1999.
[biblio149] [149] “User-share differentiation (USD): Scalable bandwidth allocation for the Internet,” in Proc. IFIP High Performance Networking (HPN), Vienna, 1998.
[biblio150] [150] and , “Adaptive packet forwarding for relative differentiated service and categorized packet video,” in Proc. IEEE ICC, June 2001.
[biblio151] [151] and “A scalable share differentiation architecture for elastive and real-time traffic,” in Proc. 8th IWQoS, Pittsburgh, PA, June 2000.
[biblio152] [152] and , “Managing and pricing service level agreements for differentiated services,” in Proc. 7th IEEE/IFIP International Workshop on Quality of Service (IWQoS), London, UK, June 1999, pp. 165–173.
[biblio153] [153] “Robust H.263 video coding for transmission over the Internet,” in Proc. IEEE INFOCOMM, Mar. 1998.
[biblio154] [154] and , “User-aware object-based video multicast over the Internet,” in Packet Video Workshop, Italy, May 2000.
[biblio155] [155] “TCP and explicit congestion notification,” ACM Computer Communication Review, , no. 5, pp. 10–23, Oct. 1994.
[biblio156] [156] and “Analysis and simulation of a fair queueing algorithm,” in Proc. ACM SIGCOMM, 1989, pp. 3–12.
[biblio157] [157] “Virtual Clock: A new traffic control algorithm for packet-switched networks,” ACM Trans. Computing Systems, , no. 2, pp. 101–124, 1991.
[biblio158] [158] and “Efficient fair queueing using deficit round robin,” in Proc. ACM SIGCOMM, August/September 1995, pp. 231–242.
[biblio159] [159] and , “Proportional delay differentiation service based on weighted fair queuing,” in Proc. IEEE 9th ICCCN, Las Vegas, Nevada, Oct. 2000, pp. 418–423.
[biblio160] [160] and “Adaptive packet marking for maintaining end-to-end throughput in a differentiated services Internet,” IEEE/ACM Trans. on Networking, , no. 5, pp. 685–697, 1999.
[biblio161] [161] and , “An active queue management scheme for Internet congestion control and its application to differentiated services,” in IEEE ICCCN, Las Vegas, Nevada, Oct. 2000, pp. 62–68.
[biblio162] [162] and “Rate-distortion methods for imae and video compression,” IEEE Signal Processing Magazine, , no. 6, pp. 23–50, Nov. 1998.
[biblio163] [163] and , “Integrating effective-bandwidth-based qos routing and best effort routing,” in Proc. IEEE INFOCOM 2003, San Francisco, March 2003.